Beckmann Distribution sample, tan2theta, alphax != alphay, u1 <= 0.5

Time bar (total: 6.3s)

start0.0ms (0%)

Memory
0.2MiB live, 0.2MiB allocated; 0ms collecting garbage

analyze487.0ms (7.7%)

Memory
47.3MiB live, 519.9MiB allocated; 55ms collecting garbage
Algorithm
search
Search
ProbabilityValidUnknownPreconditionInfiniteDomainCan'tIter
0%0%0%100%0%0%0%0
0%0%0%100%0%0%0%1
0%0%0%100%0%0%0%2
0%0%0%100%0%0%0%3
0%0%0%100%0%0%0%4
0%0%0%100%0%0%0%5
0%0%0%100%0%0%0%6
0%0%0%100%0%0%0%7
0%0%0%100%0%0%0%8
21.1%0%0%100%0%0%0%9
24.6%0%0%100%0%0%0%10
26.4%0%0%100%0%0%0%11
30.8%0%0%100%0%0%0%12
Compiler

Compiled 53 to 36 computations (32.1% saved)

sample1.5s (23.5%)

Memory
40.3MiB live, 2 771.1MiB allocated; 469ms collecting garbage
Samples
580.0ms5 784×0valid
560.0ms2 472×1valid
Precisions
Click to see histograms. Total time spent on operations: 826.0ms
ival-log: 201.0ms (24.3% of total)
ival-div!: 175.0ms (21.2% of total)
adjust: 127.0ms (15.4% of total)
ival-mult!: 88.0ms (10.7% of total)
ival-neg: 86.0ms (10.4% of total)
ival-<=: 61.0ms (7.4% of total)
ival-sub!: 44.0ms (5.3% of total)
ival-add!: 27.0ms (3.3% of total)
ival-and: 16.0ms (1.9% of total)
ival-assert: 2.0ms (0.2% of total)
Bogosity

preprocess38.0ms (0.6%)

Memory
-15.3MiB live, 70.5MiB allocated; 7ms collecting garbage
Iterations

Useful iterations: 1 (0.0ms)

IterNodesCost
090366
1349356
22540356
Stop Event
node-limit
Alt Table
Click to see full alt table
StatusAccuracyProgram
61.1%
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
Symmetry

(abs alphax)

(abs alphay)

Compiler

Compiled 30 to 30 computations (0% saved)

series45.0ms (0.7%)

Memory
36.5MiB live, 83.4MiB allocated; 21ms collecting garbage
Counts
15 → 85
Calls
Call 1
Inputs
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)))
(log.f32 (-.f32 #s(literal 1 binary32) u0))
(-.f32 #s(literal 1 binary32) u0)
#s(literal 1 binary32)
u0
(+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay)))
(/.f32 cos2phi (*.f32 alphax alphax))
cos2phi
(*.f32 alphax alphax)
alphax
(/.f32 sin2phi (*.f32 alphay alphay))
sin2phi
(*.f32 alphay alphay)
alphay
Outputs
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (* (pow alphax 2) (log (- 1 u0))) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* (pow alphax 2) (+ (* -1 (/ (log (- 1 u0)) cos2phi)) (/ (* (pow alphax 2) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) (pow cos2phi 2)))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* (pow alphax 2) (+ (* -1 (/ (log (- 1 u0)) cos2phi)) (* (pow alphax 2) (+ (* -1 (/ (* (pow alphax 2) (* (pow sin2phi 2) (log (- 1 u0)))) (* (pow alphay 4) (pow cos2phi 3)))) (/ (* sin2phi (log (- 1 u0))) (* (pow alphay 2) (pow cos2phi 2)))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* (pow alphax 2) (+ (* -1 (/ (log (- 1 u0)) cos2phi)) (* (pow alphax 2) (+ (* (pow alphax 2) (+ (* -1 (/ (* (pow sin2phi 2) (log (- 1 u0))) (* (pow alphay 4) (pow cos2phi 3)))) (/ (* (pow alphax 2) (* (pow sin2phi 3) (log (- 1 u0)))) (* (pow alphay 6) (pow cos2phi 4))))) (/ (* sin2phi (log (- 1 u0))) (* (pow alphay 2) (pow cos2phi 2)))))))))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) #s(hole binary32 (/ cos2phi (pow alphax 2))))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) #s(hole binary32 (/ (+ cos2phi (/ (* (pow alphax 2) sin2phi) (pow alphay 2))) (pow alphax 2))))
#s(approx (* alphax alphax) #s(hole binary32 (pow alphax 2)))
#s(approx alphax #s(hole binary32 alphax))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (* (pow alphay 2) (log (- 1 u0))) sin2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphay 2) (log (- 1 u0))) sin2phi)) (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) (pow sin2phi 2))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphay 2) (log (- 1 u0))) sin2phi)) (+ (* -1 (/ (* (pow alphay 6) (* (pow cos2phi 2) (log (- 1 u0)))) (* (pow alphax 4) (pow sin2phi 3)))) (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) (pow sin2phi 2)))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphay 2) (log (- 1 u0))) sin2phi)) (+ (* -1 (/ (* (pow alphay 6) (* (pow cos2phi 2) (log (- 1 u0)))) (* (pow alphax 4) (pow sin2phi 3)))) (+ (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) (pow sin2phi 2))) (/ (* (pow alphay 8) (* (pow cos2phi 3) (log (- 1 u0)))) (* (pow alphax 6) (pow sin2phi 4))))))))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) #s(hole binary32 (/ sin2phi (pow alphay 2))))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) #s(hole binary32 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* (pow alphay 2) (+ (* -1 (/ (log (- 1 u0)) sin2phi)) (/ (* (pow alphay 2) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) (pow sin2phi 2)))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* (pow alphay 2) (+ (* -1 (/ (log (- 1 u0)) sin2phi)) (* (pow alphay 2) (+ (* -1 (/ (* (pow alphay 2) (* (pow cos2phi 2) (log (- 1 u0)))) (* (pow alphax 4) (pow sin2phi 3)))) (/ (* cos2phi (log (- 1 u0))) (* (pow alphax 2) (pow sin2phi 2)))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* (pow alphay 2) (+ (* -1 (/ (log (- 1 u0)) sin2phi)) (* (pow alphay 2) (+ (* (pow alphay 2) (+ (* -1 (/ (* (pow cos2phi 2) (log (- 1 u0))) (* (pow alphax 4) (pow sin2phi 3)))) (/ (* (pow alphay 2) (* (pow cos2phi 3) (log (- 1 u0)))) (* (pow alphax 6) (pow sin2phi 4))))) (/ (* cos2phi (log (- 1 u0))) (* (pow alphax 2) (pow sin2phi 2)))))))))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) #s(hole binary32 (/ (+ sin2phi (/ (* (pow alphay 2) cos2phi) (pow alphax 2))) (pow alphay 2))))
#s(approx (* alphay alphay) #s(hole binary32 (pow alphay 2)))
#s(approx alphay #s(hole binary32 alphay))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (- 1 u0))) cos2phi)) (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) (pow cos2phi 2))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (- 1 u0))) cos2phi)) (+ (* -1 (/ (* (pow alphax 6) (* (pow sin2phi 2) (log (- 1 u0)))) (* (pow alphay 4) (pow cos2phi 3)))) (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) (pow cos2phi 2)))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (- 1 u0))) cos2phi)) (+ (* -1 (/ (* (pow alphax 6) (* (pow sin2phi 2) (log (- 1 u0)))) (* (pow alphay 4) (pow cos2phi 3)))) (+ (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) (pow cos2phi 2))) (/ (* (pow alphax 8) (* (pow sin2phi 3) (log (- 1 u0)))) (* (pow alphay 6) (pow cos2phi 4))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* u0 (+ (* 1/2 (/ u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (/ 1 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* u0 (+ (* u0 (+ (* 1/3 (/ u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (* 1/2 (/ 1 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))) (/ 1 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* u0 (+ (* u0 (+ (* u0 (+ (* 1/4 (/ u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (* 1/3 (/ 1 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))) (* 1/2 (/ 1 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))) (/ 1 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 u0))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (* u0 (+ 1 (* 1/2 u0)))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (* u0 (+ 1 (* u0 (+ 1/2 (* 1/3 u0)))))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (* u0 (+ 1 (* u0 (+ 1/2 (* u0 (+ 1/3 (* 1/4 u0)))))))))
#s(approx (log (- 1 u0)) #s(hole binary32 (* -1 u0)))
#s(approx (log (- 1 u0)) #s(hole binary32 (* u0 (- (* -1/2 u0) 1))))
#s(approx (log (- 1 u0)) #s(hole binary32 (* u0 (- (* u0 (- (* -1/3 u0) 1/2)) 1))))
#s(approx (log (- 1 u0)) #s(hole binary32 (* u0 (- (* u0 (- (* u0 (- (* -1/4 u0) 1/3)) 1/2)) 1))))
#s(approx (- 1 u0) #s(hole binary32 1))
#s(approx (- 1 u0) #s(hole binary32 (+ 1 (* -1 u0))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (log (neg (/ 1 u0))) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (- (/ (log (neg (/ 1 u0))) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2)))) (/ 1 (* u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (- (+ (/ 1/2 (* (pow u0 2) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (/ (log (neg (/ 1 u0))) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (/ 1 (* u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (- (+ (* 1/2 (/ 1 (* (pow u0 2) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2)))))) (/ (log (neg (/ 1 u0))) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (+ (/ 1 (* u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (* 1/3 (/ 1 (* (pow u0 3) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (log (neg (/ 1 u0)))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (* -1 (+ (* -1 (log (neg (/ 1 u0)))) (/ 1 u0)))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (- (/ 1/2 (pow u0 2)) (+ (* -1 (log (neg (/ 1 u0)))) (/ 1 u0)))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (- (/ 1/2 (pow u0 2)) (+ (* -1 (log (neg (/ 1 u0)))) (+ (/ 1 u0) (* 1/3 (/ 1 (pow u0 3))))))))
#s(approx (log (- 1 u0)) #s(hole binary32 (* -1 (log (neg (/ 1 u0))))))
#s(approx (log (- 1 u0)) #s(hole binary32 (+ (* -1 (log (neg (/ 1 u0)))) (/ 1 u0))))
#s(approx (log (- 1 u0)) #s(hole binary32 (- (+ (* -1 (log (neg (/ 1 u0)))) (/ 1 u0)) (/ 1/2 (pow u0 2)))))
#s(approx (log (- 1 u0)) #s(hole binary32 (- (+ (* -1 (log (neg (/ 1 u0)))) (+ (/ 1 u0) (* 1/3 (/ 1 (pow u0 3))))) (/ 1/2 (pow u0 2)))))
#s(approx (- 1 u0) #s(hole binary32 (* u0 (- (/ 1 u0) 1))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (log (/ -1 u0)) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (/ 1 (* u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (/ (log (/ -1 u0)) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2)))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (/ 1/2 (* (pow u0 2) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (+ (/ 1 (* u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (/ (log (/ -1 u0)) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (- (* -1 (/ (+ (* 1/3 (/ 1 (* u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2)))))) (* 1/2 (/ 1 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2)))))) u0)) (/ 1 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) u0)) (/ (log (/ -1 u0)) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2)))))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (log (/ -1 u0))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (- (/ 1 u0) (* -1 (log (/ -1 u0))))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (- (+ (/ 1/2 (pow u0 2)) (/ 1 u0)) (* -1 (log (/ -1 u0))))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (- (* -1 (/ (- (* -1 (/ (+ 1/2 (* 1/3 (/ 1 u0))) u0)) 1) u0)) (* -1 (log (/ -1 u0))))))
#s(approx (log (- 1 u0)) #s(hole binary32 (* -1 (log (/ -1 u0)))))
#s(approx (log (- 1 u0)) #s(hole binary32 (- (* -1 (log (/ -1 u0))) (/ 1 u0))))
#s(approx (log (- 1 u0)) #s(hole binary32 (+ (* -1 (log (/ -1 u0))) (* -1 (/ (+ 1 (* 1/2 (/ 1 u0))) u0)))))
#s(approx (log (- 1 u0)) #s(hole binary32 (+ (* -1 (log (/ -1 u0))) (* -1 (/ (+ 1 (+ (/ 1/3 (pow u0 2)) (* 1/2 (/ 1 u0)))) u0)))))
#s(approx (- 1 u0) #s(hole binary32 (* -1 (* u0 (- 1 (/ 1 u0))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphay 2) (log (- 1 u0))) sin2phi)) (* cos2phi (+ (* -1 (/ (* (pow alphay 6) (* cos2phi (log (- 1 u0)))) (* (pow alphax 4) (pow sin2phi 3)))) (/ (* (pow alphay 4) (log (- 1 u0))) (* (pow alphax 2) (pow sin2phi 2))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphay 2) (log (- 1 u0))) sin2phi)) (* cos2phi (+ (* cos2phi (+ (* -1 (/ (* (pow alphay 6) (log (- 1 u0))) (* (pow alphax 4) (pow sin2phi 3)))) (/ (* (pow alphay 8) (* cos2phi (log (- 1 u0)))) (* (pow alphax 6) (pow sin2phi 4))))) (/ (* (pow alphay 4) (log (- 1 u0))) (* (pow alphax 2) (pow sin2phi 2))))))))
#s(approx cos2phi #s(hole binary32 cos2phi))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (+ (* -1 (* (pow alphax 2) (log (- 1 u0)))) (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) cos2phi))) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (+ (* -1 (* (pow alphax 2) (log (- 1 u0)))) (+ (* -1 (/ (* (pow alphax 6) (* (pow sin2phi 2) (log (- 1 u0)))) (* (pow alphay 4) (pow cos2phi 2)))) (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) cos2phi)))) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (+ (* -1 (* (pow alphax 2) (log (- 1 u0)))) (+ (* -1 (/ (* (pow alphax 6) (* (pow sin2phi 2) (log (- 1 u0)))) (* (pow alphay 4) (pow cos2phi 2)))) (+ (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) cos2phi)) (/ (* (pow alphax 8) (* (pow sin2phi 3) (log (- 1 u0)))) (* (pow alphay 6) (pow cos2phi 3)))))) cos2phi)))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) #s(hole binary32 (* cos2phi (+ (/ 1 (pow alphax 2)) (/ sin2phi (* (pow alphay 2) cos2phi))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (+ (* -1 (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) cos2phi))) (* (pow alphax 2) (log (- 1 u0)))) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (+ (* -1 (/ (+ (* -1 (/ (* (pow alphax 6) (* (pow sin2phi 2) (log (- 1 u0)))) (* (pow alphay 4) cos2phi))) (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (pow alphay 2))) cos2phi)) (* (pow alphax 2) (log (- 1 u0)))) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (+ (* -1 (/ (+ (* -1 (/ (+ (* -1 (/ (* (pow alphax 8) (* (pow sin2phi 3) (log (- 1 u0)))) (* (pow alphay 6) cos2phi))) (/ (* (pow alphax 6) (* (pow sin2phi 2) (log (- 1 u0)))) (pow alphay 4))) cos2phi)) (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (pow alphay 2))) cos2phi)) (* (pow alphax 2) (log (- 1 u0)))) cos2phi))))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) #s(hole binary32 (* -1 (* cos2phi (- (* -1 (/ sin2phi (* (pow alphay 2) cos2phi))) (/ 1 (pow alphax 2)))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (- 1 u0))) cos2phi)) (* sin2phi (+ (* -1 (/ (* (pow alphax 6) (* sin2phi (log (- 1 u0)))) (* (pow alphay 4) (pow cos2phi 3)))) (/ (* (pow alphax 4) (log (- 1 u0))) (* (pow alphay 2) (pow cos2phi 2))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (- 1 u0))) cos2phi)) (* sin2phi (+ (* sin2phi (+ (* -1 (/ (* (pow alphax 6) (log (- 1 u0))) (* (pow alphay 4) (pow cos2phi 3)))) (/ (* (pow alphax 8) (* sin2phi (log (- 1 u0)))) (* (pow alphay 6) (pow cos2phi 4))))) (/ (* (pow alphax 4) (log (- 1 u0))) (* (pow alphay 2) (pow cos2phi 2))))))))
#s(approx sin2phi #s(hole binary32 sin2phi))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (+ (* -1 (* (pow alphay 2) (log (- 1 u0)))) (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) sin2phi))) sin2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (+ (* -1 (* (pow alphay 2) (log (- 1 u0)))) (+ (* -1 (/ (* (pow alphay 6) (* (pow cos2phi 2) (log (- 1 u0)))) (* (pow alphax 4) (pow sin2phi 2)))) (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) sin2phi)))) sin2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (+ (* -1 (* (pow alphay 2) (log (- 1 u0)))) (+ (* -1 (/ (* (pow alphay 6) (* (pow cos2phi 2) (log (- 1 u0)))) (* (pow alphax 4) (pow sin2phi 2)))) (+ (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) sin2phi)) (/ (* (pow alphay 8) (* (pow cos2phi 3) (log (- 1 u0)))) (* (pow alphax 6) (pow sin2phi 3)))))) sin2phi)))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) #s(hole binary32 (* sin2phi (+ (/ 1 (pow alphay 2)) (/ cos2phi (* (pow alphax 2) sin2phi))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (+ (* -1 (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) sin2phi))) (* (pow alphay 2) (log (- 1 u0)))) sin2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (+ (* -1 (/ (+ (* -1 (/ (* (pow alphay 6) (* (pow cos2phi 2) (log (- 1 u0)))) (* (pow alphax 4) sin2phi))) (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (pow alphax 2))) sin2phi)) (* (pow alphay 2) (log (- 1 u0)))) sin2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (+ (* -1 (/ (+ (* -1 (/ (+ (* -1 (/ (* (pow alphay 8) (* (pow cos2phi 3) (log (- 1 u0)))) (* (pow alphax 6) sin2phi))) (/ (* (pow alphay 6) (* (pow cos2phi 2) (log (- 1 u0)))) (pow alphax 4))) sin2phi)) (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (pow alphax 2))) sin2phi)) (* (pow alphay 2) (log (- 1 u0)))) sin2phi))))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) #s(hole binary32 (* -1 (* sin2phi (- (* -1 (/ cos2phi (* (pow alphax 2) sin2phi))) (/ 1 (pow alphay 2)))))))
Calls

15 calls:

TimeVariablePointExpression
3.0ms
u0
@-inf
((/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (log (- 1 u0))) (log (- 1 u0)) (- 1 u0) 1 u0 (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/ cos2phi (* alphax alphax)) cos2phi (* alphax alphax) alphax (/ sin2phi (* alphay alphay)) sin2phi (* alphay alphay) alphay)
3.0ms
alphax
@inf
((/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (log (- 1 u0))) (log (- 1 u0)) (- 1 u0) 1 u0 (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/ cos2phi (* alphax alphax)) cos2phi (* alphax alphax) alphax (/ sin2phi (* alphay alphay)) sin2phi (* alphay alphay) alphay)
2.0ms
alphax
@0
((/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (log (- 1 u0))) (log (- 1 u0)) (- 1 u0) 1 u0 (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/ cos2phi (* alphax alphax)) cos2phi (* alphax alphax) alphax (/ sin2phi (* alphay alphay)) sin2phi (* alphay alphay) alphay)
2.0ms
u0
@0
((/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (log (- 1 u0))) (log (- 1 u0)) (- 1 u0) 1 u0 (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/ cos2phi (* alphax alphax)) cos2phi (* alphax alphax) alphax (/ sin2phi (* alphay alphay)) sin2phi (* alphay alphay) alphay)
2.0ms
alphay
@inf
((/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (log (- 1 u0))) (log (- 1 u0)) (- 1 u0) 1 u0 (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/ cos2phi (* alphax alphax)) cos2phi (* alphax alphax) alphax (/ sin2phi (* alphay alphay)) sin2phi (* alphay alphay) alphay)

rewrite338.0ms (5.4%)

Memory
46.2MiB live, 282.4MiB allocated; 161ms collecting garbage
Iterations

Useful iterations: 0 (0.0ms)

IterNodesCost
05023577
05133411
131793411
088013345
Stop Event
iter-limit
node-limit
iter-limit
Counts
100 → 155
Calls
Call 1
Inputs
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)))
(log.f32 (-.f32 #s(literal 1 binary32) u0))
(-.f32 #s(literal 1 binary32) u0)
#s(literal 1 binary32)
u0
(+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay)))
(/.f32 cos2phi (*.f32 alphax alphax))
cos2phi
(*.f32 alphax alphax)
alphax
(/.f32 sin2phi (*.f32 alphay alphay))
sin2phi
(*.f32 alphay alphay)
alphay
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (* (pow alphax 2) (log (- 1 u0))) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* (pow alphax 2) (+ (* -1 (/ (log (- 1 u0)) cos2phi)) (/ (* (pow alphax 2) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) (pow cos2phi 2)))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* (pow alphax 2) (+ (* -1 (/ (log (- 1 u0)) cos2phi)) (* (pow alphax 2) (+ (* -1 (/ (* (pow alphax 2) (* (pow sin2phi 2) (log (- 1 u0)))) (* (pow alphay 4) (pow cos2phi 3)))) (/ (* sin2phi (log (- 1 u0))) (* (pow alphay 2) (pow cos2phi 2)))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* (pow alphax 2) (+ (* -1 (/ (log (- 1 u0)) cos2phi)) (* (pow alphax 2) (+ (* (pow alphax 2) (+ (* -1 (/ (* (pow sin2phi 2) (log (- 1 u0))) (* (pow alphay 4) (pow cos2phi 3)))) (/ (* (pow alphax 2) (* (pow sin2phi 3) (log (- 1 u0)))) (* (pow alphay 6) (pow cos2phi 4))))) (/ (* sin2phi (log (- 1 u0))) (* (pow alphay 2) (pow cos2phi 2)))))))))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) #s(hole binary32 (/ cos2phi (pow alphax 2))))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) #s(hole binary32 (/ (+ cos2phi (/ (* (pow alphax 2) sin2phi) (pow alphay 2))) (pow alphax 2))))
#s(approx (* alphax alphax) #s(hole binary32 (pow alphax 2)))
#s(approx alphax #s(hole binary32 alphax))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (* (pow alphay 2) (log (- 1 u0))) sin2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphay 2) (log (- 1 u0))) sin2phi)) (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) (pow sin2phi 2))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphay 2) (log (- 1 u0))) sin2phi)) (+ (* -1 (/ (* (pow alphay 6) (* (pow cos2phi 2) (log (- 1 u0)))) (* (pow alphax 4) (pow sin2phi 3)))) (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) (pow sin2phi 2)))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphay 2) (log (- 1 u0))) sin2phi)) (+ (* -1 (/ (* (pow alphay 6) (* (pow cos2phi 2) (log (- 1 u0)))) (* (pow alphax 4) (pow sin2phi 3)))) (+ (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) (pow sin2phi 2))) (/ (* (pow alphay 8) (* (pow cos2phi 3) (log (- 1 u0)))) (* (pow alphax 6) (pow sin2phi 4))))))))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) #s(hole binary32 (/ sin2phi (pow alphay 2))))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) #s(hole binary32 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* (pow alphay 2) (+ (* -1 (/ (log (- 1 u0)) sin2phi)) (/ (* (pow alphay 2) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) (pow sin2phi 2)))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* (pow alphay 2) (+ (* -1 (/ (log (- 1 u0)) sin2phi)) (* (pow alphay 2) (+ (* -1 (/ (* (pow alphay 2) (* (pow cos2phi 2) (log (- 1 u0)))) (* (pow alphax 4) (pow sin2phi 3)))) (/ (* cos2phi (log (- 1 u0))) (* (pow alphax 2) (pow sin2phi 2)))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* (pow alphay 2) (+ (* -1 (/ (log (- 1 u0)) sin2phi)) (* (pow alphay 2) (+ (* (pow alphay 2) (+ (* -1 (/ (* (pow cos2phi 2) (log (- 1 u0))) (* (pow alphax 4) (pow sin2phi 3)))) (/ (* (pow alphay 2) (* (pow cos2phi 3) (log (- 1 u0)))) (* (pow alphax 6) (pow sin2phi 4))))) (/ (* cos2phi (log (- 1 u0))) (* (pow alphax 2) (pow sin2phi 2)))))))))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) #s(hole binary32 (/ (+ sin2phi (/ (* (pow alphay 2) cos2phi) (pow alphax 2))) (pow alphay 2))))
#s(approx (* alphay alphay) #s(hole binary32 (pow alphay 2)))
#s(approx alphay #s(hole binary32 alphay))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (- 1 u0))) cos2phi)) (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) (pow cos2phi 2))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (- 1 u0))) cos2phi)) (+ (* -1 (/ (* (pow alphax 6) (* (pow sin2phi 2) (log (- 1 u0)))) (* (pow alphay 4) (pow cos2phi 3)))) (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) (pow cos2phi 2)))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (- 1 u0))) cos2phi)) (+ (* -1 (/ (* (pow alphax 6) (* (pow sin2phi 2) (log (- 1 u0)))) (* (pow alphay 4) (pow cos2phi 3)))) (+ (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) (pow cos2phi 2))) (/ (* (pow alphax 8) (* (pow sin2phi 3) (log (- 1 u0)))) (* (pow alphay 6) (pow cos2phi 4))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* u0 (+ (* 1/2 (/ u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (/ 1 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* u0 (+ (* u0 (+ (* 1/3 (/ u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (* 1/2 (/ 1 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))) (/ 1 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* u0 (+ (* u0 (+ (* u0 (+ (* 1/4 (/ u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (* 1/3 (/ 1 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))) (* 1/2 (/ 1 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))) (/ 1 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 u0))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (* u0 (+ 1 (* 1/2 u0)))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (* u0 (+ 1 (* u0 (+ 1/2 (* 1/3 u0)))))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (* u0 (+ 1 (* u0 (+ 1/2 (* u0 (+ 1/3 (* 1/4 u0)))))))))
#s(approx (log (- 1 u0)) #s(hole binary32 (* -1 u0)))
#s(approx (log (- 1 u0)) #s(hole binary32 (* u0 (- (* -1/2 u0) 1))))
#s(approx (log (- 1 u0)) #s(hole binary32 (* u0 (- (* u0 (- (* -1/3 u0) 1/2)) 1))))
#s(approx (log (- 1 u0)) #s(hole binary32 (* u0 (- (* u0 (- (* u0 (- (* -1/4 u0) 1/3)) 1/2)) 1))))
#s(approx (- 1 u0) #s(hole binary32 1))
#s(approx (- 1 u0) #s(hole binary32 (+ 1 (* -1 u0))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (log (neg (/ 1 u0))) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (- (/ (log (neg (/ 1 u0))) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2)))) (/ 1 (* u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (- (+ (/ 1/2 (* (pow u0 2) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (/ (log (neg (/ 1 u0))) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (/ 1 (* u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (- (+ (* 1/2 (/ 1 (* (pow u0 2) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2)))))) (/ (log (neg (/ 1 u0))) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (+ (/ 1 (* u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (* 1/3 (/ 1 (* (pow u0 3) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (log (neg (/ 1 u0)))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (* -1 (+ (* -1 (log (neg (/ 1 u0)))) (/ 1 u0)))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (- (/ 1/2 (pow u0 2)) (+ (* -1 (log (neg (/ 1 u0)))) (/ 1 u0)))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (- (/ 1/2 (pow u0 2)) (+ (* -1 (log (neg (/ 1 u0)))) (+ (/ 1 u0) (* 1/3 (/ 1 (pow u0 3))))))))
#s(approx (log (- 1 u0)) #s(hole binary32 (* -1 (log (neg (/ 1 u0))))))
#s(approx (log (- 1 u0)) #s(hole binary32 (+ (* -1 (log (neg (/ 1 u0)))) (/ 1 u0))))
#s(approx (log (- 1 u0)) #s(hole binary32 (- (+ (* -1 (log (neg (/ 1 u0)))) (/ 1 u0)) (/ 1/2 (pow u0 2)))))
#s(approx (log (- 1 u0)) #s(hole binary32 (- (+ (* -1 (log (neg (/ 1 u0)))) (+ (/ 1 u0) (* 1/3 (/ 1 (pow u0 3))))) (/ 1/2 (pow u0 2)))))
#s(approx (- 1 u0) #s(hole binary32 (* u0 (- (/ 1 u0) 1))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (log (/ -1 u0)) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (/ 1 (* u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (/ (log (/ -1 u0)) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2)))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (/ 1/2 (* (pow u0 2) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (+ (/ 1 (* u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (/ (log (/ -1 u0)) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (- (* -1 (/ (+ (* 1/3 (/ 1 (* u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2)))))) (* 1/2 (/ 1 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2)))))) u0)) (/ 1 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) u0)) (/ (log (/ -1 u0)) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2)))))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (log (/ -1 u0))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (- (/ 1 u0) (* -1 (log (/ -1 u0))))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (- (+ (/ 1/2 (pow u0 2)) (/ 1 u0)) (* -1 (log (/ -1 u0))))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (- (* -1 (/ (- (* -1 (/ (+ 1/2 (* 1/3 (/ 1 u0))) u0)) 1) u0)) (* -1 (log (/ -1 u0))))))
#s(approx (log (- 1 u0)) #s(hole binary32 (* -1 (log (/ -1 u0)))))
#s(approx (log (- 1 u0)) #s(hole binary32 (- (* -1 (log (/ -1 u0))) (/ 1 u0))))
#s(approx (log (- 1 u0)) #s(hole binary32 (+ (* -1 (log (/ -1 u0))) (* -1 (/ (+ 1 (* 1/2 (/ 1 u0))) u0)))))
#s(approx (log (- 1 u0)) #s(hole binary32 (+ (* -1 (log (/ -1 u0))) (* -1 (/ (+ 1 (+ (/ 1/3 (pow u0 2)) (* 1/2 (/ 1 u0)))) u0)))))
#s(approx (- 1 u0) #s(hole binary32 (* -1 (* u0 (- 1 (/ 1 u0))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphay 2) (log (- 1 u0))) sin2phi)) (* cos2phi (+ (* -1 (/ (* (pow alphay 6) (* cos2phi (log (- 1 u0)))) (* (pow alphax 4) (pow sin2phi 3)))) (/ (* (pow alphay 4) (log (- 1 u0))) (* (pow alphax 2) (pow sin2phi 2))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphay 2) (log (- 1 u0))) sin2phi)) (* cos2phi (+ (* cos2phi (+ (* -1 (/ (* (pow alphay 6) (log (- 1 u0))) (* (pow alphax 4) (pow sin2phi 3)))) (/ (* (pow alphay 8) (* cos2phi (log (- 1 u0)))) (* (pow alphax 6) (pow sin2phi 4))))) (/ (* (pow alphay 4) (log (- 1 u0))) (* (pow alphax 2) (pow sin2phi 2))))))))
#s(approx cos2phi #s(hole binary32 cos2phi))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (+ (* -1 (* (pow alphax 2) (log (- 1 u0)))) (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) cos2phi))) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (+ (* -1 (* (pow alphax 2) (log (- 1 u0)))) (+ (* -1 (/ (* (pow alphax 6) (* (pow sin2phi 2) (log (- 1 u0)))) (* (pow alphay 4) (pow cos2phi 2)))) (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) cos2phi)))) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (+ (* -1 (* (pow alphax 2) (log (- 1 u0)))) (+ (* -1 (/ (* (pow alphax 6) (* (pow sin2phi 2) (log (- 1 u0)))) (* (pow alphay 4) (pow cos2phi 2)))) (+ (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) cos2phi)) (/ (* (pow alphax 8) (* (pow sin2phi 3) (log (- 1 u0)))) (* (pow alphay 6) (pow cos2phi 3)))))) cos2phi)))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) #s(hole binary32 (* cos2phi (+ (/ 1 (pow alphax 2)) (/ sin2phi (* (pow alphay 2) cos2phi))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (+ (* -1 (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) cos2phi))) (* (pow alphax 2) (log (- 1 u0)))) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (+ (* -1 (/ (+ (* -1 (/ (* (pow alphax 6) (* (pow sin2phi 2) (log (- 1 u0)))) (* (pow alphay 4) cos2phi))) (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (pow alphay 2))) cos2phi)) (* (pow alphax 2) (log (- 1 u0)))) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (+ (* -1 (/ (+ (* -1 (/ (+ (* -1 (/ (* (pow alphax 8) (* (pow sin2phi 3) (log (- 1 u0)))) (* (pow alphay 6) cos2phi))) (/ (* (pow alphax 6) (* (pow sin2phi 2) (log (- 1 u0)))) (pow alphay 4))) cos2phi)) (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (pow alphay 2))) cos2phi)) (* (pow alphax 2) (log (- 1 u0)))) cos2phi))))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) #s(hole binary32 (* -1 (* cos2phi (- (* -1 (/ sin2phi (* (pow alphay 2) cos2phi))) (/ 1 (pow alphax 2)))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (- 1 u0))) cos2phi)) (* sin2phi (+ (* -1 (/ (* (pow alphax 6) (* sin2phi (log (- 1 u0)))) (* (pow alphay 4) (pow cos2phi 3)))) (/ (* (pow alphax 4) (log (- 1 u0))) (* (pow alphay 2) (pow cos2phi 2))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (- 1 u0))) cos2phi)) (* sin2phi (+ (* sin2phi (+ (* -1 (/ (* (pow alphax 6) (log (- 1 u0))) (* (pow alphay 4) (pow cos2phi 3)))) (/ (* (pow alphax 8) (* sin2phi (log (- 1 u0)))) (* (pow alphay 6) (pow cos2phi 4))))) (/ (* (pow alphax 4) (log (- 1 u0))) (* (pow alphay 2) (pow cos2phi 2))))))))
#s(approx sin2phi #s(hole binary32 sin2phi))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (+ (* -1 (* (pow alphay 2) (log (- 1 u0)))) (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) sin2phi))) sin2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (+ (* -1 (* (pow alphay 2) (log (- 1 u0)))) (+ (* -1 (/ (* (pow alphay 6) (* (pow cos2phi 2) (log (- 1 u0)))) (* (pow alphax 4) (pow sin2phi 2)))) (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) sin2phi)))) sin2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (+ (* -1 (* (pow alphay 2) (log (- 1 u0)))) (+ (* -1 (/ (* (pow alphay 6) (* (pow cos2phi 2) (log (- 1 u0)))) (* (pow alphax 4) (pow sin2phi 2)))) (+ (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) sin2phi)) (/ (* (pow alphay 8) (* (pow cos2phi 3) (log (- 1 u0)))) (* (pow alphax 6) (pow sin2phi 3)))))) sin2phi)))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) #s(hole binary32 (* sin2phi (+ (/ 1 (pow alphay 2)) (/ cos2phi (* (pow alphax 2) sin2phi))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (+ (* -1 (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) sin2phi))) (* (pow alphay 2) (log (- 1 u0)))) sin2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (+ (* -1 (/ (+ (* -1 (/ (* (pow alphay 6) (* (pow cos2phi 2) (log (- 1 u0)))) (* (pow alphax 4) sin2phi))) (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (pow alphax 2))) sin2phi)) (* (pow alphay 2) (log (- 1 u0)))) sin2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (+ (* -1 (/ (+ (* -1 (/ (+ (* -1 (/ (* (pow alphay 8) (* (pow cos2phi 3) (log (- 1 u0)))) (* (pow alphax 6) sin2phi))) (/ (* (pow alphay 6) (* (pow cos2phi 2) (log (- 1 u0)))) (pow alphax 4))) sin2phi)) (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (pow alphax 2))) sin2phi)) (* (pow alphay 2) (log (- 1 u0)))) sin2phi))))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) #s(hole binary32 (* -1 (* sin2phi (- (* -1 (/ cos2phi (* (pow alphax 2) sin2phi))) (/ 1 (pow alphay 2)))))))
Outputs
(/.f32 (neg.f32 (neg.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))))) (neg.f32 (neg.f32 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))))
(/.f32 (neg.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)))) (neg.f32 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))))
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))
(neg.f32 (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))))
(log.f32 (/.f32 #s(literal 1 binary32) (-.f32 #s(literal 1 binary32) u0)))
(*.f32 #s(literal -1 binary32) (log.f32 (-.f32 #s(literal 1 binary32) u0)))
(-.f32 #s(literal 0 binary32) (log.f32 (-.f32 #s(literal 1 binary32) u0)))
(neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)))
(log.f32 (-.f32 #s(literal 1 binary32) u0))
(-.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) (log.f32 (+.f32 #s(literal 1 binary32) u0)))
(-.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 (*.f32 u0 u0) u0))) (log.f32 (+.f32 #s(literal 1 binary32) (fma.f32 u0 u0 (*.f32 #s(literal 1 binary32) u0)))))
(/.f32 (neg.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) (neg.f32 (+.f32 #s(literal 1 binary32) u0)))
(/.f32 (neg.f32 (-.f32 #s(literal 1 binary32) (*.f32 (*.f32 u0 u0) u0))) (neg.f32 (+.f32 #s(literal 1 binary32) (fma.f32 u0 u0 (*.f32 #s(literal 1 binary32) u0)))))
(/.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)) (+.f32 #s(literal 1 binary32) u0))
(/.f32 (-.f32 #s(literal 1 binary32) (*.f32 (*.f32 u0 u0) u0)) (+.f32 #s(literal 1 binary32) (fma.f32 u0 u0 (*.f32 #s(literal 1 binary32) u0))))
(-.f32 #s(literal 1 binary32) u0)
#s(literal 1 binary32)
u0
(/.f32 (neg.f32 (-.f32 (/.f32 (*.f32 cos2phi cos2phi) (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax))) (/.f32 (*.f32 sin2phi sin2phi) (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay))))) (neg.f32 (-.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay)))))
(/.f32 (neg.f32 (+.f32 (pow.f32 (/.f32 cos2phi (*.f32 alphax alphax)) #s(literal 3 binary32)) (pow.f32 (/.f32 sin2phi (*.f32 alphay alphay)) #s(literal 3 binary32)))) (neg.f32 (+.f32 (/.f32 (*.f32 cos2phi cos2phi) (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax))) (-.f32 (/.f32 (*.f32 sin2phi sin2phi) (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay))) (/.f32 (*.f32 cos2phi sin2phi) (*.f32 (*.f32 alphax alphax) (*.f32 alphay alphay)))))))
(/.f32 (neg.f32 (fma.f32 (*.f32 alphay alphay) cos2phi (*.f32 (*.f32 alphax alphax) sin2phi))) (neg.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphay alphay))))
(/.f32 (-.f32 (/.f32 (*.f32 cos2phi cos2phi) (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax))) (/.f32 (*.f32 sin2phi sin2phi) (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)))) (-.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (+.f32 (pow.f32 (/.f32 cos2phi (*.f32 alphax alphax)) #s(literal 3 binary32)) (pow.f32 (/.f32 sin2phi (*.f32 alphay alphay)) #s(literal 3 binary32))) (+.f32 (/.f32 (*.f32 cos2phi cos2phi) (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax))) (-.f32 (/.f32 (*.f32 sin2phi sin2phi) (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay))) (/.f32 (*.f32 cos2phi sin2phi) (*.f32 (*.f32 alphax alphax) (*.f32 alphay alphay))))))
(/.f32 (fma.f32 (*.f32 alphay alphay) cos2phi (*.f32 (*.f32 alphax alphax) sin2phi)) (*.f32 (*.f32 alphax alphax) (*.f32 alphay alphay)))
(+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))
(+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay)))
(/.f32 (neg.f32 (/.f32 cos2phi alphax)) (neg.f32 alphax))
(/.f32 (neg.f32 (neg.f32 cos2phi)) (neg.f32 (neg.f32 (*.f32 alphax alphax))))
(/.f32 (/.f32 cos2phi alphax) alphax)
(/.f32 (neg.f32 cos2phi) (neg.f32 (*.f32 alphax alphax)))
(/.f32 cos2phi (*.f32 alphax alphax))
cos2phi
(*.f32 (fabs.f32 (fabs.f32 alphax)) (fabs.f32 (fabs.f32 alphax)))
(*.f32 (neg.f32 (fabs.f32 alphax)) (neg.f32 (fabs.f32 alphax)))
(*.f32 (neg.f32 (neg.f32 alphax)) (neg.f32 (neg.f32 alphax)))
(*.f32 (exp.f32 (log.f32 alphax)) (exp.f32 (log.f32 alphax)))
(*.f32 (fabs.f32 alphax) (fabs.f32 alphax))
(*.f32 (neg.f32 alphax) (neg.f32 alphax))
(*.f32 alphax alphax)
(pow.f32 (exp.f32 (log.f32 alphax)) #s(literal 2 binary32))
(pow.f32 (fabs.f32 alphax) #s(literal 2 binary32))
(pow.f32 (neg.f32 alphax) #s(literal 2 binary32))
(pow.f32 (*.f32 alphax alphax) #s(literal 1 binary32))
(pow.f32 alphax #s(literal 2 binary32))
(+.f32 (cosh.f32 (*.f32 (log.f32 alphax) #s(literal 2 binary32))) (sinh.f32 (*.f32 (log.f32 alphax) #s(literal 2 binary32))))
(fabs.f32 (*.f32 alphax alphax))
(exp.f32 (*.f32 (log.f32 alphax) #s(literal 2 binary32)))
alphax
(/.f32 (neg.f32 (/.f32 sin2phi alphay)) (neg.f32 alphay))
(/.f32 (neg.f32 (neg.f32 sin2phi)) (neg.f32 (neg.f32 (*.f32 alphay alphay))))
(/.f32 (/.f32 sin2phi alphay) alphay)
(/.f32 (neg.f32 sin2phi) (neg.f32 (*.f32 alphay alphay)))
(/.f32 sin2phi (*.f32 alphay alphay))
sin2phi
(*.f32 (fabs.f32 (fabs.f32 alphay)) (fabs.f32 (fabs.f32 alphay)))
(*.f32 (neg.f32 (fabs.f32 alphay)) (neg.f32 (fabs.f32 alphay)))
(*.f32 (neg.f32 (neg.f32 alphay)) (neg.f32 (neg.f32 alphay)))
(*.f32 (exp.f32 (log.f32 alphay)) (exp.f32 (log.f32 alphay)))
(*.f32 (fabs.f32 alphay) (fabs.f32 alphay))
(*.f32 (neg.f32 alphay) (neg.f32 alphay))
(*.f32 alphay alphay)
(pow.f32 (exp.f32 (log.f32 alphay)) #s(literal 2 binary32))
(pow.f32 (fabs.f32 alphay) #s(literal 2 binary32))
(pow.f32 (neg.f32 alphay) #s(literal 2 binary32))
(pow.f32 (*.f32 alphay alphay) #s(literal 1 binary32))
(pow.f32 alphay #s(literal 2 binary32))
(+.f32 (cosh.f32 (*.f32 (log.f32 alphay) #s(literal 2 binary32))) (sinh.f32 (*.f32 (log.f32 alphay) #s(literal 2 binary32))))
(fabs.f32 (*.f32 alphay alphay))
(exp.f32 (*.f32 (log.f32 alphay) #s(literal 2 binary32)))
alphay
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (fma.f32 (*.f32 alphax alphax) (/.f32 (*.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi) (*.f32 (*.f32 alphay cos2phi) (*.f32 alphay cos2phi))) (/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) cos2phi)) (*.f32 alphax alphax)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (fma.f32 (fma.f32 sin2phi (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) (*.f32 (*.f32 alphay cos2phi) (*.f32 alphay cos2phi))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (*.f32 (*.f32 sin2phi sin2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 cos2phi cos2phi) cos2phi) (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay))))))) (*.f32 alphax alphax) (/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) cos2phi)) (*.f32 alphax alphax)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (fma.f32 (fma.f32 (fma.f32 (*.f32 alphax alphax) (/.f32 (*.f32 (*.f32 (*.f32 sin2phi sin2phi) sin2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 cos2phi cos2phi) (*.f32 cos2phi cos2phi)) (*.f32 (*.f32 (*.f32 alphay alphay) alphay) (*.f32 (*.f32 alphay alphay) alphay)))) (neg.f32 (/.f32 (*.f32 (*.f32 sin2phi sin2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 cos2phi cos2phi) cos2phi) (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)))))) (*.f32 alphax alphax) (/.f32 (*.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi) (*.f32 (*.f32 alphay cos2phi) (*.f32 alphay cos2phi)))) (*.f32 alphax alphax) (/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) cos2phi)) (*.f32 alphax alphax)))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax)))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 (fma.f32 (*.f32 alphax alphax) (/.f32 sin2phi (*.f32 alphay alphay)) cos2phi) (*.f32 alphax alphax)))
#s(approx (* alphax alphax) (*.f32 alphax alphax))
#s(approx alphax alphax)
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphay alphay) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (fma.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) (/.f32 (*.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi) (*.f32 (*.f32 alphax sin2phi) (*.f32 alphax sin2phi))) (neg.f32 (*.f32 (*.f32 alphay alphay) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (+.f32 (fma.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) (/.f32 (*.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi) (*.f32 (*.f32 alphax sin2phi) (*.f32 alphax sin2phi))) (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphay alphay) alphay) (*.f32 (*.f32 alphay alphay) alphay)) (*.f32 cos2phi cos2phi)) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (*.f32 (*.f32 sin2phi sin2phi) sin2phi))))) (neg.f32 (*.f32 (*.f32 alphay alphay) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (+.f32 (+.f32 (fma.f32 (exp.f32 (-.f32 (*.f32 (log.f32 alphay) #s(literal 8 binary32)) (*.f32 (log.f32 alphax) #s(literal 6 binary32)))) (/.f32 (*.f32 (*.f32 (*.f32 cos2phi cos2phi) cos2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 sin2phi sin2phi) (*.f32 sin2phi sin2phi))) (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) cos2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphax sin2phi) (*.f32 alphax sin2phi)))) (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphay alphay) alphay) (*.f32 (*.f32 alphay alphay) alphay)) (*.f32 cos2phi cos2phi)) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (*.f32 (*.f32 sin2phi sin2phi) sin2phi))))) (neg.f32 (*.f32 (*.f32 alphay alphay) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi)))))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay)))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (fma.f32 (*.f32 alphay alphay) (/.f32 (*.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi) (*.f32 (*.f32 alphax sin2phi) (*.f32 alphax sin2phi))) (/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) sin2phi)) (*.f32 alphay alphay)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (fma.f32 (fma.f32 cos2phi (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) (*.f32 (*.f32 alphax sin2phi) (*.f32 alphax sin2phi))) (neg.f32 (*.f32 (*.f32 alphay alphay) (/.f32 (*.f32 (*.f32 cos2phi cos2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (*.f32 (*.f32 sin2phi sin2phi) sin2phi)))))) (*.f32 alphay alphay) (/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) sin2phi)) (*.f32 alphay alphay)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (fma.f32 (fma.f32 (fma.f32 (*.f32 alphay alphay) (/.f32 (*.f32 (*.f32 (*.f32 cos2phi cos2phi) cos2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 sin2phi sin2phi) (*.f32 sin2phi sin2phi)) (*.f32 (*.f32 (*.f32 alphax alphax) alphax) (*.f32 (*.f32 alphax alphax) alphax)))) (neg.f32 (/.f32 (*.f32 (*.f32 cos2phi cos2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (*.f32 (*.f32 sin2phi sin2phi) sin2phi))))) (*.f32 alphay alphay) (/.f32 (*.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi) (*.f32 (*.f32 alphax sin2phi) (*.f32 alphax sin2phi)))) (*.f32 alphay alphay) (/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) sin2phi)) (*.f32 alphay alphay)))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 (fma.f32 (*.f32 alphay alphay) (/.f32 cos2phi (*.f32 alphax alphax)) sin2phi) (*.f32 alphay alphay)))
#s(approx (* alphay alphay) (*.f32 alphay alphay))
#s(approx alphay alphay)
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (fma.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (/.f32 (*.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi) (*.f32 (*.f32 alphay cos2phi) (*.f32 alphay cos2phi))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (+.f32 (fma.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (/.f32 (*.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi) (*.f32 (*.f32 alphay cos2phi) (*.f32 alphay cos2phi))) (neg.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphax alphax) alphax) (*.f32 (*.f32 alphax alphax) alphax)) (/.f32 (*.f32 (*.f32 sin2phi sin2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 cos2phi cos2phi) cos2phi) (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay))))))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (+.f32 (+.f32 (fma.f32 (exp.f32 (-.f32 (*.f32 (log.f32 alphax) #s(literal 8 binary32)) (*.f32 (log.f32 alphay) #s(literal 6 binary32)))) (/.f32 (*.f32 (*.f32 (*.f32 sin2phi sin2phi) sin2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 cos2phi cos2phi) (*.f32 cos2phi cos2phi))) (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (/.f32 (*.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi) (*.f32 (*.f32 alphay cos2phi) (*.f32 alphay cos2phi))))) (neg.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphax alphax) alphax) (*.f32 (*.f32 alphax alphax) alphax)) (/.f32 (*.f32 (*.f32 sin2phi sin2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 cos2phi cos2phi) cos2phi) (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay))))))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 u0 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (fma.f32 #s(literal 1/2 binary32) (/.f32 u0 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))) (/.f32 #s(literal 1 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) (/.f32 u0 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))) (/.f32 #s(literal 1/2 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0 (/.f32 #s(literal 1 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) (/.f32 u0 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))) (/.f32 #s(literal 1/3 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0 (/.f32 #s(literal 1/2 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0 (/.f32 #s(literal 1 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0))
#s(approx (neg (log (- 1 u0))) u0)
#s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 #s(literal 1/2 binary32) u0 #s(literal 1 binary32)) u0))
#s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0))
#s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0))
#s(approx (log (- 1 u0)) (neg.f32 u0))
#s(approx (log (- 1 u0)) (*.f32 (-.f32 (*.f32 #s(literal -1/2 binary32) u0) #s(literal 1 binary32)) u0))
#s(approx (log (- 1 u0)) (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/3 binary32) u0) #s(literal 1/2 binary32)) u0) #s(literal 1 binary32)) u0))
#s(approx (log (- 1 u0)) (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)) u0) #s(literal 1 binary32)) u0))
#s(approx (- 1 u0) #s(literal 1 binary32))
#s(approx (- 1 u0) (+.f32 (neg.f32 u0) #s(literal 1 binary32)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (-.f32 (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))) (/.f32 #s(literal 1 binary32) (*.f32 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))) u0))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (-.f32 (+.f32 (/.f32 #s(literal 1/2 binary32) (*.f32 (*.f32 u0 u0) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) (/.f32 #s(literal 1 binary32) (*.f32 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))) u0))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (-.f32 (-.f32 (+.f32 (/.f32 #s(literal 1/2 binary32) (*.f32 (*.f32 u0 u0) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) (/.f32 #s(literal 1 binary32) (*.f32 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))) u0))) (/.f32 #s(literal 1/3 binary32) (*.f32 (*.f32 (*.f32 u0 u0) u0) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))))))
#s(approx (neg (log (- 1 u0))) (neg.f32 (log.f32 (neg.f32 u0))))
#s(approx (neg (log (- 1 u0))) (neg.f32 (+.f32 (neg.f32 (neg.f32 (log.f32 (neg.f32 u0)))) (/.f32 #s(literal 1 binary32) u0))))
#s(approx (neg (log (- 1 u0))) (-.f32 (-.f32 (/.f32 #s(literal 1/2 binary32) (*.f32 u0 u0)) (neg.f32 (neg.f32 (log.f32 (neg.f32 u0))))) (/.f32 #s(literal 1 binary32) u0)))
#s(approx (neg (log (- 1 u0))) (-.f32 (-.f32 (/.f32 #s(literal 1/2 binary32) (*.f32 u0 u0)) (neg.f32 (neg.f32 (log.f32 (neg.f32 u0))))) (+.f32 (/.f32 #s(literal 1/3 binary32) (*.f32 (*.f32 u0 u0) u0)) (/.f32 #s(literal 1 binary32) u0))))
#s(approx (log (- 1 u0)) (neg.f32 (neg.f32 (log.f32 (neg.f32 u0)))))
#s(approx (log (- 1 u0)) (+.f32 (neg.f32 (neg.f32 (log.f32 (neg.f32 u0)))) (/.f32 #s(literal 1 binary32) u0)))
#s(approx (log (- 1 u0)) (-.f32 (+.f32 (neg.f32 (neg.f32 (log.f32 (neg.f32 u0)))) (/.f32 #s(literal 1 binary32) u0)) (/.f32 #s(literal 1/2 binary32) (*.f32 u0 u0))))
#s(approx (log (- 1 u0)) (-.f32 (+.f32 (neg.f32 (neg.f32 (log.f32 (neg.f32 u0)))) (+.f32 (/.f32 #s(literal 1/3 binary32) (*.f32 (*.f32 u0 u0) u0)) (/.f32 #s(literal 1 binary32) u0))) (/.f32 #s(literal 1/2 binary32) (*.f32 u0 u0))))
#s(approx (- 1 u0) (*.f32 (-.f32 (/.f32 #s(literal 1 binary32) u0) #s(literal 1 binary32)) u0))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (+.f32 (/.f32 #s(literal 1 binary32) (*.f32 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))) u0)) (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (+.f32 (+.f32 (/.f32 #s(literal 1 binary32) (*.f32 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))) u0)) (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) (/.f32 #s(literal 1/2 binary32) (*.f32 (*.f32 u0 u0) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (+.f32 (neg.f32 (/.f32 (-.f32 (neg.f32 (/.f32 (+.f32 (/.f32 #s(literal 1/3 binary32) (*.f32 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))) u0)) (/.f32 #s(literal 1/2 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0)) (/.f32 #s(literal 1 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0)) (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))))
#s(approx (neg (log (- 1 u0))) (neg.f32 (log.f32 (neg.f32 u0))))
#s(approx (neg (log (- 1 u0))) (-.f32 (/.f32 #s(literal 1 binary32) u0) (neg.f32 (neg.f32 (log.f32 (neg.f32 u0))))))
#s(approx (neg (log (- 1 u0))) (-.f32 (+.f32 (/.f32 #s(literal 1/2 binary32) (*.f32 u0 u0)) (/.f32 #s(literal 1 binary32) u0)) (neg.f32 (neg.f32 (log.f32 (neg.f32 u0))))))
#s(approx (neg (log (- 1 u0))) (-.f32 (neg.f32 (/.f32 (-.f32 (neg.f32 (/.f32 (+.f32 (/.f32 #s(literal 1/3 binary32) u0) #s(literal 1/2 binary32)) u0)) #s(literal 1 binary32)) u0)) (neg.f32 (neg.f32 (log.f32 (neg.f32 u0))))))
#s(approx (log (- 1 u0)) (neg.f32 (neg.f32 (log.f32 (neg.f32 u0)))))
#s(approx (log (- 1 u0)) (-.f32 (neg.f32 (neg.f32 (log.f32 (neg.f32 u0)))) (/.f32 #s(literal 1 binary32) u0)))
#s(approx (log (- 1 u0)) (+.f32 (neg.f32 (/.f32 (+.f32 (/.f32 #s(literal 1/2 binary32) u0) #s(literal 1 binary32)) u0)) (neg.f32 (neg.f32 (log.f32 (neg.f32 u0))))))
#s(approx (log (- 1 u0)) (+.f32 (neg.f32 (/.f32 (+.f32 (+.f32 #s(literal 1 binary32) (/.f32 #s(literal 1/3 binary32) (*.f32 u0 u0))) (/.f32 #s(literal 1/2 binary32) u0)) u0)) (neg.f32 (neg.f32 (log.f32 (neg.f32 u0))))))
#s(approx (- 1 u0) (neg.f32 (*.f32 (-.f32 #s(literal 1 binary32) (/.f32 #s(literal 1 binary32) u0)) u0)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (fma.f32 (fma.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) (*.f32 (*.f32 alphax sin2phi) (*.f32 alphax sin2phi))) (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphay alphay) alphay) (*.f32 (*.f32 alphay alphay) alphay)) cos2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (*.f32 (*.f32 sin2phi sin2phi) sin2phi))))) cos2phi (neg.f32 (*.f32 (*.f32 alphay alphay) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (fma.f32 (fma.f32 (fma.f32 (exp.f32 (-.f32 (*.f32 (log.f32 alphay) #s(literal 8 binary32)) (*.f32 (log.f32 alphax) #s(literal 6 binary32)))) (/.f32 (*.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi) (*.f32 (*.f32 sin2phi sin2phi) (*.f32 sin2phi sin2phi))) (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphay alphay) alphay) (*.f32 (*.f32 alphay alphay) alphay)) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (*.f32 (*.f32 sin2phi sin2phi) sin2phi))))) cos2phi (/.f32 (*.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphax sin2phi) (*.f32 alphax sin2phi)))) cos2phi (neg.f32 (*.f32 (*.f32 alphay alphay) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi)))))
#s(approx cos2phi cos2phi)
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (fma.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (/.f32 (*.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi) (*.f32 (*.f32 alphay alphay) cos2phi)) (neg.f32 (*.f32 (*.f32 alphax alphax) (log.f32 (-.f32 #s(literal 1 binary32) u0))))) cos2phi))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (+.f32 (fma.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (/.f32 (*.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi) (*.f32 (*.f32 alphay alphay) cos2phi)) (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphax alphax) alphax) (*.f32 (*.f32 alphax alphax) alphax)) (*.f32 sin2phi sin2phi)) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) (*.f32 cos2phi cos2phi))))) (neg.f32 (*.f32 (*.f32 alphax alphax) (log.f32 (-.f32 #s(literal 1 binary32) u0))))) cos2phi))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (+.f32 (+.f32 (fma.f32 (exp.f32 (-.f32 (*.f32 (log.f32 alphax) #s(literal 8 binary32)) (*.f32 (log.f32 alphay) #s(literal 6 binary32)))) (/.f32 (*.f32 (*.f32 (*.f32 sin2phi sin2phi) sin2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 cos2phi cos2phi) cos2phi)) (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) sin2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphay alphay) cos2phi))) (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphax alphax) alphax) (*.f32 (*.f32 alphax alphax) alphax)) (*.f32 sin2phi sin2phi)) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) (*.f32 cos2phi cos2phi))))) (neg.f32 (*.f32 (*.f32 alphax alphax) (log.f32 (-.f32 #s(literal 1 binary32) u0))))) cos2phi))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (*.f32 (+.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))) cos2phi))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (/.f32 (fma.f32 (*.f32 alphax alphax) (log.f32 (-.f32 #s(literal 1 binary32) u0)) (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) sin2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphay alphay) cos2phi)))) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (/.f32 (fma.f32 (*.f32 alphax alphax) (log.f32 (-.f32 #s(literal 1 binary32) u0)) (neg.f32 (/.f32 (fma.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (/.f32 (*.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi) (*.f32 alphay alphay)) (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphax alphax) alphax) (*.f32 (*.f32 alphax alphax) alphax)) (*.f32 sin2phi sin2phi)) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) cos2phi)))) cos2phi))) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (/.f32 (fma.f32 (*.f32 alphax alphax) (log.f32 (-.f32 #s(literal 1 binary32) u0)) (neg.f32 (/.f32 (fma.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (/.f32 (*.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi) (*.f32 alphay alphay)) (neg.f32 (/.f32 (fma.f32 (*.f32 (*.f32 (*.f32 alphax alphax) alphax) (*.f32 (*.f32 alphax alphax) alphax)) (/.f32 (*.f32 (*.f32 sin2phi sin2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay))) (neg.f32 (*.f32 (exp.f32 (-.f32 (*.f32 (log.f32 alphax) #s(literal 8 binary32)) (*.f32 (log.f32 alphay) #s(literal 6 binary32)))) (/.f32 (*.f32 (*.f32 (*.f32 sin2phi sin2phi) sin2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) cos2phi)))) cos2phi))) cos2phi))) cos2phi)))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (neg.f32 (*.f32 (-.f32 (neg.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi))) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (fma.f32 (fma.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) (*.f32 (*.f32 alphay cos2phi) (*.f32 alphay cos2phi))) (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphax alphax) alphax) (*.f32 (*.f32 alphax alphax) alphax)) sin2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 cos2phi cos2phi) cos2phi) (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)))))) sin2phi (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (fma.f32 (fma.f32 (fma.f32 (exp.f32 (-.f32 (*.f32 (log.f32 alphax) #s(literal 8 binary32)) (*.f32 (log.f32 alphay) #s(literal 6 binary32)))) (/.f32 (*.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi) (*.f32 (*.f32 cos2phi cos2phi) (*.f32 cos2phi cos2phi))) (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphax alphax) alphax) (*.f32 (*.f32 alphax alphax) alphax)) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 cos2phi cos2phi) cos2phi) (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)))))) sin2phi (/.f32 (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphay cos2phi) (*.f32 alphay cos2phi)))) sin2phi (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi)))))
#s(approx sin2phi sin2phi)
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (fma.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) (/.f32 (*.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi) (*.f32 (*.f32 alphax alphax) sin2phi)) (neg.f32 (*.f32 (*.f32 alphay alphay) (log.f32 (-.f32 #s(literal 1 binary32) u0))))) sin2phi))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (+.f32 (fma.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) (/.f32 (*.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi) (*.f32 (*.f32 alphax alphax) sin2phi)) (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphay alphay) alphay) (*.f32 (*.f32 alphay alphay) alphay)) (*.f32 cos2phi cos2phi)) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (*.f32 sin2phi sin2phi))))) (neg.f32 (*.f32 (*.f32 alphay alphay) (log.f32 (-.f32 #s(literal 1 binary32) u0))))) sin2phi))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (+.f32 (+.f32 (fma.f32 (exp.f32 (-.f32 (*.f32 (log.f32 alphay) #s(literal 8 binary32)) (*.f32 (log.f32 alphax) #s(literal 6 binary32)))) (/.f32 (*.f32 (*.f32 (*.f32 cos2phi cos2phi) cos2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 sin2phi sin2phi) sin2phi)) (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) cos2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphax alphax) sin2phi))) (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphay alphay) alphay) (*.f32 (*.f32 alphay alphay) alphay)) (*.f32 cos2phi cos2phi)) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (*.f32 sin2phi sin2phi))))) (neg.f32 (*.f32 (*.f32 alphay alphay) (log.f32 (-.f32 #s(literal 1 binary32) u0))))) sin2phi))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (*.f32 (+.f32 (/.f32 cos2phi (*.f32 (*.f32 alphax alphax) sin2phi)) (/.f32 #s(literal 1 binary32) (*.f32 alphay alphay))) sin2phi))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (/.f32 (fma.f32 (*.f32 alphay alphay) (log.f32 (-.f32 #s(literal 1 binary32) u0)) (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) cos2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphax alphax) sin2phi)))) sin2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (/.f32 (fma.f32 (*.f32 alphay alphay) (log.f32 (-.f32 #s(literal 1 binary32) u0)) (neg.f32 (/.f32 (fma.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) (/.f32 (*.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi) (*.f32 alphax alphax)) (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphay alphay) alphay) (*.f32 (*.f32 alphay alphay) alphay)) (*.f32 cos2phi cos2phi)) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) sin2phi)))) sin2phi))) sin2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (/.f32 (fma.f32 (*.f32 alphay alphay) (log.f32 (-.f32 #s(literal 1 binary32) u0)) (neg.f32 (/.f32 (fma.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) (/.f32 (*.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi) (*.f32 alphax alphax)) (neg.f32 (/.f32 (fma.f32 (*.f32 (*.f32 (*.f32 alphay alphay) alphay) (*.f32 (*.f32 alphay alphay) alphay)) (/.f32 (*.f32 (*.f32 cos2phi cos2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax))) (neg.f32 (*.f32 (exp.f32 (-.f32 (*.f32 (log.f32 alphay) #s(literal 8 binary32)) (*.f32 (log.f32 alphax) #s(literal 6 binary32)))) (/.f32 (*.f32 (*.f32 (*.f32 cos2phi cos2phi) cos2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) sin2phi)))) sin2phi))) sin2phi))) sin2phi)))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (neg.f32 (*.f32 (-.f32 (neg.f32 (/.f32 cos2phi (*.f32 (*.f32 alphax alphax) sin2phi))) (/.f32 #s(literal 1 binary32) (*.f32 alphay alphay))) sin2phi)))

eval13.0ms (0.2%)

Memory
-19.8MiB live, 25.4MiB allocated; 3ms collecting garbage
Compiler

Compiled 2 521 to 789 computations (68.7% saved)

prune13.0ms (0.2%)

Memory
28.9MiB live, 28.9MiB allocated; 0ms collecting garbage
Pruning

21 alts after pruning (20 fresh and 1 done)

PrunedKeptTotal
New11820138
Fresh000
Picked011
Done000
Total11821139
Accuracy
99.2%
Counts
139 → 21
Alt Table
Click to see full alt table
StatusAccuracyProgram
58.1%
(/.f32 (neg.f32 (-.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 (*.f32 u0 u0) u0))) (log.f32 (+.f32 #s(literal 1 binary32) (fma.f32 u0 u0 (*.f32 #s(literal 1 binary32) u0)))))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
57.8%
(/.f32 (neg.f32 (-.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) (log.f32 (+.f32 #s(literal 1 binary32) u0)))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
58.0%
(/.f32 (neg.f32 (log.f32 (/.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)) (+.f32 #s(literal 1 binary32) u0)))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
27.4%
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) (/.f32 (+.f32 (pow.f32 (/.f32 cos2phi (*.f32 alphax alphax)) #s(literal 3 binary32)) (pow.f32 (/.f32 sin2phi (*.f32 alphay alphay)) #s(literal 3 binary32))) (+.f32 (/.f32 (*.f32 cos2phi cos2phi) (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax))) (-.f32 (/.f32 (*.f32 sin2phi sin2phi) (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay))) (/.f32 (*.f32 cos2phi sin2phi) (*.f32 (*.f32 alphax alphax) (*.f32 alphay alphay)))))))
61.1%
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 (/.f32 sin2phi alphay) alphay)))
61.1%
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
60.8%
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (exp.f32 (*.f32 (log.f32 alphay) #s(literal 2 binary32))))))
48.9%
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
22.8%
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
49.4%
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (*.f32 (+.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))) cos2phi)))
60.9%
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (*.f32 (+.f32 (/.f32 cos2phi (*.f32 (*.f32 alphax alphax) sin2phi)) (/.f32 #s(literal 1 binary32) (*.f32 alphay alphay))) sin2phi)))
58.4%
(/.f32 (log.f32 (/.f32 #s(literal 1 binary32) (-.f32 #s(literal 1 binary32) u0))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
92.6%
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
90.8%
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
87.4%
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 #s(literal 1/2 binary32) u0 #s(literal 1 binary32)) u0)) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
75.4%
(/.f32 #s(approx (neg (log (- 1 u0))) u0) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
92.6%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) (/.f32 u0 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))) (/.f32 #s(literal 1/3 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0 (/.f32 #s(literal 1/2 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0 (/.f32 #s(literal 1 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0))
90.7%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) (/.f32 u0 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))) (/.f32 #s(literal 1/2 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0 (/.f32 #s(literal 1 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0))
87.4%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (fma.f32 #s(literal 1/2 binary32) (/.f32 u0 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))) (/.f32 #s(literal 1 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0))
49.1%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphay alphay) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi))))
22.7%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi))))
Compiler

Compiled 961 to 889 computations (7.5% saved)

series201.0ms (3.2%)

Memory
-17.1MiB live, 226.5MiB allocated; 129ms collecting garbage
Counts
42 → 237
Calls
Call 1
Inputs
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
#s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0))
(*.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)
(fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32))
(fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32))
(fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32))
#s(literal 1/4 binary32)
u0
#s(literal 1/3 binary32)
#s(literal 1/2 binary32)
#s(literal 1 binary32)
(+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay)))
(/.f32 cos2phi (*.f32 alphax alphax))
cos2phi
(*.f32 alphax alphax)
alphax
(/.f32 sin2phi (*.f32 alphay alphay))
sin2phi
(*.f32 alphay alphay)
alphay
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi))))
(neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi)))
(*.f32 (*.f32 alphax alphax) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi))
(/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi)
(log.f32 (-.f32 #s(literal 1 binary32) u0))
(-.f32 #s(literal 1 binary32) u0)
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay)))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
#s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0))
(*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)
(fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32))
(fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32))
(/.f32 (neg.f32 (-.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) (log.f32 (+.f32 #s(literal 1 binary32) u0)))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(neg.f32 (-.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) (log.f32 (+.f32 #s(literal 1 binary32) u0))))
(-.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) (log.f32 (+.f32 #s(literal 1 binary32) u0)))
(log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))
(-.f32 #s(literal 1 binary32) (*.f32 u0 u0))
(*.f32 u0 u0)
(log.f32 (+.f32 #s(literal 1 binary32) u0))
(+.f32 #s(literal 1 binary32) u0)
Outputs
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (* (pow alphax 2) (log (- 1 u0))) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* (pow alphax 2) (+ (* -1 (/ (log (- 1 u0)) cos2phi)) (/ (* (pow alphax 2) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) (pow cos2phi 2)))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* (pow alphax 2) (+ (* -1 (/ (log (- 1 u0)) cos2phi)) (* (pow alphax 2) (+ (* -1 (/ (* (pow alphax 2) (* (pow sin2phi 2) (log (- 1 u0)))) (* (pow alphay 4) (pow cos2phi 3)))) (/ (* sin2phi (log (- 1 u0))) (* (pow alphay 2) (pow cos2phi 2)))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* (pow alphax 2) (+ (* -1 (/ (log (- 1 u0)) cos2phi)) (* (pow alphax 2) (+ (* (pow alphax 2) (+ (* -1 (/ (* (pow sin2phi 2) (log (- 1 u0))) (* (pow alphay 4) (pow cos2phi 3)))) (/ (* (pow alphax 2) (* (pow sin2phi 3) (log (- 1 u0)))) (* (pow alphay 6) (pow cos2phi 4))))) (/ (* sin2phi (log (- 1 u0))) (* (pow alphay 2) (pow cos2phi 2)))))))))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) #s(hole binary32 (/ cos2phi (pow alphax 2))))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) #s(hole binary32 (/ (+ cos2phi (/ (* (pow alphax 2) sin2phi) (pow alphay 2))) (pow alphax 2))))
#s(approx (* alphax alphax) #s(hole binary32 (pow alphax 2)))
#s(approx alphax #s(hole binary32 alphax))
#s(approx (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) #s(hole binary32 (/ (* (pow alphax 2) (log (- 1 u0))) cos2phi)))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (* (pow alphax 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2))))) cos2phi)))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* (pow alphax 2) (- (+ (* -1 (/ (* (pow alphax 2) (* sin2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphay 2) (pow cos2phi 2)))) (/ (log (+ 1 u0)) cos2phi)) (/ (log (- 1 (pow u0 2))) cos2phi)))))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* (pow alphax 2) (- (+ (* (pow alphax 2) (- (/ (* (pow alphax 2) (* (pow sin2phi 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphay 4) (pow cos2phi 3))) (/ (* sin2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2))))) (* (pow alphay 2) (pow cos2phi 2))))) (/ (log (+ 1 u0)) cos2phi)) (/ (log (- 1 (pow u0 2))) cos2phi)))))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* (pow alphax 2) (- (+ (* (pow alphax 2) (- (* (pow alphax 2) (- (* -1 (/ (* (pow alphax 2) (* (pow sin2phi 3) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphay 6) (pow cos2phi 4)))) (* -1 (/ (* (pow sin2phi 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2))))) (* (pow alphay 4) (pow cos2phi 3)))))) (/ (* sin2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2))))) (* (pow alphay 2) (pow cos2phi 2))))) (/ (log (+ 1 u0)) cos2phi)) (/ (log (- 1 (pow u0 2))) cos2phi)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (* (pow alphay 2) (log (- 1 u0))) sin2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphay 2) (log (- 1 u0))) sin2phi)) (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) (pow sin2phi 2))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphay 2) (log (- 1 u0))) sin2phi)) (+ (* -1 (/ (* (pow alphay 6) (* (pow cos2phi 2) (log (- 1 u0)))) (* (pow alphax 4) (pow sin2phi 3)))) (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) (pow sin2phi 2)))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphay 2) (log (- 1 u0))) sin2phi)) (+ (* -1 (/ (* (pow alphay 6) (* (pow cos2phi 2) (log (- 1 u0)))) (* (pow alphax 4) (pow sin2phi 3)))) (+ (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) (pow sin2phi 2))) (/ (* (pow alphay 8) (* (pow cos2phi 3) (log (- 1 u0)))) (* (pow alphax 6) (pow sin2phi 4))))))))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) #s(hole binary32 (/ sin2phi (pow alphay 2))))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) #s(hole binary32 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2)))))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (* (pow alphay 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2))))) sin2phi)))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphay 4) (* cos2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphax 2) (pow sin2phi 2)))) (/ (* (pow alphay 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2))))) sin2phi))))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (- (+ (/ (* (pow alphay 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2))))) sin2phi) (/ (* (pow alphay 6) (* (pow cos2phi 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphax 4) (pow sin2phi 3)))) (/ (* (pow alphay 4) (* cos2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphax 2) (pow sin2phi 2))))))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (- (+ (* -1 (/ (* (pow alphay 8) (* (pow cos2phi 3) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphax 6) (pow sin2phi 4)))) (/ (* (pow alphay 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2))))) sin2phi)) (+ (* -1 (/ (* (pow alphay 6) (* (pow cos2phi 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphax 4) (pow sin2phi 3)))) (/ (* (pow alphay 4) (* cos2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphax 2) (pow sin2phi 2)))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* (pow alphay 2) (+ (* -1 (/ (log (- 1 u0)) sin2phi)) (/ (* (pow alphay 2) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) (pow sin2phi 2)))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* (pow alphay 2) (+ (* -1 (/ (log (- 1 u0)) sin2phi)) (* (pow alphay 2) (+ (* -1 (/ (* (pow alphay 2) (* (pow cos2phi 2) (log (- 1 u0)))) (* (pow alphax 4) (pow sin2phi 3)))) (/ (* cos2phi (log (- 1 u0))) (* (pow alphax 2) (pow sin2phi 2)))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* (pow alphay 2) (+ (* -1 (/ (log (- 1 u0)) sin2phi)) (* (pow alphay 2) (+ (* (pow alphay 2) (+ (* -1 (/ (* (pow cos2phi 2) (log (- 1 u0))) (* (pow alphax 4) (pow sin2phi 3)))) (/ (* (pow alphay 2) (* (pow cos2phi 3) (log (- 1 u0)))) (* (pow alphax 6) (pow sin2phi 4))))) (/ (* cos2phi (log (- 1 u0))) (* (pow alphax 2) (pow sin2phi 2)))))))))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) #s(hole binary32 (/ (+ sin2phi (/ (* (pow alphay 2) cos2phi) (pow alphax 2))) (pow alphay 2))))
#s(approx (* alphay alphay) #s(hole binary32 (pow alphay 2)))
#s(approx alphay #s(hole binary32 alphay))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* (pow alphay 2) (- (+ (* -1 (/ (* (pow alphay 2) (* cos2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphax 2) (pow sin2phi 2)))) (/ (log (+ 1 u0)) sin2phi)) (/ (log (- 1 (pow u0 2))) sin2phi)))))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* (pow alphay 2) (- (+ (* (pow alphay 2) (- (/ (* (pow alphay 2) (* (pow cos2phi 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphax 4) (pow sin2phi 3))) (/ (* cos2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2))))) (* (pow alphax 2) (pow sin2phi 2))))) (/ (log (+ 1 u0)) sin2phi)) (/ (log (- 1 (pow u0 2))) sin2phi)))))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* (pow alphay 2) (- (+ (* (pow alphay 2) (- (* (pow alphay 2) (- (* -1 (/ (* (pow alphay 2) (* (pow cos2phi 3) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphax 6) (pow sin2phi 4)))) (* -1 (/ (* (pow cos2phi 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2))))) (* (pow alphax 4) (pow sin2phi 3)))))) (/ (* cos2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2))))) (* (pow alphax 2) (pow sin2phi 2))))) (/ (log (+ 1 u0)) sin2phi)) (/ (log (- 1 (pow u0 2))) sin2phi)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (- 1 u0))) cos2phi)) (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) (pow cos2phi 2))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (- 1 u0))) cos2phi)) (+ (* -1 (/ (* (pow alphax 6) (* (pow sin2phi 2) (log (- 1 u0)))) (* (pow alphay 4) (pow cos2phi 3)))) (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) (pow cos2phi 2)))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (- 1 u0))) cos2phi)) (+ (* -1 (/ (* (pow alphax 6) (* (pow sin2phi 2) (log (- 1 u0)))) (* (pow alphay 4) (pow cos2phi 3)))) (+ (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) (pow cos2phi 2))) (/ (* (pow alphax 8) (* (pow sin2phi 3) (log (- 1 u0)))) (* (pow alphay 6) (pow cos2phi 4))))))))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 4) (* sin2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphay 2) (pow cos2phi 2)))) (/ (* (pow alphax 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2))))) cos2phi))))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (- (+ (/ (* (pow alphax 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2))))) cos2phi) (/ (* (pow alphax 6) (* (pow sin2phi 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphay 4) (pow cos2phi 3)))) (/ (* (pow alphax 4) (* sin2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphay 2) (pow cos2phi 2))))))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (- (+ (* -1 (/ (* (pow alphax 8) (* (pow sin2phi 3) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphay 6) (pow cos2phi 4)))) (/ (* (pow alphax 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2))))) cos2phi)) (+ (* -1 (/ (* (pow alphax 6) (* (pow sin2phi 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphay 4) (pow cos2phi 3)))) (/ (* (pow alphax 4) (* sin2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphay 2) (pow cos2phi 2)))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* u0 (+ (* 1/2 (/ u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (/ 1 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* u0 (+ (* u0 (+ (* 1/3 (/ u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (* 1/2 (/ 1 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))) (/ 1 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* u0 (+ (* u0 (+ (* u0 (+ (* 1/4 (/ u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (* 1/3 (/ 1 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))) (* 1/2 (/ 1 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))) (/ 1 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 u0))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (* u0 (+ 1 (* 1/2 u0)))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (* u0 (+ 1 (* u0 (+ 1/2 (* 1/3 u0)))))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (* u0 (+ 1 (* u0 (+ 1/2 (* u0 (+ 1/3 (* 1/4 u0)))))))))
#s(approx (+ (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) 1) #s(hole binary32 1))
#s(approx (+ (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) 1) #s(hole binary32 (+ 1 (* 1/2 u0))))
#s(approx (+ (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) 1) #s(hole binary32 (+ 1 (* u0 (+ 1/2 (* 1/3 u0))))))
#s(approx (+ (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) 1) #s(hole binary32 (+ 1 (* u0 (+ 1/2 (* u0 (+ 1/3 (* 1/4 u0))))))))
#s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(hole binary32 1/2))
#s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(hole binary32 (+ 1/2 (* 1/3 u0))))
#s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(hole binary32 (+ 1/2 (* u0 (+ 1/3 (* 1/4 u0))))))
#s(approx (+ (* 1/4 u0) 1/3) #s(hole binary32 1/3))
#s(approx (+ (* 1/4 u0) 1/3) #s(hole binary32 (+ 1/3 (* 1/4 u0))))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) #s(hole binary32 (/ (* (pow alphax 2) u0) cos2phi)))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) #s(hole binary32 (* u0 (- (* 1/2 (/ (* (pow alphax 2) u0) cos2phi)) (* -1 (/ (pow alphax 2) cos2phi))))))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) #s(hole binary32 (* u0 (- (* u0 (- (* 1/3 (/ (* (pow alphax 2) u0) cos2phi)) (* -1/2 (/ (pow alphax 2) cos2phi)))) (* -1 (/ (pow alphax 2) cos2phi))))))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) #s(hole binary32 (* u0 (- (* u0 (- (* u0 (- (* 1/4 (/ (* (pow alphax 2) u0) cos2phi)) (* -1/3 (/ (pow alphax 2) cos2phi)))) (* -1/2 (/ (pow alphax 2) cos2phi)))) (* -1 (/ (pow alphax 2) cos2phi))))))
#s(approx (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) #s(hole binary32 (* -1 (/ (* (pow alphax 2) u0) cos2phi))))
#s(approx (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) #s(hole binary32 (* u0 (+ (* -1 (/ (pow alphax 2) cos2phi)) (* -1/2 (/ (* (pow alphax 2) u0) cos2phi))))))
#s(approx (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) #s(hole binary32 (* u0 (+ (* -1 (/ (pow alphax 2) cos2phi)) (* u0 (+ (* -1/2 (/ (pow alphax 2) cos2phi)) (* -1/3 (/ (* (pow alphax 2) u0) cos2phi))))))))
#s(approx (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) #s(hole binary32 (* u0 (+ (* -1 (/ (pow alphax 2) cos2phi)) (* u0 (+ (* -1/2 (/ (pow alphax 2) cos2phi)) (* u0 (+ (* -1/3 (/ (pow alphax 2) cos2phi)) (* -1/4 (/ (* (pow alphax 2) u0) cos2phi))))))))))
#s(approx (/ (log (- 1 u0)) cos2phi) #s(hole binary32 (* -1 (/ u0 cos2phi))))
#s(approx (/ (log (- 1 u0)) cos2phi) #s(hole binary32 (* u0 (- (* -1/2 (/ u0 cos2phi)) (/ 1 cos2phi)))))
#s(approx (/ (log (- 1 u0)) cos2phi) #s(hole binary32 (* u0 (- (* u0 (- (* -1/3 (/ u0 cos2phi)) (* 1/2 (/ 1 cos2phi)))) (/ 1 cos2phi)))))
#s(approx (/ (log (- 1 u0)) cos2phi) #s(hole binary32 (* u0 (- (* u0 (- (* u0 (- (* -1/4 (/ u0 cos2phi)) (* 1/3 (/ 1 cos2phi)))) (* 1/2 (/ 1 cos2phi)))) (/ 1 cos2phi)))))
#s(approx (log (- 1 u0)) #s(hole binary32 (* -1 u0)))
#s(approx (log (- 1 u0)) #s(hole binary32 (* u0 (- (* -1/2 u0) 1))))
#s(approx (log (- 1 u0)) #s(hole binary32 (* u0 (- (* u0 (- (* -1/3 u0) 1/2)) 1))))
#s(approx (log (- 1 u0)) #s(hole binary32 (* u0 (- (* u0 (- (* u0 (- (* -1/4 u0) 1/3)) 1/2)) 1))))
#s(approx (- 1 u0) #s(hole binary32 (+ 1 (* -1 u0))))
#s(approx (log (- 1 (* u0 u0))) #s(hole binary32 (* -1 (pow u0 2))))
#s(approx (log (- 1 (* u0 u0))) #s(hole binary32 (* (pow u0 2) (- (* -1/2 (pow u0 2)) 1))))
#s(approx (log (- 1 (* u0 u0))) #s(hole binary32 (* (pow u0 2) (- (* (pow u0 2) (- (* -1/3 (pow u0 2)) 1/2)) 1))))
#s(approx (log (- 1 (* u0 u0))) #s(hole binary32 (* (pow u0 2) (- (* (pow u0 2) (- (* (pow u0 2) (- (* -1/4 (pow u0 2)) 1/3)) 1/2)) 1))))
#s(approx (- 1 (* u0 u0)) #s(hole binary32 (+ 1 (* -1 (pow u0 2)))))
#s(approx (* u0 u0) #s(hole binary32 (pow u0 2)))
#s(approx (log (+ 1 u0)) #s(hole binary32 (* u0 (+ 1 (* -1/2 u0)))))
#s(approx (log (+ 1 u0)) #s(hole binary32 (* u0 (+ 1 (* u0 (- (* 1/3 u0) 1/2))))))
#s(approx (log (+ 1 u0)) #s(hole binary32 (* u0 (+ 1 (* u0 (- (* u0 (+ 1/3 (* -1/4 u0))) 1/2))))))
#s(approx (+ 1 u0) #s(hole binary32 (+ 1 u0)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (log (neg (/ 1 u0))) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (- (/ (log (neg (/ 1 u0))) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2)))) (/ 1 (* u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (- (+ (/ 1/2 (* (pow u0 2) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (/ (log (neg (/ 1 u0))) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (/ 1 (* u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (- (+ (* 1/2 (/ 1 (* (pow u0 2) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2)))))) (/ (log (neg (/ 1 u0))) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (+ (/ 1 (* u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (* 1/3 (/ 1 (* (pow u0 3) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (log (neg (/ 1 u0)))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (* -1 (+ (* -1 (log (neg (/ 1 u0)))) (/ 1 u0)))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (- (/ 1/2 (pow u0 2)) (+ (* -1 (log (neg (/ 1 u0)))) (/ 1 u0)))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (- (/ 1/2 (pow u0 2)) (+ (* -1 (log (neg (/ 1 u0)))) (+ (/ 1 u0) (* 1/3 (/ 1 (pow u0 3))))))))
#s(approx (* (+ (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) 1) u0) #s(hole binary32 (* 1/4 (pow u0 4))))
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#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphay 2) (log (- 1 u0))) sin2phi)) (* cos2phi (+ (* -1 (/ (* (pow alphay 6) (* cos2phi (log (- 1 u0)))) (* (pow alphax 4) (pow sin2phi 3)))) (/ (* (pow alphay 4) (log (- 1 u0))) (* (pow alphax 2) (pow sin2phi 2))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphay 2) (log (- 1 u0))) sin2phi)) (* cos2phi (+ (* cos2phi (+ (* -1 (/ (* (pow alphay 6) (log (- 1 u0))) (* (pow alphax 4) (pow sin2phi 3)))) (/ (* (pow alphay 8) (* cos2phi (log (- 1 u0)))) (* (pow alphax 6) (pow sin2phi 4))))) (/ (* (pow alphay 4) (log (- 1 u0))) (* (pow alphax 2) (pow sin2phi 2))))))))
#s(approx cos2phi #s(hole binary32 cos2phi))
#s(approx (/ (log (- 1 u0)) cos2phi) #s(hole binary32 (/ (log (- 1 u0)) cos2phi)))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* cos2phi (- (/ (* (pow alphay 6) (* cos2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphax 4) (pow sin2phi 3))) (/ (* (pow alphay 4) (- (log (+ 1 u0)) (log (- 1 (pow u0 2))))) (* (pow alphax 2) (pow sin2phi 2))))) (/ (* (pow alphay 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2))))) sin2phi))))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* cos2phi (- (* cos2phi (- (* -1 (/ (* (pow alphay 8) (* cos2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphax 6) (pow sin2phi 4)))) (* -1 (/ (* (pow alphay 6) (- (log (+ 1 u0)) (log (- 1 (pow u0 2))))) (* (pow alphax 4) (pow sin2phi 3)))))) (/ (* (pow alphay 4) (- (log (+ 1 u0)) (log (- 1 (pow u0 2))))) (* (pow alphax 2) (pow sin2phi 2))))) (/ (* (pow alphay 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2))))) sin2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (+ (* -1 (* (pow alphax 2) (log (- 1 u0)))) (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) cos2phi))) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (+ (* -1 (* (pow alphax 2) (log (- 1 u0)))) (+ (* -1 (/ (* (pow alphax 6) (* (pow sin2phi 2) (log (- 1 u0)))) (* (pow alphay 4) (pow cos2phi 2)))) (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) cos2phi)))) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (+ (* -1 (* (pow alphax 2) (log (- 1 u0)))) (+ (* -1 (/ (* (pow alphax 6) (* (pow sin2phi 2) (log (- 1 u0)))) (* (pow alphay 4) (pow cos2phi 2)))) (+ (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) cos2phi)) (/ (* (pow alphax 8) (* (pow sin2phi 3) (log (- 1 u0)))) (* (pow alphay 6) (pow cos2phi 3)))))) cos2phi)))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) #s(hole binary32 (* cos2phi (+ (/ 1 (pow alphax 2)) (/ sin2phi (* (pow alphay 2) cos2phi))))))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (+ (* -1 (/ (* (pow alphax 4) (* sin2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphay 2) cos2phi))) (* (pow alphax 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) cos2phi)))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (- (+ (* (pow alphax 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2))))) (/ (* (pow alphax 6) (* (pow sin2phi 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphay 4) (pow cos2phi 2)))) (/ (* (pow alphax 4) (* sin2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphay 2) cos2phi))) cos2phi)))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (- (+ (* -1 (/ (* (pow alphax 8) (* (pow sin2phi 3) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphay 6) (pow cos2phi 3)))) (* (pow alphax 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (+ (* -1 (/ (* (pow alphax 6) (* (pow sin2phi 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphay 4) (pow cos2phi 2)))) (/ (* (pow alphax 4) (* sin2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphay 2) cos2phi)))) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (+ (* -1 (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) cos2phi))) (* (pow alphax 2) (log (- 1 u0)))) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (+ (* -1 (/ (+ (* -1 (/ (* (pow alphax 6) (* (pow sin2phi 2) (log (- 1 u0)))) (* (pow alphay 4) cos2phi))) (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (pow alphay 2))) cos2phi)) (* (pow alphax 2) (log (- 1 u0)))) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (+ (* -1 (/ (+ (* -1 (/ (+ (* -1 (/ (* (pow alphax 8) (* (pow sin2phi 3) (log (- 1 u0)))) (* (pow alphay 6) cos2phi))) (/ (* (pow alphax 6) (* (pow sin2phi 2) (log (- 1 u0)))) (pow alphay 4))) cos2phi)) (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (pow alphay 2))) cos2phi)) (* (pow alphax 2) (log (- 1 u0)))) cos2phi))))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) #s(hole binary32 (* -1 (* cos2phi (- (* -1 (/ sin2phi (* (pow alphay 2) cos2phi))) (/ 1 (pow alphax 2)))))))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (+ (* -1 (* (pow alphax 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (/ (* (pow alphax 4) (* sin2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphay 2) cos2phi))) cos2phi))))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (+ (* -1 (* (pow alphax 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* -1 (/ (- (/ (* (pow alphax 6) (* (pow sin2phi 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphay 4) cos2phi)) (/ (* (pow alphax 4) (* sin2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (pow alphay 2))) cos2phi))) cos2phi))))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (+ (* -1 (* (pow alphax 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* -1 (/ (- (* -1 (/ (- (/ (* (pow alphax 8) (* (pow sin2phi 3) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphay 6) cos2phi)) (/ (* (pow alphax 6) (* (pow sin2phi 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (pow alphay 4))) cos2phi)) (/ (* (pow alphax 4) (* sin2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (pow alphay 2))) cos2phi))) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (- 1 u0))) cos2phi)) (* sin2phi (+ (* -1 (/ (* (pow alphax 6) (* sin2phi (log (- 1 u0)))) (* (pow alphay 4) (pow cos2phi 3)))) (/ (* (pow alphax 4) (log (- 1 u0))) (* (pow alphay 2) (pow cos2phi 2))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (- 1 u0))) cos2phi)) (* sin2phi (+ (* sin2phi (+ (* -1 (/ (* (pow alphax 6) (log (- 1 u0))) (* (pow alphay 4) (pow cos2phi 3)))) (/ (* (pow alphax 8) (* sin2phi (log (- 1 u0)))) (* (pow alphay 6) (pow cos2phi 4))))) (/ (* (pow alphax 4) (log (- 1 u0))) (* (pow alphay 2) (pow cos2phi 2))))))))
#s(approx sin2phi #s(hole binary32 sin2phi))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* sin2phi (- (/ (* (pow alphax 6) (* sin2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphay 4) (pow cos2phi 3))) (/ (* (pow alphax 4) (- (log (+ 1 u0)) (log (- 1 (pow u0 2))))) (* (pow alphay 2) (pow cos2phi 2))))) (/ (* (pow alphax 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2))))) cos2phi))))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* sin2phi (- (* sin2phi (- (* -1 (/ (* (pow alphax 8) (* sin2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphay 6) (pow cos2phi 4)))) (* -1 (/ (* (pow alphax 6) (- (log (+ 1 u0)) (log (- 1 (pow u0 2))))) (* (pow alphay 4) (pow cos2phi 3)))))) (/ (* (pow alphax 4) (- (log (+ 1 u0)) (log (- 1 (pow u0 2))))) (* (pow alphay 2) (pow cos2phi 2))))) (/ (* (pow alphax 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2))))) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (+ (* -1 (* (pow alphay 2) (log (- 1 u0)))) (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) sin2phi))) sin2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (+ (* -1 (* (pow alphay 2) (log (- 1 u0)))) (+ (* -1 (/ (* (pow alphay 6) (* (pow cos2phi 2) (log (- 1 u0)))) (* (pow alphax 4) (pow sin2phi 2)))) (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) sin2phi)))) sin2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (+ (* -1 (* (pow alphay 2) (log (- 1 u0)))) (+ (* -1 (/ (* (pow alphay 6) (* (pow cos2phi 2) (log (- 1 u0)))) (* (pow alphax 4) (pow sin2phi 2)))) (+ (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) sin2phi)) (/ (* (pow alphay 8) (* (pow cos2phi 3) (log (- 1 u0)))) (* (pow alphax 6) (pow sin2phi 3)))))) sin2phi)))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) #s(hole binary32 (* sin2phi (+ (/ 1 (pow alphay 2)) (/ cos2phi (* (pow alphax 2) sin2phi))))))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (+ (* -1 (/ (* (pow alphay 4) (* cos2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphax 2) sin2phi))) (* (pow alphay 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) sin2phi)))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (- (+ (* (pow alphay 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2))))) (/ (* (pow alphay 6) (* (pow cos2phi 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphax 4) (pow sin2phi 2)))) (/ (* (pow alphay 4) (* cos2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphax 2) sin2phi))) sin2phi)))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (- (+ (* -1 (/ (* (pow alphay 8) (* (pow cos2phi 3) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphax 6) (pow sin2phi 3)))) (* (pow alphay 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (+ (* -1 (/ (* (pow alphay 6) (* (pow cos2phi 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphax 4) (pow sin2phi 2)))) (/ (* (pow alphay 4) (* cos2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphax 2) sin2phi)))) sin2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (+ (* -1 (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) sin2phi))) (* (pow alphay 2) (log (- 1 u0)))) sin2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (+ (* -1 (/ (+ (* -1 (/ (* (pow alphay 6) (* (pow cos2phi 2) (log (- 1 u0)))) (* (pow alphax 4) sin2phi))) (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (pow alphax 2))) sin2phi)) (* (pow alphay 2) (log (- 1 u0)))) sin2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (+ (* -1 (/ (+ (* -1 (/ (+ (* -1 (/ (* (pow alphay 8) (* (pow cos2phi 3) (log (- 1 u0)))) (* (pow alphax 6) sin2phi))) (/ (* (pow alphay 6) (* (pow cos2phi 2) (log (- 1 u0)))) (pow alphax 4))) sin2phi)) (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (pow alphax 2))) sin2phi)) (* (pow alphay 2) (log (- 1 u0)))) sin2phi))))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) #s(hole binary32 (* -1 (* sin2phi (- (* -1 (/ cos2phi (* (pow alphax 2) sin2phi))) (/ 1 (pow alphay 2)))))))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (+ (* -1 (* (pow alphay 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (/ (* (pow alphay 4) (* cos2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphax 2) sin2phi))) sin2phi))))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (+ (* -1 (* (pow alphay 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* -1 (/ (- (/ (* (pow alphay 6) (* (pow cos2phi 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphax 4) sin2phi)) (/ (* (pow alphay 4) (* cos2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (pow alphax 2))) sin2phi))) sin2phi))))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (+ (* -1 (* (pow alphay 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* -1 (/ (- (* -1 (/ (- (/ (* (pow alphay 8) (* (pow cos2phi 3) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphax 6) sin2phi)) (/ (* (pow alphay 6) (* (pow cos2phi 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (pow alphax 4))) sin2phi)) (/ (* (pow alphay 4) (* cos2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (pow alphax 2))) sin2phi))) sin2phi))))
Calls

15 calls:

TimeVariablePointExpression
108.0ms
alphax
@0
((/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (log (- 1 u0))) (* (+ (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) 1) u0) (+ (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) 1) (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) (+ (* 1/4 u0) 1/3) 1/4 u0 1/3 1/2 1 (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/ cos2phi (* alphax alphax)) cos2phi (* alphax alphax) alphax (/ sin2phi (* alphay alphay)) sin2phi (* alphay alphay) alphay (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) (/ (log (- 1 u0)) cos2phi) (log (- 1 u0)) (- 1 u0) (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (log (- 1 u0))) (* (+ (* (+ (* 1/3 u0) 1/2) u0) 1) u0) (+ (* (+ (* 1/3 u0) 1/2) u0) 1) (+ (* 1/3 u0) 1/2) (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (log (- 1 (* u0 u0))) (- 1 (* u0 u0)) (* u0 u0) (log (+ 1 u0)) (+ 1 u0))
16.0ms
cos2phi
@inf
((/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (log (- 1 u0))) (* (+ (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) 1) u0) (+ (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) 1) (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) (+ (* 1/4 u0) 1/3) 1/4 u0 1/3 1/2 1 (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/ cos2phi (* alphax alphax)) cos2phi (* alphax alphax) alphax (/ sin2phi (* alphay alphay)) sin2phi (* alphay alphay) alphay (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) (/ (log (- 1 u0)) cos2phi) (log (- 1 u0)) (- 1 u0) (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (log (- 1 u0))) (* (+ (* (+ (* 1/3 u0) 1/2) u0) 1) u0) (+ (* (+ (* 1/3 u0) 1/2) u0) 1) (+ (* 1/3 u0) 1/2) (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (log (- 1 (* u0 u0))) (- 1 (* u0 u0)) (* u0 u0) (log (+ 1 u0)) (+ 1 u0))
16.0ms
cos2phi
@-inf
((/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (log (- 1 u0))) (* (+ (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) 1) u0) (+ (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) 1) (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) (+ (* 1/4 u0) 1/3) 1/4 u0 1/3 1/2 1 (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/ cos2phi (* alphax alphax)) cos2phi (* alphax alphax) alphax (/ sin2phi (* alphay alphay)) sin2phi (* alphay alphay) alphay (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) (/ (log (- 1 u0)) cos2phi) (log (- 1 u0)) (- 1 u0) (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (log (- 1 u0))) (* (+ (* (+ (* 1/3 u0) 1/2) u0) 1) u0) (+ (* (+ (* 1/3 u0) 1/2) u0) 1) (+ (* 1/3 u0) 1/2) (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (log (- 1 (* u0 u0))) (- 1 (* u0 u0)) (* u0 u0) (log (+ 1 u0)) (+ 1 u0))
9.0ms
alphax
@inf
((/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (log (- 1 u0))) (* (+ (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) 1) u0) (+ (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) 1) (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) (+ (* 1/4 u0) 1/3) 1/4 u0 1/3 1/2 1 (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/ cos2phi (* alphax alphax)) cos2phi (* alphax alphax) alphax (/ sin2phi (* alphay alphay)) sin2phi (* alphay alphay) alphay (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) (/ (log (- 1 u0)) cos2phi) (log (- 1 u0)) (- 1 u0) (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (log (- 1 u0))) (* (+ (* (+ (* 1/3 u0) 1/2) u0) 1) u0) (+ (* (+ (* 1/3 u0) 1/2) u0) 1) (+ (* 1/3 u0) 1/2) (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (log (- 1 (* u0 u0))) (- 1 (* u0 u0)) (* u0 u0) (log (+ 1 u0)) (+ 1 u0))
9.0ms
cos2phi
@0
((/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (log (- 1 u0))) (* (+ (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) 1) u0) (+ (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) 1) (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) (+ (* 1/4 u0) 1/3) 1/4 u0 1/3 1/2 1 (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/ cos2phi (* alphax alphax)) cos2phi (* alphax alphax) alphax (/ sin2phi (* alphay alphay)) sin2phi (* alphay alphay) alphay (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) (/ (log (- 1 u0)) cos2phi) (log (- 1 u0)) (- 1 u0) (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (log (- 1 u0))) (* (+ (* (+ (* 1/3 u0) 1/2) u0) 1) u0) (+ (* (+ (* 1/3 u0) 1/2) u0) 1) (+ (* 1/3 u0) 1/2) (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (log (- 1 (* u0 u0))) (- 1 (* u0 u0)) (* u0 u0) (log (+ 1 u0)) (+ 1 u0))

rewrite300.0ms (4.8%)

Memory
15.1MiB live, 285.0MiB allocated; 34ms collecting garbage
Iterations

Useful iterations: 0 (0.0ms)

IterNodesCost
0122610410
012769377
178459377
082039018
Stop Event
iter-limit
node-limit
iter-limit
Counts
279 → 397
Calls
Call 1
Inputs
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
#s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0))
(*.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)
(fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32))
(fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32))
(fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32))
#s(literal 1/4 binary32)
u0
#s(literal 1/3 binary32)
#s(literal 1/2 binary32)
#s(literal 1 binary32)
(+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay)))
(/.f32 cos2phi (*.f32 alphax alphax))
cos2phi
(*.f32 alphax alphax)
alphax
(/.f32 sin2phi (*.f32 alphay alphay))
sin2phi
(*.f32 alphay alphay)
alphay
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi))))
(neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi)))
(*.f32 (*.f32 alphax alphax) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi))
(/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi)
(log.f32 (-.f32 #s(literal 1 binary32) u0))
(-.f32 #s(literal 1 binary32) u0)
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay)))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
#s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0))
(*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)
(fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32))
(fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32))
(/.f32 (neg.f32 (-.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) (log.f32 (+.f32 #s(literal 1 binary32) u0)))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(neg.f32 (-.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) (log.f32 (+.f32 #s(literal 1 binary32) u0))))
(-.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) (log.f32 (+.f32 #s(literal 1 binary32) u0)))
(log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))
(-.f32 #s(literal 1 binary32) (*.f32 u0 u0))
(*.f32 u0 u0)
(log.f32 (+.f32 #s(literal 1 binary32) u0))
(+.f32 #s(literal 1 binary32) u0)
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (* (pow alphax 2) (log (- 1 u0))) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* (pow alphax 2) (+ (* -1 (/ (log (- 1 u0)) cos2phi)) (/ (* (pow alphax 2) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) (pow cos2phi 2)))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* (pow alphax 2) (+ (* -1 (/ (log (- 1 u0)) cos2phi)) (* (pow alphax 2) (+ (* -1 (/ (* (pow alphax 2) (* (pow sin2phi 2) (log (- 1 u0)))) (* (pow alphay 4) (pow cos2phi 3)))) (/ (* sin2phi (log (- 1 u0))) (* (pow alphay 2) (pow cos2phi 2)))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* (pow alphax 2) (+ (* -1 (/ (log (- 1 u0)) cos2phi)) (* (pow alphax 2) (+ (* (pow alphax 2) (+ (* -1 (/ (* (pow sin2phi 2) (log (- 1 u0))) (* (pow alphay 4) (pow cos2phi 3)))) (/ (* (pow alphax 2) (* (pow sin2phi 3) (log (- 1 u0)))) (* (pow alphay 6) (pow cos2phi 4))))) (/ (* sin2phi (log (- 1 u0))) (* (pow alphay 2) (pow cos2phi 2)))))))))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) #s(hole binary32 (/ cos2phi (pow alphax 2))))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) #s(hole binary32 (/ (+ cos2phi (/ (* (pow alphax 2) sin2phi) (pow alphay 2))) (pow alphax 2))))
#s(approx (* alphax alphax) #s(hole binary32 (pow alphax 2)))
#s(approx alphax #s(hole binary32 alphax))
#s(approx (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) #s(hole binary32 (/ (* (pow alphax 2) (log (- 1 u0))) cos2phi)))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (* (pow alphax 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2))))) cos2phi)))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* (pow alphax 2) (- (+ (* -1 (/ (* (pow alphax 2) (* sin2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphay 2) (pow cos2phi 2)))) (/ (log (+ 1 u0)) cos2phi)) (/ (log (- 1 (pow u0 2))) cos2phi)))))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* (pow alphax 2) (- (+ (* (pow alphax 2) (- (/ (* (pow alphax 2) (* (pow sin2phi 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphay 4) (pow cos2phi 3))) (/ (* sin2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2))))) (* (pow alphay 2) (pow cos2phi 2))))) (/ (log (+ 1 u0)) cos2phi)) (/ (log (- 1 (pow u0 2))) cos2phi)))))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* (pow alphax 2) (- (+ (* (pow alphax 2) (- (* (pow alphax 2) (- (* -1 (/ (* (pow alphax 2) (* (pow sin2phi 3) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphay 6) (pow cos2phi 4)))) (* -1 (/ (* (pow sin2phi 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2))))) (* (pow alphay 4) (pow cos2phi 3)))))) (/ (* sin2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2))))) (* (pow alphay 2) (pow cos2phi 2))))) (/ (log (+ 1 u0)) cos2phi)) (/ (log (- 1 (pow u0 2))) cos2phi)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (* (pow alphay 2) (log (- 1 u0))) sin2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphay 2) (log (- 1 u0))) sin2phi)) (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) (pow sin2phi 2))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphay 2) (log (- 1 u0))) sin2phi)) (+ (* -1 (/ (* (pow alphay 6) (* (pow cos2phi 2) (log (- 1 u0)))) (* (pow alphax 4) (pow sin2phi 3)))) (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) (pow sin2phi 2)))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphay 2) (log (- 1 u0))) sin2phi)) (+ (* -1 (/ (* (pow alphay 6) (* (pow cos2phi 2) (log (- 1 u0)))) (* (pow alphax 4) (pow sin2phi 3)))) (+ (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) (pow sin2phi 2))) (/ (* (pow alphay 8) (* (pow cos2phi 3) (log (- 1 u0)))) (* (pow alphax 6) (pow sin2phi 4))))))))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) #s(hole binary32 (/ sin2phi (pow alphay 2))))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) #s(hole binary32 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2)))))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (* (pow alphay 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2))))) sin2phi)))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphay 4) (* cos2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphax 2) (pow sin2phi 2)))) (/ (* (pow alphay 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2))))) sin2phi))))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (- (+ (/ (* (pow alphay 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2))))) sin2phi) (/ (* (pow alphay 6) (* (pow cos2phi 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphax 4) (pow sin2phi 3)))) (/ (* (pow alphay 4) (* cos2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphax 2) (pow sin2phi 2))))))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (- (+ (* -1 (/ (* (pow alphay 8) (* (pow cos2phi 3) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphax 6) (pow sin2phi 4)))) (/ (* (pow alphay 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2))))) sin2phi)) (+ (* -1 (/ (* (pow alphay 6) (* (pow cos2phi 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphax 4) (pow sin2phi 3)))) (/ (* (pow alphay 4) (* cos2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphax 2) (pow sin2phi 2)))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* (pow alphay 2) (+ (* -1 (/ (log (- 1 u0)) sin2phi)) (/ (* (pow alphay 2) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) (pow sin2phi 2)))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* (pow alphay 2) (+ (* -1 (/ (log (- 1 u0)) sin2phi)) (* (pow alphay 2) (+ (* -1 (/ (* (pow alphay 2) (* (pow cos2phi 2) (log (- 1 u0)))) (* (pow alphax 4) (pow sin2phi 3)))) (/ (* cos2phi (log (- 1 u0))) (* (pow alphax 2) (pow sin2phi 2)))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* (pow alphay 2) (+ (* -1 (/ (log (- 1 u0)) sin2phi)) (* (pow alphay 2) (+ (* (pow alphay 2) (+ (* -1 (/ (* (pow cos2phi 2) (log (- 1 u0))) (* (pow alphax 4) (pow sin2phi 3)))) (/ (* (pow alphay 2) (* (pow cos2phi 3) (log (- 1 u0)))) (* (pow alphax 6) (pow sin2phi 4))))) (/ (* cos2phi (log (- 1 u0))) (* (pow alphax 2) (pow sin2phi 2)))))))))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) #s(hole binary32 (/ (+ sin2phi (/ (* (pow alphay 2) cos2phi) (pow alphax 2))) (pow alphay 2))))
#s(approx (* alphay alphay) #s(hole binary32 (pow alphay 2)))
#s(approx alphay #s(hole binary32 alphay))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* (pow alphay 2) (- (+ (* -1 (/ (* (pow alphay 2) (* cos2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphax 2) (pow sin2phi 2)))) (/ (log (+ 1 u0)) sin2phi)) (/ (log (- 1 (pow u0 2))) sin2phi)))))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* (pow alphay 2) (- (+ (* (pow alphay 2) (- (/ (* (pow alphay 2) (* (pow cos2phi 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphax 4) (pow sin2phi 3))) (/ (* cos2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2))))) (* (pow alphax 2) (pow sin2phi 2))))) (/ (log (+ 1 u0)) sin2phi)) (/ (log (- 1 (pow u0 2))) sin2phi)))))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* (pow alphay 2) (- (+ (* (pow alphay 2) (- (* (pow alphay 2) (- (* -1 (/ (* (pow alphay 2) (* (pow cos2phi 3) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphax 6) (pow sin2phi 4)))) (* -1 (/ (* (pow cos2phi 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2))))) (* (pow alphax 4) (pow sin2phi 3)))))) (/ (* cos2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2))))) (* (pow alphax 2) (pow sin2phi 2))))) (/ (log (+ 1 u0)) sin2phi)) (/ (log (- 1 (pow u0 2))) sin2phi)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (- 1 u0))) cos2phi)) (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) (pow cos2phi 2))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (- 1 u0))) cos2phi)) (+ (* -1 (/ (* (pow alphax 6) (* (pow sin2phi 2) (log (- 1 u0)))) (* (pow alphay 4) (pow cos2phi 3)))) (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) (pow cos2phi 2)))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (- 1 u0))) cos2phi)) (+ (* -1 (/ (* (pow alphax 6) (* (pow sin2phi 2) (log (- 1 u0)))) (* (pow alphay 4) (pow cos2phi 3)))) (+ (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) (pow cos2phi 2))) (/ (* (pow alphax 8) (* (pow sin2phi 3) (log (- 1 u0)))) (* (pow alphay 6) (pow cos2phi 4))))))))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 4) (* sin2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphay 2) (pow cos2phi 2)))) (/ (* (pow alphax 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2))))) cos2phi))))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (- (+ (/ (* (pow alphax 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2))))) cos2phi) (/ (* (pow alphax 6) (* (pow sin2phi 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphay 4) (pow cos2phi 3)))) (/ (* (pow alphax 4) (* sin2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphay 2) (pow cos2phi 2))))))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (- (+ (* -1 (/ (* (pow alphax 8) (* (pow sin2phi 3) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphay 6) (pow cos2phi 4)))) (/ (* (pow alphax 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2))))) cos2phi)) (+ (* -1 (/ (* (pow alphax 6) (* (pow sin2phi 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphay 4) (pow cos2phi 3)))) (/ (* (pow alphax 4) (* sin2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphay 2) (pow cos2phi 2)))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))
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#s(approx (* (+ (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) 1) u0) #s(hole binary32 (* (pow u0 4) (+ 1/4 (* -1 (/ (- (* -1 (/ (+ 1/2 (/ 1 u0)) u0)) 1/3) u0))))))
#s(approx (+ (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) 1) #s(hole binary32 (* -1 (* (pow u0 3) (- (* -1 (/ (+ 1/3 (* 1/2 (/ 1 u0))) u0)) 1/4)))))
#s(approx (+ (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) 1) #s(hole binary32 (* -1 (* (pow u0 3) (- (* -1 (/ (+ 1/3 (+ (* 1/2 (/ 1 u0)) (/ 1 (pow u0 2)))) u0)) 1/4)))))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) #s(hole binary32 (/ (* (pow alphax 2) (log (/ -1 u0))) cos2phi)))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) #s(hole binary32 (- (/ (pow alphax 2) (* cos2phi u0)) (* -1 (/ (* (pow alphax 2) (log (/ -1 u0))) cos2phi)))))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) #s(hole binary32 (- (* -1 (/ (- (* -1/2 (/ (pow alphax 2) (* cos2phi u0))) (/ (pow alphax 2) cos2phi)) u0)) (* -1 (/ (* (pow alphax 2) (log (/ -1 u0))) cos2phi)))))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) #s(hole binary32 (- (* -1 (/ (- (* -1 (/ (- (* 1/3 (/ (pow alphax 2) (* cos2phi u0))) (* -1/2 (/ (pow alphax 2) cos2phi))) u0)) (/ (pow alphax 2) cos2phi)) u0)) (* -1 (/ (* (pow alphax 2) (log (/ -1 u0))) cos2phi)))))
#s(approx (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) #s(hole binary32 (* -1 (/ (* (pow alphax 2) (log (/ -1 u0))) cos2phi))))
#s(approx (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (/ -1 u0))) cos2phi)) (* -1 (/ (pow alphax 2) (* cos2phi u0))))))
#s(approx (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (/ -1 u0))) cos2phi)) (* -1 (/ (+ (* 1/2 (/ (pow alphax 2) (* cos2phi u0))) (/ (pow alphax 2) cos2phi)) u0)))))
#s(approx (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (/ -1 u0))) cos2phi)) (* -1 (/ (+ (* -1 (/ (+ (* -1/2 (/ (pow alphax 2) cos2phi)) (* -1/3 (/ (pow alphax 2) (* cos2phi u0)))) u0)) (/ (pow alphax 2) cos2phi)) u0)))))
#s(approx (/ (log (- 1 u0)) cos2phi) #s(hole binary32 (* -1 (/ (log (/ -1 u0)) cos2phi))))
#s(approx (/ (log (- 1 u0)) cos2phi) #s(hole binary32 (- (* -1 (/ (log (/ -1 u0)) cos2phi)) (/ 1 (* cos2phi u0)))))
#s(approx (/ (log (- 1 u0)) cos2phi) #s(hole binary32 (+ (* -1 (/ (log (/ -1 u0)) cos2phi)) (* -1 (/ (+ (/ 1 cos2phi) (* 1/2 (/ 1 (* cos2phi u0)))) u0)))))
#s(approx (/ (log (- 1 u0)) cos2phi) #s(hole binary32 (+ (* -1 (/ (log (/ -1 u0)) cos2phi)) (* -1 (/ (+ (/ 1/3 (* cos2phi (pow u0 2))) (+ (/ 1/2 (* cos2phi u0)) (/ 1 cos2phi))) u0)))))
#s(approx (log (- 1 u0)) #s(hole binary32 (* -1 (log (/ -1 u0)))))
#s(approx (log (- 1 u0)) #s(hole binary32 (- (* -1 (log (/ -1 u0))) (/ 1 u0))))
#s(approx (log (- 1 u0)) #s(hole binary32 (+ (* -1 (log (/ -1 u0))) (* -1 (/ (+ 1 (* 1/2 (/ 1 u0))) u0)))))
#s(approx (log (- 1 u0)) #s(hole binary32 (+ (* -1 (log (/ -1 u0))) (* -1 (/ (+ 1 (+ (/ 1/3 (pow u0 2)) (* 1/2 (/ 1 u0)))) u0)))))
#s(approx (- 1 u0) #s(hole binary32 (* -1 (* u0 (- 1 (/ 1 u0))))))
#s(approx (* (+ (* (+ (* 1/3 u0) 1/2) u0) 1) u0) #s(hole binary32 (* -1 (* (pow u0 3) (- (* -1 (/ (+ 1/2 (/ 1 u0)) u0)) 1/3)))))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (- (* -1 (log (/ 1 u0))) (* -2 (log (/ 1 u0)))) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (- (* -1 (/ (log (/ 1 u0)) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (+ (* -2 (/ (log (/ 1 u0)) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (/ 1 (* u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2)))))))))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (- (+ (* -1 (/ (log (/ 1 u0)) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (* -1 (/ (+ (* 3/2 (/ 1 (* u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2)))))) (/ 1 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) u0))) (* -2 (/ (log (/ 1 u0)) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (- (+ (* -1 (/ (log (/ 1 u0)) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (* -1 (/ (+ (/ 1/3 (* (pow u0 2) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (+ (/ 1 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2)))) (/ 3/2 (* u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))) u0))) (* -2 (/ (log (/ 1 u0)) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))))
#s(approx (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) #s(hole binary32 (- (* -1 (log (/ 1 u0))) (* -2 (log (/ 1 u0))))))
#s(approx (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) #s(hole binary32 (- (* -1 (log (/ 1 u0))) (+ (* -2 (log (/ 1 u0))) (/ 1 u0)))))
#s(approx (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) #s(hole binary32 (- (+ (* -1 (log (/ 1 u0))) (* -1 (/ (+ 1 (* 3/2 (/ 1 u0))) u0))) (* -2 (log (/ 1 u0))))))
#s(approx (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) #s(hole binary32 (- (+ (* -1 (log (/ 1 u0))) (* -1 (/ (+ 1 (+ (/ 1/3 (pow u0 2)) (* 3/2 (/ 1 u0)))) u0))) (* -2 (log (/ 1 u0))))))
#s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) #s(hole binary32 (- (* -2 (log (/ 1 u0))) (* -1 (log (/ 1 u0))))))
#s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) #s(hole binary32 (- (+ (* -2 (log (/ 1 u0))) (/ 1 u0)) (* -1 (log (/ 1 u0))))))
#s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) #s(hole binary32 (- (+ (* -2 (log (/ 1 u0))) (+ (/ 1 u0) (/ 3/2 (pow u0 2)))) (* -1 (log (/ 1 u0))))))
#s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) #s(hole binary32 (- (+ (* -2 (log (/ 1 u0))) (* -1 (/ (- (* -1 (/ (+ 3/2 (* 1/3 (/ 1 u0))) u0)) 1) u0))) (* -1 (log (/ 1 u0))))))
#s(approx (log (- 1 (* u0 u0))) #s(hole binary32 (* -2 (log (/ 1 u0)))))
#s(approx (log (- 1 (* u0 u0))) #s(hole binary32 (+ (* -2 (log (/ 1 u0))) (/ 1 (pow u0 2)))))
#s(approx (log (- 1 (* u0 u0))) #s(hole binary32 (- (+ (* -2 (log (/ 1 u0))) (/ 1 (pow u0 2))) (/ 1/2 (pow u0 4)))))
#s(approx (log (- 1 (* u0 u0))) #s(hole binary32 (- (+ (* -2 (log (/ 1 u0))) (+ (/ 1 (pow u0 2)) (* 1/3 (/ 1 (pow u0 6))))) (/ 1/2 (pow u0 4)))))
#s(approx (log (+ 1 u0)) #s(hole binary32 (- (* -1 (log (/ 1 u0))) (/ 1 u0))))
#s(approx (log (+ 1 u0)) #s(hole binary32 (+ (* -1 (log (/ 1 u0))) (* -1 (/ (+ 1 (* 1/2 (/ 1 u0))) u0)))))
#s(approx (log (+ 1 u0)) #s(hole binary32 (+ (* -1 (log (/ 1 u0))) (* -1 (/ (+ 1 (+ (/ 1/3 (pow u0 2)) (* 1/2 (/ 1 u0)))) u0)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphay 2) (log (- 1 u0))) sin2phi)) (* cos2phi (+ (* -1 (/ (* (pow alphay 6) (* cos2phi (log (- 1 u0)))) (* (pow alphax 4) (pow sin2phi 3)))) (/ (* (pow alphay 4) (log (- 1 u0))) (* (pow alphax 2) (pow sin2phi 2))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphay 2) (log (- 1 u0))) sin2phi)) (* cos2phi (+ (* cos2phi (+ (* -1 (/ (* (pow alphay 6) (log (- 1 u0))) (* (pow alphax 4) (pow sin2phi 3)))) (/ (* (pow alphay 8) (* cos2phi (log (- 1 u0)))) (* (pow alphax 6) (pow sin2phi 4))))) (/ (* (pow alphay 4) (log (- 1 u0))) (* (pow alphax 2) (pow sin2phi 2))))))))
#s(approx cos2phi #s(hole binary32 cos2phi))
#s(approx (/ (log (- 1 u0)) cos2phi) #s(hole binary32 (/ (log (- 1 u0)) cos2phi)))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* cos2phi (- (/ (* (pow alphay 6) (* cos2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphax 4) (pow sin2phi 3))) (/ (* (pow alphay 4) (- (log (+ 1 u0)) (log (- 1 (pow u0 2))))) (* (pow alphax 2) (pow sin2phi 2))))) (/ (* (pow alphay 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2))))) sin2phi))))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* cos2phi (- (* cos2phi (- (* -1 (/ (* (pow alphay 8) (* cos2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphax 6) (pow sin2phi 4)))) (* -1 (/ (* (pow alphay 6) (- (log (+ 1 u0)) (log (- 1 (pow u0 2))))) (* (pow alphax 4) (pow sin2phi 3)))))) (/ (* (pow alphay 4) (- (log (+ 1 u0)) (log (- 1 (pow u0 2))))) (* (pow alphax 2) (pow sin2phi 2))))) (/ (* (pow alphay 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2))))) sin2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (+ (* -1 (* (pow alphax 2) (log (- 1 u0)))) (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) cos2phi))) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (+ (* -1 (* (pow alphax 2) (log (- 1 u0)))) (+ (* -1 (/ (* (pow alphax 6) (* (pow sin2phi 2) (log (- 1 u0)))) (* (pow alphay 4) (pow cos2phi 2)))) (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) cos2phi)))) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (+ (* -1 (* (pow alphax 2) (log (- 1 u0)))) (+ (* -1 (/ (* (pow alphax 6) (* (pow sin2phi 2) (log (- 1 u0)))) (* (pow alphay 4) (pow cos2phi 2)))) (+ (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) cos2phi)) (/ (* (pow alphax 8) (* (pow sin2phi 3) (log (- 1 u0)))) (* (pow alphay 6) (pow cos2phi 3)))))) cos2phi)))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) #s(hole binary32 (* cos2phi (+ (/ 1 (pow alphax 2)) (/ sin2phi (* (pow alphay 2) cos2phi))))))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (+ (* -1 (/ (* (pow alphax 4) (* sin2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphay 2) cos2phi))) (* (pow alphax 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) cos2phi)))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (- (+ (* (pow alphax 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2))))) (/ (* (pow alphax 6) (* (pow sin2phi 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphay 4) (pow cos2phi 2)))) (/ (* (pow alphax 4) (* sin2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphay 2) cos2phi))) cos2phi)))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (- (+ (* -1 (/ (* (pow alphax 8) (* (pow sin2phi 3) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphay 6) (pow cos2phi 3)))) (* (pow alphax 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (+ (* -1 (/ (* (pow alphax 6) (* (pow sin2phi 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphay 4) (pow cos2phi 2)))) (/ (* (pow alphax 4) (* sin2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphay 2) cos2phi)))) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (+ (* -1 (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) cos2phi))) (* (pow alphax 2) (log (- 1 u0)))) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (+ (* -1 (/ (+ (* -1 (/ (* (pow alphax 6) (* (pow sin2phi 2) (log (- 1 u0)))) (* (pow alphay 4) cos2phi))) (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (pow alphay 2))) cos2phi)) (* (pow alphax 2) (log (- 1 u0)))) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (+ (* -1 (/ (+ (* -1 (/ (+ (* -1 (/ (* (pow alphax 8) (* (pow sin2phi 3) (log (- 1 u0)))) (* (pow alphay 6) cos2phi))) (/ (* (pow alphax 6) (* (pow sin2phi 2) (log (- 1 u0)))) (pow alphay 4))) cos2phi)) (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (pow alphay 2))) cos2phi)) (* (pow alphax 2) (log (- 1 u0)))) cos2phi))))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) #s(hole binary32 (* -1 (* cos2phi (- (* -1 (/ sin2phi (* (pow alphay 2) cos2phi))) (/ 1 (pow alphax 2)))))))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (+ (* -1 (* (pow alphax 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (/ (* (pow alphax 4) (* sin2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphay 2) cos2phi))) cos2phi))))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (+ (* -1 (* (pow alphax 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* -1 (/ (- (/ (* (pow alphax 6) (* (pow sin2phi 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphay 4) cos2phi)) (/ (* (pow alphax 4) (* sin2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (pow alphay 2))) cos2phi))) cos2phi))))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (+ (* -1 (* (pow alphax 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* -1 (/ (- (* -1 (/ (- (/ (* (pow alphax 8) (* (pow sin2phi 3) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphay 6) cos2phi)) (/ (* (pow alphax 6) (* (pow sin2phi 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (pow alphay 4))) cos2phi)) (/ (* (pow alphax 4) (* sin2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (pow alphay 2))) cos2phi))) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (- 1 u0))) cos2phi)) (* sin2phi (+ (* -1 (/ (* (pow alphax 6) (* sin2phi (log (- 1 u0)))) (* (pow alphay 4) (pow cos2phi 3)))) (/ (* (pow alphax 4) (log (- 1 u0))) (* (pow alphay 2) (pow cos2phi 2))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (- 1 u0))) cos2phi)) (* sin2phi (+ (* sin2phi (+ (* -1 (/ (* (pow alphax 6) (log (- 1 u0))) (* (pow alphay 4) (pow cos2phi 3)))) (/ (* (pow alphax 8) (* sin2phi (log (- 1 u0)))) (* (pow alphay 6) (pow cos2phi 4))))) (/ (* (pow alphax 4) (log (- 1 u0))) (* (pow alphay 2) (pow cos2phi 2))))))))
#s(approx sin2phi #s(hole binary32 sin2phi))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* sin2phi (- (/ (* (pow alphax 6) (* sin2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphay 4) (pow cos2phi 3))) (/ (* (pow alphax 4) (- (log (+ 1 u0)) (log (- 1 (pow u0 2))))) (* (pow alphay 2) (pow cos2phi 2))))) (/ (* (pow alphax 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2))))) cos2phi))))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* sin2phi (- (* sin2phi (- (* -1 (/ (* (pow alphax 8) (* sin2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphay 6) (pow cos2phi 4)))) (* -1 (/ (* (pow alphax 6) (- (log (+ 1 u0)) (log (- 1 (pow u0 2))))) (* (pow alphay 4) (pow cos2phi 3)))))) (/ (* (pow alphax 4) (- (log (+ 1 u0)) (log (- 1 (pow u0 2))))) (* (pow alphay 2) (pow cos2phi 2))))) (/ (* (pow alphax 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2))))) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (+ (* -1 (* (pow alphay 2) (log (- 1 u0)))) (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) sin2phi))) sin2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (+ (* -1 (* (pow alphay 2) (log (- 1 u0)))) (+ (* -1 (/ (* (pow alphay 6) (* (pow cos2phi 2) (log (- 1 u0)))) (* (pow alphax 4) (pow sin2phi 2)))) (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) sin2phi)))) sin2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (+ (* -1 (* (pow alphay 2) (log (- 1 u0)))) (+ (* -1 (/ (* (pow alphay 6) (* (pow cos2phi 2) (log (- 1 u0)))) (* (pow alphax 4) (pow sin2phi 2)))) (+ (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) sin2phi)) (/ (* (pow alphay 8) (* (pow cos2phi 3) (log (- 1 u0)))) (* (pow alphax 6) (pow sin2phi 3)))))) sin2phi)))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) #s(hole binary32 (* sin2phi (+ (/ 1 (pow alphay 2)) (/ cos2phi (* (pow alphax 2) sin2phi))))))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (+ (* -1 (/ (* (pow alphay 4) (* cos2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphax 2) sin2phi))) (* (pow alphay 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) sin2phi)))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (- (+ (* (pow alphay 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2))))) (/ (* (pow alphay 6) (* (pow cos2phi 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphax 4) (pow sin2phi 2)))) (/ (* (pow alphay 4) (* cos2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphax 2) sin2phi))) sin2phi)))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (- (+ (* -1 (/ (* (pow alphay 8) (* (pow cos2phi 3) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphax 6) (pow sin2phi 3)))) (* (pow alphay 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (+ (* -1 (/ (* (pow alphay 6) (* (pow cos2phi 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphax 4) (pow sin2phi 2)))) (/ (* (pow alphay 4) (* cos2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphax 2) sin2phi)))) sin2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (+ (* -1 (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) sin2phi))) (* (pow alphay 2) (log (- 1 u0)))) sin2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (+ (* -1 (/ (+ (* -1 (/ (* (pow alphay 6) (* (pow cos2phi 2) (log (- 1 u0)))) (* (pow alphax 4) sin2phi))) (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (pow alphax 2))) sin2phi)) (* (pow alphay 2) (log (- 1 u0)))) sin2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (+ (* -1 (/ (+ (* -1 (/ (+ (* -1 (/ (* (pow alphay 8) (* (pow cos2phi 3) (log (- 1 u0)))) (* (pow alphax 6) sin2phi))) (/ (* (pow alphay 6) (* (pow cos2phi 2) (log (- 1 u0)))) (pow alphax 4))) sin2phi)) (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (pow alphax 2))) sin2phi)) (* (pow alphay 2) (log (- 1 u0)))) sin2phi))))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) #s(hole binary32 (* -1 (* sin2phi (- (* -1 (/ cos2phi (* (pow alphax 2) sin2phi))) (/ 1 (pow alphay 2)))))))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (+ (* -1 (* (pow alphay 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (/ (* (pow alphay 4) (* cos2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphax 2) sin2phi))) sin2phi))))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (+ (* -1 (* (pow alphay 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* -1 (/ (- (/ (* (pow alphay 6) (* (pow cos2phi 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphax 4) sin2phi)) (/ (* (pow alphay 4) (* cos2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (pow alphax 2))) sin2phi))) sin2phi))))
#s(approx (/ (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (+ (* -1 (* (pow alphay 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* -1 (/ (- (* -1 (/ (- (/ (* (pow alphay 8) (* (pow cos2phi 3) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (* (pow alphax 6) sin2phi)) (/ (* (pow alphay 6) (* (pow cos2phi 2) (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (pow alphax 4))) sin2phi)) (/ (* (pow alphay 4) (* cos2phi (- (log (+ 1 u0)) (log (- 1 (pow u0 2)))))) (pow alphax 2))) sin2phi))) sin2phi))))
Outputs
(/.f32 (neg.f32 #s(approx (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (*.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0))) (neg.f32 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))))
(/.f32 #s(approx (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (*.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))
#s(approx (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (*.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0))
(*.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)
(*.f32 u0 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)))
(fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)))
(fma.f32 #s(literal 1 binary32) u0 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0))
(+.f32 (*.f32 u0 #s(literal 1 binary32)) (*.f32 u0 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)))
(+.f32 (*.f32 #s(literal 1 binary32) u0) (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0))
(/.f32 (-.f32 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)) #s(literal 1 binary32)) (-.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) #s(literal 1 binary32)))
(/.f32 (-.f32 #s(literal 1 binary32) (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0))) (-.f32 #s(literal 1 binary32) (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)))
(/.f32 (+.f32 (pow.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) #s(literal 3 binary32)) #s(literal 1 binary32)) (fma.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) (-.f32 #s(literal 1 binary32) (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) #s(literal 1 binary32)))))
(/.f32 (+.f32 #s(literal 1 binary32) (pow.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) #s(literal 3 binary32))) (+.f32 #s(literal 1 binary32) (-.f32 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)) (*.f32 #s(literal 1 binary32) (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)))))
(-.f32 #s(literal 1 binary32) (*.f32 (neg.f32 u0) (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32))))
(fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32))
(fma.f32 u0 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) #s(literal 1 binary32))
(+.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) #s(literal 1 binary32))
(+.f32 #s(literal 1 binary32) (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0))
(/.f32 (-.f32 #s(literal 1/4 binary32) (*.f32 (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0) (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0))) (-.f32 #s(literal 1/2 binary32) (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0)))
(/.f32 (-.f32 (*.f32 (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0) (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0)) #s(literal 1/4 binary32)) (-.f32 (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)))
(/.f32 (+.f32 #s(literal 1/8 binary32) (pow.f32 (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0) #s(literal 3 binary32))) (+.f32 #s(literal 1/4 binary32) (-.f32 (*.f32 (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0) (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0)) (*.f32 #s(literal 1/2 binary32) (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0)))))
(/.f32 (+.f32 (pow.f32 (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0) #s(literal 3 binary32)) #s(literal 1/8 binary32)) (fma.f32 (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0) (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0) (-.f32 #s(literal 1/4 binary32) (*.f32 (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)))))
(-.f32 #s(literal 1/2 binary32) (*.f32 (neg.f32 u0) (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32))))
(fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32))
(fma.f32 u0 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) #s(literal 1/2 binary32))
(+.f32 (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32))
(+.f32 #s(literal 1/2 binary32) (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0))
(/.f32 (-.f32 (*.f32 (*.f32 #s(literal 1/4 binary32) u0) (*.f32 #s(literal 1/4 binary32) u0)) #s(literal 1/9 binary32)) (-.f32 (*.f32 #s(literal 1/4 binary32) u0) #s(literal 1/3 binary32)))
(/.f32 (-.f32 #s(literal 1/9 binary32) (*.f32 (*.f32 #s(literal 1/4 binary32) u0) (*.f32 #s(literal 1/4 binary32) u0))) (fma.f32 #s(literal -1/4 binary32) u0 #s(literal 1/3 binary32)))
(/.f32 (+.f32 (pow.f32 (*.f32 #s(literal 1/4 binary32) u0) #s(literal 3 binary32)) #s(literal 1/27 binary32)) (fma.f32 (*.f32 #s(literal 1/4 binary32) u0) (*.f32 #s(literal 1/4 binary32) u0) (-.f32 #s(literal 1/9 binary32) (*.f32 (*.f32 #s(literal 1/4 binary32) u0) #s(literal 1/3 binary32)))))
(/.f32 (+.f32 #s(literal 1/27 binary32) (pow.f32 (*.f32 #s(literal 1/4 binary32) u0) #s(literal 3 binary32))) (+.f32 #s(literal 1/9 binary32) (-.f32 (*.f32 (*.f32 #s(literal 1/4 binary32) u0) (*.f32 #s(literal 1/4 binary32) u0)) (*.f32 #s(literal 1/3 binary32) (*.f32 #s(literal 1/4 binary32) u0)))))
(-.f32 #s(literal 1/3 binary32) (*.f32 #s(literal -1/4 binary32) u0))
(fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32))
(fma.f32 u0 #s(literal 1/4 binary32) #s(literal 1/3 binary32))
(+.f32 (*.f32 #s(literal 1/4 binary32) u0) #s(literal 1/3 binary32))
(+.f32 #s(literal 1/3 binary32) (*.f32 #s(literal 1/4 binary32) u0))
#s(literal 1/4 binary32)
u0
#s(literal 1/3 binary32)
#s(literal 1/2 binary32)
#s(literal 1 binary32)
(/.f32 (-.f32 (*.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 cos2phi (*.f32 alphax alphax))) (*.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 sin2phi (*.f32 alphay alphay)))) (-.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (+.f32 (pow.f32 (/.f32 cos2phi (*.f32 alphax alphax)) #s(literal 3 binary32)) (pow.f32 (/.f32 sin2phi (*.f32 alphay alphay)) #s(literal 3 binary32))) (fma.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 cos2phi (*.f32 alphax alphax)) (-.f32 (*.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 sin2phi (*.f32 alphay alphay))) (*.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))))
(/.f32 (fma.f32 (*.f32 alphay alphay) cos2phi (*.f32 (*.f32 alphax alphax) sin2phi)) (*.f32 (*.f32 alphax alphax) (*.f32 alphay alphay)))
(+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))
(+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay)))
(/.f32 (/.f32 cos2phi alphax) alphax)
(/.f32 (neg.f32 cos2phi) (neg.f32 (*.f32 alphax alphax)))
(/.f32 cos2phi (*.f32 alphax alphax))
cos2phi
(*.f32 (pow.f32 alphax #s(literal 1 binary32)) (pow.f32 alphax #s(literal 1 binary32)))
(*.f32 (fabs.f32 alphax) (fabs.f32 alphax))
(*.f32 (neg.f32 alphax) (neg.f32 alphax))
(*.f32 alphax alphax)
(pow.f32 alphax #s(literal 2 binary32))
(+.f32 (cosh.f32 (*.f32 (log.f32 alphax) #s(literal 2 binary32))) (sinh.f32 (*.f32 (log.f32 alphax) #s(literal 2 binary32))))
(exp.f32 (*.f32 (log.f32 alphax) #s(literal 2 binary32)))
alphax
(/.f32 (/.f32 sin2phi alphay) alphay)
(/.f32 (neg.f32 sin2phi) (neg.f32 (*.f32 alphay alphay)))
(/.f32 sin2phi (*.f32 alphay alphay))
sin2phi
(*.f32 (pow.f32 alphay #s(literal 1 binary32)) (pow.f32 alphay #s(literal 1 binary32)))
(*.f32 (fabs.f32 alphay) (fabs.f32 alphay))
(*.f32 (neg.f32 alphay) (neg.f32 alphay))
(*.f32 alphay alphay)
(pow.f32 alphay #s(literal 2 binary32))
(+.f32 (cosh.f32 (*.f32 (log.f32 alphay) #s(literal 2 binary32))) (sinh.f32 (*.f32 (log.f32 alphay) #s(literal 2 binary32))))
(exp.f32 (*.f32 (log.f32 alphay) #s(literal 2 binary32)))
alphay
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (*.f32 alphax alphax) (neg.f32 (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi))))
(*.f32 (neg.f32 (*.f32 alphax alphax)) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi))
(*.f32 (*.f32 (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi) (*.f32 alphax alphax)) #s(literal -1 binary32))
(*.f32 (*.f32 alphax alphax) (neg.f32 (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi)))
(*.f32 #s(literal -1 binary32) (*.f32 (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi) (*.f32 alphax alphax)))
(/.f32 (neg.f32 (*.f32 (*.f32 alphax alphax) (log.f32 (-.f32 #s(literal 1 binary32) u0)))) cos2phi)
(neg.f32 (*.f32 (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi) (*.f32 alphax alphax)))
(*.f32 (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi) (*.f32 alphax alphax))
(*.f32 (*.f32 alphax alphax) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi))
(*.f32 alphax (*.f32 alphax (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi)))
(/.f32 (neg.f32 (*.f32 (*.f32 alphax alphax) (log.f32 (-.f32 #s(literal 1 binary32) u0)))) (neg.f32 cos2phi))
(/.f32 (*.f32 (*.f32 alphax alphax) (log.f32 (-.f32 #s(literal 1 binary32) u0))) cos2phi)
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) (neg.f32 cos2phi))
(/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi)
(log.f32 (-.f32 #s(literal 1 binary32) u0))
(/.f32 (-.f32 (*.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (*.f32 (log.f32 (+.f32 u0 #s(literal 1 binary32))) (log.f32 (+.f32 u0 #s(literal 1 binary32))))) (log.f32 (*.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)) (+.f32 u0 #s(literal 1 binary32)))))
(/.f32 (-.f32 (pow.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) #s(literal 3 binary32)) (pow.f32 (log.f32 (+.f32 u0 #s(literal 1 binary32))) #s(literal 3 binary32))) (fma.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) (fma.f32 (log.f32 (+.f32 u0 #s(literal 1 binary32))) (log.f32 (+.f32 u0 #s(literal 1 binary32))) (*.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) (log.f32 (+.f32 u0 #s(literal 1 binary32)))))))
(-.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 (*.f32 u0 u0) u0))) (log.f32 (+.f32 #s(literal 1 binary32) (fma.f32 u0 u0 (*.f32 #s(literal 1 binary32) u0)))))
(-.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) (log.f32 (+.f32 u0 #s(literal 1 binary32))))
(/.f32 (-.f32 #s(literal 1 binary32) (*.f32 (*.f32 u0 u0) u0)) (+.f32 #s(literal 1 binary32) (fma.f32 u0 u0 (*.f32 #s(literal 1 binary32) u0))))
(/.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)) (+.f32 u0 #s(literal 1 binary32)))
(-.f32 #s(literal 1 binary32) u0)
(/.f32 (neg.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)))) (neg.f32 #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay)))))
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(neg.f32 (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay)))))
(log.f32 (/.f32 #s(literal 1 binary32) (-.f32 #s(literal 1 binary32) u0)))
(-.f32 #s(literal 0 binary32) (log.f32 (-.f32 #s(literal 1 binary32) u0)))
(neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay)))
(/.f32 (neg.f32 #s(approx (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0))) (neg.f32 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))))
(/.f32 #s(approx (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))
#s(approx (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0))
(*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)
(*.f32 u0 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)))
(fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0)))
(fma.f32 #s(literal 1 binary32) u0 (*.f32 (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0) u0))
(+.f32 (*.f32 u0 #s(literal 1 binary32)) (*.f32 u0 (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0)))
(+.f32 (*.f32 #s(literal 1 binary32) u0) (*.f32 (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0) u0))
(/.f32 (-.f32 #s(literal 1 binary32) (*.f32 (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0) (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0))) (-.f32 #s(literal 1 binary32) (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0)))
(/.f32 (-.f32 (*.f32 (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0) (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0)) #s(literal 1 binary32)) (-.f32 (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0) #s(literal 1 binary32)))
(/.f32 (+.f32 #s(literal 1 binary32) (pow.f32 (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0) #s(literal 3 binary32))) (+.f32 #s(literal 1 binary32) (-.f32 (*.f32 (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0) (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0)) (*.f32 #s(literal 1 binary32) (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0)))))
(/.f32 (+.f32 (pow.f32 (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0) #s(literal 3 binary32)) #s(literal 1 binary32)) (fma.f32 (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0) (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0) (-.f32 #s(literal 1 binary32) (*.f32 (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0) #s(literal 1 binary32)))))
(-.f32 #s(literal 1 binary32) (*.f32 (neg.f32 u0) (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32))))
(fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32))
(fma.f32 u0 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) #s(literal 1 binary32))
(+.f32 (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0) #s(literal 1 binary32))
(+.f32 #s(literal 1 binary32) (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0))
(/.f32 (-.f32 #s(literal 1/4 binary32) (*.f32 (*.f32 #s(literal 1/3 binary32) u0) (*.f32 #s(literal 1/3 binary32) u0))) (-.f32 #s(literal 1/2 binary32) (*.f32 #s(literal 1/3 binary32) u0)))
(/.f32 (-.f32 (*.f32 (*.f32 #s(literal 1/3 binary32) u0) (*.f32 #s(literal 1/3 binary32) u0)) #s(literal 1/4 binary32)) (-.f32 (*.f32 #s(literal 1/3 binary32) u0) #s(literal 1/2 binary32)))
(/.f32 (+.f32 (pow.f32 (*.f32 #s(literal 1/3 binary32) u0) #s(literal 3 binary32)) #s(literal 1/8 binary32)) (fma.f32 (*.f32 #s(literal 1/3 binary32) u0) (*.f32 #s(literal 1/3 binary32) u0) (-.f32 #s(literal 1/4 binary32) (*.f32 (*.f32 #s(literal 1/3 binary32) u0) #s(literal 1/2 binary32)))))
(/.f32 (+.f32 #s(literal 1/8 binary32) (pow.f32 (*.f32 #s(literal 1/3 binary32) u0) #s(literal 3 binary32))) (+.f32 #s(literal 1/4 binary32) (-.f32 (*.f32 (*.f32 #s(literal 1/3 binary32) u0) (*.f32 #s(literal 1/3 binary32) u0)) (*.f32 #s(literal 1/2 binary32) (*.f32 #s(literal 1/3 binary32) u0)))))
(-.f32 #s(literal 1/2 binary32) (*.f32 #s(literal -1/3 binary32) u0))
(fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32))
(fma.f32 u0 #s(literal 1/3 binary32) #s(literal 1/2 binary32))
(+.f32 (*.f32 #s(literal 1/3 binary32) u0) #s(literal 1/2 binary32))
(+.f32 #s(literal 1/2 binary32) (*.f32 #s(literal 1/3 binary32) u0))
(/.f32 (neg.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)))) (neg.f32 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))))
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))
(neg.f32 (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))))
(log.f32 (/.f32 #s(literal 1 binary32) (-.f32 #s(literal 1 binary32) u0)))
(-.f32 #s(literal 0 binary32) (log.f32 (-.f32 #s(literal 1 binary32) u0)))
(neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)))
(log.f32 (-.f32 #s(literal 1 binary32) u0))
(/.f32 (-.f32 (*.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (*.f32 (log.f32 (+.f32 u0 #s(literal 1 binary32))) (log.f32 (+.f32 u0 #s(literal 1 binary32))))) (log.f32 (*.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)) (+.f32 u0 #s(literal 1 binary32)))))
(/.f32 (-.f32 (pow.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) #s(literal 3 binary32)) (pow.f32 (log.f32 (+.f32 u0 #s(literal 1 binary32))) #s(literal 3 binary32))) (fma.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) (fma.f32 (log.f32 (+.f32 u0 #s(literal 1 binary32))) (log.f32 (+.f32 u0 #s(literal 1 binary32))) (*.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) (log.f32 (+.f32 u0 #s(literal 1 binary32)))))))
(-.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 (*.f32 u0 u0) u0))) (log.f32 (+.f32 #s(literal 1 binary32) (fma.f32 u0 u0 (*.f32 #s(literal 1 binary32) u0)))))
(-.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) (log.f32 (+.f32 u0 #s(literal 1 binary32))))
(log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))
(-.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 (*.f32 u0 u0) (*.f32 u0 u0)))) (log.f32 (+.f32 #s(literal 1 binary32) (*.f32 u0 u0))))
(-.f32 (log.f32 (-.f32 #s(literal 1 binary32) (pow.f32 (*.f32 u0 u0) #s(literal 3 binary32)))) (log.f32 (+.f32 #s(literal 1 binary32) (fma.f32 (*.f32 u0 u0) (*.f32 u0 u0) (*.f32 #s(literal 1 binary32) (*.f32 u0 u0))))))
(log1p.f32 (*.f32 (neg.f32 u0) u0))
(/.f32 (-.f32 #s(literal 1 binary32) (*.f32 (*.f32 u0 u0) (*.f32 u0 u0))) (+.f32 #s(literal 1 binary32) (*.f32 u0 u0)))
(/.f32 (-.f32 #s(literal 1 binary32) (pow.f32 (*.f32 u0 u0) #s(literal 3 binary32))) (+.f32 #s(literal 1 binary32) (fma.f32 (*.f32 u0 u0) (*.f32 u0 u0) (*.f32 #s(literal 1 binary32) (*.f32 u0 u0)))))
(-.f32 #s(literal 1 binary32) (*.f32 u0 u0))
(+.f32 #s(literal 1 binary32) (*.f32 (neg.f32 u0) u0))
(*.f32 (pow.f32 u0 #s(literal 1 binary32)) (pow.f32 u0 #s(literal 1 binary32)))
(*.f32 (fabs.f32 u0) (fabs.f32 u0))
(*.f32 (neg.f32 u0) (neg.f32 u0))
(*.f32 u0 u0)
(pow.f32 u0 #s(literal 2 binary32))
(+.f32 (cosh.f32 (*.f32 (log.f32 u0) #s(literal 2 binary32))) (sinh.f32 (*.f32 (log.f32 u0) #s(literal 2 binary32))))
(exp.f32 (*.f32 (log.f32 u0) #s(literal 2 binary32)))
(log.f32 (+.f32 u0 #s(literal 1 binary32)))
(-.f32 (log.f32 (+.f32 #s(literal 1 binary32) (*.f32 (*.f32 u0 u0) u0))) (log.f32 (+.f32 #s(literal 1 binary32) (-.f32 (*.f32 u0 u0) (*.f32 #s(literal 1 binary32) u0)))))
(-.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) (log.f32 (-.f32 #s(literal 1 binary32) u0)))
(log1p.f32 u0)
(/.f32 (+.f32 #s(literal 1 binary32) (*.f32 (*.f32 u0 u0) u0)) (+.f32 #s(literal 1 binary32) (-.f32 (*.f32 u0 u0) (*.f32 #s(literal 1 binary32) u0))))
(/.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)) (-.f32 #s(literal 1 binary32) u0))
(+.f32 u0 #s(literal 1 binary32))
(+.f32 #s(literal 1 binary32) u0)
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (*.f32 alphax alphax) (neg.f32 (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (fma.f32 (*.f32 alphax alphax) (/.f32 (*.f32 sin2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 cos2phi cos2phi) (*.f32 alphay alphay))) (neg.f32 (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi))) (*.f32 alphax alphax)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (fma.f32 (fma.f32 sin2phi (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) (*.f32 (*.f32 cos2phi cos2phi) (*.f32 alphay alphay))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (*.f32 (*.f32 sin2phi sin2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 cos2phi cos2phi) cos2phi) (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay))))))) (*.f32 alphax alphax) (neg.f32 (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi))) (*.f32 alphax alphax)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (fma.f32 (fma.f32 (fma.f32 (*.f32 alphax alphax) (/.f32 (*.f32 (*.f32 (*.f32 sin2phi sin2phi) sin2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 cos2phi cos2phi) (*.f32 cos2phi cos2phi)) (pow.f32 alphay #s(literal 6 binary32)))) (neg.f32 (/.f32 (*.f32 (*.f32 sin2phi sin2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 cos2phi cos2phi) cos2phi) (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)))))) (*.f32 alphax alphax) (/.f32 (*.f32 sin2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 cos2phi cos2phi) (*.f32 alphay alphay)))) (*.f32 alphax alphax) (neg.f32 (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi))) (*.f32 alphax alphax)))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax)))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 (fma.f32 (*.f32 alphax alphax) (/.f32 sin2phi (*.f32 alphay alphay)) cos2phi) (*.f32 alphax alphax)))
#s(approx (* alphax alphax) (*.f32 alphax alphax))
#s(approx alphax alphax)
#s(approx (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) (*.f32 (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi) (*.f32 alphax alphax)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (*.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (*.f32 alphax alphax)) cos2phi))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (+.f32 (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 alphax alphax) sin2phi) (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))))) (*.f32 (*.f32 cos2phi cos2phi) (*.f32 alphay alphay)))) (-.f32 (/.f32 (log.f32 (+.f32 u0 #s(literal 1 binary32))) cos2phi) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) cos2phi))) (*.f32 alphax alphax)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (fma.f32 (-.f32 (/.f32 (*.f32 (*.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (*.f32 sin2phi sin2phi)) (*.f32 alphax alphax)) (*.f32 (*.f32 (*.f32 cos2phi cos2phi) cos2phi) (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)))) (/.f32 (*.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) sin2phi) (*.f32 (*.f32 cos2phi cos2phi) (*.f32 alphay alphay)))) (*.f32 alphax alphax) (-.f32 (/.f32 (log.f32 (+.f32 u0 #s(literal 1 binary32))) cos2phi) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) cos2phi))) (*.f32 alphax alphax)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (fma.f32 (-.f32 (*.f32 (-.f32 (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 (*.f32 sin2phi sin2phi) sin2phi)) (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))))) (*.f32 (*.f32 (*.f32 cos2phi cos2phi) (*.f32 cos2phi cos2phi)) (pow.f32 alphay #s(literal 6 binary32))))) (neg.f32 (*.f32 (*.f32 sin2phi sin2phi) (/.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (*.f32 (*.f32 (*.f32 cos2phi cos2phi) cos2phi) (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay))))))) (*.f32 alphax alphax)) (/.f32 (*.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) sin2phi) (*.f32 (*.f32 cos2phi cos2phi) (*.f32 alphay alphay)))) (*.f32 alphax alphax) (-.f32 (/.f32 (log.f32 (+.f32 u0 #s(literal 1 binary32))) cos2phi) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) cos2phi))) (*.f32 alphax alphax)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphay alphay) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (fma.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) (/.f32 (*.f32 cos2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 sin2phi sin2phi) (*.f32 alphax alphax))) (neg.f32 (*.f32 (*.f32 alphay alphay) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (+.f32 (fma.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) (/.f32 (*.f32 cos2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 sin2phi sin2phi) (*.f32 alphax alphax))) (neg.f32 (*.f32 (pow.f32 alphay #s(literal 6 binary32)) (/.f32 (*.f32 (*.f32 cos2phi cos2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (*.f32 (*.f32 sin2phi sin2phi) sin2phi)))))) (neg.f32 (*.f32 (*.f32 alphay alphay) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (+.f32 (+.f32 (fma.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) (/.f32 (*.f32 cos2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 sin2phi sin2phi) (*.f32 alphax alphax))) (neg.f32 (*.f32 (pow.f32 alphay #s(literal 6 binary32)) (/.f32 (*.f32 (*.f32 cos2phi cos2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (*.f32 (*.f32 sin2phi sin2phi) sin2phi)))))) (*.f32 (pow.f32 alphay #s(literal 8 binary32)) (/.f32 (*.f32 (*.f32 (*.f32 cos2phi cos2phi) cos2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 sin2phi sin2phi) (*.f32 sin2phi sin2phi)) (pow.f32 alphax #s(literal 6 binary32)))))) (neg.f32 (*.f32 (*.f32 alphay alphay) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi)))))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay)))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (*.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (*.f32 alphay alphay)) sin2phi))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (fma.f32 (*.f32 alphay alphay) (/.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) sin2phi) (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) cos2phi) (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))))) (*.f32 (*.f32 sin2phi sin2phi) (*.f32 alphax alphax))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (-.f32 (fma.f32 (*.f32 alphay alphay) (/.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) sin2phi) (/.f32 (*.f32 (*.f32 (pow.f32 alphay #s(literal 6 binary32)) (*.f32 cos2phi cos2phi)) (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))))) (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (*.f32 (*.f32 sin2phi sin2phi) sin2phi)))) (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) cos2phi) (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))))) (*.f32 (*.f32 sin2phi sin2phi) (*.f32 alphax alphax)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (-.f32 (fma.f32 (*.f32 alphay alphay) (/.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) sin2phi) (neg.f32 (/.f32 (*.f32 (*.f32 (pow.f32 alphay #s(literal 8 binary32)) (*.f32 (*.f32 cos2phi cos2phi) cos2phi)) (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))))) (*.f32 (*.f32 (*.f32 sin2phi sin2phi) (*.f32 sin2phi sin2phi)) (pow.f32 alphax #s(literal 6 binary32)))))) (fma.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) (/.f32 (*.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) cos2phi) (*.f32 (*.f32 sin2phi sin2phi) (*.f32 alphax alphax))) (neg.f32 (/.f32 (*.f32 (*.f32 (pow.f32 alphay #s(literal 6 binary32)) (*.f32 cos2phi cos2phi)) (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))))) (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (*.f32 (*.f32 sin2phi sin2phi) sin2phi)))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (fma.f32 (*.f32 alphay alphay) (/.f32 (*.f32 cos2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 sin2phi sin2phi) (*.f32 alphax alphax))) (neg.f32 (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi))) (*.f32 alphay alphay)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (fma.f32 (fma.f32 cos2phi (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) (*.f32 (*.f32 sin2phi sin2phi) (*.f32 alphax alphax))) (neg.f32 (*.f32 (*.f32 alphay alphay) (/.f32 (*.f32 (*.f32 cos2phi cos2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (*.f32 (*.f32 sin2phi sin2phi) sin2phi)))))) (*.f32 alphay alphay) (neg.f32 (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi))) (*.f32 alphay alphay)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (fma.f32 (fma.f32 (fma.f32 (*.f32 alphay alphay) (/.f32 (*.f32 (*.f32 (*.f32 cos2phi cos2phi) cos2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 sin2phi sin2phi) (*.f32 sin2phi sin2phi)) (pow.f32 alphax #s(literal 6 binary32)))) (neg.f32 (/.f32 (*.f32 (*.f32 cos2phi cos2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (*.f32 (*.f32 sin2phi sin2phi) sin2phi))))) (*.f32 alphay alphay) (/.f32 (*.f32 cos2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 sin2phi sin2phi) (*.f32 alphax alphax)))) (*.f32 alphay alphay) (neg.f32 (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi))) (*.f32 alphay alphay)))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 (fma.f32 (*.f32 alphay alphay) (/.f32 cos2phi (*.f32 alphax alphax)) sin2phi) (*.f32 alphay alphay)))
#s(approx (* alphay alphay) (*.f32 alphay alphay))
#s(approx alphay alphay)
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (+.f32 (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 alphay alphay) cos2phi) (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))))) (*.f32 (*.f32 sin2phi sin2phi) (*.f32 alphax alphax)))) (-.f32 (/.f32 (log.f32 (+.f32 u0 #s(literal 1 binary32))) sin2phi) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) sin2phi))) (*.f32 alphay alphay)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (fma.f32 (-.f32 (/.f32 (*.f32 (*.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (*.f32 cos2phi cos2phi)) (*.f32 alphay alphay)) (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (*.f32 (*.f32 sin2phi sin2phi) sin2phi))) (/.f32 (*.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) cos2phi) (*.f32 (*.f32 sin2phi sin2phi) (*.f32 alphax alphax)))) (*.f32 alphay alphay) (-.f32 (/.f32 (log.f32 (+.f32 u0 #s(literal 1 binary32))) sin2phi) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) sin2phi))) (*.f32 alphay alphay)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (fma.f32 (-.f32 (*.f32 (-.f32 (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 alphay alphay) (*.f32 (*.f32 cos2phi cos2phi) cos2phi)) (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))))) (*.f32 (*.f32 (*.f32 sin2phi sin2phi) (*.f32 sin2phi sin2phi)) (pow.f32 alphax #s(literal 6 binary32))))) (neg.f32 (*.f32 (*.f32 cos2phi cos2phi) (/.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (*.f32 (*.f32 sin2phi sin2phi) sin2phi)))))) (*.f32 alphay alphay)) (/.f32 (*.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) cos2phi) (*.f32 (*.f32 sin2phi sin2phi) (*.f32 alphax alphax)))) (*.f32 alphay alphay) (-.f32 (/.f32 (log.f32 (+.f32 u0 #s(literal 1 binary32))) sin2phi) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) sin2phi))) (*.f32 alphay alphay)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (fma.f32 (neg.f32 (*.f32 alphax alphax)) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi) (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (/.f32 (*.f32 sin2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 cos2phi cos2phi) (*.f32 alphay alphay))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (fma.f32 (neg.f32 (*.f32 alphax alphax)) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi) (fma.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (/.f32 (*.f32 sin2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 cos2phi cos2phi) (*.f32 alphay alphay))) (neg.f32 (*.f32 (pow.f32 alphax #s(literal 6 binary32)) (/.f32 (*.f32 (*.f32 sin2phi sin2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 cos2phi cos2phi) cos2phi) (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (fma.f32 (neg.f32 (*.f32 alphax alphax)) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi) (+.f32 (fma.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (/.f32 (*.f32 sin2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 cos2phi cos2phi) (*.f32 alphay alphay))) (neg.f32 (*.f32 (pow.f32 alphax #s(literal 6 binary32)) (/.f32 (*.f32 (*.f32 sin2phi sin2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 cos2phi cos2phi) cos2phi) (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay))))))) (*.f32 (pow.f32 alphax #s(literal 8 binary32)) (/.f32 (*.f32 (*.f32 (*.f32 sin2phi sin2phi) sin2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 cos2phi cos2phi) (*.f32 cos2phi cos2phi)) (pow.f32 alphay #s(literal 6 binary32))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (fma.f32 (*.f32 alphax alphax) (/.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) cos2phi) (neg.f32 (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (/.f32 (*.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) sin2phi) (*.f32 (*.f32 cos2phi cos2phi) (*.f32 alphay alphay)))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (-.f32 (fma.f32 (pow.f32 alphax #s(literal 6 binary32)) (*.f32 (*.f32 sin2phi sin2phi) (/.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (*.f32 (*.f32 (*.f32 cos2phi cos2phi) cos2phi) (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay))))) (/.f32 (*.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (*.f32 alphax alphax)) cos2phi)) (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (/.f32 (*.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) sin2phi) (*.f32 (*.f32 cos2phi cos2phi) (*.f32 alphay alphay))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (-.f32 (fma.f32 (*.f32 alphax alphax) (/.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) cos2phi) (neg.f32 (/.f32 (*.f32 (*.f32 (pow.f32 alphax #s(literal 8 binary32)) (*.f32 (*.f32 sin2phi sin2phi) sin2phi)) (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))))) (*.f32 (*.f32 (*.f32 cos2phi cos2phi) (*.f32 cos2phi cos2phi)) (pow.f32 alphay #s(literal 6 binary32)))))) (fma.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (/.f32 (*.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) sin2phi) (*.f32 (*.f32 cos2phi cos2phi) (*.f32 alphay alphay))) (neg.f32 (/.f32 (*.f32 (*.f32 (pow.f32 alphax #s(literal 6 binary32)) (*.f32 sin2phi sin2phi)) (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))))) (*.f32 (*.f32 (*.f32 cos2phi cos2phi) cos2phi) (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 u0 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (fma.f32 (/.f32 u0 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))) #s(literal 1/2 binary32) (/.f32 #s(literal 1 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (fma.f32 (fma.f32 (/.f32 u0 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))) #s(literal 1/3 binary32) (/.f32 #s(literal 1/2 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0 (/.f32 #s(literal 1 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (fma.f32 (fma.f32 (fma.f32 (/.f32 u0 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))) #s(literal 1/4 binary32) (/.f32 #s(literal 1/3 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0 (/.f32 #s(literal 1/2 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0 (/.f32 #s(literal 1 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0))
#s(approx (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) u0)
#s(approx (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (*.f32 (fma.f32 #s(literal 1/2 binary32) u0 #s(literal 1 binary32)) u0))
#s(approx (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0))
#s(approx (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (*.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0))
#s(approx (+ (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) 1) #s(literal 1 binary32))
#s(approx (+ (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) 1) (fma.f32 #s(literal 1/2 binary32) u0 #s(literal 1 binary32)))
#s(approx (+ (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) 1) (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)))
#s(approx (+ (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) 1) (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)))
#s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(literal 1/2 binary32))
#s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)))
#s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)))
#s(approx (+ (* 1/4 u0) 1/3) #s(literal 1/3 binary32))
#s(approx (+ (* 1/4 u0) 1/3) (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 (-.f32 (*.f32 (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi) #s(literal 1/2 binary32)) (neg.f32 (/.f32 (*.f32 alphax alphax) cos2phi))) u0))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 (-.f32 (*.f32 (fma.f32 (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi) #s(literal 1/3 binary32) (*.f32 #s(literal 1/2 binary32) (/.f32 (*.f32 alphax alphax) cos2phi))) u0) (neg.f32 (/.f32 (*.f32 alphax alphax) cos2phi))) u0))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 (-.f32 (*.f32 (fma.f32 (fma.f32 (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi) #s(literal 1/4 binary32) (*.f32 #s(literal 1/3 binary32) (/.f32 (*.f32 alphax alphax) cos2phi))) u0 (*.f32 #s(literal 1/2 binary32) (/.f32 (*.f32 alphax alphax) cos2phi))) u0) (neg.f32 (/.f32 (*.f32 alphax alphax) cos2phi))) u0))
#s(approx (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) (neg.f32 (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi)))
#s(approx (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) (*.f32 (fma.f32 #s(literal -1/2 binary32) (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi) (neg.f32 (/.f32 (*.f32 alphax alphax) cos2phi))) u0))
#s(approx (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) (*.f32 (fma.f32 (fma.f32 #s(literal -1/3 binary32) (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi) (*.f32 #s(literal -1/2 binary32) (/.f32 (*.f32 alphax alphax) cos2phi))) u0 (neg.f32 (/.f32 (*.f32 alphax alphax) cos2phi))) u0))
#s(approx (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) (*.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal -1/4 binary32) (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi) (*.f32 #s(literal -1/3 binary32) (/.f32 (*.f32 alphax alphax) cos2phi))) u0 (*.f32 #s(literal -1/2 binary32) (/.f32 (*.f32 alphax alphax) cos2phi))) u0 (neg.f32 (/.f32 (*.f32 alphax alphax) cos2phi))) u0))
#s(approx (/ (log (- 1 u0)) cos2phi) (/.f32 (neg.f32 u0) cos2phi))
#s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 (-.f32 (*.f32 (/.f32 u0 cos2phi) #s(literal -1/2 binary32)) (/.f32 #s(literal 1 binary32) cos2phi)) u0))
#s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (/.f32 u0 cos2phi) #s(literal -1/3 binary32)) (/.f32 #s(literal 1/2 binary32) cos2phi)) u0) (/.f32 #s(literal 1 binary32) cos2phi)) u0))
#s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (/.f32 u0 cos2phi) #s(literal -1/4 binary32)) (/.f32 #s(literal 1/3 binary32) cos2phi)) u0) (/.f32 #s(literal 1/2 binary32) cos2phi)) u0) (/.f32 #s(literal 1 binary32) cos2phi)) u0))
#s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (neg.f32 u0))
#s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (*.f32 (-.f32 (*.f32 #s(literal -1/2 binary32) u0) #s(literal 1 binary32)) u0))
#s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/3 binary32) u0) #s(literal 1/2 binary32)) u0) #s(literal 1 binary32)) u0))
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#s(approx (log (+ 1 u0)) (*.f32 (fma.f32 (-.f32 (*.f32 #s(literal 1/3 binary32) u0) #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0))
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#s(approx (+ (* 1/4 u0) 1/3) (*.f32 (+.f32 (/.f32 #s(literal 1/3 binary32) u0) #s(literal 1/4 binary32)) u0))
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#s(approx (/ (log (- 1 u0)) cos2phi) (/.f32 (neg.f32 (-.f32 #s(literal 0 binary32) (log.f32 (neg.f32 u0)))) cos2phi))
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#s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (neg.f32 (-.f32 #s(literal 0 binary32) (log.f32 (neg.f32 u0)))))
#s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (+.f32 (neg.f32 (-.f32 #s(literal 0 binary32) (log.f32 (neg.f32 u0)))) (/.f32 #s(literal 1 binary32) u0)))
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#s(approx (* (+ (* (+ (* 1/3 u0) 1/2) u0) 1) u0) (*.f32 (*.f32 (*.f32 u0 u0) u0) #s(literal 1/3 binary32)))
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#s(approx (+ (* 1/3 u0) 1/2) (*.f32 #s(literal 1/3 binary32) u0))
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#s(approx (log (- 1 (* u0 u0))) (fma.f32 #s(literal -2 binary32) (-.f32 #s(literal 0 binary32) (log.f32 (neg.f32 u0))) (/.f32 #s(literal 1 binary32) (*.f32 u0 u0))))
#s(approx (log (- 1 (* u0 u0))) (-.f32 (fma.f32 #s(literal -2 binary32) (-.f32 #s(literal 0 binary32) (log.f32 (neg.f32 u0))) (/.f32 #s(literal 1 binary32) (*.f32 u0 u0))) (/.f32 #s(literal 1/2 binary32) (*.f32 (*.f32 u0 u0) (*.f32 u0 u0)))))
#s(approx (log (- 1 (* u0 u0))) (-.f32 (fma.f32 #s(literal -2 binary32) (-.f32 #s(literal 0 binary32) (log.f32 (neg.f32 u0))) (+.f32 (/.f32 #s(literal 1/3 binary32) (*.f32 (*.f32 (*.f32 u0 u0) u0) (*.f32 (*.f32 u0 u0) u0))) (/.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (/.f32 #s(literal 1/2 binary32) (*.f32 (*.f32 u0 u0) (*.f32 u0 u0)))))
#s(approx (- 1 (* u0 u0)) (*.f32 (-.f32 (/.f32 #s(literal 1 binary32) (*.f32 u0 u0)) #s(literal 1 binary32)) (*.f32 u0 u0)))
#s(approx (log (+ 1 u0)) (neg.f32 (neg.f32 (log.f32 u0))))
#s(approx (log (+ 1 u0)) (+.f32 (neg.f32 (neg.f32 (log.f32 u0))) (/.f32 #s(literal 1 binary32) u0)))
#s(approx (log (+ 1 u0)) (-.f32 (+.f32 (neg.f32 (neg.f32 (log.f32 u0))) (/.f32 #s(literal 1 binary32) u0)) (/.f32 #s(literal 1/2 binary32) (*.f32 u0 u0))))
#s(approx (log (+ 1 u0)) (-.f32 (+.f32 (+.f32 (neg.f32 (neg.f32 (log.f32 u0))) (/.f32 #s(literal 1 binary32) u0)) (/.f32 #s(literal 1/3 binary32) (*.f32 (*.f32 u0 u0) u0))) (/.f32 #s(literal 1/2 binary32) (*.f32 u0 u0))))
#s(approx (+ 1 u0) (*.f32 (+.f32 (/.f32 #s(literal 1 binary32) u0) #s(literal 1 binary32)) u0))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (-.f32 #s(literal 0 binary32) (log.f32 (neg.f32 u0))) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (+.f32 (/.f32 (-.f32 #s(literal 0 binary32) (log.f32 (neg.f32 u0))) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))) (/.f32 #s(literal 1 binary32) (*.f32 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))) u0))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (+.f32 (+.f32 (/.f32 (-.f32 #s(literal 0 binary32) (log.f32 (neg.f32 u0))) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))) (/.f32 #s(literal 1 binary32) (*.f32 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))) u0))) (/.f32 #s(literal 1/2 binary32) (*.f32 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))) (*.f32 u0 u0)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (+.f32 (neg.f32 (/.f32 (-.f32 (neg.f32 (/.f32 (+.f32 (/.f32 #s(literal 1/3 binary32) (*.f32 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))) u0)) (/.f32 #s(literal 1/2 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0)) (/.f32 #s(literal 1 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0)) (/.f32 (-.f32 #s(literal 0 binary32) (log.f32 (neg.f32 u0))) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))))
#s(approx (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (-.f32 #s(literal 0 binary32) (log.f32 (neg.f32 u0))))
#s(approx (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (-.f32 (/.f32 #s(literal 1 binary32) u0) (neg.f32 (-.f32 #s(literal 0 binary32) (log.f32 (neg.f32 u0))))))
#s(approx (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (-.f32 (+.f32 (/.f32 #s(literal 1/2 binary32) (*.f32 u0 u0)) (/.f32 #s(literal 1 binary32) u0)) (neg.f32 (-.f32 #s(literal 0 binary32) (log.f32 (neg.f32 u0))))))
#s(approx (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (-.f32 (neg.f32 (/.f32 (-.f32 (neg.f32 (/.f32 (+.f32 (/.f32 #s(literal 1/3 binary32) u0) #s(literal 1/2 binary32)) u0)) #s(literal 1 binary32)) u0)) (neg.f32 (-.f32 #s(literal 0 binary32) (log.f32 (neg.f32 u0))))))
#s(approx (* (+ (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) 1) u0) (*.f32 (+.f32 (neg.f32 (/.f32 (-.f32 (neg.f32 (/.f32 (+.f32 (/.f32 #s(literal 1 binary32) u0) #s(literal 1/2 binary32)) u0)) #s(literal 1/3 binary32)) u0)) #s(literal 1/4 binary32)) (*.f32 (*.f32 u0 u0) (*.f32 u0 u0))))
#s(approx (+ (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) 1) (neg.f32 (*.f32 (-.f32 (neg.f32 (/.f32 (+.f32 (/.f32 #s(literal 1/2 binary32) u0) #s(literal 1/3 binary32)) u0)) #s(literal 1/4 binary32)) (*.f32 (*.f32 u0 u0) u0))))
#s(approx (+ (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) 1) (neg.f32 (*.f32 (-.f32 (neg.f32 (/.f32 (+.f32 (+.f32 (/.f32 #s(literal 1 binary32) (*.f32 u0 u0)) (/.f32 #s(literal 1/2 binary32) u0)) #s(literal 1/3 binary32)) u0)) #s(literal 1/4 binary32)) (*.f32 (*.f32 u0 u0) u0))))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 (*.f32 alphax alphax) (/.f32 (-.f32 #s(literal 0 binary32) (log.f32 (neg.f32 u0))) cos2phi)))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (-.f32 (/.f32 (*.f32 alphax alphax) (*.f32 cos2phi u0)) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (-.f32 #s(literal 0 binary32) (log.f32 (neg.f32 u0))) cos2phi)))))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (-.f32 (neg.f32 (/.f32 (-.f32 (*.f32 (/.f32 (*.f32 alphax alphax) (*.f32 cos2phi u0)) #s(literal -1/2 binary32)) (/.f32 (*.f32 alphax alphax) cos2phi)) u0)) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (-.f32 #s(literal 0 binary32) (log.f32 (neg.f32 u0))) cos2phi)))))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (-.f32 (neg.f32 (/.f32 (-.f32 (neg.f32 (/.f32 (fma.f32 (/.f32 (*.f32 alphax alphax) (*.f32 cos2phi u0)) #s(literal 1/3 binary32) (*.f32 #s(literal 1/2 binary32) (/.f32 (*.f32 alphax alphax) cos2phi))) u0)) (/.f32 (*.f32 alphax alphax) cos2phi)) u0)) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (-.f32 #s(literal 0 binary32) (log.f32 (neg.f32 u0))) cos2phi)))))
#s(approx (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (-.f32 #s(literal 0 binary32) (log.f32 (neg.f32 u0))) cos2phi))))
#s(approx (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) (+.f32 (neg.f32 (/.f32 (*.f32 alphax alphax) (*.f32 cos2phi u0))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (-.f32 #s(literal 0 binary32) (log.f32 (neg.f32 u0))) cos2phi)))))
#s(approx (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) (+.f32 (neg.f32 (/.f32 (fma.f32 (/.f32 (*.f32 alphax alphax) (*.f32 cos2phi u0)) #s(literal 1/2 binary32) (/.f32 (*.f32 alphax alphax) cos2phi)) u0)) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (-.f32 #s(literal 0 binary32) (log.f32 (neg.f32 u0))) cos2phi)))))
#s(approx (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) (+.f32 (neg.f32 (/.f32 (+.f32 (neg.f32 (/.f32 (fma.f32 (/.f32 (*.f32 alphax alphax) (*.f32 cos2phi u0)) #s(literal -1/3 binary32) (*.f32 #s(literal -1/2 binary32) (/.f32 (*.f32 alphax alphax) cos2phi))) u0)) (/.f32 (*.f32 alphax alphax) cos2phi)) u0)) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (-.f32 #s(literal 0 binary32) (log.f32 (neg.f32 u0))) cos2phi)))))
#s(approx (/ (log (- 1 u0)) cos2phi) (/.f32 (neg.f32 (-.f32 #s(literal 0 binary32) (log.f32 (neg.f32 u0)))) cos2phi))
#s(approx (/ (log (- 1 u0)) cos2phi) (-.f32 (/.f32 (neg.f32 (-.f32 #s(literal 0 binary32) (log.f32 (neg.f32 u0)))) cos2phi) (/.f32 #s(literal 1 binary32) (*.f32 cos2phi u0))))
#s(approx (/ (log (- 1 u0)) cos2phi) (+.f32 (neg.f32 (/.f32 (+.f32 (/.f32 #s(literal 1/2 binary32) (*.f32 cos2phi u0)) (/.f32 #s(literal 1 binary32) cos2phi)) u0)) (/.f32 (neg.f32 (-.f32 #s(literal 0 binary32) (log.f32 (neg.f32 u0)))) cos2phi)))
#s(approx (/ (log (- 1 u0)) cos2phi) (+.f32 (neg.f32 (/.f32 (+.f32 (+.f32 (/.f32 #s(literal 1/2 binary32) (*.f32 cos2phi u0)) (/.f32 #s(literal 1 binary32) cos2phi)) (/.f32 #s(literal 1/3 binary32) (*.f32 (*.f32 u0 u0) cos2phi))) u0)) (/.f32 (neg.f32 (-.f32 #s(literal 0 binary32) (log.f32 (neg.f32 u0)))) cos2phi)))
#s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (neg.f32 (-.f32 #s(literal 0 binary32) (log.f32 (neg.f32 u0)))))
#s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (-.f32 (neg.f32 (-.f32 #s(literal 0 binary32) (log.f32 (neg.f32 u0)))) (/.f32 #s(literal 1 binary32) u0)))
#s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (+.f32 (neg.f32 (/.f32 (+.f32 (/.f32 #s(literal 1/2 binary32) u0) #s(literal 1 binary32)) u0)) (neg.f32 (-.f32 #s(literal 0 binary32) (log.f32 (neg.f32 u0))))))
#s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (+.f32 (neg.f32 (-.f32 #s(literal 0 binary32) (log.f32 (neg.f32 u0)))) (neg.f32 (/.f32 (+.f32 (+.f32 #s(literal 1 binary32) (/.f32 #s(literal 1/3 binary32) (*.f32 u0 u0))) (/.f32 #s(literal 1/2 binary32) u0)) u0))))
#s(approx (- 1 u0) (neg.f32 (*.f32 (-.f32 #s(literal 1 binary32) (/.f32 #s(literal 1 binary32) u0)) u0)))
#s(approx (* (+ (* (+ (* 1/3 u0) 1/2) u0) 1) u0) (neg.f32 (*.f32 (-.f32 (neg.f32 (/.f32 (+.f32 (/.f32 #s(literal 1 binary32) u0) #s(literal 1/2 binary32)) u0)) #s(literal 1/3 binary32)) (*.f32 (*.f32 u0 u0) u0))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (*.f32 (neg.f32 (log.f32 u0)) #s(literal 1 binary32)) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (-.f32 (/.f32 (*.f32 (neg.f32 (log.f32 u0)) #s(literal 1 binary32)) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))) (/.f32 #s(literal 1 binary32) (*.f32 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))) u0))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (-.f32 (+.f32 (neg.f32 (/.f32 (+.f32 (/.f32 #s(literal 3/2 binary32) (*.f32 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))) u0)) (/.f32 #s(literal 1 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0)) (/.f32 (neg.f32 (neg.f32 (log.f32 u0))) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) (/.f32 (*.f32 #s(literal -2 binary32) (neg.f32 (log.f32 u0))) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (+.f32 (/.f32 (neg.f32 (neg.f32 (log.f32 u0))) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))) (-.f32 (neg.f32 (/.f32 (+.f32 (+.f32 (/.f32 #s(literal 3/2 binary32) (*.f32 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))) u0)) (/.f32 #s(literal 1 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) (/.f32 #s(literal 1/3 binary32) (*.f32 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))) (*.f32 u0 u0)))) u0)) (/.f32 (*.f32 #s(literal -2 binary32) (neg.f32 (log.f32 u0))) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))))))
#s(approx (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (*.f32 (neg.f32 (log.f32 u0)) #s(literal 1 binary32)))
#s(approx (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (-.f32 (*.f32 (neg.f32 (log.f32 u0)) #s(literal 1 binary32)) (/.f32 #s(literal 1 binary32) u0)))
#s(approx (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+.f32 (neg.f32 (neg.f32 (log.f32 u0))) (-.f32 (neg.f32 (/.f32 (+.f32 (/.f32 #s(literal 3/2 binary32) u0) #s(literal 1 binary32)) u0)) (*.f32 #s(literal -2 binary32) (neg.f32 (log.f32 u0))))))
#s(approx (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (+.f32 (neg.f32 (neg.f32 (log.f32 u0))) (-.f32 (neg.f32 (/.f32 (+.f32 (+.f32 #s(literal 1 binary32) (/.f32 #s(literal 1/3 binary32) (*.f32 u0 u0))) (/.f32 #s(literal 3/2 binary32) u0)) u0)) (*.f32 #s(literal -2 binary32) (neg.f32 (log.f32 u0))))))
#s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (neg.f32 (neg.f32 (log.f32 u0))))
#s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (-.f32 (fma.f32 #s(literal -2 binary32) (neg.f32 (log.f32 u0)) (/.f32 #s(literal 1 binary32) u0)) (neg.f32 (neg.f32 (log.f32 u0)))))
#s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (-.f32 (fma.f32 #s(literal -2 binary32) (neg.f32 (log.f32 u0)) (+.f32 (/.f32 #s(literal 3/2 binary32) (*.f32 u0 u0)) (/.f32 #s(literal 1 binary32) u0))) (neg.f32 (neg.f32 (log.f32 u0)))))
#s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (-.f32 (fma.f32 #s(literal -2 binary32) (neg.f32 (log.f32 u0)) (neg.f32 (/.f32 (-.f32 (neg.f32 (/.f32 (+.f32 #s(literal 3/2 binary32) (/.f32 #s(literal 1/3 binary32) u0)) u0)) #s(literal 1 binary32)) u0))) (neg.f32 (neg.f32 (log.f32 u0)))))
#s(approx (log (- 1 (* u0 u0))) (*.f32 #s(literal -2 binary32) (neg.f32 (log.f32 u0))))
#s(approx (log (- 1 (* u0 u0))) (fma.f32 #s(literal -2 binary32) (neg.f32 (log.f32 u0)) (/.f32 #s(literal 1 binary32) (*.f32 u0 u0))))
#s(approx (log (- 1 (* u0 u0))) (-.f32 (fma.f32 #s(literal -2 binary32) (neg.f32 (log.f32 u0)) (/.f32 #s(literal 1 binary32) (*.f32 u0 u0))) (/.f32 #s(literal 1/2 binary32) (*.f32 (*.f32 u0 u0) (*.f32 u0 u0)))))
#s(approx (log (- 1 (* u0 u0))) (-.f32 (fma.f32 #s(literal -2 binary32) (neg.f32 (log.f32 u0)) (+.f32 (/.f32 #s(literal 1/3 binary32) (*.f32 (*.f32 (*.f32 u0 u0) u0) (*.f32 (*.f32 u0 u0) u0))) (/.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (/.f32 #s(literal 1/2 binary32) (*.f32 (*.f32 u0 u0) (*.f32 u0 u0)))))
#s(approx (log (+ 1 u0)) (-.f32 (neg.f32 (neg.f32 (log.f32 u0))) (/.f32 #s(literal 1 binary32) u0)))
#s(approx (log (+ 1 u0)) (+.f32 (neg.f32 (/.f32 (+.f32 (/.f32 #s(literal 1/2 binary32) u0) #s(literal 1 binary32)) u0)) (neg.f32 (neg.f32 (log.f32 u0)))))
#s(approx (log (+ 1 u0)) (+.f32 (neg.f32 (/.f32 (+.f32 (+.f32 #s(literal 1 binary32) (/.f32 #s(literal 1/3 binary32) (*.f32 u0 u0))) (/.f32 #s(literal 1/2 binary32) u0)) u0)) (neg.f32 (neg.f32 (log.f32 u0)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (fma.f32 (fma.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) (*.f32 (*.f32 sin2phi sin2phi) (*.f32 alphax alphax))) (neg.f32 (*.f32 (pow.f32 alphay #s(literal 6 binary32)) (/.f32 (*.f32 cos2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (*.f32 (*.f32 sin2phi sin2phi) sin2phi)))))) cos2phi (neg.f32 (*.f32 (*.f32 alphay alphay) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (fma.f32 (fma.f32 (fma.f32 (pow.f32 alphay #s(literal 8 binary32)) (/.f32 (*.f32 cos2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 sin2phi sin2phi) (*.f32 sin2phi sin2phi)) (pow.f32 alphax #s(literal 6 binary32)))) (neg.f32 (/.f32 (*.f32 (pow.f32 alphay #s(literal 6 binary32)) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (*.f32 (*.f32 sin2phi sin2phi) sin2phi))))) cos2phi (/.f32 (*.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 sin2phi sin2phi) (*.f32 alphax alphax)))) cos2phi (neg.f32 (*.f32 (*.f32 alphay alphay) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi)))))
#s(approx cos2phi cos2phi)
#s(approx (/ (log (- 1 u0)) cos2phi) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (fma.f32 (-.f32 (/.f32 (*.f32 (*.f32 (pow.f32 alphay #s(literal 6 binary32)) cos2phi) (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))))) (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (*.f32 (*.f32 sin2phi sin2phi) sin2phi))) (/.f32 (*.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay))) (*.f32 (*.f32 sin2phi sin2phi) (*.f32 alphax alphax)))) cos2phi (/.f32 (*.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (*.f32 alphay alphay)) sin2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (fma.f32 (-.f32 (*.f32 (-.f32 (neg.f32 (/.f32 (*.f32 (*.f32 (pow.f32 alphay #s(literal 8 binary32)) cos2phi) (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))))) (*.f32 (*.f32 (*.f32 sin2phi sin2phi) (*.f32 sin2phi sin2phi)) (pow.f32 alphax #s(literal 6 binary32))))) (neg.f32 (*.f32 (pow.f32 alphay #s(literal 6 binary32)) (/.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (*.f32 (*.f32 sin2phi sin2phi) sin2phi)))))) cos2phi) (/.f32 (*.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay))) (*.f32 (*.f32 sin2phi sin2phi) (*.f32 alphax alphax)))) cos2phi (/.f32 (*.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (*.f32 alphay alphay)) sin2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (fma.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (/.f32 (*.f32 sin2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphay alphay) cos2phi)) (neg.f32 (*.f32 (*.f32 alphax alphax) (log.f32 (-.f32 #s(literal 1 binary32) u0))))) cos2phi))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (+.f32 (fma.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (/.f32 (*.f32 sin2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphay alphay) cos2phi)) (neg.f32 (/.f32 (*.f32 (pow.f32 alphax #s(literal 6 binary32)) (*.f32 (*.f32 sin2phi sin2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0)))) (*.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) (*.f32 cos2phi cos2phi))))) (neg.f32 (*.f32 (*.f32 alphax alphax) (log.f32 (-.f32 #s(literal 1 binary32) u0))))) cos2phi))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (+.f32 (+.f32 (fma.f32 (pow.f32 alphax #s(literal 8 binary32)) (/.f32 (*.f32 (*.f32 (*.f32 sin2phi sin2phi) sin2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (pow.f32 alphay #s(literal 6 binary32)) (*.f32 (*.f32 cos2phi cos2phi) cos2phi))) (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) sin2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphay alphay) cos2phi))) (neg.f32 (/.f32 (*.f32 (pow.f32 alphax #s(literal 6 binary32)) (*.f32 (*.f32 sin2phi sin2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0)))) (*.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) (*.f32 cos2phi cos2phi))))) (neg.f32 (*.f32 (*.f32 alphax alphax) (log.f32 (-.f32 #s(literal 1 binary32) u0))))) cos2phi))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (*.f32 (+.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))) cos2phi))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (fma.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (*.f32 alphax alphax) (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) sin2phi) (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))))) (*.f32 (*.f32 alphay alphay) cos2phi)))) cos2phi))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (-.f32 (fma.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (*.f32 alphax alphax) (/.f32 (*.f32 (*.f32 (pow.f32 alphax #s(literal 6 binary32)) (*.f32 sin2phi sin2phi)) (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))))) (*.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) (*.f32 cos2phi cos2phi)))) (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) sin2phi) (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))))) (*.f32 (*.f32 alphay alphay) cos2phi))) cos2phi))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (-.f32 (fma.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (*.f32 alphax alphax) (neg.f32 (/.f32 (*.f32 (*.f32 (pow.f32 alphax #s(literal 8 binary32)) (*.f32 (*.f32 sin2phi sin2phi) sin2phi)) (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))))) (*.f32 (pow.f32 alphay #s(literal 6 binary32)) (*.f32 (*.f32 cos2phi cos2phi) cos2phi))))) (fma.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (/.f32 (*.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) sin2phi) (*.f32 (*.f32 alphay alphay) cos2phi)) (neg.f32 (/.f32 (*.f32 (*.f32 (pow.f32 alphax #s(literal 6 binary32)) (*.f32 sin2phi sin2phi)) (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))))) (*.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) (*.f32 cos2phi cos2phi)))))) cos2phi))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (/.f32 (fma.f32 (*.f32 alphax alphax) (log.f32 (-.f32 #s(literal 1 binary32) u0)) (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) sin2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphay alphay) cos2phi)))) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (/.f32 (fma.f32 (*.f32 alphax alphax) (log.f32 (-.f32 #s(literal 1 binary32) u0)) (neg.f32 (/.f32 (fma.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (/.f32 (*.f32 sin2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 alphay alphay)) (neg.f32 (/.f32 (*.f32 (pow.f32 alphax #s(literal 6 binary32)) (*.f32 (*.f32 sin2phi sin2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0)))) (*.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) cos2phi)))) cos2phi))) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (/.f32 (fma.f32 (*.f32 alphax alphax) (log.f32 (-.f32 #s(literal 1 binary32) u0)) (neg.f32 (/.f32 (fma.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (/.f32 (*.f32 sin2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 alphay alphay)) (neg.f32 (/.f32 (fma.f32 (pow.f32 alphax #s(literal 6 binary32)) (/.f32 (*.f32 (*.f32 sin2phi sin2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay))) (neg.f32 (/.f32 (*.f32 (pow.f32 alphax #s(literal 8 binary32)) (*.f32 (*.f32 (*.f32 sin2phi sin2phi) sin2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0)))) (*.f32 (pow.f32 alphay #s(literal 6 binary32)) cos2phi)))) cos2phi))) cos2phi))) cos2phi)))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (neg.f32 (*.f32 (-.f32 (neg.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi))) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (/.f32 (fma.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (/.f32 (*.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) sin2phi) (*.f32 (*.f32 alphay alphay) cos2phi)) (neg.f32 (*.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (*.f32 alphax alphax)))) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (/.f32 (+.f32 (neg.f32 (/.f32 (-.f32 (/.f32 (*.f32 (*.f32 (pow.f32 alphax #s(literal 6 binary32)) (*.f32 sin2phi sin2phi)) (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))))) (*.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) cos2phi)) (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) sin2phi) (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))))) (*.f32 alphay alphay))) cos2phi)) (neg.f32 (*.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (*.f32 alphax alphax)))) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (/.f32 (+.f32 (neg.f32 (/.f32 (-.f32 (neg.f32 (/.f32 (-.f32 (/.f32 (*.f32 (*.f32 (pow.f32 alphax #s(literal 8 binary32)) (*.f32 (*.f32 sin2phi sin2phi) sin2phi)) (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))))) (*.f32 (pow.f32 alphay #s(literal 6 binary32)) cos2phi)) (*.f32 (pow.f32 alphax #s(literal 6 binary32)) (/.f32 (*.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (*.f32 sin2phi sin2phi)) (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay))))) cos2phi)) (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) sin2phi) (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))))) (*.f32 alphay alphay))) cos2phi)) (neg.f32 (*.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (*.f32 alphax alphax)))) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (fma.f32 (neg.f32 (*.f32 alphax alphax)) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi) (*.f32 (fma.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) (*.f32 (*.f32 cos2phi cos2phi) (*.f32 alphay alphay))) (neg.f32 (*.f32 (pow.f32 alphax #s(literal 6 binary32)) (/.f32 (*.f32 sin2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 cos2phi cos2phi) cos2phi) (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay))))))) sin2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (fma.f32 (fma.f32 (fma.f32 (pow.f32 alphax #s(literal 8 binary32)) (/.f32 (*.f32 sin2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 cos2phi cos2phi) (*.f32 cos2phi cos2phi)) (pow.f32 alphay #s(literal 6 binary32)))) (neg.f32 (/.f32 (*.f32 (pow.f32 alphax #s(literal 6 binary32)) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 cos2phi cos2phi) cos2phi) (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)))))) sin2phi (/.f32 (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 cos2phi cos2phi) (*.f32 alphay alphay)))) sin2phi (*.f32 (*.f32 alphax alphax) (neg.f32 (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi)))))
#s(approx sin2phi sin2phi)
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (fma.f32 (-.f32 (/.f32 (*.f32 (*.f32 (pow.f32 alphax #s(literal 6 binary32)) sin2phi) (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))))) (*.f32 (*.f32 (*.f32 cos2phi cos2phi) cos2phi) (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)))) (/.f32 (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))))) (*.f32 (*.f32 cos2phi cos2phi) (*.f32 alphay alphay)))) sin2phi (/.f32 (*.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (*.f32 alphax alphax)) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (fma.f32 (-.f32 (*.f32 (-.f32 (neg.f32 (/.f32 (*.f32 (*.f32 (pow.f32 alphax #s(literal 8 binary32)) sin2phi) (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))))) (*.f32 (*.f32 (*.f32 cos2phi cos2phi) (*.f32 cos2phi cos2phi)) (pow.f32 alphay #s(literal 6 binary32))))) (neg.f32 (*.f32 (pow.f32 alphax #s(literal 6 binary32)) (/.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (*.f32 (*.f32 (*.f32 cos2phi cos2phi) cos2phi) (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay))))))) sin2phi) (/.f32 (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))))) (*.f32 (*.f32 cos2phi cos2phi) (*.f32 alphay alphay)))) sin2phi (/.f32 (*.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (*.f32 alphax alphax)) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (fma.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) (/.f32 (*.f32 cos2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphax alphax) sin2phi)) (neg.f32 (*.f32 (*.f32 alphay alphay) (log.f32 (-.f32 #s(literal 1 binary32) u0))))) sin2phi))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (+.f32 (fma.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) (/.f32 (*.f32 cos2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphax alphax) sin2phi)) (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 cos2phi cos2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (pow.f32 alphay #s(literal 6 binary32))) (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (*.f32 sin2phi sin2phi))))) (neg.f32 (*.f32 (*.f32 alphay alphay) (log.f32 (-.f32 #s(literal 1 binary32) u0))))) sin2phi))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (+.f32 (+.f32 (fma.f32 (pow.f32 alphay #s(literal 8 binary32)) (/.f32 (*.f32 (*.f32 (*.f32 cos2phi cos2phi) cos2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (pow.f32 alphax #s(literal 6 binary32)) (*.f32 (*.f32 sin2phi sin2phi) sin2phi))) (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) cos2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphax alphax) sin2phi))) (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 cos2phi cos2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (pow.f32 alphay #s(literal 6 binary32))) (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (*.f32 sin2phi sin2phi))))) (neg.f32 (*.f32 (*.f32 alphay alphay) (log.f32 (-.f32 #s(literal 1 binary32) u0))))) sin2phi))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (*.f32 (+.f32 (/.f32 cos2phi (*.f32 (*.f32 alphax alphax) sin2phi)) (/.f32 #s(literal 1 binary32) (*.f32 alphay alphay))) sin2phi))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (fma.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (*.f32 alphay alphay) (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) cos2phi) (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))))) (*.f32 (*.f32 alphax alphax) sin2phi)))) sin2phi))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (-.f32 (fma.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (*.f32 alphay alphay) (/.f32 (*.f32 (*.f32 (pow.f32 alphay #s(literal 6 binary32)) (*.f32 cos2phi cos2phi)) (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))))) (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (*.f32 sin2phi sin2phi)))) (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) cos2phi) (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))))) (*.f32 (*.f32 alphax alphax) sin2phi))) sin2phi))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (-.f32 (fma.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (*.f32 alphay alphay) (neg.f32 (/.f32 (*.f32 (*.f32 (pow.f32 alphay #s(literal 8 binary32)) (*.f32 (*.f32 cos2phi cos2phi) cos2phi)) (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))))) (*.f32 (pow.f32 alphax #s(literal 6 binary32)) (*.f32 (*.f32 sin2phi sin2phi) sin2phi))))) (fma.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) (/.f32 (*.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) cos2phi) (*.f32 (*.f32 alphax alphax) sin2phi)) (neg.f32 (/.f32 (*.f32 (*.f32 (pow.f32 alphay #s(literal 6 binary32)) (*.f32 cos2phi cos2phi)) (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))))) (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (*.f32 sin2phi sin2phi)))))) sin2phi))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (/.f32 (fma.f32 (*.f32 alphay alphay) (log.f32 (-.f32 #s(literal 1 binary32) u0)) (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) cos2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphax alphax) sin2phi)))) sin2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (/.f32 (fma.f32 (*.f32 alphay alphay) (log.f32 (-.f32 #s(literal 1 binary32) u0)) (neg.f32 (/.f32 (fma.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) (/.f32 (*.f32 cos2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 alphax alphax)) (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 cos2phi cos2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (pow.f32 alphay #s(literal 6 binary32))) (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) sin2phi)))) sin2phi))) sin2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (/.f32 (fma.f32 (*.f32 alphay alphay) (log.f32 (-.f32 #s(literal 1 binary32) u0)) (neg.f32 (/.f32 (fma.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) (/.f32 (*.f32 cos2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 alphax alphax)) (neg.f32 (/.f32 (fma.f32 (pow.f32 alphay #s(literal 6 binary32)) (/.f32 (*.f32 (*.f32 cos2phi cos2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax))) (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 cos2phi cos2phi) cos2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (pow.f32 alphay #s(literal 8 binary32))) (*.f32 (pow.f32 alphax #s(literal 6 binary32)) sin2phi)))) sin2phi))) sin2phi))) sin2phi)))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (neg.f32 (*.f32 (-.f32 (neg.f32 (/.f32 cos2phi (*.f32 (*.f32 alphax alphax) sin2phi))) (/.f32 #s(literal 1 binary32) (*.f32 alphay alphay))) sin2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (/.f32 (fma.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) (/.f32 (*.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) cos2phi) (*.f32 (*.f32 alphax alphax) sin2phi)) (neg.f32 (*.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (*.f32 alphay alphay)))) sin2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (/.f32 (+.f32 (neg.f32 (/.f32 (-.f32 (/.f32 (*.f32 (*.f32 (pow.f32 alphay #s(literal 6 binary32)) (*.f32 cos2phi cos2phi)) (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))))) (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) sin2phi)) (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) cos2phi) (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))))) (*.f32 alphax alphax))) sin2phi)) (neg.f32 (*.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (*.f32 alphay alphay)))) sin2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (/.f32 (+.f32 (neg.f32 (/.f32 (-.f32 (neg.f32 (/.f32 (-.f32 (/.f32 (*.f32 (*.f32 (pow.f32 alphay #s(literal 8 binary32)) (*.f32 (*.f32 cos2phi cos2phi) cos2phi)) (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))))) (*.f32 (pow.f32 alphax #s(literal 6 binary32)) sin2phi)) (*.f32 (pow.f32 alphay #s(literal 6 binary32)) (/.f32 (*.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (*.f32 cos2phi cos2phi)) (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax))))) sin2phi)) (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) cos2phi) (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))))) (*.f32 alphax alphax))) sin2phi)) (neg.f32 (*.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (*.f32 alphay alphay)))) sin2phi)))

eval55.0ms (0.9%)

Memory
23.3MiB live, 67.1MiB allocated; 5ms collecting garbage
Compiler

Compiled 7 794 to 2 288 computations (70.6% saved)

prune80.0ms (1.3%)

Memory
-44.1MiB live, 103.2MiB allocated; 17ms collecting garbage
Pruning

58 alts after pruning (53 fresh and 5 done)

PrunedKeptTotal
New40747454
Fresh9615
Picked145
Done011
Total41758475
Accuracy
99.8%
Counts
475 → 58
Alt Table
Click to see full alt table
StatusAccuracyProgram
59.1%
(/.f32 (neg.f32 (-.f32 (log1p.f32 (*.f32 (neg.f32 u0) u0)) (log.f32 (+.f32 #s(literal 1 binary32) u0)))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
57.5%
(/.f32 (neg.f32 (-.f32 (log.f32 (/.f32 (-.f32 #s(literal 1 binary32) (pow.f32 (*.f32 u0 u0) #s(literal 3 binary32))) (+.f32 #s(literal 1 binary32) (fma.f32 (*.f32 u0 u0) (*.f32 u0 u0) (*.f32 #s(literal 1 binary32) (*.f32 u0 u0)))))) (log.f32 (+.f32 #s(literal 1 binary32) u0)))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
46.8%
(/.f32 (neg.f32 (-.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 (*.f32 u0 u0) u0))) (log.f32 (+.f32 #s(literal 1 binary32) (fma.f32 u0 u0 (*.f32 #s(literal 1 binary32) u0)))))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
60.1%
(/.f32 (neg.f32 (-.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) (-.f32 (log.f32 (+.f32 #s(literal 1 binary32) (*.f32 (*.f32 u0 u0) u0))) (log.f32 (+.f32 #s(literal 1 binary32) (-.f32 (*.f32 u0 u0) (*.f32 #s(literal 1 binary32) u0))))))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
88.7%
(/.f32 (neg.f32 (-.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) (log1p.f32 u0))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
46.6%
(/.f32 (neg.f32 (-.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) (log.f32 (+.f32 u0 #s(literal 1 binary32))))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
57.9%
(/.f32 (neg.f32 (-.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) (log.f32 (+.f32 #s(literal 1 binary32) u0)))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 (/.f32 sin2phi alphay) alphay)))
83.9%
(/.f32 (neg.f32 (-.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) #s(approx (log (+ 1 u0)) (*.f32 (fma.f32 (-.f32 (*.f32 (fma.f32 #s(literal -1/4 binary32) u0 #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
61.1%
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 (/.f32 sin2phi alphay) alphay)))
61.1%
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
48.9%
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 (/.f32 sin2phi alphay) alphay)))
48.9%
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
48.6%
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (exp.f32 (*.f32 (log.f32 alphay) #s(literal 2 binary32))))))
22.8%
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
49.4%
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (*.f32 (+.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))) cos2phi)))
60.9%
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (*.f32 (+.f32 (/.f32 cos2phi (*.f32 (*.f32 alphax alphax) sin2phi)) (/.f32 #s(literal 1 binary32) (*.f32 alphay alphay))) sin2phi)))
69.6%
(/.f32 (neg.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)) u0) #s(literal 1 binary32)) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
68.2%
(/.f32 (neg.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/3 binary32) u0) #s(literal 1/2 binary32)) u0) #s(literal 1 binary32)) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
65.8%
(/.f32 (neg.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (*.f32 (-.f32 (*.f32 #s(literal -1/2 binary32) u0) #s(literal 1 binary32)) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
58.3%
(/.f32 (neg.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (neg.f32 u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
58.4%
(/.f32 (log.f32 (/.f32 #s(literal 1 binary32) (-.f32 #s(literal 1 binary32) u0))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
47.1%
(/.f32 (log.f32 (/.f32 #s(literal 1 binary32) (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
87.4%
(/.f32 #s(approx (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (*.f32 (fma.f32 #s(literal 1/2 binary32) u0 #s(literal 1 binary32)) u0)) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
75.4%
(/.f32 #s(approx (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) u0) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
92.9%
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
91.0%
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0)))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
92.6%
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
27.5%
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
74.6%
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (*.f32 (+.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))) cos2phi)))
90.6%
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) (/.f32 (fma.f32 (*.f32 alphay alphay) cos2phi (*.f32 (*.f32 alphax alphax) sin2phi)) (*.f32 (*.f32 alphax alphax) (*.f32 alphay alphay))))
90.8%
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) (+.f32 (/.f32 (/.f32 cos2phi alphax) alphax) (/.f32 sin2phi (*.f32 alphay alphay))))
90.8%
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 (/.f32 sin2phi alphay) alphay)))
90.8%
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
90.8%
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 (fma.f32 (*.f32 alphay alphay) (/.f32 cos2phi (*.f32 alphax alphax)) sin2phi) (*.f32 alphay alphay))))
90.8%
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 (fma.f32 (*.f32 alphax alphax) (/.f32 sin2phi (*.f32 alphay alphay)) cos2phi) (*.f32 alphax alphax))))
27.0%
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
73.3%
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (*.f32 (+.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))) cos2phi)))
90.0%
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (*.f32 (+.f32 (/.f32 cos2phi (*.f32 (*.f32 alphax alphax) sin2phi)) (/.f32 #s(literal 1 binary32) (*.f32 alphay alphay))) sin2phi)))
92.3%
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) 1) (neg.f32 (*.f32 (-.f32 (neg.f32 (/.f32 (+.f32 (+.f32 (/.f32 #s(literal 1 binary32) (*.f32 u0 u0)) (/.f32 #s(literal 1/2 binary32) u0)) #s(literal 1/3 binary32)) u0)) #s(literal 1/4 binary32)) (*.f32 (*.f32 u0 u0) u0)))) u0)) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
92.2%
(/.f32 #s(approx (neg (log (- 1 u0))) #s(approx (* (+ (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) 1) u0) (*.f32 (+.f32 (neg.f32 (/.f32 (-.f32 (neg.f32 (/.f32 (+.f32 (/.f32 #s(literal 1 binary32) u0) #s(literal 1/2 binary32)) u0)) #s(literal 1/3 binary32)) u0)) #s(literal 1/4 binary32)) (*.f32 (*.f32 u0 u0) (*.f32 u0 u0))))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
90.6%
(/.f32 #s(approx (neg (log (- 1 u0))) #s(approx (* (+ (* (+ (* 1/3 u0) 1/2) u0) 1) u0) (neg.f32 (*.f32 (-.f32 (neg.f32 (/.f32 (+.f32 (/.f32 #s(literal 1 binary32) u0) #s(literal 1/2 binary32)) u0)) #s(literal 1/3 binary32)) (*.f32 (*.f32 u0 u0) u0))))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
46.6%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (*.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (*.f32 alphay alphay)) sin2phi))
21.9%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (*.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (*.f32 alphax alphax)) cos2phi))
22.7%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (neg.f32 (*.f32 (*.f32 alphax alphax) (log.f32 (-.f32 #s(literal 1 binary32) u0)))) cos2phi))
90.7%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (fma.f32 (fma.f32 (/.f32 u0 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))) #s(literal 1/3 binary32) (/.f32 #s(literal 1/2 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0 (/.f32 #s(literal 1 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0))
87.4%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (fma.f32 (/.f32 u0 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))) #s(literal 1/2 binary32) (/.f32 #s(literal 1 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0))
14.0%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (+.f32 (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 alphax alphax) sin2phi) (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))))) (*.f32 (*.f32 cos2phi cos2phi) (*.f32 alphay alphay)))) (-.f32 (/.f32 (log.f32 (+.f32 u0 #s(literal 1 binary32))) cos2phi) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) cos2phi))) (*.f32 alphax alphax)))
49.1%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphay alphay) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi))))
22.1%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (-.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) (log.f32 (+.f32 u0 #s(literal 1 binary32)))) cos2phi))))
22.7%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi))))
26.3%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (*.f32 (-.f32 (*.f32 #s(literal -1/2 binary32) u0) #s(literal 1 binary32)) u0)) cos2phi))))
23.9%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (neg.f32 u0)) cos2phi))))
26.3%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) #s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 (-.f32 (*.f32 (/.f32 u0 cos2phi) #s(literal -1/2 binary32)) (/.f32 #s(literal 1 binary32) cos2phi)) u0)))))
27.0%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) #s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (/.f32 u0 cos2phi) #s(literal -1/3 binary32)) (/.f32 #s(literal 1/2 binary32) cos2phi)) u0) (/.f32 #s(literal 1 binary32) cos2phi)) u0)))))
27.5%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) #s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (/.f32 u0 cos2phi) #s(literal -1/4 binary32)) (/.f32 #s(literal 1/3 binary32) cos2phi)) u0) (/.f32 #s(literal 1/2 binary32) cos2phi)) u0) (/.f32 #s(literal 1 binary32) cos2phi)) u0)))))
22.7%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 alphax (*.f32 alphax (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi)))))
23.9%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi)))
26.4%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 (-.f32 (*.f32 (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi) #s(literal 1/2 binary32)) (neg.f32 (/.f32 (*.f32 alphax alphax) cos2phi))) u0)))
Compiler

Compiled 2 942 to 2 856 computations (2.9% saved)

series124.0ms (2%)

Memory
6.7MiB live, 205.0MiB allocated; 46ms collecting garbage
Counts
45 → 131
Calls
Call 1
Inputs
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
#s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0))))
(fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)))
u0
#s(literal 1 binary32)
(*.f32 u0 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0))
(*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)
(fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32))
(fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32))
#s(literal 1/4 binary32)
#s(literal 1/3 binary32)
#s(literal 1/2 binary32)
(+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay)))
(/.f32 cos2phi (*.f32 alphax alphax))
cos2phi
(*.f32 alphax alphax)
alphax
(/.f32 sin2phi (*.f32 alphay alphay))
sin2phi
(*.f32 alphay alphay)
alphay
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi)))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi))
(/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi)
(*.f32 (*.f32 alphax alphax) u0)
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
#s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0))
(*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)
(fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32))
(fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax)))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) (+.f32 (/.f32 (/.f32 cos2phi alphax) alphax) (/.f32 sin2phi (*.f32 alphay alphay))))
(+.f32 (/.f32 (/.f32 cos2phi alphax) alphax) (/.f32 sin2phi (*.f32 alphay alphay)))
(/.f32 (/.f32 cos2phi alphax) alphax)
(/.f32 cos2phi alphax)
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (*.f32 (+.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))) cos2phi)))
#s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0))
(*.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)
(fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (*.f32 (+.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))) cos2phi))
(*.f32 (+.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))) cos2phi)
(+.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax)))
(/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi))
(*.f32 (*.f32 alphay alphay) cos2phi)
(/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))
Outputs
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (* (pow alphax 2) (log (- 1 u0))) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* (pow alphax 2) (+ (* -1 (/ (log (- 1 u0)) cos2phi)) (/ (* (pow alphax 2) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) (pow cos2phi 2)))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* (pow alphax 2) (+ (* -1 (/ (log (- 1 u0)) cos2phi)) (* (pow alphax 2) (+ (* -1 (/ (* (pow alphax 2) (* (pow sin2phi 2) (log (- 1 u0)))) (* (pow alphay 4) (pow cos2phi 3)))) (/ (* sin2phi (log (- 1 u0))) (* (pow alphay 2) (pow cos2phi 2)))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* (pow alphax 2) (+ (* -1 (/ (log (- 1 u0)) cos2phi)) (* (pow alphax 2) (+ (* (pow alphax 2) (+ (* -1 (/ (* (pow sin2phi 2) (log (- 1 u0))) (* (pow alphay 4) (pow cos2phi 3)))) (/ (* (pow alphax 2) (* (pow sin2phi 3) (log (- 1 u0)))) (* (pow alphay 6) (pow cos2phi 4))))) (/ (* sin2phi (log (- 1 u0))) (* (pow alphay 2) (pow cos2phi 2)))))))))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) #s(hole binary32 (/ cos2phi (pow alphax 2))))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) #s(hole binary32 (/ (+ cos2phi (/ (* (pow alphax 2) sin2phi) (pow alphay 2))) (pow alphax 2))))
#s(approx (* alphax alphax) #s(hole binary32 (pow alphax 2)))
#s(approx alphax #s(hole binary32 alphax))
#s(approx (/ (* (* alphax alphax) u0) cos2phi) #s(hole binary32 (/ (* (pow alphax 2) u0) cos2phi)))
#s(approx (* (* alphax alphax) u0) #s(hole binary32 (* (pow alphax 2) u0)))
#s(approx (/ cos2phi alphax) #s(hole binary32 (/ cos2phi alphax)))
#s(approx (+ (/ sin2phi (* (* alphay alphay) cos2phi)) (/ 1 (* alphax alphax))) #s(hole binary32 (/ 1 (pow alphax 2))))
#s(approx (+ (/ sin2phi (* (* alphay alphay) cos2phi)) (/ 1 (* alphax alphax))) #s(hole binary32 (/ (+ 1 (/ (* (pow alphax 2) sin2phi) (* (pow alphay 2) cos2phi))) (pow alphax 2))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (* (pow alphay 2) (log (- 1 u0))) sin2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphay 2) (log (- 1 u0))) sin2phi)) (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) (pow sin2phi 2))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphay 2) (log (- 1 u0))) sin2phi)) (+ (* -1 (/ (* (pow alphay 6) (* (pow cos2phi 2) (log (- 1 u0)))) (* (pow alphax 4) (pow sin2phi 3)))) (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) (pow sin2phi 2)))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphay 2) (log (- 1 u0))) sin2phi)) (+ (* -1 (/ (* (pow alphay 6) (* (pow cos2phi 2) (log (- 1 u0)))) (* (pow alphax 4) (pow sin2phi 3)))) (+ (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) (pow sin2phi 2))) (/ (* (pow alphay 8) (* (pow cos2phi 3) (log (- 1 u0)))) (* (pow alphax 6) (pow sin2phi 4))))))))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) #s(hole binary32 (/ sin2phi (pow alphay 2))))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) #s(hole binary32 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2)))))
#s(approx (+ (/ sin2phi (* (* alphay alphay) cos2phi)) (/ 1 (* alphax alphax))) #s(hole binary32 (/ sin2phi (* (pow alphay 2) cos2phi))))
#s(approx (+ (/ sin2phi (* (* alphay alphay) cos2phi)) (/ 1 (* alphax alphax))) #s(hole binary32 (+ (/ 1 (pow alphax 2)) (/ sin2phi (* (pow alphay 2) cos2phi)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* (pow alphay 2) (+ (* -1 (/ (log (- 1 u0)) sin2phi)) (/ (* (pow alphay 2) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) (pow sin2phi 2)))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* (pow alphay 2) (+ (* -1 (/ (log (- 1 u0)) sin2phi)) (* (pow alphay 2) (+ (* -1 (/ (* (pow alphay 2) (* (pow cos2phi 2) (log (- 1 u0)))) (* (pow alphax 4) (pow sin2phi 3)))) (/ (* cos2phi (log (- 1 u0))) (* (pow alphax 2) (pow sin2phi 2)))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* (pow alphay 2) (+ (* -1 (/ (log (- 1 u0)) sin2phi)) (* (pow alphay 2) (+ (* (pow alphay 2) (+ (* -1 (/ (* (pow cos2phi 2) (log (- 1 u0))) (* (pow alphax 4) (pow sin2phi 3)))) (/ (* (pow alphay 2) (* (pow cos2phi 3) (log (- 1 u0)))) (* (pow alphax 6) (pow sin2phi 4))))) (/ (* cos2phi (log (- 1 u0))) (* (pow alphax 2) (pow sin2phi 2)))))))))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) #s(hole binary32 (/ (+ sin2phi (/ (* (pow alphay 2) cos2phi) (pow alphax 2))) (pow alphay 2))))
#s(approx (* alphay alphay) #s(hole binary32 (pow alphay 2)))
#s(approx alphay #s(hole binary32 alphay))
#s(approx (+ (/ sin2phi (* (* alphay alphay) cos2phi)) (/ 1 (* alphax alphax))) #s(hole binary32 (/ (+ (/ sin2phi cos2phi) (/ (pow alphay 2) (pow alphax 2))) (pow alphay 2))))
#s(approx (* (* alphay alphay) cos2phi) #s(hole binary32 (* (pow alphay 2) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (- 1 u0))) cos2phi)) (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) (pow cos2phi 2))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (- 1 u0))) cos2phi)) (+ (* -1 (/ (* (pow alphax 6) (* (pow sin2phi 2) (log (- 1 u0)))) (* (pow alphay 4) (pow cos2phi 3)))) (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) (pow cos2phi 2)))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (- 1 u0))) cos2phi)) (+ (* -1 (/ (* (pow alphax 6) (* (pow sin2phi 2) (log (- 1 u0)))) (* (pow alphay 4) (pow cos2phi 3)))) (+ (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) (pow cos2phi 2))) (/ (* (pow alphax 8) (* (pow sin2phi 3) (log (- 1 u0)))) (* (pow alphay 6) (pow cos2phi 4))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* u0 (+ (* 1/2 (/ u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (/ 1 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* u0 (+ (* u0 (+ (* 1/3 (/ u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (* 1/2 (/ 1 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))) (/ 1 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* u0 (+ (* u0 (+ (* u0 (+ (* 1/4 (/ u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (* 1/3 (/ 1 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))) (* 1/2 (/ 1 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))) (/ 1 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 u0))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (* u0 (+ 1 (* 1/2 u0)))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (* u0 (+ 1 (* u0 (+ 1/2 (* 1/3 u0)))))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (* u0 (+ 1 (* u0 (+ 1/2 (* u0 (+ 1/3 (* 1/4 u0)))))))))
#s(approx (* u0 (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0)) #s(hole binary32 (* 1/2 (pow u0 2))))
#s(approx (* u0 (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0)) #s(hole binary32 (* (pow u0 2) (+ 1/2 (* 1/3 u0)))))
#s(approx (* u0 (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0)) #s(hole binary32 (* (pow u0 2) (+ 1/2 (* u0 (+ 1/3 (* 1/4 u0)))))))
#s(approx (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) #s(hole binary32 (* 1/2 u0)))
#s(approx (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) #s(hole binary32 (* u0 (+ 1/2 (* 1/3 u0)))))
#s(approx (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) #s(hole binary32 (* u0 (+ 1/2 (* u0 (+ 1/3 (* 1/4 u0)))))))
#s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(hole binary32 1/2))
#s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(hole binary32 (+ 1/2 (* 1/3 u0))))
#s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(hole binary32 (+ 1/2 (* u0 (+ 1/3 (* 1/4 u0))))))
#s(approx (+ (* 1/4 u0) 1/3) #s(hole binary32 1/3))
#s(approx (+ (* 1/4 u0) 1/3) #s(hole binary32 (+ 1/3 (* 1/4 u0))))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) #s(hole binary32 (* u0 (- (* 1/2 (/ (* (pow alphax 2) u0) cos2phi)) (* -1 (/ (pow alphax 2) cos2phi))))))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) #s(hole binary32 (* u0 (- (* u0 (- (* 1/3 (/ (* (pow alphax 2) u0) cos2phi)) (* -1/2 (/ (pow alphax 2) cos2phi)))) (* -1 (/ (pow alphax 2) cos2phi))))))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) #s(hole binary32 (* u0 (- (* u0 (- (* u0 (- (* 1/4 (/ (* (pow alphax 2) u0) cos2phi)) (* -1/3 (/ (pow alphax 2) cos2phi)))) (* -1/2 (/ (pow alphax 2) cos2phi)))) (* -1 (/ (pow alphax 2) cos2phi))))))
#s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(hole binary32 1))
#s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(hole binary32 (+ 1 (* 1/2 u0))))
#s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(hole binary32 (+ 1 (* u0 (+ 1/2 (* 1/3 u0))))))
#s(approx (+ (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) 1) #s(hole binary32 (+ 1 (* u0 (+ 1/2 (* u0 (+ 1/3 (* 1/4 u0))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (log (neg (/ 1 u0))) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (- (/ (log (neg (/ 1 u0))) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2)))) (/ 1 (* u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (- (+ (/ 1/2 (* (pow u0 2) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (/ (log (neg (/ 1 u0))) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (/ 1 (* u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (- (+ (* 1/2 (/ 1 (* (pow u0 2) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2)))))) (/ (log (neg (/ 1 u0))) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (+ (/ 1 (* u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (* 1/3 (/ 1 (* (pow u0 3) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (log (neg (/ 1 u0)))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (* -1 (+ (* -1 (log (neg (/ 1 u0)))) (/ 1 u0)))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (- (/ 1/2 (pow u0 2)) (+ (* -1 (log (neg (/ 1 u0)))) (/ 1 u0)))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (- (/ 1/2 (pow u0 2)) (+ (* -1 (log (neg (/ 1 u0)))) (+ (/ 1 u0) (* 1/3 (/ 1 (pow u0 3))))))))
#s(approx (+ (* u0 1) (* u0 (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0))) #s(hole binary32 (* 1/4 (pow u0 4))))
#s(approx (+ (* u0 1) (* u0 (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0))) #s(hole binary32 (* (pow u0 4) (+ 1/4 (* 1/3 (/ 1 u0))))))
#s(approx (+ (* u0 1) (* u0 (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0))) #s(hole binary32 (* (pow u0 4) (+ 1/4 (+ (/ 1/2 (pow u0 2)) (* 1/3 (/ 1 u0)))))))
#s(approx (+ (* u0 1) (* u0 (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0))) #s(hole binary32 (* (pow u0 4) (+ 1/4 (+ (/ 1/2 (pow u0 2)) (+ (* 1/3 (/ 1 u0)) (/ 1 (pow u0 3))))))))
#s(approx (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) #s(hole binary32 (* 1/4 (pow u0 3))))
#s(approx (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) #s(hole binary32 (* (pow u0 3) (+ 1/4 (* 1/3 (/ 1 u0))))))
#s(approx (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) #s(hole binary32 (* (pow u0 3) (+ 1/4 (+ (/ 1/2 (pow u0 2)) (* 1/3 (/ 1 u0)))))))
#s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(hole binary32 (* 1/4 (pow u0 2))))
#s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(hole binary32 (* (pow u0 2) (+ 1/4 (* 1/3 (/ 1 u0))))))
#s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(hole binary32 (* (pow u0 2) (+ 1/4 (+ (/ 1/2 (pow u0 2)) (* 1/3 (/ 1 u0)))))))
#s(approx (+ (* 1/4 u0) 1/3) #s(hole binary32 (* 1/4 u0)))
#s(approx (+ (* 1/4 u0) 1/3) #s(hole binary32 (* u0 (+ 1/4 (* 1/3 (/ 1 u0))))))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) #s(hole binary32 (/ (* (pow alphax 2) (log (neg (/ 1 u0)))) cos2phi)))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) #s(hole binary32 (- (* -1 (/ (pow alphax 2) (* cos2phi u0))) (* -1 (/ (* (pow alphax 2) (log (neg (/ 1 u0)))) cos2phi)))))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) #s(hole binary32 (- (* 1/2 (/ (pow alphax 2) (* cos2phi (pow u0 2)))) (+ (* -1 (/ (* (pow alphax 2) (log (neg (/ 1 u0)))) cos2phi)) (/ (pow alphax 2) (* cos2phi u0))))))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) #s(hole binary32 (- (* -1/3 (/ (pow alphax 2) (* cos2phi (pow u0 3)))) (+ (* -1 (/ (* (pow alphax 2) (log (neg (/ 1 u0)))) cos2phi)) (+ (* -1/2 (/ (pow alphax 2) (* cos2phi (pow u0 2)))) (/ (pow alphax 2) (* cos2phi u0)))))))
#s(approx (* (+ (* (+ (* 1/3 u0) 1/2) u0) 1) u0) #s(hole binary32 (* 1/3 (pow u0 3))))
#s(approx (* (+ (* (+ (* 1/3 u0) 1/2) u0) 1) u0) #s(hole binary32 (* (pow u0 3) (+ 1/3 (* 1/2 (/ 1 u0))))))
#s(approx (* (+ (* (+ (* 1/3 u0) 1/2) u0) 1) u0) #s(hole binary32 (* (pow u0 3) (+ 1/3 (+ (* 1/2 (/ 1 u0)) (/ 1 (pow u0 2)))))))
#s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(hole binary32 (* 1/3 (pow u0 2))))
#s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(hole binary32 (* (pow u0 2) (+ 1/3 (* 1/2 (/ 1 u0))))))
#s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(hole binary32 (* (pow u0 2) (+ 1/3 (+ (* 1/2 (/ 1 u0)) (/ 1 (pow u0 2)))))))
#s(approx (+ (* 1/3 u0) 1/2) #s(hole binary32 (* 1/3 u0)))
#s(approx (+ (* 1/3 u0) 1/2) #s(hole binary32 (* u0 (+ 1/3 (* 1/2 (/ 1 u0))))))
#s(approx (+ (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) 1) #s(hole binary32 (* (pow u0 3) (+ 1/4 (+ (/ 1/2 (pow u0 2)) (+ (* 1/3 (/ 1 u0)) (/ 1 (pow u0 3))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (log (/ -1 u0)) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (/ 1 (* u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (/ (log (/ -1 u0)) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2)))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (/ 1/2 (* (pow u0 2) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (+ (/ 1 (* u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (/ (log (/ -1 u0)) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (- (* -1 (/ (+ (* 1/3 (/ 1 (* u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2)))))) (* 1/2 (/ 1 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2)))))) u0)) (/ 1 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) u0)) (/ (log (/ -1 u0)) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2)))))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (log (/ -1 u0))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (- (/ 1 u0) (* -1 (log (/ -1 u0))))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (- (+ (/ 1/2 (pow u0 2)) (/ 1 u0)) (* -1 (log (/ -1 u0))))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (- (* -1 (/ (- (* -1 (/ (+ 1/2 (* 1/3 (/ 1 u0))) u0)) 1) u0)) (* -1 (log (/ -1 u0))))))
#s(approx (+ (* u0 1) (* u0 (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0))) #s(hole binary32 (* (pow u0 4) (+ 1/4 (* -1 (/ (- (* -1 (/ (+ 1/2 (/ 1 u0)) u0)) 1/3) u0))))))
#s(approx (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) #s(hole binary32 (* -1 (* (pow u0 3) (- (* -1 (/ (+ 1/3 (* 1/2 (/ 1 u0))) u0)) 1/4)))))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) #s(hole binary32 (/ (* (pow alphax 2) (log (/ -1 u0))) cos2phi)))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) #s(hole binary32 (- (/ (pow alphax 2) (* cos2phi u0)) (* -1 (/ (* (pow alphax 2) (log (/ -1 u0))) cos2phi)))))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) #s(hole binary32 (- (* -1 (/ (- (* -1/2 (/ (pow alphax 2) (* cos2phi u0))) (/ (pow alphax 2) cos2phi)) u0)) (* -1 (/ (* (pow alphax 2) (log (/ -1 u0))) cos2phi)))))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) #s(hole binary32 (- (* -1 (/ (- (* -1 (/ (- (* 1/3 (/ (pow alphax 2) (* cos2phi u0))) (* -1/2 (/ (pow alphax 2) cos2phi))) u0)) (/ (pow alphax 2) cos2phi)) u0)) (* -1 (/ (* (pow alphax 2) (log (/ -1 u0))) cos2phi)))))
#s(approx (* (+ (* (+ (* 1/3 u0) 1/2) u0) 1) u0) #s(hole binary32 (* -1 (* (pow u0 3) (- (* -1 (/ (+ 1/2 (/ 1 u0)) u0)) 1/3)))))
#s(approx (+ (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) 1) #s(hole binary32 (* -1 (* (pow u0 3) (- (* -1 (/ (+ 1/3 (+ (* 1/2 (/ 1 u0)) (/ 1 (pow u0 2)))) u0)) 1/4)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphay 2) (log (- 1 u0))) sin2phi)) (* cos2phi (+ (* -1 (/ (* (pow alphay 6) (* cos2phi (log (- 1 u0)))) (* (pow alphax 4) (pow sin2phi 3)))) (/ (* (pow alphay 4) (log (- 1 u0))) (* (pow alphax 2) (pow sin2phi 2))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphay 2) (log (- 1 u0))) sin2phi)) (* cos2phi (+ (* cos2phi (+ (* -1 (/ (* (pow alphay 6) (log (- 1 u0))) (* (pow alphax 4) (pow sin2phi 3)))) (/ (* (pow alphay 8) (* cos2phi (log (- 1 u0)))) (* (pow alphax 6) (pow sin2phi 4))))) (/ (* (pow alphay 4) (log (- 1 u0))) (* (pow alphax 2) (pow sin2phi 2))))))))
#s(approx cos2phi #s(hole binary32 cos2phi))
#s(approx (+ (/ sin2phi (* (* alphay alphay) cos2phi)) (/ 1 (* alphax alphax))) #s(hole binary32 (/ (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (+ (* -1 (* (pow alphax 2) (log (- 1 u0)))) (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) cos2phi))) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (+ (* -1 (* (pow alphax 2) (log (- 1 u0)))) (+ (* -1 (/ (* (pow alphax 6) (* (pow sin2phi 2) (log (- 1 u0)))) (* (pow alphay 4) (pow cos2phi 2)))) (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) cos2phi)))) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (+ (* -1 (* (pow alphax 2) (log (- 1 u0)))) (+ (* -1 (/ (* (pow alphax 6) (* (pow sin2phi 2) (log (- 1 u0)))) (* (pow alphay 4) (pow cos2phi 2)))) (+ (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) cos2phi)) (/ (* (pow alphax 8) (* (pow sin2phi 3) (log (- 1 u0)))) (* (pow alphay 6) (pow cos2phi 3)))))) cos2phi)))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) #s(hole binary32 (* cos2phi (+ (/ 1 (pow alphax 2)) (/ sin2phi (* (pow alphay 2) cos2phi))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (+ (* -1 (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) cos2phi))) (* (pow alphax 2) (log (- 1 u0)))) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (+ (* -1 (/ (+ (* -1 (/ (* (pow alphax 6) (* (pow sin2phi 2) (log (- 1 u0)))) (* (pow alphay 4) cos2phi))) (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (pow alphay 2))) cos2phi)) (* (pow alphax 2) (log (- 1 u0)))) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (+ (* -1 (/ (+ (* -1 (/ (+ (* -1 (/ (* (pow alphax 8) (* (pow sin2phi 3) (log (- 1 u0)))) (* (pow alphay 6) cos2phi))) (/ (* (pow alphax 6) (* (pow sin2phi 2) (log (- 1 u0)))) (pow alphay 4))) cos2phi)) (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (pow alphay 2))) cos2phi)) (* (pow alphax 2) (log (- 1 u0)))) cos2phi))))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) #s(hole binary32 (* -1 (* cos2phi (- (* -1 (/ sin2phi (* (pow alphay 2) cos2phi))) (/ 1 (pow alphax 2)))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (- 1 u0))) cos2phi)) (* sin2phi (+ (* -1 (/ (* (pow alphax 6) (* sin2phi (log (- 1 u0)))) (* (pow alphay 4) (pow cos2phi 3)))) (/ (* (pow alphax 4) (log (- 1 u0))) (* (pow alphay 2) (pow cos2phi 2))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (- 1 u0))) cos2phi)) (* sin2phi (+ (* sin2phi (+ (* -1 (/ (* (pow alphax 6) (log (- 1 u0))) (* (pow alphay 4) (pow cos2phi 3)))) (/ (* (pow alphax 8) (* sin2phi (log (- 1 u0)))) (* (pow alphay 6) (pow cos2phi 4))))) (/ (* (pow alphax 4) (log (- 1 u0))) (* (pow alphay 2) (pow cos2phi 2))))))))
#s(approx sin2phi #s(hole binary32 sin2phi))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (+ (* -1 (* (pow alphay 2) (log (- 1 u0)))) (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) sin2phi))) sin2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (+ (* -1 (* (pow alphay 2) (log (- 1 u0)))) (+ (* -1 (/ (* (pow alphay 6) (* (pow cos2phi 2) (log (- 1 u0)))) (* (pow alphax 4) (pow sin2phi 2)))) (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) sin2phi)))) sin2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (+ (* -1 (* (pow alphay 2) (log (- 1 u0)))) (+ (* -1 (/ (* (pow alphay 6) (* (pow cos2phi 2) (log (- 1 u0)))) (* (pow alphax 4) (pow sin2phi 2)))) (+ (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) sin2phi)) (/ (* (pow alphay 8) (* (pow cos2phi 3) (log (- 1 u0)))) (* (pow alphax 6) (pow sin2phi 3)))))) sin2phi)))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) #s(hole binary32 (* sin2phi (+ (/ 1 (pow alphay 2)) (/ cos2phi (* (pow alphax 2) sin2phi))))))
#s(approx (+ (/ sin2phi (* (* alphay alphay) cos2phi)) (/ 1 (* alphax alphax))) #s(hole binary32 (* sin2phi (+ (/ 1 (* (pow alphax 2) sin2phi)) (/ 1 (* (pow alphay 2) cos2phi))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (+ (* -1 (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) sin2phi))) (* (pow alphay 2) (log (- 1 u0)))) sin2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (+ (* -1 (/ (+ (* -1 (/ (* (pow alphay 6) (* (pow cos2phi 2) (log (- 1 u0)))) (* (pow alphax 4) sin2phi))) (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (pow alphax 2))) sin2phi)) (* (pow alphay 2) (log (- 1 u0)))) sin2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (+ (* -1 (/ (+ (* -1 (/ (+ (* -1 (/ (* (pow alphay 8) (* (pow cos2phi 3) (log (- 1 u0)))) (* (pow alphax 6) sin2phi))) (/ (* (pow alphay 6) (* (pow cos2phi 2) (log (- 1 u0)))) (pow alphax 4))) sin2phi)) (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (pow alphax 2))) sin2phi)) (* (pow alphay 2) (log (- 1 u0)))) sin2phi))))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) #s(hole binary32 (* -1 (* sin2phi (- (* -1 (/ cos2phi (* (pow alphax 2) sin2phi))) (/ 1 (pow alphay 2)))))))
Calls

15 calls:

TimeVariablePointExpression
25.0ms
cos2phi
@-inf
((/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (log (- 1 u0))) (+ (* u0 1) (* u0 (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0))) u0 1 (* u0 (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0)) (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) (+ (* 1/4 u0) 1/3) 1/4 1/3 1/2 (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/ cos2phi (* alphax alphax)) cos2phi (* alphax alphax) alphax (/ sin2phi (* alphay alphay)) sin2phi (* alphay alphay) alphay (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/ (* (* alphax alphax) u0) cos2phi) (* (* alphax alphax) u0) (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (log (- 1 u0))) (* (+ (* (+ (* 1/3 u0) 1/2) u0) 1) u0) (+ (* (+ (* 1/3 u0) 1/2) u0) 1) (+ (* 1/3 u0) 1/2) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/ (neg (log (- 1 u0))) (+ (/ (/ cos2phi alphax) alphax) (/ sin2phi (* alphay alphay)))) (+ (/ (/ cos2phi alphax) alphax) (/ sin2phi (* alphay alphay))) (/ (/ cos2phi alphax) alphax) (/ cos2phi alphax) (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (log (- 1 u0))) (* (+ (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) 1) u0) (+ (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) 1) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (* (+ (/ sin2phi (* (* alphay alphay) cos2phi)) (/ 1 (* alphax alphax))) cos2phi) (+ (/ sin2phi (* (* alphay alphay) cos2phi)) (/ 1 (* alphax alphax))) (/ sin2phi (* (* alphay alphay) cos2phi)) (* (* alphay alphay) cos2phi) (/ 1 (* alphax alphax)))
16.0ms
u0
@0
((/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (log (- 1 u0))) (+ (* u0 1) (* u0 (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0))) u0 1 (* u0 (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0)) (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) (+ (* 1/4 u0) 1/3) 1/4 1/3 1/2 (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/ cos2phi (* alphax alphax)) cos2phi (* alphax alphax) alphax (/ sin2phi (* alphay alphay)) sin2phi (* alphay alphay) alphay (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/ (* (* alphax alphax) u0) cos2phi) (* (* alphax alphax) u0) (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (log (- 1 u0))) (* (+ (* (+ (* 1/3 u0) 1/2) u0) 1) u0) (+ (* (+ (* 1/3 u0) 1/2) u0) 1) (+ (* 1/3 u0) 1/2) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/ (neg (log (- 1 u0))) (+ (/ (/ cos2phi alphax) alphax) (/ sin2phi (* alphay alphay)))) (+ (/ (/ cos2phi alphax) alphax) (/ sin2phi (* alphay alphay))) (/ (/ cos2phi alphax) alphax) (/ cos2phi alphax) (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (log (- 1 u0))) (* (+ (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) 1) u0) (+ (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) 1) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (* (+ (/ sin2phi (* (* alphay alphay) cos2phi)) (/ 1 (* alphax alphax))) cos2phi) (+ (/ sin2phi (* (* alphay alphay) cos2phi)) (/ 1 (* alphax alphax))) (/ sin2phi (* (* alphay alphay) cos2phi)) (* (* alphay alphay) cos2phi) (/ 1 (* alphax alphax)))
14.0ms
cos2phi
@inf
((/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (log (- 1 u0))) (+ (* u0 1) (* u0 (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0))) u0 1 (* u0 (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0)) (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) (+ (* 1/4 u0) 1/3) 1/4 1/3 1/2 (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/ cos2phi (* alphax alphax)) cos2phi (* alphax alphax) alphax (/ sin2phi (* alphay alphay)) sin2phi (* alphay alphay) alphay (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/ (* (* alphax alphax) u0) cos2phi) (* (* alphax alphax) u0) (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (log (- 1 u0))) (* (+ (* (+ (* 1/3 u0) 1/2) u0) 1) u0) (+ (* (+ (* 1/3 u0) 1/2) u0) 1) (+ (* 1/3 u0) 1/2) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/ (neg (log (- 1 u0))) (+ (/ (/ cos2phi alphax) alphax) (/ sin2phi (* alphay alphay)))) (+ (/ (/ cos2phi alphax) alphax) (/ sin2phi (* alphay alphay))) (/ (/ cos2phi alphax) alphax) (/ cos2phi alphax) (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (log (- 1 u0))) (* (+ (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) 1) u0) (+ (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) 1) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (* (+ (/ sin2phi (* (* alphay alphay) cos2phi)) (/ 1 (* alphax alphax))) cos2phi) (+ (/ sin2phi (* (* alphay alphay) cos2phi)) (/ 1 (* alphax alphax))) (/ sin2phi (* (* alphay alphay) cos2phi)) (* (* alphay alphay) cos2phi) (/ 1 (* alphax alphax)))
14.0ms
alphax
@inf
((/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (log (- 1 u0))) (+ (* u0 1) (* u0 (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0))) u0 1 (* u0 (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0)) (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) (+ (* 1/4 u0) 1/3) 1/4 1/3 1/2 (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/ cos2phi (* alphax alphax)) cos2phi (* alphax alphax) alphax (/ sin2phi (* alphay alphay)) sin2phi (* alphay alphay) alphay (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/ (* (* alphax alphax) u0) cos2phi) (* (* alphax alphax) u0) (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (log (- 1 u0))) (* (+ (* (+ (* 1/3 u0) 1/2) u0) 1) u0) (+ (* (+ (* 1/3 u0) 1/2) u0) 1) (+ (* 1/3 u0) 1/2) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/ (neg (log (- 1 u0))) (+ (/ (/ cos2phi alphax) alphax) (/ sin2phi (* alphay alphay)))) (+ (/ (/ cos2phi alphax) alphax) (/ sin2phi (* alphay alphay))) (/ (/ cos2phi alphax) alphax) (/ cos2phi alphax) (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (log (- 1 u0))) (* (+ (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) 1) u0) (+ (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) 1) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (* (+ (/ sin2phi (* (* alphay alphay) cos2phi)) (/ 1 (* alphax alphax))) cos2phi) (+ (/ sin2phi (* (* alphay alphay) cos2phi)) (/ 1 (* alphax alphax))) (/ sin2phi (* (* alphay alphay) cos2phi)) (* (* alphay alphay) cos2phi) (/ 1 (* alphax alphax)))
10.0ms
alphax
@0
((/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (log (- 1 u0))) (+ (* u0 1) (* u0 (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0))) u0 1 (* u0 (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0)) (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) (+ (* 1/4 u0) 1/3) 1/4 1/3 1/2 (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/ cos2phi (* alphax alphax)) cos2phi (* alphax alphax) alphax (/ sin2phi (* alphay alphay)) sin2phi (* alphay alphay) alphay (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/ (* (* alphax alphax) u0) cos2phi) (* (* alphax alphax) u0) (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (log (- 1 u0))) (* (+ (* (+ (* 1/3 u0) 1/2) u0) 1) u0) (+ (* (+ (* 1/3 u0) 1/2) u0) 1) (+ (* 1/3 u0) 1/2) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/ (neg (log (- 1 u0))) (+ (/ (/ cos2phi alphax) alphax) (/ sin2phi (* alphay alphay)))) (+ (/ (/ cos2phi alphax) alphax) (/ sin2phi (* alphay alphay))) (/ (/ cos2phi alphax) alphax) (/ cos2phi alphax) (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (log (- 1 u0))) (* (+ (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) 1) u0) (+ (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) 1) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (* (+ (/ sin2phi (* (* alphay alphay) cos2phi)) (/ 1 (* alphax alphax))) cos2phi) (+ (/ sin2phi (* (* alphay alphay) cos2phi)) (/ 1 (* alphax alphax))) (/ sin2phi (* (* alphay alphay) cos2phi)) (* (* alphay alphay) cos2phi) (/ 1 (* alphax alphax)))

rewrite180.0ms (2.9%)

Memory
45.1MiB live, 266.7MiB allocated; 28ms collecting garbage
Iterations

Useful iterations: 0 (0.0ms)

IterNodesCost
06825213
07294935
141484935
089774866
Stop Event
iter-limit
node-limit
iter-limit
Counts
176 → 385
Calls
Call 1
Inputs
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
#s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0))))
(fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)))
u0
#s(literal 1 binary32)
(*.f32 u0 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0))
(*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)
(fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32))
(fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32))
#s(literal 1/4 binary32)
#s(literal 1/3 binary32)
#s(literal 1/2 binary32)
(+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay)))
(/.f32 cos2phi (*.f32 alphax alphax))
cos2phi
(*.f32 alphax alphax)
alphax
(/.f32 sin2phi (*.f32 alphay alphay))
sin2phi
(*.f32 alphay alphay)
alphay
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi)))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi))
(/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi)
(*.f32 (*.f32 alphax alphax) u0)
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
#s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0))
(*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)
(fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32))
(fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax)))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) (+.f32 (/.f32 (/.f32 cos2phi alphax) alphax) (/.f32 sin2phi (*.f32 alphay alphay))))
(+.f32 (/.f32 (/.f32 cos2phi alphax) alphax) (/.f32 sin2phi (*.f32 alphay alphay)))
(/.f32 (/.f32 cos2phi alphax) alphax)
(/.f32 cos2phi alphax)
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (*.f32 (+.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))) cos2phi)))
#s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0))
(*.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)
(fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (*.f32 (+.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))) cos2phi))
(*.f32 (+.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))) cos2phi)
(+.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax)))
(/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi))
(*.f32 (*.f32 alphay alphay) cos2phi)
(/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (* (pow alphax 2) (log (- 1 u0))) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* (pow alphax 2) (+ (* -1 (/ (log (- 1 u0)) cos2phi)) (/ (* (pow alphax 2) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) (pow cos2phi 2)))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* (pow alphax 2) (+ (* -1 (/ (log (- 1 u0)) cos2phi)) (* (pow alphax 2) (+ (* -1 (/ (* (pow alphax 2) (* (pow sin2phi 2) (log (- 1 u0)))) (* (pow alphay 4) (pow cos2phi 3)))) (/ (* sin2phi (log (- 1 u0))) (* (pow alphay 2) (pow cos2phi 2)))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* (pow alphax 2) (+ (* -1 (/ (log (- 1 u0)) cos2phi)) (* (pow alphax 2) (+ (* (pow alphax 2) (+ (* -1 (/ (* (pow sin2phi 2) (log (- 1 u0))) (* (pow alphay 4) (pow cos2phi 3)))) (/ (* (pow alphax 2) (* (pow sin2phi 3) (log (- 1 u0)))) (* (pow alphay 6) (pow cos2phi 4))))) (/ (* sin2phi (log (- 1 u0))) (* (pow alphay 2) (pow cos2phi 2)))))))))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) #s(hole binary32 (/ cos2phi (pow alphax 2))))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) #s(hole binary32 (/ (+ cos2phi (/ (* (pow alphax 2) sin2phi) (pow alphay 2))) (pow alphax 2))))
#s(approx (* alphax alphax) #s(hole binary32 (pow alphax 2)))
#s(approx alphax #s(hole binary32 alphax))
#s(approx (/ (* (* alphax alphax) u0) cos2phi) #s(hole binary32 (/ (* (pow alphax 2) u0) cos2phi)))
#s(approx (* (* alphax alphax) u0) #s(hole binary32 (* (pow alphax 2) u0)))
#s(approx (/ cos2phi alphax) #s(hole binary32 (/ cos2phi alphax)))
#s(approx (+ (/ sin2phi (* (* alphay alphay) cos2phi)) (/ 1 (* alphax alphax))) #s(hole binary32 (/ 1 (pow alphax 2))))
#s(approx (+ (/ sin2phi (* (* alphay alphay) cos2phi)) (/ 1 (* alphax alphax))) #s(hole binary32 (/ (+ 1 (/ (* (pow alphax 2) sin2phi) (* (pow alphay 2) cos2phi))) (pow alphax 2))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (* (pow alphay 2) (log (- 1 u0))) sin2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphay 2) (log (- 1 u0))) sin2phi)) (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) (pow sin2phi 2))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphay 2) (log (- 1 u0))) sin2phi)) (+ (* -1 (/ (* (pow alphay 6) (* (pow cos2phi 2) (log (- 1 u0)))) (* (pow alphax 4) (pow sin2phi 3)))) (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) (pow sin2phi 2)))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphay 2) (log (- 1 u0))) sin2phi)) (+ (* -1 (/ (* (pow alphay 6) (* (pow cos2phi 2) (log (- 1 u0)))) (* (pow alphax 4) (pow sin2phi 3)))) (+ (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) (pow sin2phi 2))) (/ (* (pow alphay 8) (* (pow cos2phi 3) (log (- 1 u0)))) (* (pow alphax 6) (pow sin2phi 4))))))))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) #s(hole binary32 (/ sin2phi (pow alphay 2))))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) #s(hole binary32 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2)))))
#s(approx (+ (/ sin2phi (* (* alphay alphay) cos2phi)) (/ 1 (* alphax alphax))) #s(hole binary32 (/ sin2phi (* (pow alphay 2) cos2phi))))
#s(approx (+ (/ sin2phi (* (* alphay alphay) cos2phi)) (/ 1 (* alphax alphax))) #s(hole binary32 (+ (/ 1 (pow alphax 2)) (/ sin2phi (* (pow alphay 2) cos2phi)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* (pow alphay 2) (+ (* -1 (/ (log (- 1 u0)) sin2phi)) (/ (* (pow alphay 2) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) (pow sin2phi 2)))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* (pow alphay 2) (+ (* -1 (/ (log (- 1 u0)) sin2phi)) (* (pow alphay 2) (+ (* -1 (/ (* (pow alphay 2) (* (pow cos2phi 2) (log (- 1 u0)))) (* (pow alphax 4) (pow sin2phi 3)))) (/ (* cos2phi (log (- 1 u0))) (* (pow alphax 2) (pow sin2phi 2)))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* (pow alphay 2) (+ (* -1 (/ (log (- 1 u0)) sin2phi)) (* (pow alphay 2) (+ (* (pow alphay 2) (+ (* -1 (/ (* (pow cos2phi 2) (log (- 1 u0))) (* (pow alphax 4) (pow sin2phi 3)))) (/ (* (pow alphay 2) (* (pow cos2phi 3) (log (- 1 u0)))) (* (pow alphax 6) (pow sin2phi 4))))) (/ (* cos2phi (log (- 1 u0))) (* (pow alphax 2) (pow sin2phi 2)))))))))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) #s(hole binary32 (/ (+ sin2phi (/ (* (pow alphay 2) cos2phi) (pow alphax 2))) (pow alphay 2))))
#s(approx (* alphay alphay) #s(hole binary32 (pow alphay 2)))
#s(approx alphay #s(hole binary32 alphay))
#s(approx (+ (/ sin2phi (* (* alphay alphay) cos2phi)) (/ 1 (* alphax alphax))) #s(hole binary32 (/ (+ (/ sin2phi cos2phi) (/ (pow alphay 2) (pow alphax 2))) (pow alphay 2))))
#s(approx (* (* alphay alphay) cos2phi) #s(hole binary32 (* (pow alphay 2) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (- 1 u0))) cos2phi)) (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) (pow cos2phi 2))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (- 1 u0))) cos2phi)) (+ (* -1 (/ (* (pow alphax 6) (* (pow sin2phi 2) (log (- 1 u0)))) (* (pow alphay 4) (pow cos2phi 3)))) (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) (pow cos2phi 2)))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (- 1 u0))) cos2phi)) (+ (* -1 (/ (* (pow alphax 6) (* (pow sin2phi 2) (log (- 1 u0)))) (* (pow alphay 4) (pow cos2phi 3)))) (+ (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) (pow cos2phi 2))) (/ (* (pow alphax 8) (* (pow sin2phi 3) (log (- 1 u0)))) (* (pow alphay 6) (pow cos2phi 4))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* u0 (+ (* 1/2 (/ u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (/ 1 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* u0 (+ (* u0 (+ (* 1/3 (/ u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (* 1/2 (/ 1 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))) (/ 1 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* u0 (+ (* u0 (+ (* u0 (+ (* 1/4 (/ u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (* 1/3 (/ 1 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))) (* 1/2 (/ 1 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))) (/ 1 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 u0))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (* u0 (+ 1 (* 1/2 u0)))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (* u0 (+ 1 (* u0 (+ 1/2 (* 1/3 u0)))))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (* u0 (+ 1 (* u0 (+ 1/2 (* u0 (+ 1/3 (* 1/4 u0)))))))))
#s(approx (* u0 (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0)) #s(hole binary32 (* 1/2 (pow u0 2))))
#s(approx (* u0 (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0)) #s(hole binary32 (* (pow u0 2) (+ 1/2 (* 1/3 u0)))))
#s(approx (* u0 (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0)) #s(hole binary32 (* (pow u0 2) (+ 1/2 (* u0 (+ 1/3 (* 1/4 u0)))))))
#s(approx (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) #s(hole binary32 (* 1/2 u0)))
#s(approx (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) #s(hole binary32 (* u0 (+ 1/2 (* 1/3 u0)))))
#s(approx (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) #s(hole binary32 (* u0 (+ 1/2 (* u0 (+ 1/3 (* 1/4 u0)))))))
#s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(hole binary32 1/2))
#s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(hole binary32 (+ 1/2 (* 1/3 u0))))
#s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(hole binary32 (+ 1/2 (* u0 (+ 1/3 (* 1/4 u0))))))
#s(approx (+ (* 1/4 u0) 1/3) #s(hole binary32 1/3))
#s(approx (+ (* 1/4 u0) 1/3) #s(hole binary32 (+ 1/3 (* 1/4 u0))))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) #s(hole binary32 (* u0 (- (* 1/2 (/ (* (pow alphax 2) u0) cos2phi)) (* -1 (/ (pow alphax 2) cos2phi))))))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) #s(hole binary32 (* u0 (- (* u0 (- (* 1/3 (/ (* (pow alphax 2) u0) cos2phi)) (* -1/2 (/ (pow alphax 2) cos2phi)))) (* -1 (/ (pow alphax 2) cos2phi))))))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) #s(hole binary32 (* u0 (- (* u0 (- (* u0 (- (* 1/4 (/ (* (pow alphax 2) u0) cos2phi)) (* -1/3 (/ (pow alphax 2) cos2phi)))) (* -1/2 (/ (pow alphax 2) cos2phi)))) (* -1 (/ (pow alphax 2) cos2phi))))))
#s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(hole binary32 1))
#s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(hole binary32 (+ 1 (* 1/2 u0))))
#s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(hole binary32 (+ 1 (* u0 (+ 1/2 (* 1/3 u0))))))
#s(approx (+ (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) 1) #s(hole binary32 (+ 1 (* u0 (+ 1/2 (* u0 (+ 1/3 (* 1/4 u0))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (log (neg (/ 1 u0))) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (- (/ (log (neg (/ 1 u0))) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2)))) (/ 1 (* u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (- (+ (/ 1/2 (* (pow u0 2) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (/ (log (neg (/ 1 u0))) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (/ 1 (* u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (- (+ (* 1/2 (/ 1 (* (pow u0 2) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2)))))) (/ (log (neg (/ 1 u0))) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (+ (/ 1 (* u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (* 1/3 (/ 1 (* (pow u0 3) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (log (neg (/ 1 u0)))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (* -1 (+ (* -1 (log (neg (/ 1 u0)))) (/ 1 u0)))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (- (/ 1/2 (pow u0 2)) (+ (* -1 (log (neg (/ 1 u0)))) (/ 1 u0)))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (- (/ 1/2 (pow u0 2)) (+ (* -1 (log (neg (/ 1 u0)))) (+ (/ 1 u0) (* 1/3 (/ 1 (pow u0 3))))))))
#s(approx (+ (* u0 1) (* u0 (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0))) #s(hole binary32 (* 1/4 (pow u0 4))))
#s(approx (+ (* u0 1) (* u0 (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0))) #s(hole binary32 (* (pow u0 4) (+ 1/4 (* 1/3 (/ 1 u0))))))
#s(approx (+ (* u0 1) (* u0 (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0))) #s(hole binary32 (* (pow u0 4) (+ 1/4 (+ (/ 1/2 (pow u0 2)) (* 1/3 (/ 1 u0)))))))
#s(approx (+ (* u0 1) (* u0 (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0))) #s(hole binary32 (* (pow u0 4) (+ 1/4 (+ (/ 1/2 (pow u0 2)) (+ (* 1/3 (/ 1 u0)) (/ 1 (pow u0 3))))))))
#s(approx (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) #s(hole binary32 (* 1/4 (pow u0 3))))
#s(approx (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) #s(hole binary32 (* (pow u0 3) (+ 1/4 (* 1/3 (/ 1 u0))))))
#s(approx (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) #s(hole binary32 (* (pow u0 3) (+ 1/4 (+ (/ 1/2 (pow u0 2)) (* 1/3 (/ 1 u0)))))))
#s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(hole binary32 (* 1/4 (pow u0 2))))
#s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(hole binary32 (* (pow u0 2) (+ 1/4 (* 1/3 (/ 1 u0))))))
#s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(hole binary32 (* (pow u0 2) (+ 1/4 (+ (/ 1/2 (pow u0 2)) (* 1/3 (/ 1 u0)))))))
#s(approx (+ (* 1/4 u0) 1/3) #s(hole binary32 (* 1/4 u0)))
#s(approx (+ (* 1/4 u0) 1/3) #s(hole binary32 (* u0 (+ 1/4 (* 1/3 (/ 1 u0))))))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) #s(hole binary32 (/ (* (pow alphax 2) (log (neg (/ 1 u0)))) cos2phi)))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) #s(hole binary32 (- (* -1 (/ (pow alphax 2) (* cos2phi u0))) (* -1 (/ (* (pow alphax 2) (log (neg (/ 1 u0)))) cos2phi)))))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) #s(hole binary32 (- (* 1/2 (/ (pow alphax 2) (* cos2phi (pow u0 2)))) (+ (* -1 (/ (* (pow alphax 2) (log (neg (/ 1 u0)))) cos2phi)) (/ (pow alphax 2) (* cos2phi u0))))))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) #s(hole binary32 (- (* -1/3 (/ (pow alphax 2) (* cos2phi (pow u0 3)))) (+ (* -1 (/ (* (pow alphax 2) (log (neg (/ 1 u0)))) cos2phi)) (+ (* -1/2 (/ (pow alphax 2) (* cos2phi (pow u0 2)))) (/ (pow alphax 2) (* cos2phi u0)))))))
#s(approx (* (+ (* (+ (* 1/3 u0) 1/2) u0) 1) u0) #s(hole binary32 (* 1/3 (pow u0 3))))
#s(approx (* (+ (* (+ (* 1/3 u0) 1/2) u0) 1) u0) #s(hole binary32 (* (pow u0 3) (+ 1/3 (* 1/2 (/ 1 u0))))))
#s(approx (* (+ (* (+ (* 1/3 u0) 1/2) u0) 1) u0) #s(hole binary32 (* (pow u0 3) (+ 1/3 (+ (* 1/2 (/ 1 u0)) (/ 1 (pow u0 2)))))))
#s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(hole binary32 (* 1/3 (pow u0 2))))
#s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(hole binary32 (* (pow u0 2) (+ 1/3 (* 1/2 (/ 1 u0))))))
#s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(hole binary32 (* (pow u0 2) (+ 1/3 (+ (* 1/2 (/ 1 u0)) (/ 1 (pow u0 2)))))))
#s(approx (+ (* 1/3 u0) 1/2) #s(hole binary32 (* 1/3 u0)))
#s(approx (+ (* 1/3 u0) 1/2) #s(hole binary32 (* u0 (+ 1/3 (* 1/2 (/ 1 u0))))))
#s(approx (+ (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) 1) #s(hole binary32 (* (pow u0 3) (+ 1/4 (+ (/ 1/2 (pow u0 2)) (+ (* 1/3 (/ 1 u0)) (/ 1 (pow u0 3))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (log (/ -1 u0)) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (/ 1 (* u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (/ (log (/ -1 u0)) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2)))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (/ 1/2 (* (pow u0 2) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (+ (/ 1 (* u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (/ (log (/ -1 u0)) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (- (* -1 (/ (+ (* 1/3 (/ 1 (* u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2)))))) (* 1/2 (/ 1 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2)))))) u0)) (/ 1 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) u0)) (/ (log (/ -1 u0)) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2)))))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (log (/ -1 u0))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (- (/ 1 u0) (* -1 (log (/ -1 u0))))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (- (+ (/ 1/2 (pow u0 2)) (/ 1 u0)) (* -1 (log (/ -1 u0))))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (- (* -1 (/ (- (* -1 (/ (+ 1/2 (* 1/3 (/ 1 u0))) u0)) 1) u0)) (* -1 (log (/ -1 u0))))))
#s(approx (+ (* u0 1) (* u0 (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0))) #s(hole binary32 (* (pow u0 4) (+ 1/4 (* -1 (/ (- (* -1 (/ (+ 1/2 (/ 1 u0)) u0)) 1/3) u0))))))
#s(approx (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) #s(hole binary32 (* -1 (* (pow u0 3) (- (* -1 (/ (+ 1/3 (* 1/2 (/ 1 u0))) u0)) 1/4)))))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) #s(hole binary32 (/ (* (pow alphax 2) (log (/ -1 u0))) cos2phi)))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) #s(hole binary32 (- (/ (pow alphax 2) (* cos2phi u0)) (* -1 (/ (* (pow alphax 2) (log (/ -1 u0))) cos2phi)))))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) #s(hole binary32 (- (* -1 (/ (- (* -1/2 (/ (pow alphax 2) (* cos2phi u0))) (/ (pow alphax 2) cos2phi)) u0)) (* -1 (/ (* (pow alphax 2) (log (/ -1 u0))) cos2phi)))))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) #s(hole binary32 (- (* -1 (/ (- (* -1 (/ (- (* 1/3 (/ (pow alphax 2) (* cos2phi u0))) (* -1/2 (/ (pow alphax 2) cos2phi))) u0)) (/ (pow alphax 2) cos2phi)) u0)) (* -1 (/ (* (pow alphax 2) (log (/ -1 u0))) cos2phi)))))
#s(approx (* (+ (* (+ (* 1/3 u0) 1/2) u0) 1) u0) #s(hole binary32 (* -1 (* (pow u0 3) (- (* -1 (/ (+ 1/2 (/ 1 u0)) u0)) 1/3)))))
#s(approx (+ (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) 1) #s(hole binary32 (* -1 (* (pow u0 3) (- (* -1 (/ (+ 1/3 (+ (* 1/2 (/ 1 u0)) (/ 1 (pow u0 2)))) u0)) 1/4)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphay 2) (log (- 1 u0))) sin2phi)) (* cos2phi (+ (* -1 (/ (* (pow alphay 6) (* cos2phi (log (- 1 u0)))) (* (pow alphax 4) (pow sin2phi 3)))) (/ (* (pow alphay 4) (log (- 1 u0))) (* (pow alphax 2) (pow sin2phi 2))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphay 2) (log (- 1 u0))) sin2phi)) (* cos2phi (+ (* cos2phi (+ (* -1 (/ (* (pow alphay 6) (log (- 1 u0))) (* (pow alphax 4) (pow sin2phi 3)))) (/ (* (pow alphay 8) (* cos2phi (log (- 1 u0)))) (* (pow alphax 6) (pow sin2phi 4))))) (/ (* (pow alphay 4) (log (- 1 u0))) (* (pow alphax 2) (pow sin2phi 2))))))))
#s(approx cos2phi #s(hole binary32 cos2phi))
#s(approx (+ (/ sin2phi (* (* alphay alphay) cos2phi)) (/ 1 (* alphax alphax))) #s(hole binary32 (/ (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (+ (* -1 (* (pow alphax 2) (log (- 1 u0)))) (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) cos2phi))) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (+ (* -1 (* (pow alphax 2) (log (- 1 u0)))) (+ (* -1 (/ (* (pow alphax 6) (* (pow sin2phi 2) (log (- 1 u0)))) (* (pow alphay 4) (pow cos2phi 2)))) (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) cos2phi)))) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (+ (* -1 (* (pow alphax 2) (log (- 1 u0)))) (+ (* -1 (/ (* (pow alphax 6) (* (pow sin2phi 2) (log (- 1 u0)))) (* (pow alphay 4) (pow cos2phi 2)))) (+ (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) cos2phi)) (/ (* (pow alphax 8) (* (pow sin2phi 3) (log (- 1 u0)))) (* (pow alphay 6) (pow cos2phi 3)))))) cos2phi)))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) #s(hole binary32 (* cos2phi (+ (/ 1 (pow alphax 2)) (/ sin2phi (* (pow alphay 2) cos2phi))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (+ (* -1 (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) cos2phi))) (* (pow alphax 2) (log (- 1 u0)))) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (+ (* -1 (/ (+ (* -1 (/ (* (pow alphax 6) (* (pow sin2phi 2) (log (- 1 u0)))) (* (pow alphay 4) cos2phi))) (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (pow alphay 2))) cos2phi)) (* (pow alphax 2) (log (- 1 u0)))) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (+ (* -1 (/ (+ (* -1 (/ (+ (* -1 (/ (* (pow alphax 8) (* (pow sin2phi 3) (log (- 1 u0)))) (* (pow alphay 6) cos2phi))) (/ (* (pow alphax 6) (* (pow sin2phi 2) (log (- 1 u0)))) (pow alphay 4))) cos2phi)) (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (pow alphay 2))) cos2phi)) (* (pow alphax 2) (log (- 1 u0)))) cos2phi))))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) #s(hole binary32 (* -1 (* cos2phi (- (* -1 (/ sin2phi (* (pow alphay 2) cos2phi))) (/ 1 (pow alphax 2)))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (- 1 u0))) cos2phi)) (* sin2phi (+ (* -1 (/ (* (pow alphax 6) (* sin2phi (log (- 1 u0)))) (* (pow alphay 4) (pow cos2phi 3)))) (/ (* (pow alphax 4) (log (- 1 u0))) (* (pow alphay 2) (pow cos2phi 2))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (- 1 u0))) cos2phi)) (* sin2phi (+ (* sin2phi (+ (* -1 (/ (* (pow alphax 6) (log (- 1 u0))) (* (pow alphay 4) (pow cos2phi 3)))) (/ (* (pow alphax 8) (* sin2phi (log (- 1 u0)))) (* (pow alphay 6) (pow cos2phi 4))))) (/ (* (pow alphax 4) (log (- 1 u0))) (* (pow alphay 2) (pow cos2phi 2))))))))
#s(approx sin2phi #s(hole binary32 sin2phi))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (+ (* -1 (* (pow alphay 2) (log (- 1 u0)))) (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) sin2phi))) sin2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (+ (* -1 (* (pow alphay 2) (log (- 1 u0)))) (+ (* -1 (/ (* (pow alphay 6) (* (pow cos2phi 2) (log (- 1 u0)))) (* (pow alphax 4) (pow sin2phi 2)))) (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) sin2phi)))) sin2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (/ (+ (* -1 (* (pow alphay 2) (log (- 1 u0)))) (+ (* -1 (/ (* (pow alphay 6) (* (pow cos2phi 2) (log (- 1 u0)))) (* (pow alphax 4) (pow sin2phi 2)))) (+ (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) sin2phi)) (/ (* (pow alphay 8) (* (pow cos2phi 3) (log (- 1 u0)))) (* (pow alphax 6) (pow sin2phi 3)))))) sin2phi)))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) #s(hole binary32 (* sin2phi (+ (/ 1 (pow alphay 2)) (/ cos2phi (* (pow alphax 2) sin2phi))))))
#s(approx (+ (/ sin2phi (* (* alphay alphay) cos2phi)) (/ 1 (* alphax alphax))) #s(hole binary32 (* sin2phi (+ (/ 1 (* (pow alphax 2) sin2phi)) (/ 1 (* (pow alphay 2) cos2phi))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (+ (* -1 (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) sin2phi))) (* (pow alphay 2) (log (- 1 u0)))) sin2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (+ (* -1 (/ (+ (* -1 (/ (* (pow alphay 6) (* (pow cos2phi 2) (log (- 1 u0)))) (* (pow alphax 4) sin2phi))) (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (pow alphax 2))) sin2phi)) (* (pow alphay 2) (log (- 1 u0)))) sin2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(hole binary32 (* -1 (/ (+ (* -1 (/ (+ (* -1 (/ (+ (* -1 (/ (* (pow alphay 8) (* (pow cos2phi 3) (log (- 1 u0)))) (* (pow alphax 6) sin2phi))) (/ (* (pow alphay 6) (* (pow cos2phi 2) (log (- 1 u0)))) (pow alphax 4))) sin2phi)) (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (pow alphax 2))) sin2phi)) (* (pow alphay 2) (log (- 1 u0)))) sin2phi))))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) #s(hole binary32 (* -1 (* sin2phi (- (* -1 (/ cos2phi (* (pow alphax 2) sin2phi))) (/ 1 (pow alphay 2)))))))
Outputs
(/.f32 (neg.f32 (neg.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0 u0)))) (neg.f32 (neg.f32 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))))
(/.f32 (neg.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0 u0))) (neg.f32 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0 u0)) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))
#s(approx (neg (log (- 1 u0))) (fma.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0 u0))
(*.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)
(*.f32 u0 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)))
(/.f32 (neg.f32 (-.f32 (*.f32 u0 u0) (pow.f32 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0) #s(literal 2 binary32)))) (neg.f32 (-.f32 u0 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0))))
(/.f32 (neg.f32 (fma.f32 (*.f32 u0 u0) u0 (pow.f32 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0) #s(literal 3 binary32)))) (neg.f32 (fma.f32 u0 u0 (-.f32 (pow.f32 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0) #s(literal 2 binary32)) (*.f32 u0 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0))))))
(/.f32 (-.f32 (*.f32 u0 u0) (pow.f32 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0) #s(literal 2 binary32))) (-.f32 u0 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0)))
(/.f32 (fma.f32 (*.f32 u0 u0) u0 (pow.f32 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0) #s(literal 3 binary32))) (fma.f32 u0 u0 (-.f32 (pow.f32 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0) #s(literal 2 binary32)) (*.f32 u0 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0)))))
(-.f32 u0 (*.f32 (neg.f32 u0) (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)))
(fma.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0 u0)
(fma.f32 u0 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0)
(fma.f32 u0 #s(literal 1 binary32) (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0))
(+.f32 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0) u0)
(+.f32 u0 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0))
u0
#s(literal 1 binary32)
(*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0)
(*.f32 u0 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0))
(*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)
(*.f32 u0 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)))
(fma.f32 #s(literal 1/2 binary32) u0 (*.f32 u0 (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0)))
(fma.f32 #s(literal 1/2 binary32) u0 (*.f32 (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0) u0))
(fma.f32 u0 #s(literal 1/2 binary32) (*.f32 u0 (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0)))
(fma.f32 u0 #s(literal 1/2 binary32) (*.f32 (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0) u0))
(+.f32 (*.f32 #s(literal 1/2 binary32) u0) (*.f32 u0 (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0)))
(+.f32 (*.f32 #s(literal 1/2 binary32) u0) (*.f32 (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0) u0))
(/.f32 (neg.f32 (-.f32 #s(literal 1/4 binary32) (*.f32 (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0) (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0)))) (neg.f32 (-.f32 #s(literal 1/2 binary32) (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0))))
(/.f32 (neg.f32 (-.f32 (*.f32 (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0) (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0)) #s(literal 1/4 binary32))) (neg.f32 (-.f32 (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32))))
(/.f32 (neg.f32 (+.f32 #s(literal 1/8 binary32) (pow.f32 (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0) #s(literal 3 binary32)))) (neg.f32 (+.f32 #s(literal 1/4 binary32) (-.f32 (*.f32 (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0) (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0)) (*.f32 #s(literal 1/2 binary32) (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0))))))
(/.f32 (neg.f32 (+.f32 (pow.f32 (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0) #s(literal 3 binary32)) #s(literal 1/8 binary32))) (neg.f32 (fma.f32 (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0) (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0) (-.f32 #s(literal 1/4 binary32) (*.f32 (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32))))))
(/.f32 (-.f32 #s(literal 1/4 binary32) (*.f32 (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0) (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0))) (-.f32 #s(literal 1/2 binary32) (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0)))
(/.f32 (-.f32 (*.f32 (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0) (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0)) #s(literal 1/4 binary32)) (-.f32 (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)))
(/.f32 (+.f32 #s(literal 1/8 binary32) (pow.f32 (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0) #s(literal 3 binary32))) (+.f32 #s(literal 1/4 binary32) (-.f32 (*.f32 (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0) (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0)) (*.f32 #s(literal 1/2 binary32) (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0)))))
(/.f32 (+.f32 (pow.f32 (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0) #s(literal 3 binary32)) #s(literal 1/8 binary32)) (fma.f32 (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0) (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0) (-.f32 #s(literal 1/4 binary32) (*.f32 (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)))))
(-.f32 #s(literal 1/2 binary32) (*.f32 (neg.f32 u0) (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32))))
(fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32))
(fma.f32 u0 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) #s(literal 1/2 binary32))
(+.f32 (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32))
(+.f32 #s(literal 1/2 binary32) (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0))
(/.f32 (neg.f32 (-.f32 (*.f32 (*.f32 #s(literal 1/4 binary32) u0) (*.f32 #s(literal 1/4 binary32) u0)) #s(literal 1/9 binary32))) (neg.f32 (-.f32 (*.f32 #s(literal 1/4 binary32) u0) #s(literal 1/3 binary32))))
(/.f32 (neg.f32 (-.f32 #s(literal 1/9 binary32) (*.f32 (*.f32 #s(literal 1/4 binary32) u0) (*.f32 #s(literal 1/4 binary32) u0)))) (neg.f32 (-.f32 #s(literal 1/3 binary32) (*.f32 #s(literal 1/4 binary32) u0))))
(/.f32 (neg.f32 (fma.f32 (*.f32 (*.f32 u0 u0) u0) #s(literal 1/64 binary32) #s(literal 1/27 binary32))) (neg.f32 (fma.f32 (*.f32 #s(literal 1/4 binary32) u0) (*.f32 #s(literal 1/4 binary32) u0) (-.f32 #s(literal 1/9 binary32) (*.f32 (*.f32 #s(literal 1/4 binary32) u0) #s(literal 1/3 binary32))))))
(/.f32 (neg.f32 (+.f32 #s(literal 1/27 binary32) (*.f32 #s(literal 1/64 binary32) (*.f32 (*.f32 u0 u0) u0)))) (neg.f32 (+.f32 #s(literal 1/9 binary32) (-.f32 (*.f32 (*.f32 #s(literal 1/4 binary32) u0) (*.f32 #s(literal 1/4 binary32) u0)) (*.f32 #s(literal 1/3 binary32) (*.f32 #s(literal 1/4 binary32) u0))))))
(/.f32 (-.f32 (*.f32 (*.f32 #s(literal 1/4 binary32) u0) (*.f32 #s(literal 1/4 binary32) u0)) #s(literal 1/9 binary32)) (-.f32 (*.f32 #s(literal 1/4 binary32) u0) #s(literal 1/3 binary32)))
(/.f32 (-.f32 #s(literal 1/9 binary32) (*.f32 (*.f32 #s(literal 1/4 binary32) u0) (*.f32 #s(literal 1/4 binary32) u0))) (-.f32 #s(literal 1/3 binary32) (*.f32 #s(literal 1/4 binary32) u0)))
(/.f32 (fma.f32 (*.f32 (*.f32 u0 u0) u0) #s(literal 1/64 binary32) #s(literal 1/27 binary32)) (fma.f32 (*.f32 #s(literal 1/4 binary32) u0) (*.f32 #s(literal 1/4 binary32) u0) (-.f32 #s(literal 1/9 binary32) (*.f32 (*.f32 #s(literal 1/4 binary32) u0) #s(literal 1/3 binary32)))))
(/.f32 (+.f32 #s(literal 1/27 binary32) (*.f32 #s(literal 1/64 binary32) (*.f32 (*.f32 u0 u0) u0))) (+.f32 #s(literal 1/9 binary32) (-.f32 (*.f32 (*.f32 #s(literal 1/4 binary32) u0) (*.f32 #s(literal 1/4 binary32) u0)) (*.f32 #s(literal 1/3 binary32) (*.f32 #s(literal 1/4 binary32) u0)))))
(-.f32 #s(literal 1/3 binary32) (*.f32 #s(literal -1/4 binary32) u0))
(fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32))
(fma.f32 u0 #s(literal 1/4 binary32) #s(literal 1/3 binary32))
(+.f32 (*.f32 #s(literal 1/4 binary32) u0) #s(literal 1/3 binary32))
(+.f32 #s(literal 1/3 binary32) (*.f32 #s(literal 1/4 binary32) u0))
#s(literal 1/4 binary32)
#s(literal 1/3 binary32)
#s(literal 1/2 binary32)
(/.f32 (neg.f32 (-.f32 (*.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 cos2phi (*.f32 alphax alphax))) (*.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 sin2phi (*.f32 alphay alphay))))) (neg.f32 (-.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay)))))
(/.f32 (neg.f32 (+.f32 (pow.f32 (/.f32 cos2phi (*.f32 alphax alphax)) #s(literal 3 binary32)) (pow.f32 (/.f32 sin2phi (*.f32 alphay alphay)) #s(literal 3 binary32)))) (neg.f32 (fma.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 cos2phi (*.f32 alphax alphax)) (-.f32 (*.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 sin2phi (*.f32 alphay alphay))) (*.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay)))))))
(/.f32 (neg.f32 (fma.f32 (*.f32 alphay alphay) cos2phi (*.f32 (*.f32 alphax alphax) sin2phi))) (neg.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphay alphay))))
(/.f32 (neg.f32 (fma.f32 (/.f32 cos2phi alphax) (*.f32 alphay alphay) (*.f32 alphax sin2phi))) (neg.f32 (*.f32 alphax (*.f32 alphay alphay))))
(/.f32 (-.f32 (*.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 cos2phi (*.f32 alphax alphax))) (*.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 sin2phi (*.f32 alphay alphay)))) (-.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (+.f32 (pow.f32 (/.f32 cos2phi (*.f32 alphax alphax)) #s(literal 3 binary32)) (pow.f32 (/.f32 sin2phi (*.f32 alphay alphay)) #s(literal 3 binary32))) (fma.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 cos2phi (*.f32 alphax alphax)) (-.f32 (*.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 sin2phi (*.f32 alphay alphay))) (*.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))))
(/.f32 (fma.f32 (*.f32 alphay alphay) cos2phi (*.f32 (*.f32 alphax alphax) sin2phi)) (*.f32 (*.f32 alphax alphax) (*.f32 alphay alphay)))
(/.f32 (fma.f32 (/.f32 cos2phi alphax) (*.f32 alphay alphay) (*.f32 alphax sin2phi)) (*.f32 alphax (*.f32 alphay alphay)))
(+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))
(+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay)))
(/.f32 (neg.f32 (neg.f32 (/.f32 cos2phi alphax))) (neg.f32 (neg.f32 alphax)))
(/.f32 (neg.f32 (neg.f32 cos2phi)) (neg.f32 (neg.f32 (*.f32 alphax alphax))))
(/.f32 (neg.f32 (/.f32 cos2phi alphax)) (neg.f32 alphax))
(/.f32 (neg.f32 cos2phi) (neg.f32 (*.f32 alphax alphax)))
(/.f32 (/.f32 cos2phi alphax) alphax)
(/.f32 cos2phi (*.f32 alphax alphax))
cos2phi
(*.f32 (fabs.f32 (fabs.f32 alphax)) (fabs.f32 (fabs.f32 alphax)))
(*.f32 (neg.f32 (fabs.f32 alphax)) (neg.f32 (fabs.f32 alphax)))
(*.f32 (neg.f32 (neg.f32 alphax)) (neg.f32 (neg.f32 alphax)))
(*.f32 (exp.f32 (log.f32 alphax)) (exp.f32 (log.f32 alphax)))
(*.f32 (fabs.f32 alphax) (fabs.f32 alphax))
(*.f32 (neg.f32 alphax) (neg.f32 alphax))
(*.f32 alphax alphax)
(pow.f32 (exp.f32 (log.f32 alphax)) #s(literal 2 binary32))
(pow.f32 (fabs.f32 alphax) #s(literal 2 binary32))
(pow.f32 (neg.f32 alphax) #s(literal 2 binary32))
(pow.f32 (*.f32 alphax alphax) #s(literal 1 binary32))
(pow.f32 alphax #s(literal 2 binary32))
(+.f32 (cosh.f32 (*.f32 (log.f32 alphax) #s(literal 2 binary32))) (sinh.f32 (*.f32 (log.f32 alphax) #s(literal 2 binary32))))
(fabs.f32 (*.f32 alphax alphax))
(exp.f32 (*.f32 (log.f32 alphax) #s(literal 2 binary32)))
alphax
(/.f32 (neg.f32 (/.f32 sin2phi alphay)) (neg.f32 alphay))
(/.f32 (neg.f32 (neg.f32 sin2phi)) (neg.f32 (neg.f32 (*.f32 alphay alphay))))
(/.f32 (/.f32 sin2phi alphay) alphay)
(/.f32 (neg.f32 sin2phi) (neg.f32 (*.f32 alphay alphay)))
(/.f32 sin2phi (*.f32 alphay alphay))
sin2phi
(*.f32 (fabs.f32 (fabs.f32 alphay)) (fabs.f32 (fabs.f32 alphay)))
(*.f32 (neg.f32 (fabs.f32 alphay)) (neg.f32 (fabs.f32 alphay)))
(*.f32 (neg.f32 (neg.f32 alphay)) (neg.f32 (neg.f32 alphay)))
(*.f32 (exp.f32 (log.f32 alphay)) (exp.f32 (log.f32 alphay)))
(*.f32 (fabs.f32 alphay) (fabs.f32 alphay))
(*.f32 (neg.f32 alphay) (neg.f32 alphay))
(*.f32 alphay alphay)
(pow.f32 (exp.f32 (log.f32 alphay)) #s(literal 2 binary32))
(pow.f32 (fabs.f32 alphay) #s(literal 2 binary32))
(pow.f32 (neg.f32 alphay) #s(literal 2 binary32))
(pow.f32 (*.f32 alphay alphay) #s(literal 1 binary32))
(pow.f32 alphay #s(literal 2 binary32))
(+.f32 (cosh.f32 (*.f32 (log.f32 alphay) #s(literal 2 binary32))) (sinh.f32 (*.f32 (log.f32 alphay) #s(literal 2 binary32))))
(fabs.f32 (*.f32 alphay alphay))
(exp.f32 (*.f32 (log.f32 alphay) #s(literal 2 binary32)))
alphay
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi)))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi))
(*.f32 (*.f32 alphax alphax) (/.f32 u0 cos2phi))
(/.f32 (neg.f32 (neg.f32 (*.f32 (*.f32 alphax alphax) u0))) (neg.f32 (neg.f32 cos2phi)))
(/.f32 (neg.f32 (*.f32 (*.f32 alphax alphax) u0)) (neg.f32 cos2phi))
(/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi)
(*.f32 (*.f32 alphax alphax) u0)
(*.f32 alphax (*.f32 alphax u0))
(*.f32 u0 (*.f32 alphax alphax))
(/.f32 (neg.f32 (neg.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)))) (neg.f32 (neg.f32 #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))))
(/.f32 (neg.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0))) (neg.f32 #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax)))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
#s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0))
(*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)
(*.f32 u0 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)))
(+.f32 u0 (*.f32 u0 (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0)))
(+.f32 u0 (*.f32 (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0) u0))
(/.f32 (neg.f32 (-.f32 #s(literal 1 binary32) (*.f32 (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0) (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0)))) (neg.f32 (-.f32 #s(literal 1 binary32) (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0))))
(/.f32 (neg.f32 (-.f32 (*.f32 (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0) (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0)) #s(literal 1 binary32))) (neg.f32 (-.f32 (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0) #s(literal 1 binary32))))
(/.f32 (neg.f32 (+.f32 #s(literal 1 binary32) (pow.f32 (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0) #s(literal 3 binary32)))) (neg.f32 (+.f32 #s(literal 1 binary32) (-.f32 (*.f32 (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0) (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0)) (*.f32 #s(literal 1 binary32) (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0))))))
(/.f32 (neg.f32 (+.f32 (pow.f32 (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0) #s(literal 3 binary32)) #s(literal 1 binary32))) (neg.f32 (fma.f32 (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0) (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0) (-.f32 #s(literal 1 binary32) (*.f32 (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0) #s(literal 1 binary32))))))
(/.f32 (-.f32 #s(literal 1 binary32) (*.f32 (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0) (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0))) (-.f32 #s(literal 1 binary32) (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0)))
(/.f32 (-.f32 (*.f32 (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0) (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0)) #s(literal 1 binary32)) (-.f32 (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0) #s(literal 1 binary32)))
(/.f32 (+.f32 #s(literal 1 binary32) (pow.f32 (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0) #s(literal 3 binary32))) (+.f32 #s(literal 1 binary32) (-.f32 (*.f32 (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0) (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0)) (*.f32 #s(literal 1 binary32) (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0)))))
(/.f32 (+.f32 (pow.f32 (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0) #s(literal 3 binary32)) #s(literal 1 binary32)) (fma.f32 (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0) (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0) (-.f32 #s(literal 1 binary32) (*.f32 (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0) #s(literal 1 binary32)))))
(-.f32 #s(literal 1 binary32) (*.f32 (neg.f32 u0) (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32))))
(fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32))
(fma.f32 u0 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) #s(literal 1 binary32))
(+.f32 (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0) #s(literal 1 binary32))
(+.f32 #s(literal 1 binary32) (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0))
(/.f32 (neg.f32 (-.f32 #s(literal 1/4 binary32) (*.f32 (*.f32 #s(literal 1/3 binary32) u0) (*.f32 #s(literal 1/3 binary32) u0)))) (neg.f32 (-.f32 #s(literal 1/2 binary32) (*.f32 #s(literal 1/3 binary32) u0))))
(/.f32 (neg.f32 (-.f32 (*.f32 (*.f32 #s(literal 1/3 binary32) u0) (*.f32 #s(literal 1/3 binary32) u0)) #s(literal 1/4 binary32))) (neg.f32 (-.f32 (*.f32 #s(literal 1/3 binary32) u0) #s(literal 1/2 binary32))))
(/.f32 (neg.f32 (+.f32 #s(literal 1/8 binary32) (*.f32 #s(literal 1/27 binary32) (*.f32 (*.f32 u0 u0) u0)))) (neg.f32 (+.f32 #s(literal 1/4 binary32) (-.f32 (*.f32 (*.f32 #s(literal 1/3 binary32) u0) (*.f32 #s(literal 1/3 binary32) u0)) (*.f32 #s(literal 1/2 binary32) (*.f32 #s(literal 1/3 binary32) u0))))))
(/.f32 (neg.f32 (fma.f32 (*.f32 (*.f32 u0 u0) u0) #s(literal 1/27 binary32) #s(literal 1/8 binary32))) (neg.f32 (fma.f32 (*.f32 #s(literal 1/3 binary32) u0) (*.f32 #s(literal 1/3 binary32) u0) (-.f32 #s(literal 1/4 binary32) (*.f32 (*.f32 #s(literal 1/3 binary32) u0) #s(literal 1/2 binary32))))))
(/.f32 (-.f32 #s(literal 1/4 binary32) (*.f32 (*.f32 #s(literal 1/3 binary32) u0) (*.f32 #s(literal 1/3 binary32) u0))) (-.f32 #s(literal 1/2 binary32) (*.f32 #s(literal 1/3 binary32) u0)))
(/.f32 (-.f32 (*.f32 (*.f32 #s(literal 1/3 binary32) u0) (*.f32 #s(literal 1/3 binary32) u0)) #s(literal 1/4 binary32)) (-.f32 (*.f32 #s(literal 1/3 binary32) u0) #s(literal 1/2 binary32)))
(/.f32 (+.f32 #s(literal 1/8 binary32) (*.f32 #s(literal 1/27 binary32) (*.f32 (*.f32 u0 u0) u0))) (+.f32 #s(literal 1/4 binary32) (-.f32 (*.f32 (*.f32 #s(literal 1/3 binary32) u0) (*.f32 #s(literal 1/3 binary32) u0)) (*.f32 #s(literal 1/2 binary32) (*.f32 #s(literal 1/3 binary32) u0)))))
(/.f32 (fma.f32 (*.f32 (*.f32 u0 u0) u0) #s(literal 1/27 binary32) #s(literal 1/8 binary32)) (fma.f32 (*.f32 #s(literal 1/3 binary32) u0) (*.f32 #s(literal 1/3 binary32) u0) (-.f32 #s(literal 1/4 binary32) (*.f32 (*.f32 #s(literal 1/3 binary32) u0) #s(literal 1/2 binary32)))))
(-.f32 #s(literal 1/2 binary32) (*.f32 #s(literal -1/3 binary32) u0))
(fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32))
(fma.f32 u0 #s(literal 1/3 binary32) #s(literal 1/2 binary32))
(+.f32 (*.f32 #s(literal 1/3 binary32) u0) #s(literal 1/2 binary32))
(+.f32 #s(literal 1/2 binary32) (*.f32 #s(literal 1/3 binary32) u0))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax)))
(/.f32 (neg.f32 (neg.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)))) (neg.f32 (neg.f32 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))))
(/.f32 (neg.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0))) (neg.f32 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))
(/.f32 (neg.f32 (-.f32 (*.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 cos2phi (*.f32 alphax alphax))) (*.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 sin2phi (*.f32 alphay alphay))))) (neg.f32 (-.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay)))))
(/.f32 (neg.f32 (+.f32 (pow.f32 (/.f32 cos2phi (*.f32 alphax alphax)) #s(literal 3 binary32)) (pow.f32 (/.f32 sin2phi (*.f32 alphay alphay)) #s(literal 3 binary32)))) (neg.f32 (fma.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 cos2phi (*.f32 alphax alphax)) (-.f32 (*.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 sin2phi (*.f32 alphay alphay))) (*.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay)))))))
(/.f32 (neg.f32 (fma.f32 (*.f32 alphay alphay) cos2phi (*.f32 (*.f32 alphax alphax) sin2phi))) (neg.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphay alphay))))
(/.f32 (neg.f32 (fma.f32 (/.f32 cos2phi alphax) (*.f32 alphay alphay) (*.f32 alphax sin2phi))) (neg.f32 (*.f32 alphax (*.f32 alphay alphay))))
(/.f32 (-.f32 (*.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 cos2phi (*.f32 alphax alphax))) (*.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 sin2phi (*.f32 alphay alphay)))) (-.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (+.f32 (pow.f32 (/.f32 cos2phi (*.f32 alphax alphax)) #s(literal 3 binary32)) (pow.f32 (/.f32 sin2phi (*.f32 alphay alphay)) #s(literal 3 binary32))) (fma.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 cos2phi (*.f32 alphax alphax)) (-.f32 (*.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 sin2phi (*.f32 alphay alphay))) (*.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))))
(/.f32 (fma.f32 (*.f32 alphay alphay) cos2phi (*.f32 (*.f32 alphax alphax) sin2phi)) (*.f32 (*.f32 alphax alphax) (*.f32 alphay alphay)))
(/.f32 (fma.f32 (/.f32 cos2phi alphax) (*.f32 alphay alphay) (*.f32 alphax sin2phi)) (*.f32 alphax (*.f32 alphay alphay)))
(+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))
(+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay)))
(/.f32 (neg.f32 (neg.f32 (/.f32 cos2phi alphax))) (neg.f32 (neg.f32 alphax)))
(/.f32 (neg.f32 (neg.f32 cos2phi)) (neg.f32 (neg.f32 (*.f32 alphax alphax))))
(/.f32 (neg.f32 (/.f32 cos2phi alphax)) (neg.f32 alphax))
(/.f32 (neg.f32 cos2phi) (neg.f32 (*.f32 alphax alphax)))
(/.f32 (/.f32 cos2phi alphax) alphax)
(/.f32 cos2phi (*.f32 alphax alphax))
(/.f32 (neg.f32 (neg.f32 cos2phi)) (neg.f32 (neg.f32 alphax)))
(/.f32 (neg.f32 cos2phi) (neg.f32 alphax))
(/.f32 cos2phi alphax)
(/.f32 (neg.f32 (neg.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0 u0)))) (neg.f32 (neg.f32 #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (*.f32 (+.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))) cos2phi)))))
(/.f32 (neg.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0 u0))) (neg.f32 #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (*.f32 (+.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))) cos2phi))))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0 u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (*.f32 (+.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))) cos2phi)))
#s(approx (neg (log (- 1 u0))) (fma.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0 u0))
(*.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)
(*.f32 u0 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)))
(/.f32 (neg.f32 (-.f32 (*.f32 u0 u0) (pow.f32 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0) #s(literal 2 binary32)))) (neg.f32 (-.f32 u0 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0))))
(/.f32 (neg.f32 (fma.f32 (*.f32 u0 u0) u0 (pow.f32 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0) #s(literal 3 binary32)))) (neg.f32 (fma.f32 u0 u0 (-.f32 (pow.f32 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0) #s(literal 2 binary32)) (*.f32 u0 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0))))))
(/.f32 (-.f32 (*.f32 u0 u0) (pow.f32 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0) #s(literal 2 binary32))) (-.f32 u0 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0)))
(/.f32 (fma.f32 (*.f32 u0 u0) u0 (pow.f32 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0) #s(literal 3 binary32))) (fma.f32 u0 u0 (-.f32 (pow.f32 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0) #s(literal 2 binary32)) (*.f32 u0 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0)))))
(-.f32 u0 (*.f32 (neg.f32 u0) (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)))
(fma.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0 u0)
(fma.f32 u0 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0)
(fma.f32 u0 #s(literal 1 binary32) (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0))
(+.f32 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0) u0)
(+.f32 u0 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0))
(/.f32 (neg.f32 (-.f32 #s(literal 1 binary32) (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)))) (neg.f32 (-.f32 #s(literal 1 binary32) (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0))))
(/.f32 (neg.f32 (-.f32 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)) #s(literal 1 binary32))) (neg.f32 (-.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) #s(literal 1 binary32))))
(/.f32 (neg.f32 (+.f32 #s(literal 1 binary32) (pow.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) #s(literal 3 binary32)))) (neg.f32 (+.f32 #s(literal 1 binary32) (-.f32 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)) (*.f32 #s(literal 1 binary32) (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0))))))
(/.f32 (neg.f32 (+.f32 (pow.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) #s(literal 3 binary32)) #s(literal 1 binary32))) (neg.f32 (fma.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) (-.f32 #s(literal 1 binary32) (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) #s(literal 1 binary32))))))
(/.f32 (-.f32 #s(literal 1 binary32) (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0))) (-.f32 #s(literal 1 binary32) (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)))
(/.f32 (-.f32 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)) #s(literal 1 binary32)) (-.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) #s(literal 1 binary32)))
(/.f32 (+.f32 #s(literal 1 binary32) (pow.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) #s(literal 3 binary32))) (+.f32 #s(literal 1 binary32) (-.f32 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)) (*.f32 #s(literal 1 binary32) (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)))))
(/.f32 (+.f32 (pow.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) #s(literal 3 binary32)) #s(literal 1 binary32)) (fma.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) (-.f32 #s(literal 1 binary32) (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) #s(literal 1 binary32)))))
(-.f32 #s(literal 1 binary32) (*.f32 (neg.f32 u0) (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32))))
(fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32))
(fma.f32 u0 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) #s(literal 1 binary32))
(+.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) #s(literal 1 binary32))
(+.f32 #s(literal 1 binary32) (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (*.f32 (+.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))) cos2phi))
(*.f32 (+.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))) cos2phi)
(*.f32 cos2phi (+.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))))
(fma.f32 (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax)) cos2phi (*.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) cos2phi))
(fma.f32 cos2phi (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax)) (*.f32 cos2phi (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi))))
(+.f32 (*.f32 cos2phi (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))) (*.f32 cos2phi (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi))))
(+.f32 (*.f32 (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax)) cos2phi) (*.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) cos2phi))
(/.f32 (neg.f32 (-.f32 (*.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi))) (*.f32 (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax)) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))))) (neg.f32 (-.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax)))))
(/.f32 (neg.f32 (-.f32 (*.f32 (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax)) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))) (*.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi))))) (neg.f32 (-.f32 (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)))))
(/.f32 (neg.f32 (+.f32 (pow.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) #s(literal 3 binary32)) (/.f32 #s(literal 1 binary32) (*.f32 (*.f32 (*.f32 alphax alphax) alphax) (*.f32 (*.f32 alphax alphax) alphax))))) (neg.f32 (fma.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) (-.f32 (*.f32 (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax)) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))) (*.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax)))))))
(/.f32 (neg.f32 (+.f32 (/.f32 #s(literal 1 binary32) (*.f32 (*.f32 (*.f32 alphax alphax) alphax) (*.f32 (*.f32 alphax alphax) alphax))) (pow.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) #s(literal 3 binary32)))) (neg.f32 (fma.f32 (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax)) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax)) (-.f32 (*.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi))) (*.f32 (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)))))))
(/.f32 (neg.f32 (fma.f32 (*.f32 alphax alphax) sin2phi (*.f32 (*.f32 (*.f32 alphay alphay) cos2phi) #s(literal 1 binary32)))) (neg.f32 (*.f32 (*.f32 (*.f32 alphay alphay) cos2phi) (*.f32 alphax alphax))))
(/.f32 (neg.f32 (fma.f32 #s(literal 1 binary32) (*.f32 (*.f32 alphay alphay) cos2phi) (*.f32 (*.f32 alphax alphax) sin2phi))) (neg.f32 (*.f32 (*.f32 alphax alphax) (*.f32 (*.f32 alphay alphay) cos2phi))))
(/.f32 (-.f32 (*.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi))) (*.f32 (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax)) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax)))) (-.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))))
(/.f32 (-.f32 (*.f32 (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax)) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))) (*.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)))) (-.f32 (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi))))
(/.f32 (+.f32 (pow.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) #s(literal 3 binary32)) (/.f32 #s(literal 1 binary32) (*.f32 (*.f32 (*.f32 alphax alphax) alphax) (*.f32 (*.f32 alphax alphax) alphax)))) (fma.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) (-.f32 (*.f32 (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax)) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))) (*.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))))))
(/.f32 (+.f32 (/.f32 #s(literal 1 binary32) (*.f32 (*.f32 (*.f32 alphax alphax) alphax) (*.f32 (*.f32 alphax alphax) alphax))) (pow.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) #s(literal 3 binary32))) (fma.f32 (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax)) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax)) (-.f32 (*.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi))) (*.f32 (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi))))))
(/.f32 (fma.f32 (*.f32 alphax alphax) sin2phi (*.f32 (*.f32 (*.f32 alphay alphay) cos2phi) #s(literal 1 binary32))) (*.f32 (*.f32 (*.f32 alphay alphay) cos2phi) (*.f32 alphax alphax)))
(/.f32 (fma.f32 #s(literal 1 binary32) (*.f32 (*.f32 alphay alphay) cos2phi) (*.f32 (*.f32 alphax alphax) sin2phi)) (*.f32 (*.f32 alphax alphax) (*.f32 (*.f32 alphay alphay) cos2phi)))
(fma.f32 (pow.f32 (fabs.f32 alphax) #s(literal -1 binary32)) (pow.f32 (fabs.f32 alphax) #s(literal -1 binary32)) (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)))
(fma.f32 (pow.f32 (neg.f32 alphax) #s(literal -1 binary32)) (pow.f32 (neg.f32 alphax) #s(literal -1 binary32)) (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)))
(fma.f32 (/.f32 #s(literal 1 binary32) alphax) (/.f32 #s(literal 1 binary32) alphax) (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)))
(+.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax)))
(+.f32 (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)))
(/.f32 (neg.f32 (neg.f32 sin2phi)) (neg.f32 (neg.f32 (*.f32 (*.f32 alphay alphay) cos2phi))))
(/.f32 (neg.f32 (/.f32 sin2phi (*.f32 alphay alphay))) (neg.f32 cos2phi))
(/.f32 (neg.f32 sin2phi) (neg.f32 (*.f32 (*.f32 alphay alphay) cos2phi)))
(/.f32 (/.f32 sin2phi (*.f32 alphay alphay)) cos2phi)
(/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi))
(*.f32 (*.f32 alphay alphay) cos2phi)
(*.f32 alphay (*.f32 alphay cos2phi))
(*.f32 cos2phi (*.f32 alphay alphay))
(*.f32 (pow.f32 (fabs.f32 alphax) #s(literal -1 binary32)) (pow.f32 (fabs.f32 alphax) #s(literal -1 binary32)))
(*.f32 (pow.f32 (neg.f32 alphax) #s(literal -1 binary32)) (pow.f32 (neg.f32 alphax) #s(literal -1 binary32)))
(*.f32 (/.f32 #s(literal 1 binary32) alphax) (/.f32 #s(literal 1 binary32) alphax))
(/.f32 (neg.f32 (/.f32 #s(literal 1 binary32) alphax)) (neg.f32 alphax))
(/.f32 (/.f32 #s(literal 1 binary32) alphax) alphax)
(/.f32 #s(literal -1 binary32) (neg.f32 (*.f32 alphax alphax)))
(/.f32 #s(literal 1 binary32) (neg.f32 (neg.f32 (*.f32 alphax alphax))))
(/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))
(pow.f32 (*.f32 alphax alphax) #s(literal -1 binary32))
(pow.f32 alphax #s(literal -2 binary32))
(exp.f32 (neg.f32 (*.f32 (log.f32 alphax) #s(literal 2 binary32))))
(exp.f32 (-.f32 #s(literal 0 binary32) (*.f32 (log.f32 alphax) #s(literal 2 binary32))))
(exp.f32 (*.f32 (*.f32 (log.f32 alphax) #s(literal 2 binary32)) #s(literal -1 binary32)))
(exp.f32 (*.f32 (log.f32 (*.f32 alphax alphax)) #s(literal -1 binary32)))
(exp.f32 (*.f32 (log.f32 alphax) #s(literal -2 binary32)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (fma.f32 (*.f32 alphax alphax) (/.f32 (*.f32 sin2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphay cos2phi) (*.f32 alphay cos2phi))) (/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) cos2phi)) (*.f32 alphax alphax)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (fma.f32 (fma.f32 sin2phi (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) (*.f32 (*.f32 alphay cos2phi) (*.f32 alphay cos2phi))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (*.f32 (*.f32 sin2phi sin2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 cos2phi cos2phi) cos2phi) (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay))))))) (*.f32 alphax alphax) (/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) cos2phi)) (*.f32 alphax alphax)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (fma.f32 (fma.f32 (fma.f32 (*.f32 alphax alphax) (/.f32 (*.f32 (*.f32 (*.f32 sin2phi sin2phi) sin2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 cos2phi cos2phi) (*.f32 cos2phi cos2phi)) (*.f32 (*.f32 (*.f32 alphay alphay) alphay) (*.f32 (*.f32 alphay alphay) alphay)))) (neg.f32 (/.f32 (*.f32 (*.f32 sin2phi sin2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 cos2phi cos2phi) cos2phi) (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)))))) (*.f32 alphax alphax) (/.f32 (*.f32 sin2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphay cos2phi) (*.f32 alphay cos2phi)))) (*.f32 alphax alphax) (/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) cos2phi)) (*.f32 alphax alphax)))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax)))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 (fma.f32 (*.f32 alphax alphax) (/.f32 sin2phi (*.f32 alphay alphay)) cos2phi) (*.f32 alphax alphax)))
#s(approx (* alphax alphax) (*.f32 alphax alphax))
#s(approx alphax alphax)
#s(approx (/ (* (* alphax alphax) u0) cos2phi) (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi))
#s(approx (* (* alphax alphax) u0) (*.f32 (*.f32 alphax alphax) u0))
#s(approx (/ cos2phi alphax) (/.f32 cos2phi alphax))
#s(approx (+ (/ sin2phi (* (* alphay alphay) cos2phi)) (/ 1 (* alphax alphax))) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax)))
#s(approx (+ (/ sin2phi (* (* alphay alphay) cos2phi)) (/ 1 (* alphax alphax))) (/.f32 (fma.f32 (*.f32 alphax alphax) (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) #s(literal 1 binary32)) (*.f32 alphax alphax)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphay alphay) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (fma.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) (/.f32 (*.f32 cos2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphax sin2phi) (*.f32 alphax sin2phi))) (neg.f32 (*.f32 (*.f32 alphay alphay) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (+.f32 (fma.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) (/.f32 (*.f32 cos2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphax sin2phi) (*.f32 alphax sin2phi))) (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphay alphay) alphay) (*.f32 (*.f32 alphay alphay) alphay)) (*.f32 cos2phi cos2phi)) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (*.f32 (*.f32 sin2phi sin2phi) sin2phi))))) (neg.f32 (*.f32 (*.f32 alphay alphay) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (+.f32 (+.f32 (fma.f32 (exp.f32 (-.f32 (*.f32 (log.f32 alphay) #s(literal 8 binary32)) (*.f32 (log.f32 alphax) #s(literal 6 binary32)))) (/.f32 (*.f32 (*.f32 (*.f32 cos2phi cos2phi) cos2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 sin2phi sin2phi) (*.f32 sin2phi sin2phi))) (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) cos2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphax sin2phi) (*.f32 alphax sin2phi)))) (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphay alphay) alphay) (*.f32 (*.f32 alphay alphay) alphay)) (*.f32 cos2phi cos2phi)) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (*.f32 (*.f32 sin2phi sin2phi) sin2phi))))) (neg.f32 (*.f32 (*.f32 alphay alphay) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi)))))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay)))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))
#s(approx (+ (/ sin2phi (* (* alphay alphay) cos2phi)) (/ 1 (* alphax alphax))) (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)))
#s(approx (+ (/ sin2phi (* (* alphay alphay) cos2phi)) (/ 1 (* alphax alphax))) (+.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (fma.f32 (*.f32 alphay alphay) (/.f32 (*.f32 cos2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphax sin2phi) (*.f32 alphax sin2phi))) (/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) sin2phi)) (*.f32 alphay alphay)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (fma.f32 (fma.f32 cos2phi (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) (*.f32 (*.f32 alphax sin2phi) (*.f32 alphax sin2phi))) (neg.f32 (*.f32 (*.f32 alphay alphay) (/.f32 (*.f32 (*.f32 cos2phi cos2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (*.f32 (*.f32 sin2phi sin2phi) sin2phi)))))) (*.f32 alphay alphay) (/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) sin2phi)) (*.f32 alphay alphay)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (fma.f32 (fma.f32 (fma.f32 (*.f32 alphay alphay) (/.f32 (*.f32 (*.f32 (*.f32 cos2phi cos2phi) cos2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 sin2phi sin2phi) (*.f32 sin2phi sin2phi)) (*.f32 (*.f32 (*.f32 alphax alphax) alphax) (*.f32 (*.f32 alphax alphax) alphax)))) (neg.f32 (/.f32 (*.f32 (*.f32 cos2phi cos2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (*.f32 (*.f32 sin2phi sin2phi) sin2phi))))) (*.f32 alphay alphay) (/.f32 (*.f32 cos2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphax sin2phi) (*.f32 alphax sin2phi)))) (*.f32 alphay alphay) (/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) sin2phi)) (*.f32 alphay alphay)))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 (fma.f32 (*.f32 alphay alphay) (/.f32 cos2phi (*.f32 alphax alphax)) sin2phi) (*.f32 alphay alphay)))
#s(approx (* alphay alphay) (*.f32 alphay alphay))
#s(approx alphay alphay)
#s(approx (+ (/ sin2phi (* (* alphay alphay) cos2phi)) (/ 1 (* alphax alphax))) (/.f32 (+.f32 (/.f32 (*.f32 alphay alphay) (*.f32 alphax alphax)) (/.f32 sin2phi cos2phi)) (*.f32 alphay alphay)))
#s(approx (* (* alphay alphay) cos2phi) (*.f32 (*.f32 alphay alphay) cos2phi))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (fma.f32 (neg.f32 (*.f32 alphax alphax)) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi) (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (/.f32 (*.f32 sin2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphay cos2phi) (*.f32 alphay cos2phi))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (fma.f32 (neg.f32 (*.f32 alphax alphax)) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi) (fma.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (/.f32 (*.f32 sin2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphay cos2phi) (*.f32 alphay cos2phi))) (neg.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphax alphax) alphax) (*.f32 (*.f32 alphax alphax) alphax)) (/.f32 (*.f32 (*.f32 sin2phi sin2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 cos2phi cos2phi) cos2phi) (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (+.f32 (fma.f32 (neg.f32 (*.f32 alphax alphax)) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi) (neg.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphax alphax) alphax) (*.f32 (*.f32 alphax alphax) alphax)) (/.f32 (*.f32 (*.f32 sin2phi sin2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 cos2phi cos2phi) cos2phi) (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay))))))) (fma.f32 (exp.f32 (-.f32 (*.f32 (log.f32 alphax) #s(literal 8 binary32)) (*.f32 (log.f32 alphay) #s(literal 6 binary32)))) (/.f32 (*.f32 (*.f32 (*.f32 sin2phi sin2phi) sin2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 cos2phi cos2phi) (*.f32 cos2phi cos2phi))) (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (/.f32 (*.f32 sin2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphay cos2phi) (*.f32 alphay cos2phi)))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 u0 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (fma.f32 (/.f32 u0 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))) #s(literal 1/2 binary32) (/.f32 #s(literal 1 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (fma.f32 (fma.f32 (/.f32 u0 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))) #s(literal 1/3 binary32) (/.f32 #s(literal 1/2 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0 (/.f32 #s(literal 1 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (fma.f32 (fma.f32 (fma.f32 (/.f32 u0 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))) #s(literal 1/4 binary32) (/.f32 #s(literal 1/3 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0 (/.f32 #s(literal 1/2 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0 (/.f32 #s(literal 1 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0))
#s(approx (neg (log (- 1 u0))) u0)
#s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 #s(literal 1/2 binary32) u0 #s(literal 1 binary32)) u0))
#s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0))
#s(approx (neg (log (- 1 u0))) (fma.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0 u0))
#s(approx (* u0 (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0)) (*.f32 (*.f32 u0 u0) #s(literal 1/2 binary32)))
#s(approx (* u0 (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0)) (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) (*.f32 u0 u0)))
#s(approx (* u0 (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0)) (*.f32 (*.f32 u0 u0) (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32))))
#s(approx (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) (*.f32 #s(literal 1/2 binary32) u0))
#s(approx (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0))
#s(approx (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0))
#s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(literal 1/2 binary32))
#s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)))
#s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)))
#s(approx (+ (* 1/4 u0) 1/3) #s(literal 1/3 binary32))
#s(approx (+ (* 1/4 u0) 1/3) (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 (-.f32 (*.f32 (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi) #s(literal 1/2 binary32)) (neg.f32 (/.f32 (*.f32 alphax alphax) cos2phi))) u0))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 (-.f32 (*.f32 (fma.f32 (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi) #s(literal 1/3 binary32) (*.f32 #s(literal 1/2 binary32) (/.f32 (*.f32 alphax alphax) cos2phi))) u0) (neg.f32 (/.f32 (*.f32 alphax alphax) cos2phi))) u0))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 (-.f32 (*.f32 (fma.f32 (fma.f32 (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi) #s(literal 1/4 binary32) (*.f32 #s(literal 1/3 binary32) (/.f32 (*.f32 alphax alphax) cos2phi))) u0 (*.f32 #s(literal 1/2 binary32) (/.f32 (*.f32 alphax alphax) cos2phi))) u0) (neg.f32 (/.f32 (*.f32 alphax alphax) cos2phi))) u0))
#s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(literal 1 binary32))
#s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) (fma.f32 #s(literal 1/2 binary32) u0 #s(literal 1 binary32)))
#s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)))
#s(approx (+ (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) 1) (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (-.f32 (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))) (/.f32 #s(literal 1 binary32) (*.f32 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))) u0))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (-.f32 (+.f32 (/.f32 #s(literal 1/2 binary32) (*.f32 (*.f32 u0 u0) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) (/.f32 #s(literal 1 binary32) (*.f32 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))) u0))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (-.f32 (-.f32 (+.f32 (/.f32 #s(literal 1/2 binary32) (*.f32 (*.f32 u0 u0) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) (/.f32 #s(literal 1 binary32) (*.f32 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))) u0))) (/.f32 #s(literal 1/3 binary32) (*.f32 (*.f32 (*.f32 u0 u0) u0) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))))))
#s(approx (neg (log (- 1 u0))) (neg.f32 (log.f32 (neg.f32 u0))))
#s(approx (neg (log (- 1 u0))) (neg.f32 (+.f32 (neg.f32 (neg.f32 (log.f32 (neg.f32 u0)))) (/.f32 #s(literal 1 binary32) u0))))
#s(approx (neg (log (- 1 u0))) (-.f32 (-.f32 (/.f32 #s(literal 1/2 binary32) (*.f32 u0 u0)) (neg.f32 (neg.f32 (log.f32 (neg.f32 u0))))) (/.f32 #s(literal 1 binary32) u0)))
#s(approx (neg (log (- 1 u0))) (-.f32 (-.f32 (/.f32 #s(literal 1/2 binary32) (*.f32 u0 u0)) (neg.f32 (neg.f32 (log.f32 (neg.f32 u0))))) (+.f32 (/.f32 #s(literal 1/3 binary32) (*.f32 (*.f32 u0 u0) u0)) (/.f32 #s(literal 1 binary32) u0))))
#s(approx (+ (* u0 1) (* u0 (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0))) (*.f32 (*.f32 (*.f32 u0 u0) (*.f32 u0 u0)) #s(literal 1/4 binary32)))
#s(approx (+ (* u0 1) (* u0 (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0))) (*.f32 (+.f32 (/.f32 #s(literal 1/3 binary32) u0) #s(literal 1/4 binary32)) (*.f32 (*.f32 u0 u0) (*.f32 u0 u0))))
#s(approx (+ (* u0 1) (* u0 (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0))) (*.f32 (+.f32 (+.f32 #s(literal 1/4 binary32) (/.f32 #s(literal 1/2 binary32) (*.f32 u0 u0))) (/.f32 #s(literal 1/3 binary32) u0)) (*.f32 (*.f32 u0 u0) (*.f32 u0 u0))))
#s(approx (+ (* u0 1) (* u0 (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0))) (*.f32 (+.f32 (+.f32 (+.f32 (/.f32 #s(literal 1/3 binary32) u0) (/.f32 #s(literal 1/2 binary32) (*.f32 u0 u0))) (/.f32 #s(literal 1 binary32) (*.f32 (*.f32 u0 u0) u0))) #s(literal 1/4 binary32)) (*.f32 (*.f32 u0 u0) (*.f32 u0 u0))))
#s(approx (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) (*.f32 (*.f32 (*.f32 u0 u0) u0) #s(literal 1/4 binary32)))
#s(approx (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) (*.f32 (+.f32 (/.f32 #s(literal 1/3 binary32) u0) #s(literal 1/4 binary32)) (*.f32 (*.f32 u0 u0) u0)))
#s(approx (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) (*.f32 (+.f32 (+.f32 #s(literal 1/4 binary32) (/.f32 #s(literal 1/2 binary32) (*.f32 u0 u0))) (/.f32 #s(literal 1/3 binary32) u0)) (*.f32 (*.f32 u0 u0) u0)))
#s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) (*.f32 (*.f32 u0 u0) #s(literal 1/4 binary32)))
#s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) (*.f32 (+.f32 (/.f32 #s(literal 1/3 binary32) u0) #s(literal 1/4 binary32)) (*.f32 u0 u0)))
#s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) (*.f32 (+.f32 (+.f32 #s(literal 1/4 binary32) (/.f32 #s(literal 1/2 binary32) (*.f32 u0 u0))) (/.f32 #s(literal 1/3 binary32) u0)) (*.f32 u0 u0)))
#s(approx (+ (* 1/4 u0) 1/3) (*.f32 #s(literal 1/4 binary32) u0))
#s(approx (+ (* 1/4 u0) 1/3) (*.f32 (+.f32 (/.f32 #s(literal 1/3 binary32) u0) #s(literal 1/4 binary32)) u0))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 (*.f32 alphax alphax) (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) cos2phi)))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (-.f32 (neg.f32 (/.f32 (*.f32 alphax alphax) (*.f32 cos2phi u0))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) cos2phi)))))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (-.f32 (-.f32 (*.f32 (/.f32 (*.f32 alphax alphax) (*.f32 (*.f32 u0 u0) cos2phi)) #s(literal 1/2 binary32)) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) cos2phi)))) (/.f32 (*.f32 alphax alphax) (*.f32 cos2phi u0))))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (-.f32 (-.f32 (/.f32 (*.f32 #s(literal -1/3 binary32) (*.f32 alphax alphax)) (*.f32 (*.f32 (*.f32 u0 u0) u0) cos2phi)) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) cos2phi)))) (fma.f32 (/.f32 (*.f32 alphax alphax) (*.f32 (*.f32 u0 u0) cos2phi)) #s(literal -1/2 binary32) (/.f32 (*.f32 alphax alphax) (*.f32 cos2phi u0)))))
#s(approx (* (+ (* (+ (* 1/3 u0) 1/2) u0) 1) u0) (*.f32 (*.f32 (*.f32 u0 u0) u0) #s(literal 1/3 binary32)))
#s(approx (* (+ (* (+ (* 1/3 u0) 1/2) u0) 1) u0) (*.f32 (+.f32 (/.f32 #s(literal 1/2 binary32) u0) #s(literal 1/3 binary32)) (*.f32 (*.f32 u0 u0) u0)))
#s(approx (* (+ (* (+ (* 1/3 u0) 1/2) u0) 1) u0) (*.f32 (+.f32 (+.f32 (/.f32 #s(literal 1 binary32) (*.f32 u0 u0)) (/.f32 #s(literal 1/2 binary32) u0)) #s(literal 1/3 binary32)) (*.f32 (*.f32 u0 u0) u0)))
#s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) (*.f32 (*.f32 u0 u0) #s(literal 1/3 binary32)))
#s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) (*.f32 (+.f32 (/.f32 #s(literal 1/2 binary32) u0) #s(literal 1/3 binary32)) (*.f32 u0 u0)))
#s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) (*.f32 (+.f32 (+.f32 (/.f32 #s(literal 1 binary32) (*.f32 u0 u0)) (/.f32 #s(literal 1/2 binary32) u0)) #s(literal 1/3 binary32)) (*.f32 u0 u0)))
#s(approx (+ (* 1/3 u0) 1/2) (*.f32 #s(literal 1/3 binary32) u0))
#s(approx (+ (* 1/3 u0) 1/2) (*.f32 (+.f32 (/.f32 #s(literal 1/2 binary32) u0) #s(literal 1/3 binary32)) u0))
#s(approx (+ (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) 1) (*.f32 (+.f32 (+.f32 (+.f32 (/.f32 #s(literal 1/3 binary32) u0) (/.f32 #s(literal 1/2 binary32) (*.f32 u0 u0))) (/.f32 #s(literal 1 binary32) (*.f32 (*.f32 u0 u0) u0))) #s(literal 1/4 binary32)) (*.f32 (*.f32 u0 u0) u0)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (+.f32 (/.f32 #s(literal 1 binary32) (*.f32 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))) u0)) (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (+.f32 (+.f32 (/.f32 #s(literal 1 binary32) (*.f32 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))) u0)) (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) (/.f32 #s(literal 1/2 binary32) (*.f32 (*.f32 u0 u0) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (+.f32 (neg.f32 (/.f32 (-.f32 (neg.f32 (/.f32 (+.f32 (/.f32 #s(literal 1/3 binary32) (*.f32 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))) u0)) (/.f32 #s(literal 1/2 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0)) (/.f32 #s(literal 1 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0)) (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))))
#s(approx (neg (log (- 1 u0))) (neg.f32 (log.f32 (neg.f32 u0))))
#s(approx (neg (log (- 1 u0))) (-.f32 (/.f32 #s(literal 1 binary32) u0) (neg.f32 (neg.f32 (log.f32 (neg.f32 u0))))))
#s(approx (neg (log (- 1 u0))) (-.f32 (+.f32 (/.f32 #s(literal 1/2 binary32) (*.f32 u0 u0)) (/.f32 #s(literal 1 binary32) u0)) (neg.f32 (neg.f32 (log.f32 (neg.f32 u0))))))
#s(approx (neg (log (- 1 u0))) (-.f32 (neg.f32 (/.f32 (-.f32 (neg.f32 (/.f32 (+.f32 (/.f32 #s(literal 1/3 binary32) u0) #s(literal 1/2 binary32)) u0)) #s(literal 1 binary32)) u0)) (neg.f32 (neg.f32 (log.f32 (neg.f32 u0))))))
#s(approx (+ (* u0 1) (* u0 (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0))) (*.f32 (+.f32 (neg.f32 (/.f32 (-.f32 (neg.f32 (/.f32 (+.f32 (/.f32 #s(literal 1 binary32) u0) #s(literal 1/2 binary32)) u0)) #s(literal 1/3 binary32)) u0)) #s(literal 1/4 binary32)) (*.f32 (*.f32 u0 u0) (*.f32 u0 u0))))
#s(approx (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) (neg.f32 (*.f32 (-.f32 (neg.f32 (/.f32 (+.f32 (/.f32 #s(literal 1/2 binary32) u0) #s(literal 1/3 binary32)) u0)) #s(literal 1/4 binary32)) (*.f32 (*.f32 u0 u0) u0))))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 (*.f32 alphax alphax) (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) cos2phi)))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (-.f32 (/.f32 (*.f32 alphax alphax) (*.f32 cos2phi u0)) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) cos2phi)))))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (-.f32 (neg.f32 (/.f32 (-.f32 (*.f32 (/.f32 (*.f32 alphax alphax) (*.f32 cos2phi u0)) #s(literal -1/2 binary32)) (/.f32 (*.f32 alphax alphax) cos2phi)) u0)) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) cos2phi)))))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (-.f32 (neg.f32 (/.f32 (-.f32 (neg.f32 (/.f32 (fma.f32 (/.f32 (*.f32 alphax alphax) (*.f32 cos2phi u0)) #s(literal 1/3 binary32) (*.f32 #s(literal 1/2 binary32) (/.f32 (*.f32 alphax alphax) cos2phi))) u0)) (/.f32 (*.f32 alphax alphax) cos2phi)) u0)) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) cos2phi)))))
#s(approx (* (+ (* (+ (* 1/3 u0) 1/2) u0) 1) u0) (neg.f32 (*.f32 (-.f32 (neg.f32 (/.f32 (+.f32 (/.f32 #s(literal 1 binary32) u0) #s(literal 1/2 binary32)) u0)) #s(literal 1/3 binary32)) (*.f32 (*.f32 u0 u0) u0))))
#s(approx (+ (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) 1) (neg.f32 (*.f32 (-.f32 (neg.f32 (/.f32 (+.f32 (+.f32 (/.f32 #s(literal 1 binary32) (*.f32 u0 u0)) (/.f32 #s(literal 1/2 binary32) u0)) #s(literal 1/3 binary32)) u0)) #s(literal 1/4 binary32)) (*.f32 (*.f32 u0 u0) u0))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (fma.f32 (fma.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) (*.f32 (*.f32 alphax sin2phi) (*.f32 alphax sin2phi))) (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphay alphay) alphay) (*.f32 (*.f32 alphay alphay) alphay)) cos2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (*.f32 (*.f32 sin2phi sin2phi) sin2phi))))) cos2phi (neg.f32 (*.f32 (*.f32 alphay alphay) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (fma.f32 (fma.f32 (fma.f32 (exp.f32 (-.f32 (*.f32 (log.f32 alphay) #s(literal 8 binary32)) (*.f32 (log.f32 alphax) #s(literal 6 binary32)))) (/.f32 (*.f32 cos2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 sin2phi sin2phi) (*.f32 sin2phi sin2phi))) (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphay alphay) alphay) (*.f32 (*.f32 alphay alphay) alphay)) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (*.f32 (*.f32 sin2phi sin2phi) sin2phi))))) cos2phi (/.f32 (*.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphax sin2phi) (*.f32 alphax sin2phi)))) cos2phi (neg.f32 (*.f32 (*.f32 alphay alphay) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi)))))
#s(approx cos2phi cos2phi)
#s(approx (+ (/ sin2phi (* (* alphay alphay) cos2phi)) (/ 1 (* alphax alphax))) (/.f32 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))) cos2phi))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (fma.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (/.f32 (*.f32 sin2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphay alphay) cos2phi)) (neg.f32 (*.f32 (*.f32 alphax alphax) (log.f32 (-.f32 #s(literal 1 binary32) u0))))) cos2phi))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (+.f32 (fma.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (/.f32 (*.f32 sin2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphay alphay) cos2phi)) (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphax alphax) alphax) (*.f32 (*.f32 alphax alphax) alphax)) (*.f32 sin2phi sin2phi)) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) (*.f32 cos2phi cos2phi))))) (neg.f32 (*.f32 (*.f32 alphax alphax) (log.f32 (-.f32 #s(literal 1 binary32) u0))))) cos2phi))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (+.f32 (+.f32 (fma.f32 (exp.f32 (-.f32 (*.f32 (log.f32 alphax) #s(literal 8 binary32)) (*.f32 (log.f32 alphay) #s(literal 6 binary32)))) (/.f32 (*.f32 (*.f32 (*.f32 sin2phi sin2phi) sin2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 cos2phi cos2phi) cos2phi)) (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) sin2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphay alphay) cos2phi))) (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphax alphax) alphax) (*.f32 (*.f32 alphax alphax) alphax)) (*.f32 sin2phi sin2phi)) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) (*.f32 cos2phi cos2phi))))) (neg.f32 (*.f32 (*.f32 alphax alphax) (log.f32 (-.f32 #s(literal 1 binary32) u0))))) cos2phi))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (*.f32 (+.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))) cos2phi))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (/.f32 (fma.f32 (*.f32 alphax alphax) (log.f32 (-.f32 #s(literal 1 binary32) u0)) (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) sin2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphay alphay) cos2phi)))) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (/.f32 (fma.f32 (*.f32 alphax alphax) (log.f32 (-.f32 #s(literal 1 binary32) u0)) (neg.f32 (/.f32 (fma.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (/.f32 (*.f32 sin2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 alphay alphay)) (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphax alphax) alphax) (*.f32 (*.f32 alphax alphax) alphax)) (*.f32 sin2phi sin2phi)) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) cos2phi)))) cos2phi))) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (/.f32 (fma.f32 (*.f32 alphax alphax) (log.f32 (-.f32 #s(literal 1 binary32) u0)) (neg.f32 (/.f32 (fma.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (/.f32 (*.f32 sin2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 alphay alphay)) (neg.f32 (/.f32 (fma.f32 (*.f32 (*.f32 (*.f32 alphax alphax) alphax) (*.f32 (*.f32 alphax alphax) alphax)) (/.f32 (*.f32 (*.f32 sin2phi sin2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay))) (neg.f32 (*.f32 (exp.f32 (-.f32 (*.f32 (log.f32 alphax) #s(literal 8 binary32)) (*.f32 (log.f32 alphay) #s(literal 6 binary32)))) (/.f32 (*.f32 (*.f32 (*.f32 sin2phi sin2phi) sin2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) cos2phi)))) cos2phi))) cos2phi))) cos2phi)))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (neg.f32 (*.f32 (-.f32 (neg.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi))) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (fma.f32 (fma.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) (*.f32 (*.f32 alphay cos2phi) (*.f32 alphay cos2phi))) (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphax alphax) alphax) (*.f32 (*.f32 alphax alphax) alphax)) sin2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 cos2phi cos2phi) cos2phi) (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)))))) sin2phi (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (fma.f32 (fma.f32 (fma.f32 (exp.f32 (-.f32 (*.f32 (log.f32 alphax) #s(literal 8 binary32)) (*.f32 (log.f32 alphay) #s(literal 6 binary32)))) (/.f32 (*.f32 sin2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 cos2phi cos2phi) (*.f32 cos2phi cos2phi))) (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphax alphax) alphax) (*.f32 (*.f32 alphax alphax) alphax)) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 cos2phi cos2phi) cos2phi) (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)))))) sin2phi (/.f32 (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphay cos2phi) (*.f32 alphay cos2phi)))) sin2phi (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi)))))
#s(approx sin2phi sin2phi)
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (fma.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) (/.f32 (*.f32 cos2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphax alphax) sin2phi)) (neg.f32 (*.f32 (*.f32 alphay alphay) (log.f32 (-.f32 #s(literal 1 binary32) u0))))) sin2phi))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (+.f32 (fma.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) (/.f32 (*.f32 cos2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphax alphax) sin2phi)) (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphay alphay) alphay) (*.f32 (*.f32 alphay alphay) alphay)) (*.f32 cos2phi cos2phi)) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (*.f32 sin2phi sin2phi))))) (neg.f32 (*.f32 (*.f32 alphay alphay) (log.f32 (-.f32 #s(literal 1 binary32) u0))))) sin2phi))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (+.f32 (+.f32 (fma.f32 (exp.f32 (-.f32 (*.f32 (log.f32 alphay) #s(literal 8 binary32)) (*.f32 (log.f32 alphax) #s(literal 6 binary32)))) (/.f32 (*.f32 (*.f32 (*.f32 cos2phi cos2phi) cos2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 sin2phi sin2phi) sin2phi)) (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) cos2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphax alphax) sin2phi))) (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphay alphay) alphay) (*.f32 (*.f32 alphay alphay) alphay)) (*.f32 cos2phi cos2phi)) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (*.f32 sin2phi sin2phi))))) (neg.f32 (*.f32 (*.f32 alphay alphay) (log.f32 (-.f32 #s(literal 1 binary32) u0))))) sin2phi))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (*.f32 (+.f32 (/.f32 cos2phi (*.f32 (*.f32 alphax alphax) sin2phi)) (/.f32 #s(literal 1 binary32) (*.f32 alphay alphay))) sin2phi))
#s(approx (+ (/ sin2phi (* (* alphay alphay) cos2phi)) (/ 1 (* alphax alphax))) (*.f32 (+.f32 (/.f32 #s(literal 1 binary32) (*.f32 (*.f32 alphay alphay) cos2phi)) (/.f32 #s(literal 1 binary32) (*.f32 (*.f32 alphax alphax) sin2phi))) sin2phi))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (/.f32 (fma.f32 (*.f32 alphay alphay) (log.f32 (-.f32 #s(literal 1 binary32) u0)) (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) cos2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphax alphax) sin2phi)))) sin2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (/.f32 (fma.f32 (*.f32 alphay alphay) (log.f32 (-.f32 #s(literal 1 binary32) u0)) (neg.f32 (/.f32 (fma.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) (/.f32 (*.f32 cos2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 alphax alphax)) (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphay alphay) alphay) (*.f32 (*.f32 alphay alphay) alphay)) (*.f32 cos2phi cos2phi)) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) sin2phi)))) sin2phi))) sin2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (/.f32 (fma.f32 (*.f32 alphay alphay) (log.f32 (-.f32 #s(literal 1 binary32) u0)) (neg.f32 (/.f32 (fma.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) (/.f32 (*.f32 cos2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 alphax alphax)) (neg.f32 (/.f32 (fma.f32 (*.f32 (*.f32 (*.f32 alphay alphay) alphay) (*.f32 (*.f32 alphay alphay) alphay)) (/.f32 (*.f32 (*.f32 cos2phi cos2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax))) (neg.f32 (*.f32 (exp.f32 (-.f32 (*.f32 (log.f32 alphay) #s(literal 8 binary32)) (*.f32 (log.f32 alphax) #s(literal 6 binary32)))) (/.f32 (*.f32 (*.f32 (*.f32 cos2phi cos2phi) cos2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) sin2phi)))) sin2phi))) sin2phi))) sin2phi)))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (neg.f32 (*.f32 (-.f32 (neg.f32 (/.f32 cos2phi (*.f32 (*.f32 alphax alphax) sin2phi))) (/.f32 #s(literal 1 binary32) (*.f32 alphay alphay))) sin2phi)))

eval53.0ms (0.8%)

Memory
-25.2MiB live, 81.4MiB allocated; 11ms collecting garbage
Compiler

Compiled 6 489 to 2 377 computations (63.4% saved)

prune74.0ms (1.2%)

Memory
14.8MiB live, 105.0MiB allocated; 7ms collecting garbage
Pruning

69 alts after pruning (63 fresh and 6 done)

PrunedKeptTotal
New45620476
Fresh54348
Picked325
Done145
Total46569534
Accuracy
99.8%
Counts
534 → 69
Alt Table
Click to see full alt table
StatusAccuracyProgram
59.1%
(/.f32 (neg.f32 (-.f32 (log1p.f32 (*.f32 (neg.f32 u0) u0)) (log.f32 (+.f32 #s(literal 1 binary32) u0)))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
57.5%
(/.f32 (neg.f32 (-.f32 (log.f32 (/.f32 (-.f32 #s(literal 1 binary32) (pow.f32 (*.f32 u0 u0) #s(literal 3 binary32))) (+.f32 #s(literal 1 binary32) (fma.f32 (*.f32 u0 u0) (*.f32 u0 u0) (*.f32 #s(literal 1 binary32) (*.f32 u0 u0)))))) (log.f32 (+.f32 #s(literal 1 binary32) u0)))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
46.8%
(/.f32 (neg.f32 (-.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 (*.f32 u0 u0) u0))) (log.f32 (+.f32 #s(literal 1 binary32) (fma.f32 u0 u0 (*.f32 #s(literal 1 binary32) u0)))))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
60.1%
(/.f32 (neg.f32 (-.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) (-.f32 (log.f32 (+.f32 #s(literal 1 binary32) (*.f32 (*.f32 u0 u0) u0))) (log.f32 (+.f32 #s(literal 1 binary32) (-.f32 (*.f32 u0 u0) (*.f32 #s(literal 1 binary32) u0))))))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
88.7%
(/.f32 (neg.f32 (-.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) (log1p.f32 u0))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
46.6%
(/.f32 (neg.f32 (-.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) (log.f32 (+.f32 u0 #s(literal 1 binary32))))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
57.9%
(/.f32 (neg.f32 (-.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) (log.f32 (+.f32 #s(literal 1 binary32) u0)))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 (/.f32 sin2phi alphay) alphay)))
83.9%
(/.f32 (neg.f32 (-.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) #s(approx (log (+ 1 u0)) (*.f32 (fma.f32 (-.f32 (*.f32 (fma.f32 #s(literal -1/4 binary32) u0 #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
61.1%
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 (/.f32 sin2phi alphay) alphay)))
61.1%
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
48.9%
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 (/.f32 sin2phi alphay) alphay)))
48.9%
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
48.6%
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (exp.f32 (*.f32 (log.f32 alphay) #s(literal 2 binary32))))))
22.8%
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
49.4%
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (*.f32 (+.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))) cos2phi)))
60.9%
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (*.f32 (+.f32 (/.f32 cos2phi (*.f32 (*.f32 alphax alphax) sin2phi)) (/.f32 #s(literal 1 binary32) (*.f32 alphay alphay))) sin2phi)))
69.6%
(/.f32 (neg.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)) u0) #s(literal 1 binary32)) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
68.2%
(/.f32 (neg.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/3 binary32) u0) #s(literal 1/2 binary32)) u0) #s(literal 1 binary32)) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
65.8%
(/.f32 (neg.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (*.f32 (-.f32 (*.f32 #s(literal -1/2 binary32) u0) #s(literal 1 binary32)) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
58.3%
(/.f32 (neg.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (neg.f32 u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
58.4%
(/.f32 (log.f32 (/.f32 #s(literal 1 binary32) (-.f32 #s(literal 1 binary32) u0))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
47.1%
(/.f32 (log.f32 (/.f32 #s(literal 1 binary32) (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
87.4%
(/.f32 #s(approx (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (*.f32 (fma.f32 #s(literal 1/2 binary32) u0 #s(literal 1 binary32)) u0)) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
75.4%
(/.f32 #s(approx (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) u0) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
92.9%
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0 u0)) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))
74.7%
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0 u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (*.f32 (+.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))) cos2phi)))
91.0%
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (pow.f32 (exp.f32 (log.f32 alphay)) #s(literal 2 binary32)))))
69.8%
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
87.5%
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 #s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(literal 1/2 binary32)) u0)))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
91.1%
(/.f32 #s(approx (neg (log (- 1 u0))) (+.f32 u0 (*.f32 (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0) u0))) (+.f32 (/.f32 (/.f32 cos2phi alphax) alphax) (/.f32 sin2phi (*.f32 alphay alphay))))
27.1%
(/.f32 #s(approx (neg (log (- 1 u0))) (+.f32 u0 (*.f32 (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
27.5%
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
51.7%
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (*.f32 #s(approx (+ (/ sin2phi (* (* alphay alphay) cos2phi)) (/ 1 (* alphax alphax))) (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi))) cos2phi)))
27.4%
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (*.f32 #s(approx (+ (/ sin2phi (* (* alphay alphay) cos2phi)) (/ 1 (* alphax alphax))) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))) cos2phi)))
90.6%
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) (/.f32 (fma.f32 (*.f32 alphay alphay) cos2phi (*.f32 (*.f32 alphax alphax) sin2phi)) (*.f32 (*.f32 alphax alphax) (*.f32 alphay alphay))))
90.8%
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 (/.f32 sin2phi alphay) alphay)))
90.8%
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
90.8%
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 (fma.f32 (*.f32 alphay alphay) (/.f32 cos2phi (*.f32 alphax alphax)) sin2phi) (*.f32 alphay alphay))))
90.8%
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 (fma.f32 (*.f32 alphax alphax) (/.f32 sin2phi (*.f32 alphay alphay)) cos2phi) (*.f32 alphax alphax))))
27.1%
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 (/.f32 cos2phi alphax) alphax)))
27.0%
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
90.0%
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (*.f32 (+.f32 (/.f32 cos2phi (*.f32 (*.f32 alphax alphax) sin2phi)) (/.f32 #s(literal 1 binary32) (*.f32 alphay alphay))) sin2phi)))
71.0%
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 #s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (*.f32 (+.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))) cos2phi)))
92.3%
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) 1) (neg.f32 (*.f32 (-.f32 (neg.f32 (/.f32 (+.f32 (+.f32 (/.f32 #s(literal 1 binary32) (*.f32 u0 u0)) (/.f32 #s(literal 1/2 binary32) u0)) #s(literal 1/3 binary32)) u0)) #s(literal 1/4 binary32)) (*.f32 (*.f32 u0 u0) u0)))) u0)) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
87.5%
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) (fma.f32 #s(literal 1/2 binary32) u0 #s(literal 1 binary32))) u0)) (+.f32 (/.f32 (/.f32 cos2phi alphax) alphax) (/.f32 sin2phi (*.f32 alphay alphay))))
26.3%
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) (fma.f32 #s(literal 1/2 binary32) u0 #s(literal 1 binary32))) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
75.4%
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(literal 1 binary32)) u0)) (+.f32 (/.f32 (/.f32 cos2phi alphax) alphax) (/.f32 sin2phi (*.f32 alphay alphay))))
23.9%
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
92.2%
(/.f32 #s(approx (neg (log (- 1 u0))) #s(approx (+ (* u0 1) (* u0 (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0))) (*.f32 (+.f32 (neg.f32 (/.f32 (-.f32 (neg.f32 (/.f32 (+.f32 (/.f32 #s(literal 1 binary32) u0) #s(literal 1/2 binary32)) u0)) #s(literal 1/3 binary32)) u0)) #s(literal 1/4 binary32)) (*.f32 (*.f32 u0 u0) (*.f32 u0 u0))))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
90.6%
(/.f32 #s(approx (neg (log (- 1 u0))) #s(approx (* (+ (* (+ (* 1/3 u0) 1/2) u0) 1) u0) (neg.f32 (*.f32 (-.f32 (neg.f32 (/.f32 (+.f32 (/.f32 #s(literal 1 binary32) u0) #s(literal 1/2 binary32)) u0)) #s(literal 1/3 binary32)) (*.f32 (*.f32 u0 u0) u0))))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
27.1%
(/.f32 #s(approx (neg (log (- 1 u0))) #s(approx (* (+ (* (+ (* 1/3 u0) 1/2) u0) 1) u0) (neg.f32 (*.f32 (-.f32 (neg.f32 (/.f32 (+.f32 (/.f32 #s(literal 1 binary32) u0) #s(literal 1/2 binary32)) u0)) #s(literal 1/3 binary32)) (*.f32 (*.f32 u0 u0) u0))))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
46.6%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (*.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (*.f32 alphay alphay)) sin2phi))
21.9%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (*.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (*.f32 alphax alphax)) cos2phi))
22.7%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (neg.f32 (*.f32 (*.f32 alphax alphax) (log.f32 (-.f32 #s(literal 1 binary32) u0)))) cos2phi))
90.7%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (fma.f32 (fma.f32 (/.f32 u0 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))) #s(literal 1/3 binary32) (/.f32 #s(literal 1/2 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0 (/.f32 #s(literal 1 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0))
87.4%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (fma.f32 (/.f32 u0 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))) #s(literal 1/2 binary32) (/.f32 #s(literal 1 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0))
14.0%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (+.f32 (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 alphax alphax) sin2phi) (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))))) (*.f32 (*.f32 cos2phi cos2phi) (*.f32 alphay alphay)))) (-.f32 (/.f32 (log.f32 (+.f32 u0 #s(literal 1 binary32))) cos2phi) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) cos2phi))) (*.f32 alphax alphax)))
49.1%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphay alphay) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi))))
22.1%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (-.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) (log.f32 (+.f32 u0 #s(literal 1 binary32)))) cos2phi))))
22.7%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi))))
26.3%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (*.f32 (-.f32 (*.f32 #s(literal -1/2 binary32) u0) #s(literal 1 binary32)) u0)) cos2phi))))
26.3%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) #s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 (-.f32 (*.f32 (/.f32 u0 cos2phi) #s(literal -1/2 binary32)) (/.f32 #s(literal 1 binary32) cos2phi)) u0)))))
27.5%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) #s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (/.f32 u0 cos2phi) #s(literal -1/4 binary32)) (/.f32 #s(literal 1/3 binary32) cos2phi)) u0) (/.f32 #s(literal 1/2 binary32) cos2phi)) u0) (/.f32 #s(literal 1 binary32) cos2phi)) u0)))))
22.7%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 alphax (*.f32 alphax (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi)))))
23.9%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi)))
23.9%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 (exp.f32 (*.f32 (log.f32 alphax) #s(literal 2 binary32))) u0) cos2phi)))
23.9%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 alphax (*.f32 alphax u0)) cos2phi)))
26.4%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 (-.f32 (*.f32 (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi) #s(literal 1/2 binary32)) (neg.f32 (/.f32 (*.f32 alphax alphax) cos2phi))) u0)))
23.9%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 (*.f32 alphax alphax) (/.f32 u0 cos2phi))))
Compiler

Compiled 3 579 to 3 474 computations (2.9% saved)

series196.0ms (3.1%)

Memory
-16.0MiB live, 245.0MiB allocated; 181ms collecting garbage
Counts
51 → 189
Calls
Call 1
Inputs
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0 u0)) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))
#s(approx (neg (log (- 1 u0))) (fma.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0 u0))
(fma.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0 u0)
(*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)
(fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32))
(fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32))
#s(literal 1/4 binary32)
u0
#s(literal 1/3 binary32)
#s(literal 1/2 binary32)
(+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))
(/.f32 sin2phi (*.f32 alphay alphay))
sin2phi
(*.f32 alphay alphay)
alphay
(/.f32 cos2phi (*.f32 alphax alphax))
cos2phi
(*.f32 alphax alphax)
alphax
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 (*.f32 alphax alphax) (/.f32 u0 cos2phi))))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 (*.f32 alphax alphax) (/.f32 u0 cos2phi)))
(*.f32 (*.f32 alphax alphax) (/.f32 u0 cos2phi))
(/.f32 u0 cos2phi)
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(literal 1 binary32)) u0)) (+.f32 (/.f32 (/.f32 cos2phi alphax) alphax) (/.f32 sin2phi (*.f32 alphay alphay))))
#s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(literal 1 binary32)) u0))
(*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(literal 1 binary32)) u0)
#s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(literal 1 binary32))
#s(literal 1 binary32)
(+.f32 (/.f32 (/.f32 cos2phi alphax) alphax) (/.f32 sin2phi (*.f32 alphay alphay)))
(/.f32 (/.f32 cos2phi alphax) alphax)
(/.f32 cos2phi alphax)
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
#s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0))))
(fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)))
(*.f32 u0 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) #s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (/.f32 u0 cos2phi) #s(literal -1/4 binary32)) (/.f32 #s(literal 1/3 binary32) cos2phi)) u0) (/.f32 #s(literal 1/2 binary32) cos2phi)) u0) (/.f32 #s(literal 1 binary32) cos2phi)) u0)))))
(neg.f32 (*.f32 (*.f32 alphax alphax) #s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (/.f32 u0 cos2phi) #s(literal -1/4 binary32)) (/.f32 #s(literal 1/3 binary32) cos2phi)) u0) (/.f32 #s(literal 1/2 binary32) cos2phi)) u0) (/.f32 #s(literal 1 binary32) cos2phi)) u0))))
(*.f32 (*.f32 alphax alphax) #s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (/.f32 u0 cos2phi) #s(literal -1/4 binary32)) (/.f32 #s(literal 1/3 binary32) cos2phi)) u0) (/.f32 #s(literal 1/2 binary32) cos2phi)) u0) (/.f32 #s(literal 1 binary32) cos2phi)) u0)))
#s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (/.f32 u0 cos2phi) #s(literal -1/4 binary32)) (/.f32 #s(literal 1/3 binary32) cos2phi)) u0) (/.f32 #s(literal 1/2 binary32) cos2phi)) u0) (/.f32 #s(literal 1 binary32) cos2phi)) u0))
(*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (/.f32 u0 cos2phi) #s(literal -1/4 binary32)) (/.f32 #s(literal 1/3 binary32) cos2phi)) u0) (/.f32 #s(literal 1/2 binary32) cos2phi)) u0) (/.f32 #s(literal 1 binary32) cos2phi)) u0)
(-.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (/.f32 u0 cos2phi) #s(literal -1/4 binary32)) (/.f32 #s(literal 1/3 binary32) cos2phi)) u0) (/.f32 #s(literal 1/2 binary32) cos2phi)) u0) (/.f32 #s(literal 1 binary32) cos2phi))
(*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (/.f32 u0 cos2phi) #s(literal -1/4 binary32)) (/.f32 #s(literal 1/3 binary32) cos2phi)) u0) (/.f32 #s(literal 1/2 binary32) cos2phi)) u0)
(-.f32 (*.f32 (-.f32 (*.f32 (/.f32 u0 cos2phi) #s(literal -1/4 binary32)) (/.f32 #s(literal 1/3 binary32) cos2phi)) u0) (/.f32 #s(literal 1/2 binary32) cos2phi))
(*.f32 (-.f32 (*.f32 (/.f32 u0 cos2phi) #s(literal -1/4 binary32)) (/.f32 #s(literal 1/3 binary32) cos2phi)) u0)
(-.f32 (*.f32 (/.f32 u0 cos2phi) #s(literal -1/4 binary32)) (/.f32 #s(literal 1/3 binary32) cos2phi))
(*.f32 (/.f32 u0 cos2phi) #s(literal -1/4 binary32))
#s(literal -1/4 binary32)
(/.f32 #s(literal 1/3 binary32) cos2phi)
(/.f32 #s(literal 1/2 binary32) cos2phi)
(/.f32 #s(literal 1 binary32) cos2phi)
Outputs
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (* -1 (/ (* (pow alphax 2) (log (- 1 u0))) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (* (pow alphax 2) (+ (* -1 (/ (log (- 1 u0)) cos2phi)) (/ (* (pow alphax 2) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) (pow cos2phi 2)))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (* (pow alphax 2) (+ (* -1 (/ (log (- 1 u0)) cos2phi)) (* (pow alphax 2) (+ (* -1 (/ (* (pow alphax 2) (* (pow sin2phi 2) (log (- 1 u0)))) (* (pow alphay 4) (pow cos2phi 3)))) (/ (* sin2phi (log (- 1 u0))) (* (pow alphay 2) (pow cos2phi 2)))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (* (pow alphax 2) (+ (* -1 (/ (log (- 1 u0)) cos2phi)) (* (pow alphax 2) (+ (* (pow alphax 2) (+ (* -1 (/ (* (pow sin2phi 2) (log (- 1 u0))) (* (pow alphay 4) (pow cos2phi 3)))) (/ (* (pow alphax 2) (* (pow sin2phi 3) (log (- 1 u0)))) (* (pow alphay 6) (pow cos2phi 4))))) (/ (* sin2phi (log (- 1 u0))) (* (pow alphay 2) (pow cos2phi 2)))))))))
#s(approx (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax))) #s(hole binary32 (/ cos2phi (pow alphax 2))))
#s(approx (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax))) #s(hole binary32 (/ (+ cos2phi (/ (* (pow alphax 2) sin2phi) (pow alphay 2))) (pow alphax 2))))
#s(approx (* alphax alphax) #s(hole binary32 (pow alphax 2)))
#s(approx alphax #s(hole binary32 alphax))
#s(approx (* (* alphax alphax) (/ u0 cos2phi)) #s(hole binary32 (/ (* (pow alphax 2) u0) cos2phi)))
#s(approx (/ cos2phi alphax) #s(hole binary32 (/ cos2phi alphax)))
#s(approx (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) #s(hole binary32 (/ (* (pow alphax 2) (log (- 1 u0))) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (* -1 (/ (* (pow alphay 2) (log (- 1 u0))) sin2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphay 2) (log (- 1 u0))) sin2phi)) (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) (pow sin2phi 2))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphay 2) (log (- 1 u0))) sin2phi)) (+ (* -1 (/ (* (pow alphay 6) (* (pow cos2phi 2) (log (- 1 u0)))) (* (pow alphax 4) (pow sin2phi 3)))) (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) (pow sin2phi 2)))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphay 2) (log (- 1 u0))) sin2phi)) (+ (* -1 (/ (* (pow alphay 6) (* (pow cos2phi 2) (log (- 1 u0)))) (* (pow alphax 4) (pow sin2phi 3)))) (+ (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) (pow sin2phi 2))) (/ (* (pow alphay 8) (* (pow cos2phi 3) (log (- 1 u0)))) (* (pow alphax 6) (pow sin2phi 4))))))))
#s(approx (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax))) #s(hole binary32 (/ sin2phi (pow alphay 2))))
#s(approx (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax))) #s(hole binary32 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (* (pow alphay 2) (+ (* -1 (/ (log (- 1 u0)) sin2phi)) (/ (* (pow alphay 2) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) (pow sin2phi 2)))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (* (pow alphay 2) (+ (* -1 (/ (log (- 1 u0)) sin2phi)) (* (pow alphay 2) (+ (* -1 (/ (* (pow alphay 2) (* (pow cos2phi 2) (log (- 1 u0)))) (* (pow alphax 4) (pow sin2phi 3)))) (/ (* cos2phi (log (- 1 u0))) (* (pow alphax 2) (pow sin2phi 2)))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (* (pow alphay 2) (+ (* -1 (/ (log (- 1 u0)) sin2phi)) (* (pow alphay 2) (+ (* (pow alphay 2) (+ (* -1 (/ (* (pow cos2phi 2) (log (- 1 u0))) (* (pow alphax 4) (pow sin2phi 3)))) (/ (* (pow alphay 2) (* (pow cos2phi 3) (log (- 1 u0)))) (* (pow alphax 6) (pow sin2phi 4))))) (/ (* cos2phi (log (- 1 u0))) (* (pow alphax 2) (pow sin2phi 2)))))))))
#s(approx (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax))) #s(hole binary32 (/ (+ sin2phi (/ (* (pow alphay 2) cos2phi) (pow alphax 2))) (pow alphay 2))))
#s(approx (* alphay alphay) #s(hole binary32 (pow alphay 2)))
#s(approx alphay #s(hole binary32 alphay))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (- 1 u0))) cos2phi)) (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) (pow cos2phi 2))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (- 1 u0))) cos2phi)) (+ (* -1 (/ (* (pow alphax 6) (* (pow sin2phi 2) (log (- 1 u0)))) (* (pow alphay 4) (pow cos2phi 3)))) (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) (pow cos2phi 2)))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (- 1 u0))) cos2phi)) (+ (* -1 (/ (* (pow alphax 6) (* (pow sin2phi 2) (log (- 1 u0)))) (* (pow alphay 4) (pow cos2phi 3)))) (+ (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) (pow cos2phi 2))) (/ (* (pow alphax 8) (* (pow sin2phi 3) (log (- 1 u0)))) (* (pow alphay 6) (pow cos2phi 4))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (/ u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (* u0 (+ (* 1/2 (/ u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (/ 1 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (* u0 (+ (* u0 (+ (* 1/3 (/ u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (* 1/2 (/ 1 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))) (/ 1 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))))
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#s(approx (neg (log (- 1 u0))) #s(hole binary32 (* u0 (+ 1 (* u0 (+ 1/2 (* u0 (+ 1/3 (* 1/4 u0)))))))))
#s(approx (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) #s(hole binary32 (* 1/2 u0)))
#s(approx (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) #s(hole binary32 (* u0 (+ 1/2 (* 1/3 u0)))))
#s(approx (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) #s(hole binary32 (* u0 (+ 1/2 (* u0 (+ 1/3 (* 1/4 u0)))))))
#s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(hole binary32 1/2))
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#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) #s(hole binary32 (* u0 (- (* 1/2 (/ (* (pow alphax 2) u0) cos2phi)) (* -1 (/ (pow alphax 2) cos2phi))))))
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#s(approx (* u0 (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0)) #s(hole binary32 (* (pow u0 2) (+ 1/2 (* u0 (+ 1/3 (* 1/4 u0)))))))
#s(approx (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) #s(hole binary32 (* -1 (/ (* (pow alphax 2) u0) cos2phi))))
#s(approx (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) #s(hole binary32 (* u0 (+ (* -1 (/ (pow alphax 2) cos2phi)) (* -1/2 (/ (* (pow alphax 2) u0) cos2phi))))))
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#s(approx (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) #s(hole binary32 (* u0 (+ (* -1 (/ (pow alphax 2) cos2phi)) (* u0 (+ (* -1/2 (/ (pow alphax 2) cos2phi)) (* u0 (+ (* -1/3 (/ (pow alphax 2) cos2phi)) (* -1/4 (/ (* (pow alphax 2) u0) cos2phi))))))))))
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#s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) #s(hole binary32 (/ -1 cos2phi)))
#s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) #s(hole binary32 (- (* -1/2 (/ u0 cos2phi)) (/ 1 cos2phi))))
#s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) #s(hole binary32 (- (* u0 (- (* -1/3 (/ u0 cos2phi)) (* 1/2 (/ 1 cos2phi)))) (/ 1 cos2phi))))
#s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) #s(hole binary32 (- (* u0 (- (* u0 (- (* -1/4 (/ u0 cos2phi)) (* 1/3 (/ 1 cos2phi)))) (* 1/2 (/ 1 cos2phi)))) (/ 1 cos2phi))))
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#s(approx (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) #s(hole binary32 (* u0 (- (* -1/3 (/ u0 cos2phi)) (* 1/2 (/ 1 cos2phi))))))
#s(approx (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) #s(hole binary32 (* u0 (- (* u0 (- (* -1/4 (/ u0 cos2phi)) (* 1/3 (/ 1 cos2phi)))) (* 1/2 (/ 1 cos2phi))))))
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#s(approx (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) #s(hole binary32 (/ -1/3 cos2phi)))
#s(approx (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) #s(hole binary32 (- (* -1/4 (/ u0 cos2phi)) (* 1/3 (/ 1 cos2phi)))))
#s(approx (* (/ u0 cos2phi) -1/4) #s(hole binary32 (* -1/4 (/ u0 cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (/ (log (neg (/ 1 u0))) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (- (/ (log (neg (/ 1 u0))) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2)))) (/ 1 (* u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (- (+ (/ 1/2 (* (pow u0 2) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (/ (log (neg (/ 1 u0))) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (/ 1 (* u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (- (+ (* 1/2 (/ 1 (* (pow u0 2) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2)))))) (/ (log (neg (/ 1 u0))) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (+ (/ 1 (* u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (* 1/3 (/ 1 (* (pow u0 3) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))))))
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#s(approx (neg (log (- 1 u0))) #s(hole binary32 (* -1 (+ (* -1 (log (neg (/ 1 u0)))) (/ 1 u0)))))
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#s(approx (neg (log (- 1 u0))) #s(hole binary32 (- (/ 1/2 (pow u0 2)) (+ (* -1 (log (neg (/ 1 u0)))) (+ (/ 1 u0) (* 1/3 (/ 1 (pow u0 3))))))))
#s(approx (+ (* (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) u0) u0) #s(hole binary32 (* 1/4 (pow u0 4))))
#s(approx (+ (* (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) u0) u0) #s(hole binary32 (* (pow u0 4) (+ 1/4 (* 1/3 (/ 1 u0))))))
#s(approx (+ (* (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) u0) u0) #s(hole binary32 (* (pow u0 4) (+ 1/4 (+ (/ 1/2 (pow u0 2)) (* 1/3 (/ 1 u0)))))))
#s(approx (+ (* (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) u0) u0) #s(hole binary32 (* (pow u0 4) (+ 1/4 (+ (/ 1/2 (pow u0 2)) (+ (* 1/3 (/ 1 u0)) (/ 1 (pow u0 3))))))))
#s(approx (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) #s(hole binary32 (* 1/4 (pow u0 3))))
#s(approx (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) #s(hole binary32 (* (pow u0 3) (+ 1/4 (* 1/3 (/ 1 u0))))))
#s(approx (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) #s(hole binary32 (* (pow u0 3) (+ 1/4 (+ (/ 1/2 (pow u0 2)) (* 1/3 (/ 1 u0)))))))
#s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(hole binary32 (* 1/4 (pow u0 2))))
#s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(hole binary32 (* (pow u0 2) (+ 1/4 (* 1/3 (/ 1 u0))))))
#s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(hole binary32 (* (pow u0 2) (+ 1/4 (+ (/ 1/2 (pow u0 2)) (* 1/3 (/ 1 u0)))))))
#s(approx (+ (* 1/4 u0) 1/3) #s(hole binary32 (* 1/4 u0)))
#s(approx (+ (* 1/4 u0) 1/3) #s(hole binary32 (* u0 (+ 1/4 (* 1/3 (/ 1 u0))))))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) #s(hole binary32 (/ (* (pow alphax 2) (log (neg (/ 1 u0)))) cos2phi)))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) #s(hole binary32 (- (* -1 (/ (pow alphax 2) (* cos2phi u0))) (* -1 (/ (* (pow alphax 2) (log (neg (/ 1 u0)))) cos2phi)))))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) #s(hole binary32 (- (* 1/2 (/ (pow alphax 2) (* cos2phi (pow u0 2)))) (+ (* -1 (/ (* (pow alphax 2) (log (neg (/ 1 u0)))) cos2phi)) (/ (pow alphax 2) (* cos2phi u0))))))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) #s(hole binary32 (- (* -1/3 (/ (pow alphax 2) (* cos2phi (pow u0 3)))) (+ (* -1 (/ (* (pow alphax 2) (log (neg (/ 1 u0)))) cos2phi)) (+ (* -1/2 (/ (pow alphax 2) (* cos2phi (pow u0 2)))) (/ (pow alphax 2) (* cos2phi u0)))))))
#s(approx (* (+ (* (+ (* 1/3 u0) 1/2) u0) 1) u0) #s(hole binary32 (* 1/3 (pow u0 3))))
#s(approx (* (+ (* (+ (* 1/3 u0) 1/2) u0) 1) u0) #s(hole binary32 (* (pow u0 3) (+ 1/3 (* 1/2 (/ 1 u0))))))
#s(approx (* (+ (* (+ (* 1/3 u0) 1/2) u0) 1) u0) #s(hole binary32 (* (pow u0 3) (+ 1/3 (+ (* 1/2 (/ 1 u0)) (/ 1 (pow u0 2)))))))
#s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(hole binary32 (* 1/3 (pow u0 2))))
#s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(hole binary32 (* (pow u0 2) (+ 1/3 (* 1/2 (/ 1 u0))))))
#s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(hole binary32 (* (pow u0 2) (+ 1/3 (+ (* 1/2 (/ 1 u0)) (/ 1 (pow u0 2)))))))
#s(approx (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) #s(hole binary32 (* -1 (/ (* (pow alphax 2) (log (neg (/ 1 u0)))) cos2phi))))
#s(approx (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (neg (/ 1 u0)))) cos2phi)) (/ (pow alphax 2) (* cos2phi u0)))))
#s(approx (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (neg (/ 1 u0)))) cos2phi)) (+ (* -1/2 (/ (pow alphax 2) (* cos2phi (pow u0 2)))) (/ (pow alphax 2) (* cos2phi u0))))))
#s(approx (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (neg (/ 1 u0)))) cos2phi)) (+ (* -1/2 (/ (pow alphax 2) (* cos2phi (pow u0 2)))) (+ (* 1/3 (/ (pow alphax 2) (* cos2phi (pow u0 3)))) (/ (pow alphax 2) (* cos2phi u0)))))))
#s(approx (/ (log (- 1 u0)) cos2phi) #s(hole binary32 (* -1 (/ (log (neg (/ 1 u0))) cos2phi))))
#s(approx (/ (log (- 1 u0)) cos2phi) #s(hole binary32 (+ (* -1 (/ (log (neg (/ 1 u0))) cos2phi)) (/ 1 (* cos2phi u0)))))
#s(approx (/ (log (- 1 u0)) cos2phi) #s(hole binary32 (- (+ (* -1 (/ (log (neg (/ 1 u0))) cos2phi)) (/ 1 (* cos2phi u0))) (/ 1/2 (* cos2phi (pow u0 2))))))
#s(approx (/ (log (- 1 u0)) cos2phi) #s(hole binary32 (- (+ (* -1 (/ (log (neg (/ 1 u0))) cos2phi)) (+ (/ 1 (* cos2phi u0)) (* 1/3 (/ 1 (* cos2phi (pow u0 3)))))) (* 1/2 (/ 1 (* cos2phi (pow u0 2)))))))
#s(approx (* (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) u0) #s(hole binary32 (* -1/4 (/ (pow u0 4) cos2phi))))
#s(approx (* (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) u0) #s(hole binary32 (* -1 (* (pow u0 4) (+ (* 1/4 (/ 1 cos2phi)) (* 1/3 (/ 1 (* cos2phi u0))))))))
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#s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) #s(hole binary32 (* -1/4 (/ (pow u0 3) cos2phi))))
#s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) #s(hole binary32 (* -1 (* (pow u0 3) (+ (* 1/4 (/ 1 cos2phi)) (* 1/3 (/ 1 (* cos2phi u0))))))))
#s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) #s(hole binary32 (* (pow u0 3) (- (* -1 (/ (+ (* 1/3 (/ 1 cos2phi)) (* 1/2 (/ 1 (* cos2phi u0)))) u0)) (* 1/4 (/ 1 cos2phi))))))
#s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) #s(hole binary32 (* (pow u0 3) (- (* -1 (/ (+ (* 1/2 (/ 1 cos2phi)) (/ 1 (* cos2phi u0))) (pow u0 2))) (+ (* 1/4 (/ 1 cos2phi)) (/ 1/3 (* cos2phi u0)))))))
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#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (+ (/ 1/2 (* (pow u0 2) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (+ (/ 1 (* u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (/ (log (/ -1 u0)) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (+ (* -1 (/ (- (* -1 (/ (+ (* 1/3 (/ 1 (* u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2)))))) (* 1/2 (/ 1 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2)))))) u0)) (/ 1 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) u0)) (/ (log (/ -1 u0)) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2)))))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (log (/ -1 u0))))
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#s(approx (neg (log (- 1 u0))) #s(hole binary32 (- (+ (/ 1/2 (pow u0 2)) (/ 1 u0)) (* -1 (log (/ -1 u0))))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (- (* -1 (/ (- (* -1 (/ (+ 1/2 (* 1/3 (/ 1 u0))) u0)) 1) u0)) (* -1 (log (/ -1 u0))))))
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#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) #s(hole binary32 (- (* -1 (/ (- (* -1/2 (/ (pow alphax 2) (* cos2phi u0))) (/ (pow alphax 2) cos2phi)) u0)) (* -1 (/ (* (pow alphax 2) (log (/ -1 u0))) cos2phi)))))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) #s(hole binary32 (- (* -1 (/ (- (* -1 (/ (- (* 1/3 (/ (pow alphax 2) (* cos2phi u0))) (* -1/2 (/ (pow alphax 2) cos2phi))) u0)) (/ (pow alphax 2) cos2phi)) u0)) (* -1 (/ (* (pow alphax 2) (log (/ -1 u0))) cos2phi)))))
#s(approx (* (+ (* (+ (* 1/3 u0) 1/2) u0) 1) u0) #s(hole binary32 (* -1 (* (pow u0 3) (- (* -1 (/ (+ 1/2 (/ 1 u0)) u0)) 1/3)))))
#s(approx (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) #s(hole binary32 (* -1 (/ (* (pow alphax 2) (log (/ -1 u0))) cos2phi))))
#s(approx (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (/ -1 u0))) cos2phi)) (* -1 (/ (pow alphax 2) (* cos2phi u0))))))
#s(approx (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (/ -1 u0))) cos2phi)) (* -1 (/ (+ (* 1/2 (/ (pow alphax 2) (* cos2phi u0))) (/ (pow alphax 2) cos2phi)) u0)))))
#s(approx (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (/ -1 u0))) cos2phi)) (* -1 (/ (+ (* -1 (/ (+ (* -1/2 (/ (pow alphax 2) cos2phi)) (* -1/3 (/ (pow alphax 2) (* cos2phi u0)))) u0)) (/ (pow alphax 2) cos2phi)) u0)))))
#s(approx (/ (log (- 1 u0)) cos2phi) #s(hole binary32 (* -1 (/ (log (/ -1 u0)) cos2phi))))
#s(approx (/ (log (- 1 u0)) cos2phi) #s(hole binary32 (- (* -1 (/ (log (/ -1 u0)) cos2phi)) (/ 1 (* cos2phi u0)))))
#s(approx (/ (log (- 1 u0)) cos2phi) #s(hole binary32 (+ (* -1 (/ (log (/ -1 u0)) cos2phi)) (* -1 (/ (+ (/ 1 cos2phi) (* 1/2 (/ 1 (* cos2phi u0)))) u0)))))
#s(approx (/ (log (- 1 u0)) cos2phi) #s(hole binary32 (+ (* -1 (/ (log (/ -1 u0)) cos2phi)) (* -1 (/ (+ (/ 1/3 (* cos2phi (pow u0 2))) (+ (/ 1/2 (* cos2phi u0)) (/ 1 cos2phi))) u0)))))
#s(approx (* (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) u0) #s(hole binary32 (* (pow u0 4) (- (* -1 (/ (+ (/ 1/2 (* cos2phi u0)) (+ (* 1/3 (/ 1 cos2phi)) (/ 1 (* cos2phi (pow u0 2))))) u0)) (* 1/4 (/ 1 cos2phi))))))
#s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) #s(hole binary32 (* -1 (* (pow u0 3) (+ (/ 1/3 (* cos2phi u0)) (+ (/ 1/2 (* cos2phi (pow u0 2))) (* 1/4 (/ 1 cos2phi))))))))
#s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) #s(hole binary32 (* -1 (* (pow u0 3) (+ (* -1 (/ (- (* -1 (/ (+ (* 1/2 (/ 1 cos2phi)) (/ 1 (* cos2phi u0))) u0)) (* 1/3 (/ 1 cos2phi))) u0)) (* 1/4 (/ 1 cos2phi)))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphay 2) (log (- 1 u0))) sin2phi)) (* cos2phi (+ (* -1 (/ (* (pow alphay 6) (* cos2phi (log (- 1 u0)))) (* (pow alphax 4) (pow sin2phi 3)))) (/ (* (pow alphay 4) (log (- 1 u0))) (* (pow alphax 2) (pow sin2phi 2))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphay 2) (log (- 1 u0))) sin2phi)) (* cos2phi (+ (* cos2phi (+ (* -1 (/ (* (pow alphay 6) (log (- 1 u0))) (* (pow alphax 4) (pow sin2phi 3)))) (/ (* (pow alphay 8) (* cos2phi (log (- 1 u0)))) (* (pow alphax 6) (pow sin2phi 4))))) (/ (* (pow alphay 4) (log (- 1 u0))) (* (pow alphax 2) (pow sin2phi 2))))))))
#s(approx cos2phi #s(hole binary32 cos2phi))
#s(approx (/ (log (- 1 u0)) cos2phi) #s(hole binary32 (/ (log (- 1 u0)) cos2phi)))
#s(approx (* (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) u0) #s(hole binary32 (/ (* u0 (- (* u0 (- (* u0 (- (* -1/4 u0) 1/3)) 1/2)) 1)) cos2phi)))
#s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) #s(hole binary32 (/ (- (* u0 (- (* u0 (- (* -1/4 u0) 1/3)) 1/2)) 1) cos2phi)))
#s(approx (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) #s(hole binary32 (/ (* u0 (- (* u0 (- (* -1/4 u0) 1/3)) 1/2)) cos2phi)))
#s(approx (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) #s(hole binary32 (/ (- (* u0 (- (* -1/4 u0) 1/3)) 1/2) cos2phi)))
#s(approx (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) #s(hole binary32 (/ (* u0 (- (* -1/4 u0) 1/3)) cos2phi)))
#s(approx (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) #s(hole binary32 (/ (- (* -1/4 u0) 1/3) cos2phi)))
#s(approx (/ 1/3 cos2phi) #s(hole binary32 (/ 1/3 cos2phi)))
#s(approx (/ 1/2 cos2phi) #s(hole binary32 (/ 1/2 cos2phi)))
#s(approx (/ 1 cos2phi) #s(hole binary32 (/ 1 cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (/ (+ (* -1 (* (pow alphax 2) (log (- 1 u0)))) (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) cos2phi))) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (/ (+ (* -1 (* (pow alphax 2) (log (- 1 u0)))) (+ (* -1 (/ (* (pow alphax 6) (* (pow sin2phi 2) (log (- 1 u0)))) (* (pow alphay 4) (pow cos2phi 2)))) (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) cos2phi)))) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (/ (+ (* -1 (* (pow alphax 2) (log (- 1 u0)))) (+ (* -1 (/ (* (pow alphax 6) (* (pow sin2phi 2) (log (- 1 u0)))) (* (pow alphay 4) (pow cos2phi 2)))) (+ (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) cos2phi)) (/ (* (pow alphax 8) (* (pow sin2phi 3) (log (- 1 u0)))) (* (pow alphay 6) (pow cos2phi 3)))))) cos2phi)))
#s(approx (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax))) #s(hole binary32 (* cos2phi (+ (/ 1 (pow alphax 2)) (/ sin2phi (* (pow alphay 2) cos2phi))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (* -1 (/ (+ (* -1 (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) cos2phi))) (* (pow alphax 2) (log (- 1 u0)))) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (* -1 (/ (+ (* -1 (/ (+ (* -1 (/ (* (pow alphax 6) (* (pow sin2phi 2) (log (- 1 u0)))) (* (pow alphay 4) cos2phi))) (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (pow alphay 2))) cos2phi)) (* (pow alphax 2) (log (- 1 u0)))) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (* -1 (/ (+ (* -1 (/ (+ (* -1 (/ (+ (* -1 (/ (* (pow alphax 8) (* (pow sin2phi 3) (log (- 1 u0)))) (* (pow alphay 6) cos2phi))) (/ (* (pow alphax 6) (* (pow sin2phi 2) (log (- 1 u0)))) (pow alphay 4))) cos2phi)) (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (pow alphay 2))) cos2phi)) (* (pow alphax 2) (log (- 1 u0)))) cos2phi))))
#s(approx (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax))) #s(hole binary32 (* -1 (* cos2phi (- (* -1 (/ sin2phi (* (pow alphay 2) cos2phi))) (/ 1 (pow alphax 2)))))))
#s(approx (* (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) u0) #s(hole binary32 (* -1 (/ (* u0 (+ 1 (* u0 (+ 1/2 (* u0 (+ 1/3 (* 1/4 u0))))))) cos2phi))))
#s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) #s(hole binary32 (* -1 (/ (+ 1 (* u0 (+ 1/2 (* u0 (+ 1/3 (* 1/4 u0)))))) cos2phi))))
#s(approx (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) #s(hole binary32 (* -1 (/ (* u0 (+ 1/2 (* u0 (+ 1/3 (* 1/4 u0))))) cos2phi))))
#s(approx (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) #s(hole binary32 (* -1 (/ (+ 1/2 (* u0 (+ 1/3 (* 1/4 u0)))) cos2phi))))
#s(approx (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) #s(hole binary32 (* -1 (/ (* u0 (+ 1/3 (* 1/4 u0))) cos2phi))))
#s(approx (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) #s(hole binary32 (* -1 (/ (+ 1/3 (* 1/4 u0)) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (- 1 u0))) cos2phi)) (* sin2phi (+ (* -1 (/ (* (pow alphax 6) (* sin2phi (log (- 1 u0)))) (* (pow alphay 4) (pow cos2phi 3)))) (/ (* (pow alphax 4) (log (- 1 u0))) (* (pow alphay 2) (pow cos2phi 2))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (- 1 u0))) cos2phi)) (* sin2phi (+ (* sin2phi (+ (* -1 (/ (* (pow alphax 6) (log (- 1 u0))) (* (pow alphay 4) (pow cos2phi 3)))) (/ (* (pow alphax 8) (* sin2phi (log (- 1 u0)))) (* (pow alphay 6) (pow cos2phi 4))))) (/ (* (pow alphax 4) (log (- 1 u0))) (* (pow alphay 2) (pow cos2phi 2))))))))
#s(approx sin2phi #s(hole binary32 sin2phi))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (/ (+ (* -1 (* (pow alphay 2) (log (- 1 u0)))) (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) sin2phi))) sin2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (/ (+ (* -1 (* (pow alphay 2) (log (- 1 u0)))) (+ (* -1 (/ (* (pow alphay 6) (* (pow cos2phi 2) (log (- 1 u0)))) (* (pow alphax 4) (pow sin2phi 2)))) (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) sin2phi)))) sin2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (/ (+ (* -1 (* (pow alphay 2) (log (- 1 u0)))) (+ (* -1 (/ (* (pow alphay 6) (* (pow cos2phi 2) (log (- 1 u0)))) (* (pow alphax 4) (pow sin2phi 2)))) (+ (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) sin2phi)) (/ (* (pow alphay 8) (* (pow cos2phi 3) (log (- 1 u0)))) (* (pow alphax 6) (pow sin2phi 3)))))) sin2phi)))
#s(approx (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax))) #s(hole binary32 (* sin2phi (+ (/ 1 (pow alphay 2)) (/ cos2phi (* (pow alphax 2) sin2phi))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (* -1 (/ (+ (* -1 (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) sin2phi))) (* (pow alphay 2) (log (- 1 u0)))) sin2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (* -1 (/ (+ (* -1 (/ (+ (* -1 (/ (* (pow alphay 6) (* (pow cos2phi 2) (log (- 1 u0)))) (* (pow alphax 4) sin2phi))) (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (pow alphax 2))) sin2phi)) (* (pow alphay 2) (log (- 1 u0)))) sin2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (* -1 (/ (+ (* -1 (/ (+ (* -1 (/ (+ (* -1 (/ (* (pow alphay 8) (* (pow cos2phi 3) (log (- 1 u0)))) (* (pow alphax 6) sin2phi))) (/ (* (pow alphay 6) (* (pow cos2phi 2) (log (- 1 u0)))) (pow alphax 4))) sin2phi)) (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (pow alphax 2))) sin2phi)) (* (pow alphay 2) (log (- 1 u0)))) sin2phi))))
#s(approx (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax))) #s(hole binary32 (* -1 (* sin2phi (- (* -1 (/ cos2phi (* (pow alphax 2) sin2phi))) (/ 1 (pow alphay 2)))))))
Calls

15 calls:

TimeVariablePointExpression
103.0ms
cos2phi
@-inf
((/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) (neg (log (- 1 u0))) (+ (* (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) u0) u0) (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) (+ (* 1/4 u0) 1/3) 1/4 u0 1/3 1/2 (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax))) (/ sin2phi (* alphay alphay)) sin2phi (* alphay alphay) alphay (/ cos2phi (* alphax alphax)) cos2phi (* alphax alphax) alphax (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (* (* alphax alphax) (/ u0 cos2phi)) (/ u0 cos2phi) (/ (neg (log (- 1 u0))) (+ (/ (/ cos2phi alphax) alphax) (/ sin2phi (* alphay alphay)))) (neg (log (- 1 u0))) (* (+ (* (+ (* 1/3 u0) 1/2) u0) 1) u0) (+ (* (+ (* 1/3 u0) 1/2) u0) 1) 1 (+ (/ (/ cos2phi alphax) alphax) (/ sin2phi (* alphay alphay))) (/ (/ cos2phi alphax) alphax) (/ cos2phi alphax) (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (log (- 1 u0))) (+ (* u0 1) (* u0 (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0))) (* u0 (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0)) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) (/ (log (- 1 u0)) cos2phi) (* (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) u0) (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) (* (/ u0 cos2phi) -1/4) -1/4 (/ 1/3 cos2phi) (/ 1/2 cos2phi) (/ 1 cos2phi))
16.0ms
cos2phi
@inf
((/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) (neg (log (- 1 u0))) (+ (* (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) u0) u0) (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) (+ (* 1/4 u0) 1/3) 1/4 u0 1/3 1/2 (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax))) (/ sin2phi (* alphay alphay)) sin2phi (* alphay alphay) alphay (/ cos2phi (* alphax alphax)) cos2phi (* alphax alphax) alphax (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (* (* alphax alphax) (/ u0 cos2phi)) (/ u0 cos2phi) (/ (neg (log (- 1 u0))) (+ (/ (/ cos2phi alphax) alphax) (/ sin2phi (* alphay alphay)))) (neg (log (- 1 u0))) (* (+ (* (+ (* 1/3 u0) 1/2) u0) 1) u0) (+ (* (+ (* 1/3 u0) 1/2) u0) 1) 1 (+ (/ (/ cos2phi alphax) alphax) (/ sin2phi (* alphay alphay))) (/ (/ cos2phi alphax) alphax) (/ cos2phi alphax) (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (log (- 1 u0))) (+ (* u0 1) (* u0 (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0))) (* u0 (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0)) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) (/ (log (- 1 u0)) cos2phi) (* (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) u0) (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) (* (/ u0 cos2phi) -1/4) -1/4 (/ 1/3 cos2phi) (/ 1/2 cos2phi) (/ 1 cos2phi))
13.0ms
alphax
@0
((/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) (neg (log (- 1 u0))) (+ (* (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) u0) u0) (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) (+ (* 1/4 u0) 1/3) 1/4 u0 1/3 1/2 (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax))) (/ sin2phi (* alphay alphay)) sin2phi (* alphay alphay) alphay (/ cos2phi (* alphax alphax)) cos2phi (* alphax alphax) alphax (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (* (* alphax alphax) (/ u0 cos2phi)) (/ u0 cos2phi) (/ (neg (log (- 1 u0))) (+ (/ (/ cos2phi alphax) alphax) (/ sin2phi (* alphay alphay)))) (neg (log (- 1 u0))) (* (+ (* (+ (* 1/3 u0) 1/2) u0) 1) u0) (+ (* (+ (* 1/3 u0) 1/2) u0) 1) 1 (+ (/ (/ cos2phi alphax) alphax) (/ sin2phi (* alphay alphay))) (/ (/ cos2phi alphax) alphax) (/ cos2phi alphax) (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (log (- 1 u0))) (+ (* u0 1) (* u0 (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0))) (* u0 (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0)) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) (/ (log (- 1 u0)) cos2phi) (* (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) u0) (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) (* (/ u0 cos2phi) -1/4) -1/4 (/ 1/3 cos2phi) (/ 1/2 cos2phi) (/ 1 cos2phi))
12.0ms
alphax
@-inf
((/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) (neg (log (- 1 u0))) (+ (* (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) u0) u0) (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) (+ (* 1/4 u0) 1/3) 1/4 u0 1/3 1/2 (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax))) (/ sin2phi (* alphay alphay)) sin2phi (* alphay alphay) alphay (/ cos2phi (* alphax alphax)) cos2phi (* alphax alphax) alphax (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (* (* alphax alphax) (/ u0 cos2phi)) (/ u0 cos2phi) (/ (neg (log (- 1 u0))) (+ (/ (/ cos2phi alphax) alphax) (/ sin2phi (* alphay alphay)))) (neg (log (- 1 u0))) (* (+ (* (+ (* 1/3 u0) 1/2) u0) 1) u0) (+ (* (+ (* 1/3 u0) 1/2) u0) 1) 1 (+ (/ (/ cos2phi alphax) alphax) (/ sin2phi (* alphay alphay))) (/ (/ cos2phi alphax) alphax) (/ cos2phi alphax) (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (log (- 1 u0))) (+ (* u0 1) (* u0 (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0))) (* u0 (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0)) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) (/ (log (- 1 u0)) cos2phi) (* (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) u0) (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) (* (/ u0 cos2phi) -1/4) -1/4 (/ 1/3 cos2phi) (/ 1/2 cos2phi) (/ 1 cos2phi))
11.0ms
cos2phi
@0
((/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) (neg (log (- 1 u0))) (+ (* (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) u0) u0) (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) (+ (* 1/4 u0) 1/3) 1/4 u0 1/3 1/2 (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax))) (/ sin2phi (* alphay alphay)) sin2phi (* alphay alphay) alphay (/ cos2phi (* alphax alphax)) cos2phi (* alphax alphax) alphax (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (* (* alphax alphax) (/ u0 cos2phi)) (/ u0 cos2phi) (/ (neg (log (- 1 u0))) (+ (/ (/ cos2phi alphax) alphax) (/ sin2phi (* alphay alphay)))) (neg (log (- 1 u0))) (* (+ (* (+ (* 1/3 u0) 1/2) u0) 1) u0) (+ (* (+ (* 1/3 u0) 1/2) u0) 1) 1 (+ (/ (/ cos2phi alphax) alphax) (/ sin2phi (* alphay alphay))) (/ (/ cos2phi alphax) alphax) (/ cos2phi alphax) (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (log (- 1 u0))) (+ (* u0 1) (* u0 (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0))) (* u0 (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0)) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) (/ (log (- 1 u0)) cos2phi) (* (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) u0) (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) (* (/ u0 cos2phi) -1/4) -1/4 (/ 1/3 cos2phi) (/ 1/2 cos2phi) (/ 1 cos2phi))

rewrite250.0ms (4%)

Memory
14.4MiB live, 242.2MiB allocated; 52ms collecting garbage
Iterations

Useful iterations: 0 (0.0ms)

IterNodesCost
08937274
09496650
153766650
084086531
Stop Event
iter-limit
node-limit
iter-limit
Counts
240 → 394
Calls
Call 1
Inputs
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0 u0)) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))
#s(approx (neg (log (- 1 u0))) (fma.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0 u0))
(fma.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0 u0)
(*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)
(fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32))
(fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32))
#s(literal 1/4 binary32)
u0
#s(literal 1/3 binary32)
#s(literal 1/2 binary32)
(+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))
(/.f32 sin2phi (*.f32 alphay alphay))
sin2phi
(*.f32 alphay alphay)
alphay
(/.f32 cos2phi (*.f32 alphax alphax))
cos2phi
(*.f32 alphax alphax)
alphax
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 (*.f32 alphax alphax) (/.f32 u0 cos2phi))))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 (*.f32 alphax alphax) (/.f32 u0 cos2phi)))
(*.f32 (*.f32 alphax alphax) (/.f32 u0 cos2phi))
(/.f32 u0 cos2phi)
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(literal 1 binary32)) u0)) (+.f32 (/.f32 (/.f32 cos2phi alphax) alphax) (/.f32 sin2phi (*.f32 alphay alphay))))
#s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(literal 1 binary32)) u0))
(*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(literal 1 binary32)) u0)
#s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(literal 1 binary32))
#s(literal 1 binary32)
(+.f32 (/.f32 (/.f32 cos2phi alphax) alphax) (/.f32 sin2phi (*.f32 alphay alphay)))
(/.f32 (/.f32 cos2phi alphax) alphax)
(/.f32 cos2phi alphax)
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
#s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0))))
(fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)))
(*.f32 u0 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) #s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (/.f32 u0 cos2phi) #s(literal -1/4 binary32)) (/.f32 #s(literal 1/3 binary32) cos2phi)) u0) (/.f32 #s(literal 1/2 binary32) cos2phi)) u0) (/.f32 #s(literal 1 binary32) cos2phi)) u0)))))
(neg.f32 (*.f32 (*.f32 alphax alphax) #s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (/.f32 u0 cos2phi) #s(literal -1/4 binary32)) (/.f32 #s(literal 1/3 binary32) cos2phi)) u0) (/.f32 #s(literal 1/2 binary32) cos2phi)) u0) (/.f32 #s(literal 1 binary32) cos2phi)) u0))))
(*.f32 (*.f32 alphax alphax) #s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (/.f32 u0 cos2phi) #s(literal -1/4 binary32)) (/.f32 #s(literal 1/3 binary32) cos2phi)) u0) (/.f32 #s(literal 1/2 binary32) cos2phi)) u0) (/.f32 #s(literal 1 binary32) cos2phi)) u0)))
#s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (/.f32 u0 cos2phi) #s(literal -1/4 binary32)) (/.f32 #s(literal 1/3 binary32) cos2phi)) u0) (/.f32 #s(literal 1/2 binary32) cos2phi)) u0) (/.f32 #s(literal 1 binary32) cos2phi)) u0))
(*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (/.f32 u0 cos2phi) #s(literal -1/4 binary32)) (/.f32 #s(literal 1/3 binary32) cos2phi)) u0) (/.f32 #s(literal 1/2 binary32) cos2phi)) u0) (/.f32 #s(literal 1 binary32) cos2phi)) u0)
(-.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (/.f32 u0 cos2phi) #s(literal -1/4 binary32)) (/.f32 #s(literal 1/3 binary32) cos2phi)) u0) (/.f32 #s(literal 1/2 binary32) cos2phi)) u0) (/.f32 #s(literal 1 binary32) cos2phi))
(*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (/.f32 u0 cos2phi) #s(literal -1/4 binary32)) (/.f32 #s(literal 1/3 binary32) cos2phi)) u0) (/.f32 #s(literal 1/2 binary32) cos2phi)) u0)
(-.f32 (*.f32 (-.f32 (*.f32 (/.f32 u0 cos2phi) #s(literal -1/4 binary32)) (/.f32 #s(literal 1/3 binary32) cos2phi)) u0) (/.f32 #s(literal 1/2 binary32) cos2phi))
(*.f32 (-.f32 (*.f32 (/.f32 u0 cos2phi) #s(literal -1/4 binary32)) (/.f32 #s(literal 1/3 binary32) cos2phi)) u0)
(-.f32 (*.f32 (/.f32 u0 cos2phi) #s(literal -1/4 binary32)) (/.f32 #s(literal 1/3 binary32) cos2phi))
(*.f32 (/.f32 u0 cos2phi) #s(literal -1/4 binary32))
#s(literal -1/4 binary32)
(/.f32 #s(literal 1/3 binary32) cos2phi)
(/.f32 #s(literal 1/2 binary32) cos2phi)
(/.f32 #s(literal 1 binary32) cos2phi)
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (* -1 (/ (* (pow alphax 2) (log (- 1 u0))) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (* (pow alphax 2) (+ (* -1 (/ (log (- 1 u0)) cos2phi)) (/ (* (pow alphax 2) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) (pow cos2phi 2)))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (* (pow alphax 2) (+ (* -1 (/ (log (- 1 u0)) cos2phi)) (* (pow alphax 2) (+ (* -1 (/ (* (pow alphax 2) (* (pow sin2phi 2) (log (- 1 u0)))) (* (pow alphay 4) (pow cos2phi 3)))) (/ (* sin2phi (log (- 1 u0))) (* (pow alphay 2) (pow cos2phi 2)))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (* (pow alphax 2) (+ (* -1 (/ (log (- 1 u0)) cos2phi)) (* (pow alphax 2) (+ (* (pow alphax 2) (+ (* -1 (/ (* (pow sin2phi 2) (log (- 1 u0))) (* (pow alphay 4) (pow cos2phi 3)))) (/ (* (pow alphax 2) (* (pow sin2phi 3) (log (- 1 u0)))) (* (pow alphay 6) (pow cos2phi 4))))) (/ (* sin2phi (log (- 1 u0))) (* (pow alphay 2) (pow cos2phi 2)))))))))
#s(approx (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax))) #s(hole binary32 (/ cos2phi (pow alphax 2))))
#s(approx (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax))) #s(hole binary32 (/ (+ cos2phi (/ (* (pow alphax 2) sin2phi) (pow alphay 2))) (pow alphax 2))))
#s(approx (* alphax alphax) #s(hole binary32 (pow alphax 2)))
#s(approx alphax #s(hole binary32 alphax))
#s(approx (* (* alphax alphax) (/ u0 cos2phi)) #s(hole binary32 (/ (* (pow alphax 2) u0) cos2phi)))
#s(approx (/ cos2phi alphax) #s(hole binary32 (/ cos2phi alphax)))
#s(approx (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) #s(hole binary32 (/ (* (pow alphax 2) (log (- 1 u0))) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (* -1 (/ (* (pow alphay 2) (log (- 1 u0))) sin2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphay 2) (log (- 1 u0))) sin2phi)) (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) (pow sin2phi 2))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphay 2) (log (- 1 u0))) sin2phi)) (+ (* -1 (/ (* (pow alphay 6) (* (pow cos2phi 2) (log (- 1 u0)))) (* (pow alphax 4) (pow sin2phi 3)))) (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) (pow sin2phi 2)))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphay 2) (log (- 1 u0))) sin2phi)) (+ (* -1 (/ (* (pow alphay 6) (* (pow cos2phi 2) (log (- 1 u0)))) (* (pow alphax 4) (pow sin2phi 3)))) (+ (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) (pow sin2phi 2))) (/ (* (pow alphay 8) (* (pow cos2phi 3) (log (- 1 u0)))) (* (pow alphax 6) (pow sin2phi 4))))))))
#s(approx (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax))) #s(hole binary32 (/ sin2phi (pow alphay 2))))
#s(approx (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax))) #s(hole binary32 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (* (pow alphay 2) (+ (* -1 (/ (log (- 1 u0)) sin2phi)) (/ (* (pow alphay 2) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) (pow sin2phi 2)))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (* (pow alphay 2) (+ (* -1 (/ (log (- 1 u0)) sin2phi)) (* (pow alphay 2) (+ (* -1 (/ (* (pow alphay 2) (* (pow cos2phi 2) (log (- 1 u0)))) (* (pow alphax 4) (pow sin2phi 3)))) (/ (* cos2phi (log (- 1 u0))) (* (pow alphax 2) (pow sin2phi 2)))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (* (pow alphay 2) (+ (* -1 (/ (log (- 1 u0)) sin2phi)) (* (pow alphay 2) (+ (* (pow alphay 2) (+ (* -1 (/ (* (pow cos2phi 2) (log (- 1 u0))) (* (pow alphax 4) (pow sin2phi 3)))) (/ (* (pow alphay 2) (* (pow cos2phi 3) (log (- 1 u0)))) (* (pow alphax 6) (pow sin2phi 4))))) (/ (* cos2phi (log (- 1 u0))) (* (pow alphax 2) (pow sin2phi 2)))))))))
#s(approx (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax))) #s(hole binary32 (/ (+ sin2phi (/ (* (pow alphay 2) cos2phi) (pow alphax 2))) (pow alphay 2))))
#s(approx (* alphay alphay) #s(hole binary32 (pow alphay 2)))
#s(approx alphay #s(hole binary32 alphay))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (- 1 u0))) cos2phi)) (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) (pow cos2phi 2))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (- 1 u0))) cos2phi)) (+ (* -1 (/ (* (pow alphax 6) (* (pow sin2phi 2) (log (- 1 u0)))) (* (pow alphay 4) (pow cos2phi 3)))) (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) (pow cos2phi 2)))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (- 1 u0))) cos2phi)) (+ (* -1 (/ (* (pow alphax 6) (* (pow sin2phi 2) (log (- 1 u0)))) (* (pow alphay 4) (pow cos2phi 3)))) (+ (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) (pow cos2phi 2))) (/ (* (pow alphax 8) (* (pow sin2phi 3) (log (- 1 u0)))) (* (pow alphay 6) (pow cos2phi 4))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (/ u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (* u0 (+ (* 1/2 (/ u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (/ 1 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (* u0 (+ (* u0 (+ (* 1/3 (/ u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (* 1/2 (/ 1 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))) (/ 1 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (* u0 (+ (* u0 (+ (* u0 (+ (* 1/4 (/ u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (* 1/3 (/ 1 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))) (* 1/2 (/ 1 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))) (/ 1 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 u0))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (* u0 (+ 1 (* 1/2 u0)))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (* u0 (+ 1 (* u0 (+ 1/2 (* 1/3 u0)))))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (* u0 (+ 1 (* u0 (+ 1/2 (* u0 (+ 1/3 (* 1/4 u0)))))))))
#s(approx (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) #s(hole binary32 (* 1/2 u0)))
#s(approx (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) #s(hole binary32 (* u0 (+ 1/2 (* 1/3 u0)))))
#s(approx (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) #s(hole binary32 (* u0 (+ 1/2 (* u0 (+ 1/3 (* 1/4 u0)))))))
#s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(hole binary32 1/2))
#s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(hole binary32 (+ 1/2 (* 1/3 u0))))
#s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(hole binary32 (+ 1/2 (* u0 (+ 1/3 (* 1/4 u0))))))
#s(approx (+ (* 1/4 u0) 1/3) #s(hole binary32 1/3))
#s(approx (+ (* 1/4 u0) 1/3) #s(hole binary32 (+ 1/3 (* 1/4 u0))))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) #s(hole binary32 (* u0 (- (* 1/2 (/ (* (pow alphax 2) u0) cos2phi)) (* -1 (/ (pow alphax 2) cos2phi))))))
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#s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(hole binary32 (+ 1 (* u0 (+ 1/2 (* 1/3 u0))))))
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#s(approx (* u0 (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0)) #s(hole binary32 (* (pow u0 2) (+ 1/2 (* u0 (+ 1/3 (* 1/4 u0)))))))
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#s(approx (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) #s(hole binary32 (* u0 (+ (* -1 (/ (pow alphax 2) cos2phi)) (* -1/2 (/ (* (pow alphax 2) u0) cos2phi))))))
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#s(approx (/ (log (- 1 u0)) cos2phi) #s(hole binary32 (* u0 (- (* u0 (- (* u0 (- (* -1/4 (/ u0 cos2phi)) (* 1/3 (/ 1 cos2phi)))) (* 1/2 (/ 1 cos2phi)))) (/ 1 cos2phi)))))
#s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) #s(hole binary32 (/ -1 cos2phi)))
#s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) #s(hole binary32 (- (* -1/2 (/ u0 cos2phi)) (/ 1 cos2phi))))
#s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) #s(hole binary32 (- (* u0 (- (* -1/3 (/ u0 cos2phi)) (* 1/2 (/ 1 cos2phi)))) (/ 1 cos2phi))))
#s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) #s(hole binary32 (- (* u0 (- (* u0 (- (* -1/4 (/ u0 cos2phi)) (* 1/3 (/ 1 cos2phi)))) (* 1/2 (/ 1 cos2phi)))) (/ 1 cos2phi))))
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#s(approx (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) #s(hole binary32 (/ -1/3 cos2phi)))
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#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (- (+ (/ 1/2 (* (pow u0 2) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (/ (log (neg (/ 1 u0))) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (/ 1 (* u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (- (+ (* 1/2 (/ 1 (* (pow u0 2) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2)))))) (/ (log (neg (/ 1 u0))) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (+ (/ 1 (* u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (* 1/3 (/ 1 (* (pow u0 3) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))))))
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#s(approx (+ (* (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) u0) u0) #s(hole binary32 (* (pow u0 4) (+ 1/4 (+ (/ 1/2 (pow u0 2)) (* 1/3 (/ 1 u0)))))))
#s(approx (+ (* (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) u0) u0) #s(hole binary32 (* (pow u0 4) (+ 1/4 (+ (/ 1/2 (pow u0 2)) (+ (* 1/3 (/ 1 u0)) (/ 1 (pow u0 3))))))))
#s(approx (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) #s(hole binary32 (* 1/4 (pow u0 3))))
#s(approx (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) #s(hole binary32 (* (pow u0 3) (+ 1/4 (* 1/3 (/ 1 u0))))))
#s(approx (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) #s(hole binary32 (* (pow u0 3) (+ 1/4 (+ (/ 1/2 (pow u0 2)) (* 1/3 (/ 1 u0)))))))
#s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(hole binary32 (* 1/4 (pow u0 2))))
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#s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(hole binary32 (* (pow u0 2) (+ 1/4 (+ (/ 1/2 (pow u0 2)) (* 1/3 (/ 1 u0)))))))
#s(approx (+ (* 1/4 u0) 1/3) #s(hole binary32 (* 1/4 u0)))
#s(approx (+ (* 1/4 u0) 1/3) #s(hole binary32 (* u0 (+ 1/4 (* 1/3 (/ 1 u0))))))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) #s(hole binary32 (/ (* (pow alphax 2) (log (neg (/ 1 u0)))) cos2phi)))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) #s(hole binary32 (- (* -1 (/ (pow alphax 2) (* cos2phi u0))) (* -1 (/ (* (pow alphax 2) (log (neg (/ 1 u0)))) cos2phi)))))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) #s(hole binary32 (- (* 1/2 (/ (pow alphax 2) (* cos2phi (pow u0 2)))) (+ (* -1 (/ (* (pow alphax 2) (log (neg (/ 1 u0)))) cos2phi)) (/ (pow alphax 2) (* cos2phi u0))))))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) #s(hole binary32 (- (* -1/3 (/ (pow alphax 2) (* cos2phi (pow u0 3)))) (+ (* -1 (/ (* (pow alphax 2) (log (neg (/ 1 u0)))) cos2phi)) (+ (* -1/2 (/ (pow alphax 2) (* cos2phi (pow u0 2)))) (/ (pow alphax 2) (* cos2phi u0)))))))
#s(approx (* (+ (* (+ (* 1/3 u0) 1/2) u0) 1) u0) #s(hole binary32 (* 1/3 (pow u0 3))))
#s(approx (* (+ (* (+ (* 1/3 u0) 1/2) u0) 1) u0) #s(hole binary32 (* (pow u0 3) (+ 1/3 (* 1/2 (/ 1 u0))))))
#s(approx (* (+ (* (+ (* 1/3 u0) 1/2) u0) 1) u0) #s(hole binary32 (* (pow u0 3) (+ 1/3 (+ (* 1/2 (/ 1 u0)) (/ 1 (pow u0 2)))))))
#s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(hole binary32 (* 1/3 (pow u0 2))))
#s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(hole binary32 (* (pow u0 2) (+ 1/3 (* 1/2 (/ 1 u0))))))
#s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(hole binary32 (* (pow u0 2) (+ 1/3 (+ (* 1/2 (/ 1 u0)) (/ 1 (pow u0 2)))))))
#s(approx (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) #s(hole binary32 (* -1 (/ (* (pow alphax 2) (log (neg (/ 1 u0)))) cos2phi))))
#s(approx (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (neg (/ 1 u0)))) cos2phi)) (/ (pow alphax 2) (* cos2phi u0)))))
#s(approx (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (neg (/ 1 u0)))) cos2phi)) (+ (* -1/2 (/ (pow alphax 2) (* cos2phi (pow u0 2)))) (/ (pow alphax 2) (* cos2phi u0))))))
#s(approx (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (neg (/ 1 u0)))) cos2phi)) (+ (* -1/2 (/ (pow alphax 2) (* cos2phi (pow u0 2)))) (+ (* 1/3 (/ (pow alphax 2) (* cos2phi (pow u0 3)))) (/ (pow alphax 2) (* cos2phi u0)))))))
#s(approx (/ (log (- 1 u0)) cos2phi) #s(hole binary32 (* -1 (/ (log (neg (/ 1 u0))) cos2phi))))
#s(approx (/ (log (- 1 u0)) cos2phi) #s(hole binary32 (+ (* -1 (/ (log (neg (/ 1 u0))) cos2phi)) (/ 1 (* cos2phi u0)))))
#s(approx (/ (log (- 1 u0)) cos2phi) #s(hole binary32 (- (+ (* -1 (/ (log (neg (/ 1 u0))) cos2phi)) (/ 1 (* cos2phi u0))) (/ 1/2 (* cos2phi (pow u0 2))))))
#s(approx (/ (log (- 1 u0)) cos2phi) #s(hole binary32 (- (+ (* -1 (/ (log (neg (/ 1 u0))) cos2phi)) (+ (/ 1 (* cos2phi u0)) (* 1/3 (/ 1 (* cos2phi (pow u0 3)))))) (* 1/2 (/ 1 (* cos2phi (pow u0 2)))))))
#s(approx (* (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) u0) #s(hole binary32 (* -1/4 (/ (pow u0 4) cos2phi))))
#s(approx (* (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) u0) #s(hole binary32 (* -1 (* (pow u0 4) (+ (* 1/4 (/ 1 cos2phi)) (* 1/3 (/ 1 (* cos2phi u0))))))))
#s(approx (* (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) u0) #s(hole binary32 (* (pow u0 4) (- (* -1 (/ (+ (* 1/3 (/ 1 cos2phi)) (* 1/2 (/ 1 (* cos2phi u0)))) u0)) (* 1/4 (/ 1 cos2phi))))))
#s(approx (* (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) u0) #s(hole binary32 (* (pow u0 4) (- (* -1 (/ (+ (* 1/2 (/ 1 cos2phi)) (/ 1 (* cos2phi u0))) (pow u0 2))) (+ (/ 1/3 (* cos2phi u0)) (* 1/4 (/ 1 cos2phi)))))))
#s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) #s(hole binary32 (* -1/4 (/ (pow u0 3) cos2phi))))
#s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) #s(hole binary32 (* -1 (* (pow u0 3) (+ (* 1/4 (/ 1 cos2phi)) (* 1/3 (/ 1 (* cos2phi u0))))))))
#s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) #s(hole binary32 (* (pow u0 3) (- (* -1 (/ (+ (* 1/3 (/ 1 cos2phi)) (* 1/2 (/ 1 (* cos2phi u0)))) u0)) (* 1/4 (/ 1 cos2phi))))))
#s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) #s(hole binary32 (* (pow u0 3) (- (* -1 (/ (+ (* 1/2 (/ 1 cos2phi)) (/ 1 (* cos2phi u0))) (pow u0 2))) (+ (* 1/4 (/ 1 cos2phi)) (/ 1/3 (* cos2phi u0)))))))
#s(approx (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) #s(hole binary32 (* -1/4 (/ (pow u0 2) cos2phi))))
#s(approx (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) #s(hole binary32 (* -1 (* (pow u0 2) (+ (* 1/4 (/ 1 cos2phi)) (* 1/3 (/ 1 (* cos2phi u0))))))))
#s(approx (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) #s(hole binary32 (* (pow u0 2) (- (* -1 (/ (+ (* 1/3 (/ 1 cos2phi)) (* 1/2 (/ 1 (* cos2phi u0)))) u0)) (* 1/4 (/ 1 cos2phi))))))
#s(approx (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) #s(hole binary32 (* -1 (* u0 (+ (* 1/4 (/ 1 cos2phi)) (* 1/3 (/ 1 (* cos2phi u0))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (/ (log (/ -1 u0)) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (+ (/ 1 (* u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (/ (log (/ -1 u0)) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2)))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (+ (/ 1/2 (* (pow u0 2) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (+ (/ 1 (* u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) (/ (log (/ -1 u0)) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (+ (* -1 (/ (- (* -1 (/ (+ (* 1/3 (/ 1 (* u0 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2)))))) (* 1/2 (/ 1 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2)))))) u0)) (/ 1 (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2))))) u0)) (/ (log (/ -1 u0)) (+ (/ cos2phi (pow alphax 2)) (/ sin2phi (pow alphay 2)))))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (log (/ -1 u0))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (- (/ 1 u0) (* -1 (log (/ -1 u0))))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (- (+ (/ 1/2 (pow u0 2)) (/ 1 u0)) (* -1 (log (/ -1 u0))))))
#s(approx (neg (log (- 1 u0))) #s(hole binary32 (- (* -1 (/ (- (* -1 (/ (+ 1/2 (* 1/3 (/ 1 u0))) u0)) 1) u0)) (* -1 (log (/ -1 u0))))))
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#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) #s(hole binary32 (/ (* (pow alphax 2) (log (/ -1 u0))) cos2phi)))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) #s(hole binary32 (- (/ (pow alphax 2) (* cos2phi u0)) (* -1 (/ (* (pow alphax 2) (log (/ -1 u0))) cos2phi)))))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) #s(hole binary32 (- (* -1 (/ (- (* -1/2 (/ (pow alphax 2) (* cos2phi u0))) (/ (pow alphax 2) cos2phi)) u0)) (* -1 (/ (* (pow alphax 2) (log (/ -1 u0))) cos2phi)))))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) #s(hole binary32 (- (* -1 (/ (- (* -1 (/ (- (* 1/3 (/ (pow alphax 2) (* cos2phi u0))) (* -1/2 (/ (pow alphax 2) cos2phi))) u0)) (/ (pow alphax 2) cos2phi)) u0)) (* -1 (/ (* (pow alphax 2) (log (/ -1 u0))) cos2phi)))))
#s(approx (* (+ (* (+ (* 1/3 u0) 1/2) u0) 1) u0) #s(hole binary32 (* -1 (* (pow u0 3) (- (* -1 (/ (+ 1/2 (/ 1 u0)) u0)) 1/3)))))
#s(approx (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) #s(hole binary32 (* -1 (/ (* (pow alphax 2) (log (/ -1 u0))) cos2phi))))
#s(approx (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (/ -1 u0))) cos2phi)) (* -1 (/ (pow alphax 2) (* cos2phi u0))))))
#s(approx (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (/ -1 u0))) cos2phi)) (* -1 (/ (+ (* 1/2 (/ (pow alphax 2) (* cos2phi u0))) (/ (pow alphax 2) cos2phi)) u0)))))
#s(approx (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (/ -1 u0))) cos2phi)) (* -1 (/ (+ (* -1 (/ (+ (* -1/2 (/ (pow alphax 2) cos2phi)) (* -1/3 (/ (pow alphax 2) (* cos2phi u0)))) u0)) (/ (pow alphax 2) cos2phi)) u0)))))
#s(approx (/ (log (- 1 u0)) cos2phi) #s(hole binary32 (* -1 (/ (log (/ -1 u0)) cos2phi))))
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#s(approx (/ (log (- 1 u0)) cos2phi) #s(hole binary32 (+ (* -1 (/ (log (/ -1 u0)) cos2phi)) (* -1 (/ (+ (/ 1 cos2phi) (* 1/2 (/ 1 (* cos2phi u0)))) u0)))))
#s(approx (/ (log (- 1 u0)) cos2phi) #s(hole binary32 (+ (* -1 (/ (log (/ -1 u0)) cos2phi)) (* -1 (/ (+ (/ 1/3 (* cos2phi (pow u0 2))) (+ (/ 1/2 (* cos2phi u0)) (/ 1 cos2phi))) u0)))))
#s(approx (* (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) u0) #s(hole binary32 (* (pow u0 4) (- (* -1 (/ (+ (/ 1/2 (* cos2phi u0)) (+ (* 1/3 (/ 1 cos2phi)) (/ 1 (* cos2phi (pow u0 2))))) u0)) (* 1/4 (/ 1 cos2phi))))))
#s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) #s(hole binary32 (* -1 (* (pow u0 3) (+ (/ 1/3 (* cos2phi u0)) (+ (/ 1/2 (* cos2phi (pow u0 2))) (* 1/4 (/ 1 cos2phi))))))))
#s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) #s(hole binary32 (* -1 (* (pow u0 3) (+ (* -1 (/ (- (* -1 (/ (+ (* 1/2 (/ 1 cos2phi)) (/ 1 (* cos2phi u0))) u0)) (* 1/3 (/ 1 cos2phi))) u0)) (* 1/4 (/ 1 cos2phi)))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphay 2) (log (- 1 u0))) sin2phi)) (* cos2phi (+ (* -1 (/ (* (pow alphay 6) (* cos2phi (log (- 1 u0)))) (* (pow alphax 4) (pow sin2phi 3)))) (/ (* (pow alphay 4) (log (- 1 u0))) (* (pow alphax 2) (pow sin2phi 2))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphay 2) (log (- 1 u0))) sin2phi)) (* cos2phi (+ (* cos2phi (+ (* -1 (/ (* (pow alphay 6) (log (- 1 u0))) (* (pow alphax 4) (pow sin2phi 3)))) (/ (* (pow alphay 8) (* cos2phi (log (- 1 u0)))) (* (pow alphax 6) (pow sin2phi 4))))) (/ (* (pow alphay 4) (log (- 1 u0))) (* (pow alphax 2) (pow sin2phi 2))))))))
#s(approx cos2phi #s(hole binary32 cos2phi))
#s(approx (/ (log (- 1 u0)) cos2phi) #s(hole binary32 (/ (log (- 1 u0)) cos2phi)))
#s(approx (* (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) u0) #s(hole binary32 (/ (* u0 (- (* u0 (- (* u0 (- (* -1/4 u0) 1/3)) 1/2)) 1)) cos2phi)))
#s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) #s(hole binary32 (/ (- (* u0 (- (* u0 (- (* -1/4 u0) 1/3)) 1/2)) 1) cos2phi)))
#s(approx (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) #s(hole binary32 (/ (* u0 (- (* u0 (- (* -1/4 u0) 1/3)) 1/2)) cos2phi)))
#s(approx (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) #s(hole binary32 (/ (- (* u0 (- (* -1/4 u0) 1/3)) 1/2) cos2phi)))
#s(approx (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) #s(hole binary32 (/ (* u0 (- (* -1/4 u0) 1/3)) cos2phi)))
#s(approx (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) #s(hole binary32 (/ (- (* -1/4 u0) 1/3) cos2phi)))
#s(approx (/ 1/3 cos2phi) #s(hole binary32 (/ 1/3 cos2phi)))
#s(approx (/ 1/2 cos2phi) #s(hole binary32 (/ 1/2 cos2phi)))
#s(approx (/ 1 cos2phi) #s(hole binary32 (/ 1 cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (/ (+ (* -1 (* (pow alphax 2) (log (- 1 u0)))) (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) cos2phi))) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (/ (+ (* -1 (* (pow alphax 2) (log (- 1 u0)))) (+ (* -1 (/ (* (pow alphax 6) (* (pow sin2phi 2) (log (- 1 u0)))) (* (pow alphay 4) (pow cos2phi 2)))) (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) cos2phi)))) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (/ (+ (* -1 (* (pow alphax 2) (log (- 1 u0)))) (+ (* -1 (/ (* (pow alphax 6) (* (pow sin2phi 2) (log (- 1 u0)))) (* (pow alphay 4) (pow cos2phi 2)))) (+ (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) cos2phi)) (/ (* (pow alphax 8) (* (pow sin2phi 3) (log (- 1 u0)))) (* (pow alphay 6) (pow cos2phi 3)))))) cos2phi)))
#s(approx (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax))) #s(hole binary32 (* cos2phi (+ (/ 1 (pow alphax 2)) (/ sin2phi (* (pow alphay 2) cos2phi))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (* -1 (/ (+ (* -1 (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (* (pow alphay 2) cos2phi))) (* (pow alphax 2) (log (- 1 u0)))) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (* -1 (/ (+ (* -1 (/ (+ (* -1 (/ (* (pow alphax 6) (* (pow sin2phi 2) (log (- 1 u0)))) (* (pow alphay 4) cos2phi))) (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (pow alphay 2))) cos2phi)) (* (pow alphax 2) (log (- 1 u0)))) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (* -1 (/ (+ (* -1 (/ (+ (* -1 (/ (+ (* -1 (/ (* (pow alphax 8) (* (pow sin2phi 3) (log (- 1 u0)))) (* (pow alphay 6) cos2phi))) (/ (* (pow alphax 6) (* (pow sin2phi 2) (log (- 1 u0)))) (pow alphay 4))) cos2phi)) (/ (* (pow alphax 4) (* sin2phi (log (- 1 u0)))) (pow alphay 2))) cos2phi)) (* (pow alphax 2) (log (- 1 u0)))) cos2phi))))
#s(approx (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax))) #s(hole binary32 (* -1 (* cos2phi (- (* -1 (/ sin2phi (* (pow alphay 2) cos2phi))) (/ 1 (pow alphax 2)))))))
#s(approx (* (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) u0) #s(hole binary32 (* -1 (/ (* u0 (+ 1 (* u0 (+ 1/2 (* u0 (+ 1/3 (* 1/4 u0))))))) cos2phi))))
#s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) #s(hole binary32 (* -1 (/ (+ 1 (* u0 (+ 1/2 (* u0 (+ 1/3 (* 1/4 u0)))))) cos2phi))))
#s(approx (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) #s(hole binary32 (* -1 (/ (* u0 (+ 1/2 (* u0 (+ 1/3 (* 1/4 u0))))) cos2phi))))
#s(approx (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) #s(hole binary32 (* -1 (/ (+ 1/2 (* u0 (+ 1/3 (* 1/4 u0)))) cos2phi))))
#s(approx (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) #s(hole binary32 (* -1 (/ (* u0 (+ 1/3 (* 1/4 u0))) cos2phi))))
#s(approx (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) #s(hole binary32 (* -1 (/ (+ 1/3 (* 1/4 u0)) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (- 1 u0))) cos2phi)) (* sin2phi (+ (* -1 (/ (* (pow alphax 6) (* sin2phi (log (- 1 u0)))) (* (pow alphay 4) (pow cos2phi 3)))) (/ (* (pow alphax 4) (log (- 1 u0))) (* (pow alphay 2) (pow cos2phi 2))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (+ (* -1 (/ (* (pow alphax 2) (log (- 1 u0))) cos2phi)) (* sin2phi (+ (* sin2phi (+ (* -1 (/ (* (pow alphax 6) (log (- 1 u0))) (* (pow alphay 4) (pow cos2phi 3)))) (/ (* (pow alphax 8) (* sin2phi (log (- 1 u0)))) (* (pow alphay 6) (pow cos2phi 4))))) (/ (* (pow alphax 4) (log (- 1 u0))) (* (pow alphay 2) (pow cos2phi 2))))))))
#s(approx sin2phi #s(hole binary32 sin2phi))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (/ (+ (* -1 (* (pow alphay 2) (log (- 1 u0)))) (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) sin2phi))) sin2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (/ (+ (* -1 (* (pow alphay 2) (log (- 1 u0)))) (+ (* -1 (/ (* (pow alphay 6) (* (pow cos2phi 2) (log (- 1 u0)))) (* (pow alphax 4) (pow sin2phi 2)))) (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) sin2phi)))) sin2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (/ (+ (* -1 (* (pow alphay 2) (log (- 1 u0)))) (+ (* -1 (/ (* (pow alphay 6) (* (pow cos2phi 2) (log (- 1 u0)))) (* (pow alphax 4) (pow sin2phi 2)))) (+ (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) sin2phi)) (/ (* (pow alphay 8) (* (pow cos2phi 3) (log (- 1 u0)))) (* (pow alphax 6) (pow sin2phi 3)))))) sin2phi)))
#s(approx (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax))) #s(hole binary32 (* sin2phi (+ (/ 1 (pow alphay 2)) (/ cos2phi (* (pow alphax 2) sin2phi))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (* -1 (/ (+ (* -1 (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (* (pow alphax 2) sin2phi))) (* (pow alphay 2) (log (- 1 u0)))) sin2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (* -1 (/ (+ (* -1 (/ (+ (* -1 (/ (* (pow alphay 6) (* (pow cos2phi 2) (log (- 1 u0)))) (* (pow alphax 4) sin2phi))) (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (pow alphax 2))) sin2phi)) (* (pow alphay 2) (log (- 1 u0)))) sin2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax)))) #s(hole binary32 (* -1 (/ (+ (* -1 (/ (+ (* -1 (/ (+ (* -1 (/ (* (pow alphay 8) (* (pow cos2phi 3) (log (- 1 u0)))) (* (pow alphax 6) sin2phi))) (/ (* (pow alphay 6) (* (pow cos2phi 2) (log (- 1 u0)))) (pow alphax 4))) sin2phi)) (/ (* (pow alphay 4) (* cos2phi (log (- 1 u0)))) (pow alphax 2))) sin2phi)) (* (pow alphay 2) (log (- 1 u0)))) sin2phi))))
#s(approx (+ (/ sin2phi (* alphay alphay)) (/ cos2phi (* alphax alphax))) #s(hole binary32 (* -1 (* sin2phi (- (* -1 (/ cos2phi (* (pow alphax 2) sin2phi))) (/ 1 (pow alphay 2)))))))
Outputs
(/.f32 (neg.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0 u0))) (neg.f32 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0 u0)) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))
#s(approx (neg (log (- 1 u0))) (fma.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0 u0))
(*.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)
(*.f32 u0 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)))
(/.f32 (-.f32 (pow.f32 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0) #s(literal 2 binary32)) (*.f32 u0 u0)) (-.f32 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0) u0))
(/.f32 (-.f32 (*.f32 u0 u0) (pow.f32 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0) #s(literal 2 binary32))) (-.f32 u0 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0)))
(/.f32 (+.f32 (pow.f32 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0) #s(literal 3 binary32)) (*.f32 (*.f32 u0 u0) u0)) (+.f32 (pow.f32 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0) #s(literal 2 binary32)) (-.f32 (*.f32 u0 u0) (*.f32 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0) u0))))
(/.f32 (fma.f32 (*.f32 u0 u0) u0 (pow.f32 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0) #s(literal 3 binary32))) (fma.f32 u0 u0 (-.f32 (pow.f32 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0) #s(literal 2 binary32)) (*.f32 u0 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0)))))
(-.f32 u0 (*.f32 (neg.f32 u0) (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)))
(fma.f32 (*.f32 u0 u0) (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)
(fma.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0 u0)
(fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) (*.f32 u0 u0) u0)
(fma.f32 u0 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0)
(fma.f32 u0 #s(literal 1 binary32) (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0))
(+.f32 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0) u0)
(+.f32 u0 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0))
(*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)
(*.f32 u0 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)))
(fma.f32 #s(literal 1/2 binary32) u0 (*.f32 u0 (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0)))
(fma.f32 #s(literal 1/2 binary32) u0 (*.f32 (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0) u0))
(fma.f32 u0 #s(literal 1/2 binary32) (*.f32 u0 (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0)))
(fma.f32 u0 #s(literal 1/2 binary32) (*.f32 (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0) u0))
(+.f32 (*.f32 #s(literal 1/2 binary32) u0) (*.f32 u0 (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0)))
(+.f32 (*.f32 #s(literal 1/2 binary32) u0) (*.f32 (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0) u0))
(/.f32 (-.f32 (*.f32 (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0) (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0)) #s(literal 1/4 binary32)) (-.f32 (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)))
(/.f32 (-.f32 #s(literal 1/4 binary32) (*.f32 (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0) (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0))) (-.f32 #s(literal 1/2 binary32) (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0)))
(/.f32 (+.f32 (pow.f32 (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0) #s(literal 3 binary32)) #s(literal 1/8 binary32)) (fma.f32 (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0) (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0) (-.f32 #s(literal 1/4 binary32) (*.f32 (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)))))
(/.f32 (+.f32 #s(literal 1/8 binary32) (pow.f32 (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0) #s(literal 3 binary32))) (+.f32 #s(literal 1/4 binary32) (-.f32 (*.f32 (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0) (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0)) (*.f32 #s(literal 1/2 binary32) (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0)))))
(-.f32 #s(literal 1/2 binary32) (*.f32 (neg.f32 u0) (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32))))
(fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32))
(fma.f32 u0 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) #s(literal 1/2 binary32))
(+.f32 (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32))
(+.f32 #s(literal 1/2 binary32) (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0))
(/.f32 (-.f32 (*.f32 (*.f32 #s(literal 1/4 binary32) u0) (*.f32 #s(literal 1/4 binary32) u0)) #s(literal 1/9 binary32)) (-.f32 (*.f32 #s(literal 1/4 binary32) u0) #s(literal 1/3 binary32)))
(/.f32 (-.f32 #s(literal 1/9 binary32) (*.f32 (*.f32 #s(literal 1/4 binary32) u0) (*.f32 #s(literal 1/4 binary32) u0))) (-.f32 #s(literal 1/3 binary32) (*.f32 #s(literal 1/4 binary32) u0)))
(/.f32 (fma.f32 (*.f32 (*.f32 u0 u0) u0) #s(literal 1/64 binary32) #s(literal 1/27 binary32)) (fma.f32 (*.f32 #s(literal 1/4 binary32) u0) (*.f32 #s(literal 1/4 binary32) u0) (-.f32 #s(literal 1/9 binary32) (*.f32 (*.f32 #s(literal 1/4 binary32) u0) #s(literal 1/3 binary32)))))
(/.f32 (+.f32 #s(literal 1/27 binary32) (*.f32 #s(literal 1/64 binary32) (*.f32 (*.f32 u0 u0) u0))) (+.f32 #s(literal 1/9 binary32) (-.f32 (*.f32 (*.f32 #s(literal 1/4 binary32) u0) (*.f32 #s(literal 1/4 binary32) u0)) (*.f32 #s(literal 1/3 binary32) (*.f32 #s(literal 1/4 binary32) u0)))))
(-.f32 #s(literal 1/3 binary32) (*.f32 #s(literal -1/4 binary32) u0))
(fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32))
(fma.f32 u0 #s(literal 1/4 binary32) #s(literal 1/3 binary32))
(+.f32 (*.f32 #s(literal 1/4 binary32) u0) #s(literal 1/3 binary32))
(+.f32 #s(literal 1/3 binary32) (*.f32 #s(literal 1/4 binary32) u0))
#s(literal 1/4 binary32)
u0
#s(literal 1/3 binary32)
#s(literal 1/2 binary32)
(/.f32 (-.f32 (*.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 sin2phi (*.f32 alphay alphay))) (*.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 cos2phi (*.f32 alphax alphax)))) (-.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))
(/.f32 (-.f32 (*.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 cos2phi (*.f32 alphax alphax))) (*.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 sin2phi (*.f32 alphay alphay)))) (-.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (+.f32 (pow.f32 (/.f32 sin2phi (*.f32 alphay alphay)) #s(literal 3 binary32)) (pow.f32 (/.f32 cos2phi (*.f32 alphax alphax)) #s(literal 3 binary32))) (fma.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 sin2phi (*.f32 alphay alphay)) (-.f32 (*.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 cos2phi (*.f32 alphax alphax))) (*.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))))
(/.f32 (+.f32 (pow.f32 (/.f32 cos2phi (*.f32 alphax alphax)) #s(literal 3 binary32)) (pow.f32 (/.f32 sin2phi (*.f32 alphay alphay)) #s(literal 3 binary32))) (fma.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 cos2phi (*.f32 alphax alphax)) (-.f32 (*.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 sin2phi (*.f32 alphay alphay))) (*.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))))
(/.f32 (fma.f32 (*.f32 alphax alphax) sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) (*.f32 (*.f32 alphay alphay) (*.f32 alphax alphax)))
(/.f32 (fma.f32 (*.f32 alphay alphay) cos2phi (*.f32 (*.f32 alphax alphax) sin2phi)) (*.f32 (*.f32 alphax alphax) (*.f32 alphay alphay)))
(/.f32 (fma.f32 (/.f32 cos2phi alphax) (*.f32 alphay alphay) (*.f32 alphax sin2phi)) (*.f32 alphax (*.f32 alphay alphay)))
(+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))
(+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay)))
(/.f32 (/.f32 sin2phi alphay) alphay)
(/.f32 (neg.f32 sin2phi) (neg.f32 (*.f32 alphay alphay)))
(/.f32 sin2phi (*.f32 alphay alphay))
sin2phi
(*.f32 (exp.f32 (log.f32 alphay)) (exp.f32 (log.f32 alphay)))
(*.f32 (fabs.f32 alphay) (fabs.f32 alphay))
(*.f32 (neg.f32 alphay) (neg.f32 alphay))
(*.f32 alphay alphay)
(pow.f32 (exp.f32 (log.f32 alphay)) #s(literal 2 binary32))
(pow.f32 (fabs.f32 alphay) #s(literal 2 binary32))
(pow.f32 (neg.f32 alphay) #s(literal 2 binary32))
(pow.f32 (*.f32 alphay alphay) #s(literal 1 binary32))
(pow.f32 alphay #s(literal 2 binary32))
(+.f32 (cosh.f32 (*.f32 (log.f32 alphay) #s(literal 2 binary32))) (sinh.f32 (*.f32 (log.f32 alphay) #s(literal 2 binary32))))
(exp.f32 (*.f32 (log.f32 alphay) #s(literal 2 binary32)))
alphay
(/.f32 (neg.f32 (/.f32 cos2phi alphax)) (neg.f32 alphax))
(/.f32 (neg.f32 cos2phi) (neg.f32 (*.f32 alphax alphax)))
(/.f32 (/.f32 cos2phi alphax) alphax)
(/.f32 cos2phi (*.f32 alphax alphax))
cos2phi
(*.f32 (exp.f32 (log.f32 alphax)) (exp.f32 (log.f32 alphax)))
(*.f32 (fabs.f32 alphax) (fabs.f32 alphax))
(*.f32 (neg.f32 alphax) (neg.f32 alphax))
(*.f32 alphax alphax)
(pow.f32 (exp.f32 (log.f32 alphax)) #s(literal 2 binary32))
(pow.f32 (fabs.f32 alphax) #s(literal 2 binary32))
(pow.f32 (neg.f32 alphax) #s(literal 2 binary32))
(pow.f32 (*.f32 alphax alphax) #s(literal 1 binary32))
(pow.f32 alphax #s(literal 2 binary32))
(+.f32 (cosh.f32 (*.f32 (log.f32 alphax) #s(literal 2 binary32))) (sinh.f32 (*.f32 (log.f32 alphax) #s(literal 2 binary32))))
(exp.f32 (*.f32 (log.f32 alphax) #s(literal 2 binary32)))
alphax
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi)))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi))
(*.f32 (/.f32 u0 cos2phi) (*.f32 alphax alphax))
(*.f32 (*.f32 alphax alphax) (/.f32 u0 cos2phi))
(*.f32 alphax (*.f32 alphax (/.f32 u0 cos2phi)))
(/.f32 (neg.f32 (*.f32 (*.f32 alphax alphax) u0)) (neg.f32 cos2phi))
(/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi)
(/.f32 (neg.f32 u0) (neg.f32 cos2phi))
(/.f32 u0 cos2phi)
(/.f32 (neg.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(literal 1 binary32)) u0))) (neg.f32 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(literal 1 binary32)) u0)) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))
#s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(literal 1 binary32)) u0))
(*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(literal 1 binary32)) u0)
(*.f32 u0 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(literal 1 binary32)))
#s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(literal 1 binary32))
#s(literal 1 binary32)
(/.f32 (-.f32 (*.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 sin2phi (*.f32 alphay alphay))) (*.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 cos2phi (*.f32 alphax alphax)))) (-.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))
(/.f32 (-.f32 (*.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 cos2phi (*.f32 alphax alphax))) (*.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 sin2phi (*.f32 alphay alphay)))) (-.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (+.f32 (pow.f32 (/.f32 sin2phi (*.f32 alphay alphay)) #s(literal 3 binary32)) (pow.f32 (/.f32 cos2phi (*.f32 alphax alphax)) #s(literal 3 binary32))) (fma.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 sin2phi (*.f32 alphay alphay)) (-.f32 (*.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 cos2phi (*.f32 alphax alphax))) (*.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))))
(/.f32 (+.f32 (pow.f32 (/.f32 cos2phi (*.f32 alphax alphax)) #s(literal 3 binary32)) (pow.f32 (/.f32 sin2phi (*.f32 alphay alphay)) #s(literal 3 binary32))) (fma.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 cos2phi (*.f32 alphax alphax)) (-.f32 (*.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 sin2phi (*.f32 alphay alphay))) (*.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))))
(/.f32 (fma.f32 (*.f32 alphax alphax) sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) (*.f32 (*.f32 alphay alphay) (*.f32 alphax alphax)))
(/.f32 (fma.f32 (*.f32 alphay alphay) cos2phi (*.f32 (*.f32 alphax alphax) sin2phi)) (*.f32 (*.f32 alphax alphax) (*.f32 alphay alphay)))
(/.f32 (fma.f32 (/.f32 cos2phi alphax) (*.f32 alphay alphay) (*.f32 alphax sin2phi)) (*.f32 alphax (*.f32 alphay alphay)))
(+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))
(+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay)))
(/.f32 (neg.f32 (/.f32 cos2phi alphax)) (neg.f32 alphax))
(/.f32 (neg.f32 cos2phi) (neg.f32 (*.f32 alphax alphax)))
(/.f32 (/.f32 cos2phi alphax) alphax)
(/.f32 cos2phi (*.f32 alphax alphax))
(/.f32 (neg.f32 cos2phi) (neg.f32 alphax))
(/.f32 cos2phi alphax)
(/.f32 (neg.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0 u0))) (neg.f32 #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay)))))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0 u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
#s(approx (neg (log (- 1 u0))) (fma.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0 u0))
(*.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)
(*.f32 u0 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)))
(/.f32 (-.f32 (pow.f32 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0) #s(literal 2 binary32)) (*.f32 u0 u0)) (-.f32 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0) u0))
(/.f32 (-.f32 (*.f32 u0 u0) (pow.f32 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0) #s(literal 2 binary32))) (-.f32 u0 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0)))
(/.f32 (+.f32 (pow.f32 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0) #s(literal 3 binary32)) (*.f32 (*.f32 u0 u0) u0)) (+.f32 (pow.f32 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0) #s(literal 2 binary32)) (-.f32 (*.f32 u0 u0) (*.f32 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0) u0))))
(/.f32 (fma.f32 (*.f32 u0 u0) u0 (pow.f32 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0) #s(literal 3 binary32))) (fma.f32 u0 u0 (-.f32 (pow.f32 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0) #s(literal 2 binary32)) (*.f32 u0 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0)))))
(-.f32 u0 (*.f32 (neg.f32 u0) (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)))
(fma.f32 (*.f32 u0 u0) (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)
(fma.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0 u0)
(fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) (*.f32 u0 u0) u0)
(fma.f32 u0 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0)
(fma.f32 u0 #s(literal 1 binary32) (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0))
(+.f32 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0) u0)
(+.f32 u0 (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0))
(*.f32 (*.f32 u0 u0) (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)))
(*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0)
(*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) (*.f32 u0 u0))
(*.f32 u0 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0))
(fma.f32 (*.f32 u0 u0) #s(literal 1/2 binary32) (*.f32 (*.f32 u0 u0) (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0)))
(fma.f32 (*.f32 u0 u0) #s(literal 1/2 binary32) (*.f32 (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0) (*.f32 u0 u0)))
(fma.f32 #s(literal 1/2 binary32) (*.f32 u0 u0) (*.f32 (*.f32 u0 u0) (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0)))
(fma.f32 #s(literal 1/2 binary32) (*.f32 u0 u0) (*.f32 (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0) (*.f32 u0 u0)))
(+.f32 (*.f32 (*.f32 u0 u0) #s(literal 1/2 binary32)) (*.f32 (*.f32 u0 u0) (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0)))
(+.f32 (*.f32 (*.f32 u0 u0) #s(literal 1/2 binary32)) (*.f32 (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0) (*.f32 u0 u0)))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (neg.f32 (*.f32 alphax alphax)) #s(approx (/ (log (- 1 u0)) cos2phi) (/.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)) u0) #s(literal 1 binary32)) u0) cos2phi))))
(*.f32 (neg.f32 (*.f32 alphax alphax)) #s(approx (/ (log (- 1 u0)) cos2phi) (/.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)) u0) #s(literal 1 binary32)) u0) cos2phi)))
(*.f32 (*.f32 alphax alphax) (neg.f32 #s(approx (/ (log (- 1 u0)) cos2phi) (/.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)) u0) #s(literal 1 binary32)) u0) cos2phi))))
(neg.f32 (*.f32 alphax (*.f32 alphax #s(approx (/ (log (- 1 u0)) cos2phi) (/.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)) u0) #s(literal 1 binary32)) u0) cos2phi)))))
(*.f32 (*.f32 alphax alphax) #s(approx (/ (log (- 1 u0)) cos2phi) (/.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)) u0) #s(literal 1 binary32)) u0) cos2phi)))
(*.f32 #s(approx (/ (log (- 1 u0)) cos2phi) (/.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)) u0) #s(literal 1 binary32)) u0) cos2phi)) (*.f32 alphax alphax))
(*.f32 alphax (*.f32 alphax #s(approx (/ (log (- 1 u0)) cos2phi) (/.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)) u0) #s(literal 1 binary32)) u0) cos2phi))))
#s(approx (/ (log (- 1 u0)) cos2phi) (/.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)) u0) #s(literal 1 binary32)) u0) cos2phi))
(*.f32 (/.f32 (-.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)) u0) #s(literal 1 binary32)) cos2phi) u0)
(*.f32 u0 (/.f32 (-.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)) u0) #s(literal 1 binary32)) cos2phi))
(/.f32 (neg.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)) u0) #s(literal 1 binary32)) u0)) (neg.f32 cos2phi))
(/.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)) u0) #s(literal 1 binary32)) u0) cos2phi)
(/.f32 (-.f32 (pow.f32 (/.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)) u0) cos2phi) #s(literal 2 binary32)) (*.f32 (/.f32 #s(literal 1 binary32) cos2phi) (/.f32 #s(literal 1 binary32) cos2phi))) (fma.f32 (/.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)) cos2phi) u0 (/.f32 #s(literal 1 binary32) cos2phi)))
(/.f32 (-.f32 (pow.f32 (/.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)) u0) cos2phi) #s(literal 3 binary32)) (/.f32 #s(literal 1 binary32) (*.f32 (*.f32 cos2phi cos2phi) cos2phi))) (+.f32 (pow.f32 (/.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)) u0) cos2phi) #s(literal 2 binary32)) (fma.f32 (/.f32 #s(literal 1 binary32) cos2phi) (/.f32 #s(literal 1 binary32) cos2phi) (*.f32 (/.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)) u0) cos2phi) (/.f32 #s(literal 1 binary32) cos2phi)))))
(/.f32 (neg.f32 (-.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)) u0) #s(literal 1 binary32))) (neg.f32 cos2phi))
(/.f32 (-.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)) u0) #s(literal 1 binary32)) cos2phi)
(-.f32 (/.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)) u0) cos2phi) (/.f32 #s(literal 1 binary32) cos2phi))
(*.f32 (/.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)) cos2phi) u0)
(*.f32 u0 (/.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)) cos2phi))
(/.f32 (neg.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)) u0)) (neg.f32 cos2phi))
(/.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)) u0) cos2phi)
(/.f32 (-.f32 (*.f32 (/.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) cos2phi) (/.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) cos2phi)) (*.f32 (/.f32 #s(literal 1/2 binary32) cos2phi) (/.f32 #s(literal 1/2 binary32) cos2phi))) (fma.f32 (/.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) cos2phi) u0 (/.f32 #s(literal 1/2 binary32) cos2phi)))
(/.f32 (-.f32 (pow.f32 (/.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) cos2phi) #s(literal 3 binary32)) (/.f32 #s(literal 1/8 binary32) (*.f32 (*.f32 cos2phi cos2phi) cos2phi))) (fma.f32 (/.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) cos2phi) (/.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) cos2phi) (fma.f32 (/.f32 #s(literal 1/2 binary32) cos2phi) (/.f32 #s(literal 1/2 binary32) cos2phi) (*.f32 (/.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) cos2phi) (/.f32 #s(literal 1/2 binary32) cos2phi)))))
(/.f32 (neg.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32))) (neg.f32 cos2phi))
(/.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)) cos2phi)
(-.f32 (/.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) cos2phi) (/.f32 #s(literal 1/2 binary32) cos2phi))
(fma.f32 (/.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) cos2phi) u0 (*.f32 #s(literal -1/2 binary32) (/.f32 #s(literal 1 binary32) cos2phi)))
(fma.f32 u0 (/.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) cos2phi) (*.f32 #s(literal -1/2 binary32) (/.f32 #s(literal 1 binary32) cos2phi)))
(+.f32 (/.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) cos2phi) (*.f32 #s(literal -1/2 binary32) (/.f32 #s(literal 1 binary32) cos2phi)))
(*.f32 (/.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) cos2phi) u0)
(*.f32 u0 (/.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) cos2phi))
(/.f32 (neg.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0)) (neg.f32 cos2phi))
(/.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) cos2phi)
(/.f32 (-.f32 (*.f32 (*.f32 (/.f32 u0 cos2phi) #s(literal -1/4 binary32)) (*.f32 (/.f32 u0 cos2phi) #s(literal -1/4 binary32))) (*.f32 (/.f32 #s(literal 1/3 binary32) cos2phi) (/.f32 #s(literal 1/3 binary32) cos2phi))) (fma.f32 (/.f32 u0 cos2phi) #s(literal -1/4 binary32) (/.f32 #s(literal 1/3 binary32) cos2phi)))
(/.f32 (-.f32 (/.f32 (*.f32 #s(literal -1/64 binary32) (*.f32 (*.f32 u0 u0) u0)) (*.f32 (*.f32 cos2phi cos2phi) cos2phi)) (/.f32 #s(literal 1/27 binary32) (*.f32 (*.f32 cos2phi cos2phi) cos2phi))) (fma.f32 (*.f32 (/.f32 u0 cos2phi) #s(literal -1/4 binary32)) (*.f32 (/.f32 u0 cos2phi) #s(literal -1/4 binary32)) (fma.f32 (/.f32 #s(literal 1/3 binary32) cos2phi) (/.f32 #s(literal 1/3 binary32) cos2phi) (*.f32 (*.f32 (/.f32 u0 cos2phi) #s(literal -1/4 binary32)) (/.f32 #s(literal 1/3 binary32) cos2phi)))))
(/.f32 (neg.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32))) (neg.f32 cos2phi))
(/.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) cos2phi)
(-.f32 (*.f32 (/.f32 u0 cos2phi) #s(literal -1/4 binary32)) (/.f32 #s(literal 1/3 binary32) cos2phi))
(fma.f32 (/.f32 u0 cos2phi) #s(literal -1/4 binary32) (*.f32 #s(literal -1/3 binary32) (/.f32 #s(literal 1 binary32) cos2phi)))
(fma.f32 #s(literal -1/4 binary32) (/.f32 u0 cos2phi) (*.f32 #s(literal -1/3 binary32) (/.f32 #s(literal 1 binary32) cos2phi)))
(+.f32 (*.f32 (/.f32 u0 cos2phi) #s(literal -1/4 binary32)) (*.f32 #s(literal -1/3 binary32) (/.f32 #s(literal 1 binary32) cos2phi)))
(*.f32 (/.f32 u0 cos2phi) #s(literal -1/4 binary32))
(*.f32 #s(literal -1/4 binary32) (/.f32 u0 cos2phi))
(/.f32 (*.f32 #s(literal -1/4 binary32) u0) cos2phi)
#s(literal -1/4 binary32)
(*.f32 (/.f32 #s(literal 1 binary32) cos2phi) #s(literal 1/3 binary32))
(*.f32 #s(literal 1/3 binary32) (/.f32 #s(literal 1 binary32) cos2phi))
(/.f32 #s(literal -1/3 binary32) (neg.f32 cos2phi))
(/.f32 #s(literal 1/3 binary32) cos2phi)
(*.f32 (/.f32 #s(literal 1 binary32) cos2phi) #s(literal 1/2 binary32))
(*.f32 #s(literal 1/2 binary32) (/.f32 #s(literal 1 binary32) cos2phi))
(/.f32 #s(literal -1/2 binary32) (neg.f32 cos2phi))
(/.f32 #s(literal 1/2 binary32) cos2phi)
(/.f32 #s(literal -1 binary32) (neg.f32 cos2phi))
(/.f32 #s(literal 1 binary32) cos2phi)
(pow.f32 cos2phi #s(literal -1 binary32))
(exp.f32 (*.f32 (log.f32 cos2phi) #s(literal -1 binary32)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (fma.f32 (*.f32 alphax alphax) (/.f32 (*.f32 sin2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphay cos2phi) (*.f32 alphay cos2phi))) (/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) cos2phi)) (*.f32 alphax alphax)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (fma.f32 (fma.f32 sin2phi (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) (*.f32 (*.f32 alphay cos2phi) (*.f32 alphay cos2phi))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (*.f32 (*.f32 sin2phi sin2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 cos2phi cos2phi) cos2phi) (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay))))))) (*.f32 alphax alphax) (/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) cos2phi)) (*.f32 alphax alphax)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (fma.f32 (fma.f32 (fma.f32 (*.f32 alphax alphax) (/.f32 (*.f32 (*.f32 (*.f32 sin2phi sin2phi) sin2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 cos2phi cos2phi) (*.f32 cos2phi cos2phi)) (*.f32 (*.f32 (*.f32 alphay alphay) alphay) (*.f32 (*.f32 alphay alphay) alphay)))) (neg.f32 (/.f32 (*.f32 (*.f32 sin2phi sin2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 cos2phi cos2phi) cos2phi) (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)))))) (*.f32 alphax alphax) (/.f32 (*.f32 sin2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphay cos2phi) (*.f32 alphay cos2phi)))) (*.f32 alphax alphax) (/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) cos2phi)) (*.f32 alphax alphax)))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax)))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 (fma.f32 (*.f32 alphax alphax) (/.f32 sin2phi (*.f32 alphay alphay)) cos2phi) (*.f32 alphax alphax)))
#s(approx (* alphax alphax) (*.f32 alphax alphax))
#s(approx alphax alphax)
#s(approx (* (* alphax alphax) (/ u0 cos2phi)) (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi))
#s(approx (/ cos2phi alphax) (/.f32 cos2phi alphax))
#s(approx (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) (*.f32 (*.f32 alphax alphax) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphay alphay) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (fma.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) (/.f32 (*.f32 cos2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphax sin2phi) (*.f32 alphax sin2phi))) (neg.f32 (*.f32 (*.f32 alphay alphay) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (+.f32 (fma.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) (/.f32 (*.f32 cos2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphax sin2phi) (*.f32 alphax sin2phi))) (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphay alphay) alphay) (*.f32 (*.f32 alphay alphay) alphay)) (*.f32 cos2phi cos2phi)) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (*.f32 (*.f32 sin2phi sin2phi) sin2phi))))) (neg.f32 (*.f32 (*.f32 alphay alphay) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (+.f32 (+.f32 (fma.f32 (exp.f32 (-.f32 (*.f32 (log.f32 alphay) #s(literal 8 binary32)) (*.f32 (log.f32 alphax) #s(literal 6 binary32)))) (/.f32 (*.f32 (*.f32 (*.f32 cos2phi cos2phi) cos2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 sin2phi sin2phi) (*.f32 sin2phi sin2phi))) (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) cos2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphax sin2phi) (*.f32 alphax sin2phi)))) (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphay alphay) alphay) (*.f32 (*.f32 alphay alphay) alphay)) (*.f32 cos2phi cos2phi)) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (*.f32 (*.f32 sin2phi sin2phi) sin2phi))))) (neg.f32 (*.f32 (*.f32 alphay alphay) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi)))))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay)))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (fma.f32 (*.f32 alphay alphay) (/.f32 (*.f32 cos2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphax sin2phi) (*.f32 alphax sin2phi))) (/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) sin2phi)) (*.f32 alphay alphay)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (fma.f32 (fma.f32 cos2phi (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) (*.f32 (*.f32 alphax sin2phi) (*.f32 alphax sin2phi))) (neg.f32 (*.f32 (*.f32 alphay alphay) (/.f32 (*.f32 (*.f32 cos2phi cos2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (*.f32 (*.f32 sin2phi sin2phi) sin2phi)))))) (*.f32 alphay alphay) (/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) sin2phi)) (*.f32 alphay alphay)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (fma.f32 (fma.f32 (fma.f32 (*.f32 alphay alphay) (/.f32 (*.f32 (*.f32 (*.f32 cos2phi cos2phi) cos2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 sin2phi sin2phi) (*.f32 sin2phi sin2phi)) (*.f32 (*.f32 (*.f32 alphax alphax) alphax) (*.f32 (*.f32 alphax alphax) alphax)))) (neg.f32 (/.f32 (*.f32 (*.f32 cos2phi cos2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (*.f32 (*.f32 sin2phi sin2phi) sin2phi))))) (*.f32 alphay alphay) (/.f32 (*.f32 cos2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphax sin2phi) (*.f32 alphax sin2phi)))) (*.f32 alphay alphay) (/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) sin2phi)) (*.f32 alphay alphay)))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 (fma.f32 (*.f32 alphay alphay) (/.f32 cos2phi (*.f32 alphax alphax)) sin2phi) (*.f32 alphay alphay)))
#s(approx (* alphay alphay) (*.f32 alphay alphay))
#s(approx alphay alphay)
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (fma.f32 (neg.f32 (*.f32 alphax alphax)) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi) (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (/.f32 (*.f32 sin2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphay cos2phi) (*.f32 alphay cos2phi))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (fma.f32 (neg.f32 (*.f32 alphax alphax)) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi) (fma.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (/.f32 (*.f32 sin2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphay cos2phi) (*.f32 alphay cos2phi))) (neg.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphax alphax) alphax) (*.f32 (*.f32 alphax alphax) alphax)) (/.f32 (*.f32 (*.f32 sin2phi sin2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 cos2phi cos2phi) cos2phi) (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)))))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (+.f32 (fma.f32 (neg.f32 (*.f32 alphax alphax)) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi) (neg.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphax alphax) alphax) (*.f32 (*.f32 alphax alphax) alphax)) (/.f32 (*.f32 (*.f32 sin2phi sin2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 cos2phi cos2phi) cos2phi) (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay))))))) (fma.f32 (exp.f32 (-.f32 (*.f32 (log.f32 alphax) #s(literal 8 binary32)) (*.f32 (log.f32 alphay) #s(literal 6 binary32)))) (/.f32 (*.f32 (*.f32 (*.f32 sin2phi sin2phi) sin2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 cos2phi cos2phi) (*.f32 cos2phi cos2phi))) (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (/.f32 (*.f32 sin2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphay cos2phi) (*.f32 alphay cos2phi)))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 u0 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (fma.f32 (/.f32 u0 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))) #s(literal 1/2 binary32) (/.f32 #s(literal 1 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (fma.f32 (fma.f32 (/.f32 u0 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))) #s(literal 1/3 binary32) (/.f32 #s(literal 1/2 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0 (/.f32 #s(literal 1 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (fma.f32 (fma.f32 (fma.f32 (/.f32 u0 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))) #s(literal 1/4 binary32) (/.f32 #s(literal 1/3 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0 (/.f32 #s(literal 1/2 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0 (/.f32 #s(literal 1 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0))
#s(approx (neg (log (- 1 u0))) u0)
#s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 #s(literal 1/2 binary32) u0 #s(literal 1 binary32)) u0))
#s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0))
#s(approx (neg (log (- 1 u0))) (fma.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0 u0))
#s(approx (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) (*.f32 #s(literal 1/2 binary32) u0))
#s(approx (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0))
#s(approx (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0))
#s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(literal 1/2 binary32))
#s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)))
#s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)))
#s(approx (+ (* 1/4 u0) 1/3) #s(literal 1/3 binary32))
#s(approx (+ (* 1/4 u0) 1/3) (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 (-.f32 (*.f32 (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi) #s(literal 1/2 binary32)) (neg.f32 (/.f32 (*.f32 alphax alphax) cos2phi))) u0))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 (-.f32 (*.f32 (fma.f32 (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi) #s(literal 1/3 binary32) (*.f32 #s(literal 1/2 binary32) (/.f32 (*.f32 alphax alphax) cos2phi))) u0) (neg.f32 (/.f32 (*.f32 alphax alphax) cos2phi))) u0))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 (-.f32 (*.f32 (fma.f32 (fma.f32 (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi) #s(literal 1/4 binary32) (*.f32 #s(literal 1/3 binary32) (/.f32 (*.f32 alphax alphax) cos2phi))) u0 (*.f32 #s(literal 1/2 binary32) (/.f32 (*.f32 alphax alphax) cos2phi))) u0) (neg.f32 (/.f32 (*.f32 alphax alphax) cos2phi))) u0))
#s(approx (/ u0 cos2phi) (/.f32 u0 cos2phi))
#s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(literal 1 binary32))
#s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) (fma.f32 #s(literal 1/2 binary32) u0 #s(literal 1 binary32)))
#s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)))
#s(approx (* u0 (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0)) (*.f32 (*.f32 u0 u0) #s(literal 1/2 binary32)))
#s(approx (* u0 (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0)) (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) (*.f32 u0 u0)))
#s(approx (* u0 (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0)) (*.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0))
#s(approx (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) (neg.f32 (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi)))
#s(approx (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) (*.f32 (fma.f32 #s(literal -1/2 binary32) (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi) (neg.f32 (/.f32 (*.f32 alphax alphax) cos2phi))) u0))
#s(approx (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) (*.f32 (fma.f32 (fma.f32 #s(literal -1/3 binary32) (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi) (*.f32 #s(literal -1/2 binary32) (/.f32 (*.f32 alphax alphax) cos2phi))) u0 (neg.f32 (/.f32 (*.f32 alphax alphax) cos2phi))) u0))
#s(approx (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) (*.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal -1/3 binary32) (/.f32 (*.f32 alphax alphax) cos2phi) (*.f32 (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi) #s(literal -1/4 binary32))) u0 (*.f32 #s(literal -1/2 binary32) (/.f32 (*.f32 alphax alphax) cos2phi))) u0 (neg.f32 (/.f32 (*.f32 alphax alphax) cos2phi))) u0))
#s(approx (/ (log (- 1 u0)) cos2phi) (neg.f32 (/.f32 u0 cos2phi)))
#s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 (-.f32 (*.f32 #s(literal -1/2 binary32) (/.f32 u0 cos2phi)) (/.f32 #s(literal 1 binary32) cos2phi)) u0))
#s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/3 binary32) (/.f32 u0 cos2phi)) (/.f32 #s(literal 1/2 binary32) cos2phi)) u0) (/.f32 #s(literal 1 binary32) cos2phi)) u0))
#s(approx (/ (log (- 1 u0)) cos2phi) (/.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)) u0) #s(literal 1 binary32)) u0) cos2phi))
#s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) (/.f32 #s(literal -1 binary32) cos2phi))
#s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) (-.f32 (*.f32 #s(literal -1/2 binary32) (/.f32 u0 cos2phi)) (/.f32 #s(literal 1 binary32) cos2phi)))
#s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/3 binary32) (/.f32 u0 cos2phi)) (/.f32 #s(literal 1/2 binary32) cos2phi)) u0) (/.f32 #s(literal 1 binary32) cos2phi)))
#s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) (/.f32 (-.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)) u0) #s(literal 1 binary32)) cos2phi))
#s(approx (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (*.f32 #s(literal -1/2 binary32) (/.f32 u0 cos2phi)))
#s(approx (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (*.f32 (-.f32 (*.f32 #s(literal -1/3 binary32) (/.f32 u0 cos2phi)) (/.f32 #s(literal 1/2 binary32) cos2phi)) u0))
#s(approx (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)) u0) cos2phi))
#s(approx (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) (/.f32 #s(literal -1/2 binary32) cos2phi))
#s(approx (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) (-.f32 (*.f32 #s(literal -1/3 binary32) (/.f32 u0 cos2phi)) (/.f32 #s(literal 1/2 binary32) cos2phi)))
#s(approx (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) (/.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)) cos2phi))
#s(approx (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (*.f32 #s(literal -1/3 binary32) (/.f32 u0 cos2phi)))
#s(approx (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) cos2phi))
#s(approx (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) (/.f32 #s(literal -1/3 binary32) cos2phi))
#s(approx (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) (/.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) cos2phi))
#s(approx (* (/ u0 cos2phi) -1/4) (*.f32 (/.f32 u0 cos2phi) #s(literal -1/4 binary32)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (-.f32 (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))) (/.f32 #s(literal 1 binary32) (*.f32 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))) u0))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (-.f32 (+.f32 (/.f32 #s(literal 1/2 binary32) (*.f32 (*.f32 u0 u0) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) (/.f32 #s(literal 1 binary32) (*.f32 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))) u0))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (-.f32 (-.f32 (+.f32 (/.f32 #s(literal 1/2 binary32) (*.f32 (*.f32 u0 u0) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) (/.f32 #s(literal 1 binary32) (*.f32 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))) u0))) (/.f32 #s(literal 1/3 binary32) (*.f32 (*.f32 (*.f32 u0 u0) u0) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))))))
#s(approx (neg (log (- 1 u0))) (neg.f32 (log.f32 (neg.f32 u0))))
#s(approx (neg (log (- 1 u0))) (neg.f32 (+.f32 (neg.f32 (neg.f32 (log.f32 (neg.f32 u0)))) (/.f32 #s(literal 1 binary32) u0))))
#s(approx (neg (log (- 1 u0))) (-.f32 (-.f32 (/.f32 #s(literal 1/2 binary32) (*.f32 u0 u0)) (neg.f32 (neg.f32 (log.f32 (neg.f32 u0))))) (/.f32 #s(literal 1 binary32) u0)))
#s(approx (neg (log (- 1 u0))) (-.f32 (-.f32 (/.f32 #s(literal 1/2 binary32) (*.f32 u0 u0)) (neg.f32 (neg.f32 (log.f32 (neg.f32 u0))))) (+.f32 (/.f32 #s(literal 1/3 binary32) (*.f32 (*.f32 u0 u0) u0)) (/.f32 #s(literal 1 binary32) u0))))
#s(approx (+ (* (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) u0) u0) (*.f32 (*.f32 (*.f32 u0 u0) (*.f32 u0 u0)) #s(literal 1/4 binary32)))
#s(approx (+ (* (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) u0) u0) (*.f32 (+.f32 (/.f32 #s(literal 1/3 binary32) u0) #s(literal 1/4 binary32)) (*.f32 (*.f32 u0 u0) (*.f32 u0 u0))))
#s(approx (+ (* (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) u0) u0) (*.f32 (+.f32 (+.f32 #s(literal 1/4 binary32) (/.f32 #s(literal 1/2 binary32) (*.f32 u0 u0))) (/.f32 #s(literal 1/3 binary32) u0)) (*.f32 (*.f32 u0 u0) (*.f32 u0 u0))))
#s(approx (+ (* (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) u0) u0) (*.f32 (+.f32 (+.f32 (+.f32 (/.f32 #s(literal 1/3 binary32) u0) (/.f32 #s(literal 1/2 binary32) (*.f32 u0 u0))) (/.f32 #s(literal 1 binary32) (*.f32 (*.f32 u0 u0) u0))) #s(literal 1/4 binary32)) (*.f32 (*.f32 u0 u0) (*.f32 u0 u0))))
#s(approx (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) (*.f32 (*.f32 (*.f32 u0 u0) u0) #s(literal 1/4 binary32)))
#s(approx (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) (*.f32 (+.f32 (/.f32 #s(literal 1/3 binary32) u0) #s(literal 1/4 binary32)) (*.f32 (*.f32 u0 u0) u0)))
#s(approx (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) (*.f32 (+.f32 (+.f32 #s(literal 1/4 binary32) (/.f32 #s(literal 1/2 binary32) (*.f32 u0 u0))) (/.f32 #s(literal 1/3 binary32) u0)) (*.f32 (*.f32 u0 u0) u0)))
#s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) (*.f32 (*.f32 u0 u0) #s(literal 1/4 binary32)))
#s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) (*.f32 (+.f32 (/.f32 #s(literal 1/3 binary32) u0) #s(literal 1/4 binary32)) (*.f32 u0 u0)))
#s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) (*.f32 (+.f32 (+.f32 #s(literal 1/4 binary32) (/.f32 #s(literal 1/2 binary32) (*.f32 u0 u0))) (/.f32 #s(literal 1/3 binary32) u0)) (*.f32 u0 u0)))
#s(approx (+ (* 1/4 u0) 1/3) (*.f32 #s(literal 1/4 binary32) u0))
#s(approx (+ (* 1/4 u0) 1/3) (*.f32 (+.f32 (/.f32 #s(literal 1/3 binary32) u0) #s(literal 1/4 binary32)) u0))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 (*.f32 alphax alphax) (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) cos2phi)))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (-.f32 (neg.f32 (/.f32 (*.f32 alphax alphax) (*.f32 cos2phi u0))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) cos2phi)))))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (-.f32 (-.f32 (*.f32 (/.f32 (*.f32 alphax alphax) (*.f32 (*.f32 u0 u0) cos2phi)) #s(literal 1/2 binary32)) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) cos2phi)))) (/.f32 (*.f32 alphax alphax) (*.f32 cos2phi u0))))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (-.f32 (-.f32 (/.f32 (*.f32 #s(literal -1/3 binary32) (*.f32 alphax alphax)) (*.f32 (*.f32 (*.f32 u0 u0) u0) cos2phi)) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) cos2phi)))) (fma.f32 (/.f32 (*.f32 alphax alphax) (*.f32 (*.f32 u0 u0) cos2phi)) #s(literal -1/2 binary32) (/.f32 (*.f32 alphax alphax) (*.f32 cos2phi u0)))))
#s(approx (* (+ (* (+ (* 1/3 u0) 1/2) u0) 1) u0) (*.f32 (*.f32 (*.f32 u0 u0) u0) #s(literal 1/3 binary32)))
#s(approx (* (+ (* (+ (* 1/3 u0) 1/2) u0) 1) u0) (*.f32 (+.f32 (/.f32 #s(literal 1/2 binary32) u0) #s(literal 1/3 binary32)) (*.f32 (*.f32 u0 u0) u0)))
#s(approx (* (+ (* (+ (* 1/3 u0) 1/2) u0) 1) u0) (*.f32 (+.f32 (+.f32 (/.f32 #s(literal 1 binary32) (*.f32 u0 u0)) (/.f32 #s(literal 1/2 binary32) u0)) #s(literal 1/3 binary32)) (*.f32 (*.f32 u0 u0) u0)))
#s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) (*.f32 (*.f32 u0 u0) #s(literal 1/3 binary32)))
#s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) (*.f32 (+.f32 (/.f32 #s(literal 1/2 binary32) u0) #s(literal 1/3 binary32)) (*.f32 u0 u0)))
#s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) (*.f32 (+.f32 (+.f32 (/.f32 #s(literal 1 binary32) (*.f32 u0 u0)) (/.f32 #s(literal 1/2 binary32) u0)) #s(literal 1/3 binary32)) (*.f32 u0 u0)))
#s(approx (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) cos2phi))))
#s(approx (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) (+.f32 (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) cos2phi))) (/.f32 (*.f32 alphax alphax) (*.f32 cos2phi u0))))
#s(approx (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) (+.f32 (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) cos2phi))) (fma.f32 (/.f32 (*.f32 alphax alphax) (*.f32 (*.f32 u0 u0) cos2phi)) #s(literal -1/2 binary32) (/.f32 (*.f32 alphax alphax) (*.f32 cos2phi u0)))))
#s(approx (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) (+.f32 (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) cos2phi))) (fma.f32 (/.f32 (*.f32 alphax alphax) (*.f32 (*.f32 u0 u0) cos2phi)) #s(literal -1/2 binary32) (fma.f32 (/.f32 (*.f32 alphax alphax) (*.f32 (*.f32 (*.f32 u0 u0) u0) cos2phi)) #s(literal 1/3 binary32) (/.f32 (*.f32 alphax alphax) (*.f32 cos2phi u0))))))
#s(approx (/ (log (- 1 u0)) cos2phi) (neg.f32 (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) cos2phi)))
#s(approx (/ (log (- 1 u0)) cos2phi) (+.f32 (neg.f32 (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) cos2phi)) (/.f32 #s(literal 1 binary32) (*.f32 cos2phi u0))))
#s(approx (/ (log (- 1 u0)) cos2phi) (-.f32 (+.f32 (neg.f32 (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) cos2phi)) (/.f32 #s(literal 1 binary32) (*.f32 cos2phi u0))) (/.f32 #s(literal 1/2 binary32) (*.f32 (*.f32 u0 u0) cos2phi))))
#s(approx (/ (log (- 1 u0)) cos2phi) (+.f32 (neg.f32 (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) cos2phi)) (-.f32 (+.f32 (/.f32 #s(literal 1/3 binary32) (*.f32 (*.f32 (*.f32 u0 u0) u0) cos2phi)) (/.f32 #s(literal 1 binary32) (*.f32 cos2phi u0))) (/.f32 #s(literal 1/2 binary32) (*.f32 (*.f32 u0 u0) cos2phi)))))
#s(approx (* (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) u0) (*.f32 (/.f32 (*.f32 (*.f32 u0 u0) (*.f32 u0 u0)) cos2phi) #s(literal -1/4 binary32)))
#s(approx (* (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) u0) (neg.f32 (*.f32 (+.f32 (/.f32 #s(literal 1/3 binary32) (*.f32 cos2phi u0)) (/.f32 #s(literal 1/4 binary32) cos2phi)) (*.f32 (*.f32 u0 u0) (*.f32 u0 u0)))))
#s(approx (* (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) u0) (*.f32 (-.f32 (neg.f32 (/.f32 (+.f32 (/.f32 #s(literal 1/2 binary32) (*.f32 cos2phi u0)) (/.f32 #s(literal 1/3 binary32) cos2phi)) u0)) (/.f32 #s(literal 1/4 binary32) cos2phi)) (*.f32 (*.f32 u0 u0) (*.f32 u0 u0))))
#s(approx (* (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) u0) (*.f32 (-.f32 (-.f32 (neg.f32 (/.f32 (+.f32 (/.f32 #s(literal 1 binary32) (*.f32 cos2phi u0)) (/.f32 #s(literal 1/2 binary32) cos2phi)) (*.f32 u0 u0))) (/.f32 #s(literal 1/3 binary32) (*.f32 cos2phi u0))) (/.f32 #s(literal 1/4 binary32) cos2phi)) (*.f32 (*.f32 u0 u0) (*.f32 u0 u0))))
#s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) (*.f32 (/.f32 (*.f32 (*.f32 u0 u0) u0) cos2phi) #s(literal -1/4 binary32)))
#s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) (neg.f32 (*.f32 (+.f32 (/.f32 #s(literal 1/3 binary32) (*.f32 cos2phi u0)) (/.f32 #s(literal 1/4 binary32) cos2phi)) (*.f32 (*.f32 u0 u0) u0))))
#s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) (*.f32 (-.f32 (neg.f32 (/.f32 (+.f32 (/.f32 #s(literal 1/2 binary32) (*.f32 cos2phi u0)) (/.f32 #s(literal 1/3 binary32) cos2phi)) u0)) (/.f32 #s(literal 1/4 binary32) cos2phi)) (*.f32 (*.f32 u0 u0) u0)))
#s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) (*.f32 (-.f32 (-.f32 (neg.f32 (/.f32 (+.f32 (/.f32 #s(literal 1 binary32) (*.f32 cos2phi u0)) (/.f32 #s(literal 1/2 binary32) cos2phi)) (*.f32 u0 u0))) (/.f32 #s(literal 1/3 binary32) (*.f32 cos2phi u0))) (/.f32 #s(literal 1/4 binary32) cos2phi)) (*.f32 (*.f32 u0 u0) u0)))
#s(approx (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) (*.f32 (/.f32 (*.f32 u0 u0) cos2phi) #s(literal -1/4 binary32)))
#s(approx (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) (neg.f32 (*.f32 (+.f32 (/.f32 #s(literal 1/3 binary32) (*.f32 cos2phi u0)) (/.f32 #s(literal 1/4 binary32) cos2phi)) (*.f32 u0 u0))))
#s(approx (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) (*.f32 (-.f32 (neg.f32 (/.f32 (+.f32 (/.f32 #s(literal 1/2 binary32) (*.f32 cos2phi u0)) (/.f32 #s(literal 1/3 binary32) cos2phi)) u0)) (/.f32 #s(literal 1/4 binary32) cos2phi)) (*.f32 u0 u0)))
#s(approx (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) (neg.f32 (*.f32 (+.f32 (/.f32 #s(literal 1/3 binary32) (*.f32 cos2phi u0)) (/.f32 #s(literal 1/4 binary32) cos2phi)) u0)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (+.f32 (/.f32 #s(literal 1 binary32) (*.f32 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))) u0)) (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (+.f32 (+.f32 (/.f32 #s(literal 1 binary32) (*.f32 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))) u0)) (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) (/.f32 #s(literal 1/2 binary32) (*.f32 (*.f32 u0 u0) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (+.f32 (neg.f32 (/.f32 (-.f32 (neg.f32 (/.f32 (+.f32 (/.f32 #s(literal 1/3 binary32) (*.f32 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))) u0)) (/.f32 #s(literal 1/2 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0)) (/.f32 #s(literal 1 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0)) (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))))
#s(approx (neg (log (- 1 u0))) (neg.f32 (log.f32 (neg.f32 u0))))
#s(approx (neg (log (- 1 u0))) (-.f32 (/.f32 #s(literal 1 binary32) u0) (neg.f32 (neg.f32 (log.f32 (neg.f32 u0))))))
#s(approx (neg (log (- 1 u0))) (-.f32 (+.f32 (/.f32 #s(literal 1/2 binary32) (*.f32 u0 u0)) (/.f32 #s(literal 1 binary32) u0)) (neg.f32 (neg.f32 (log.f32 (neg.f32 u0))))))
#s(approx (neg (log (- 1 u0))) (-.f32 (neg.f32 (/.f32 (-.f32 (neg.f32 (/.f32 (+.f32 (/.f32 #s(literal 1/3 binary32) u0) #s(literal 1/2 binary32)) u0)) #s(literal 1 binary32)) u0)) (neg.f32 (neg.f32 (log.f32 (neg.f32 u0))))))
#s(approx (+ (* (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) u0) u0) (*.f32 (+.f32 (neg.f32 (/.f32 (-.f32 (neg.f32 (/.f32 (+.f32 (/.f32 #s(literal 1 binary32) u0) #s(literal 1/2 binary32)) u0)) #s(literal 1/3 binary32)) u0)) #s(literal 1/4 binary32)) (*.f32 (*.f32 u0 u0) (*.f32 u0 u0))))
#s(approx (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) (neg.f32 (*.f32 (-.f32 (neg.f32 (/.f32 (+.f32 (/.f32 #s(literal 1/2 binary32) u0) #s(literal 1/3 binary32)) u0)) #s(literal 1/4 binary32)) (*.f32 (*.f32 u0 u0) u0))))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 (*.f32 alphax alphax) (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) cos2phi)))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (-.f32 (/.f32 (*.f32 alphax alphax) (*.f32 cos2phi u0)) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) cos2phi)))))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (-.f32 (neg.f32 (/.f32 (-.f32 (*.f32 (/.f32 (*.f32 alphax alphax) (*.f32 cos2phi u0)) #s(literal -1/2 binary32)) (/.f32 (*.f32 alphax alphax) cos2phi)) u0)) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) cos2phi)))))
#s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (-.f32 (neg.f32 (/.f32 (-.f32 (neg.f32 (/.f32 (fma.f32 (/.f32 (*.f32 alphax alphax) (*.f32 cos2phi u0)) #s(literal 1/3 binary32) (*.f32 #s(literal 1/2 binary32) (/.f32 (*.f32 alphax alphax) cos2phi))) u0)) (/.f32 (*.f32 alphax alphax) cos2phi)) u0)) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) cos2phi)))))
#s(approx (* (+ (* (+ (* 1/3 u0) 1/2) u0) 1) u0) (neg.f32 (*.f32 (-.f32 (neg.f32 (/.f32 (+.f32 (/.f32 #s(literal 1 binary32) u0) #s(literal 1/2 binary32)) u0)) #s(literal 1/3 binary32)) (*.f32 (*.f32 u0 u0) u0))))
#s(approx (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) cos2phi))))
#s(approx (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) (+.f32 (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) cos2phi))) (neg.f32 (/.f32 (*.f32 alphax alphax) (*.f32 cos2phi u0)))))
#s(approx (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) (+.f32 (neg.f32 (/.f32 (fma.f32 (/.f32 (*.f32 alphax alphax) (*.f32 cos2phi u0)) #s(literal 1/2 binary32) (/.f32 (*.f32 alphax alphax) cos2phi)) u0)) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) cos2phi)))))
#s(approx (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi)) (+.f32 (neg.f32 (/.f32 (+.f32 (neg.f32 (/.f32 (fma.f32 (/.f32 (*.f32 alphax alphax) (*.f32 cos2phi u0)) #s(literal -1/3 binary32) (*.f32 #s(literal -1/2 binary32) (/.f32 (*.f32 alphax alphax) cos2phi))) u0)) (/.f32 (*.f32 alphax alphax) cos2phi)) u0)) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) cos2phi)))))
#s(approx (/ (log (- 1 u0)) cos2phi) (neg.f32 (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) cos2phi)))
#s(approx (/ (log (- 1 u0)) cos2phi) (-.f32 (neg.f32 (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) cos2phi)) (/.f32 #s(literal 1 binary32) (*.f32 cos2phi u0))))
#s(approx (/ (log (- 1 u0)) cos2phi) (+.f32 (neg.f32 (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) cos2phi)) (neg.f32 (/.f32 (+.f32 (/.f32 #s(literal 1/2 binary32) (*.f32 cos2phi u0)) (/.f32 #s(literal 1 binary32) cos2phi)) u0))))
#s(approx (/ (log (- 1 u0)) cos2phi) (+.f32 (neg.f32 (/.f32 (+.f32 (+.f32 (/.f32 #s(literal 1/2 binary32) (*.f32 cos2phi u0)) (/.f32 #s(literal 1 binary32) cos2phi)) (/.f32 #s(literal 1/3 binary32) (*.f32 (*.f32 u0 u0) cos2phi))) u0)) (neg.f32 (/.f32 (neg.f32 (log.f32 (neg.f32 u0))) cos2phi))))
#s(approx (* (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) u0) (*.f32 (-.f32 (neg.f32 (/.f32 (+.f32 (+.f32 (/.f32 #s(literal 1/2 binary32) (*.f32 cos2phi u0)) (/.f32 #s(literal 1/3 binary32) cos2phi)) (/.f32 #s(literal 1 binary32) (*.f32 (*.f32 u0 u0) cos2phi))) u0)) (/.f32 #s(literal 1/4 binary32) cos2phi)) (*.f32 (*.f32 u0 u0) (*.f32 u0 u0))))
#s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) (neg.f32 (*.f32 (+.f32 (/.f32 #s(literal 1/3 binary32) (*.f32 cos2phi u0)) (+.f32 (/.f32 #s(literal 1/4 binary32) cos2phi) (/.f32 #s(literal 1/2 binary32) (*.f32 (*.f32 u0 u0) cos2phi)))) (*.f32 (*.f32 u0 u0) u0))))
#s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) (neg.f32 (*.f32 (+.f32 (neg.f32 (/.f32 (-.f32 (neg.f32 (/.f32 (+.f32 (/.f32 #s(literal 1 binary32) (*.f32 cos2phi u0)) (/.f32 #s(literal 1/2 binary32) cos2phi)) u0)) (/.f32 #s(literal 1/3 binary32) cos2phi)) u0)) (/.f32 #s(literal 1/4 binary32) cos2phi)) (*.f32 (*.f32 u0 u0) u0))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (fma.f32 (fma.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) (*.f32 (*.f32 alphax sin2phi) (*.f32 alphax sin2phi))) (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphay alphay) alphay) (*.f32 (*.f32 alphay alphay) alphay)) cos2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (*.f32 (*.f32 sin2phi sin2phi) sin2phi))))) cos2phi (neg.f32 (*.f32 (*.f32 alphay alphay) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (fma.f32 (fma.f32 (fma.f32 (exp.f32 (-.f32 (*.f32 (log.f32 alphay) #s(literal 8 binary32)) (*.f32 (log.f32 alphax) #s(literal 6 binary32)))) (/.f32 (*.f32 cos2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 sin2phi sin2phi) (*.f32 sin2phi sin2phi))) (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphay alphay) alphay) (*.f32 (*.f32 alphay alphay) alphay)) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (*.f32 (*.f32 sin2phi sin2phi) sin2phi))))) cos2phi (/.f32 (*.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphax sin2phi) (*.f32 alphax sin2phi)))) cos2phi (neg.f32 (*.f32 (*.f32 alphay alphay) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi)))))
#s(approx cos2phi cos2phi)
#s(approx (/ (log (- 1 u0)) cos2phi) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi))
#s(approx (* (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) u0) (/.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)) u0) #s(literal 1 binary32)) u0) cos2phi))
#s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) (/.f32 (-.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)) u0) #s(literal 1 binary32)) cos2phi))
#s(approx (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)) u0) cos2phi))
#s(approx (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) (/.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)) cos2phi))
#s(approx (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) cos2phi))
#s(approx (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) (/.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) cos2phi))
#s(approx (/ 1/3 cos2phi) (/.f32 #s(literal 1/3 binary32) cos2phi))
#s(approx (/ 1/2 cos2phi) (/.f32 #s(literal 1/2 binary32) cos2phi))
#s(approx (/ 1 cos2phi) (/.f32 #s(literal 1 binary32) cos2phi))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (fma.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (/.f32 (*.f32 sin2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphay alphay) cos2phi)) (neg.f32 (*.f32 (*.f32 alphax alphax) (log.f32 (-.f32 #s(literal 1 binary32) u0))))) cos2phi))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (+.f32 (fma.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (/.f32 (*.f32 sin2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphay alphay) cos2phi)) (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphax alphax) alphax) (*.f32 (*.f32 alphax alphax) alphax)) (*.f32 sin2phi sin2phi)) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) (*.f32 cos2phi cos2phi))))) (neg.f32 (*.f32 (*.f32 alphax alphax) (log.f32 (-.f32 #s(literal 1 binary32) u0))))) cos2phi))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (+.f32 (+.f32 (fma.f32 (exp.f32 (-.f32 (*.f32 (log.f32 alphax) #s(literal 8 binary32)) (*.f32 (log.f32 alphay) #s(literal 6 binary32)))) (/.f32 (*.f32 (*.f32 (*.f32 sin2phi sin2phi) sin2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 cos2phi cos2phi) cos2phi)) (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) sin2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphay alphay) cos2phi))) (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphax alphax) alphax) (*.f32 (*.f32 alphax alphax) alphax)) (*.f32 sin2phi sin2phi)) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) (*.f32 cos2phi cos2phi))))) (neg.f32 (*.f32 (*.f32 alphax alphax) (log.f32 (-.f32 #s(literal 1 binary32) u0))))) cos2phi))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (*.f32 (+.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))) cos2phi))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (/.f32 (fma.f32 (*.f32 alphax alphax) (log.f32 (-.f32 #s(literal 1 binary32) u0)) (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) sin2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphay alphay) cos2phi)))) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (/.f32 (fma.f32 (*.f32 alphax alphax) (log.f32 (-.f32 #s(literal 1 binary32) u0)) (neg.f32 (/.f32 (fma.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (/.f32 (*.f32 sin2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 alphay alphay)) (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphax alphax) alphax) (*.f32 (*.f32 alphax alphax) alphax)) (*.f32 sin2phi sin2phi)) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) cos2phi)))) cos2phi))) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (/.f32 (fma.f32 (*.f32 alphax alphax) (log.f32 (-.f32 #s(literal 1 binary32) u0)) (neg.f32 (/.f32 (fma.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (/.f32 (*.f32 sin2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 alphay alphay)) (neg.f32 (/.f32 (fma.f32 (*.f32 (*.f32 (*.f32 alphax alphax) alphax) (*.f32 (*.f32 alphax alphax) alphax)) (/.f32 (*.f32 (*.f32 sin2phi sin2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay))) (neg.f32 (*.f32 (exp.f32 (-.f32 (*.f32 (log.f32 alphax) #s(literal 8 binary32)) (*.f32 (log.f32 alphay) #s(literal 6 binary32)))) (/.f32 (*.f32 (*.f32 (*.f32 sin2phi sin2phi) sin2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) cos2phi)))) cos2phi))) cos2phi))) cos2phi)))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (neg.f32 (*.f32 (-.f32 (neg.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi))) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))) cos2phi)))
#s(approx (* (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) u0) (neg.f32 (/.f32 (fma.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0 u0) cos2phi)))
#s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) (neg.f32 (/.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) cos2phi)))
#s(approx (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (neg.f32 (/.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) cos2phi)))
#s(approx (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) (neg.f32 (/.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) cos2phi)))
#s(approx (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (neg.f32 (/.f32 (*.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0) cos2phi)))
#s(approx (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) (neg.f32 (/.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (fma.f32 (fma.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) (*.f32 (*.f32 alphay cos2phi) (*.f32 alphay cos2phi))) (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphax alphax) alphax) (*.f32 (*.f32 alphax alphax) alphax)) sin2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 cos2phi cos2phi) cos2phi) (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)))))) sin2phi (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (fma.f32 (fma.f32 (fma.f32 (exp.f32 (-.f32 (*.f32 (log.f32 alphax) #s(literal 8 binary32)) (*.f32 (log.f32 alphay) #s(literal 6 binary32)))) (/.f32 (*.f32 sin2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 cos2phi cos2phi) (*.f32 cos2phi cos2phi))) (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphax alphax) alphax) (*.f32 (*.f32 alphax alphax) alphax)) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 cos2phi cos2phi) cos2phi) (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)))))) sin2phi (/.f32 (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphay cos2phi) (*.f32 alphay cos2phi)))) sin2phi (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi)))))
#s(approx sin2phi sin2phi)
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (fma.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) (/.f32 (*.f32 cos2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphax alphax) sin2phi)) (neg.f32 (*.f32 (*.f32 alphay alphay) (log.f32 (-.f32 #s(literal 1 binary32) u0))))) sin2phi))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (+.f32 (fma.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) (/.f32 (*.f32 cos2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphax alphax) sin2phi)) (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphay alphay) alphay) (*.f32 (*.f32 alphay alphay) alphay)) (*.f32 cos2phi cos2phi)) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (*.f32 sin2phi sin2phi))))) (neg.f32 (*.f32 (*.f32 alphay alphay) (log.f32 (-.f32 #s(literal 1 binary32) u0))))) sin2phi))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (+.f32 (+.f32 (fma.f32 (exp.f32 (-.f32 (*.f32 (log.f32 alphay) #s(literal 8 binary32)) (*.f32 (log.f32 alphax) #s(literal 6 binary32)))) (/.f32 (*.f32 (*.f32 (*.f32 cos2phi cos2phi) cos2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 sin2phi sin2phi) sin2phi)) (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) cos2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphax alphax) sin2phi))) (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphay alphay) alphay) (*.f32 (*.f32 alphay alphay) alphay)) (*.f32 cos2phi cos2phi)) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) (*.f32 sin2phi sin2phi))))) (neg.f32 (*.f32 (*.f32 alphay alphay) (log.f32 (-.f32 #s(literal 1 binary32) u0))))) sin2phi))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (*.f32 (+.f32 (/.f32 cos2phi (*.f32 (*.f32 alphax alphax) sin2phi)) (/.f32 #s(literal 1 binary32) (*.f32 alphay alphay))) sin2phi))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (/.f32 (fma.f32 (*.f32 alphay alphay) (log.f32 (-.f32 #s(literal 1 binary32) u0)) (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) cos2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphax alphax) sin2phi)))) sin2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (/.f32 (fma.f32 (*.f32 alphay alphay) (log.f32 (-.f32 #s(literal 1 binary32) u0)) (neg.f32 (/.f32 (fma.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) (/.f32 (*.f32 cos2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 alphax alphax)) (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 (*.f32 (*.f32 alphay alphay) alphay) (*.f32 (*.f32 alphay alphay) alphay)) (*.f32 cos2phi cos2phi)) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax)) sin2phi)))) sin2phi))) sin2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (/.f32 (fma.f32 (*.f32 alphay alphay) (log.f32 (-.f32 #s(literal 1 binary32) u0)) (neg.f32 (/.f32 (fma.f32 (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay)) (/.f32 (*.f32 cos2phi (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 alphax alphax)) (neg.f32 (/.f32 (fma.f32 (*.f32 (*.f32 (*.f32 alphay alphay) alphay) (*.f32 (*.f32 alphay alphay) alphay)) (/.f32 (*.f32 (*.f32 cos2phi cos2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax))) (neg.f32 (*.f32 (exp.f32 (-.f32 (*.f32 (log.f32 alphay) #s(literal 8 binary32)) (*.f32 (log.f32 alphax) #s(literal 6 binary32)))) (/.f32 (*.f32 (*.f32 (*.f32 cos2phi cos2phi) cos2phi) (log.f32 (-.f32 #s(literal 1 binary32) u0))) sin2phi)))) sin2phi))) sin2phi))) sin2phi)))
#s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (neg.f32 (*.f32 (-.f32 (neg.f32 (/.f32 cos2phi (*.f32 (*.f32 alphax alphax) sin2phi))) (/.f32 #s(literal 1 binary32) (*.f32 alphay alphay))) sin2phi)))

eval46.0ms (0.7%)

Memory
-38.0MiB live, 113.6MiB allocated; 19ms collecting garbage
Compiler

Compiled 6 223 to 2 388 computations (61.6% saved)

prune100.0ms (1.6%)

Memory
2.8MiB live, 140.8MiB allocated; 8ms collecting garbage
Pruning

74 alts after pruning (65 fresh and 9 done)

PrunedKeptTotal
New39216408
Fresh94958
Picked235
Done066
Total40374477
Accuracy
99.8%
Counts
477 → 74
Alt Table
Click to see full alt table
StatusAccuracyProgram
59.1%
(/.f32 (neg.f32 (-.f32 (log1p.f32 (*.f32 (neg.f32 u0) u0)) (log.f32 (+.f32 #s(literal 1 binary32) u0)))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
57.5%
(/.f32 (neg.f32 (-.f32 (log.f32 (/.f32 (-.f32 #s(literal 1 binary32) (pow.f32 (*.f32 u0 u0) #s(literal 3 binary32))) (+.f32 #s(literal 1 binary32) (fma.f32 (*.f32 u0 u0) (*.f32 u0 u0) (*.f32 #s(literal 1 binary32) (*.f32 u0 u0)))))) (log.f32 (+.f32 #s(literal 1 binary32) u0)))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
46.8%
(/.f32 (neg.f32 (-.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 (*.f32 u0 u0) u0))) (log.f32 (+.f32 #s(literal 1 binary32) (fma.f32 u0 u0 (*.f32 #s(literal 1 binary32) u0)))))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
60.1%
(/.f32 (neg.f32 (-.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) (-.f32 (log.f32 (+.f32 #s(literal 1 binary32) (*.f32 (*.f32 u0 u0) u0))) (log.f32 (+.f32 #s(literal 1 binary32) (-.f32 (*.f32 u0 u0) (*.f32 #s(literal 1 binary32) u0))))))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
88.7%
(/.f32 (neg.f32 (-.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) (log1p.f32 u0))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
46.6%
(/.f32 (neg.f32 (-.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) (log.f32 (+.f32 u0 #s(literal 1 binary32))))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
57.9%
(/.f32 (neg.f32 (-.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) (log.f32 (+.f32 #s(literal 1 binary32) u0)))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 (/.f32 sin2phi alphay) alphay)))
61.1%
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
48.9%
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 (/.f32 sin2phi alphay) alphay)))
48.9%
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
48.6%
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (exp.f32 (*.f32 (log.f32 alphay) #s(literal 2 binary32))))))
22.8%
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
49.4%
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (*.f32 (+.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))) cos2phi)))
60.9%
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (*.f32 (+.f32 (/.f32 cos2phi (*.f32 (*.f32 alphax alphax) sin2phi)) (/.f32 #s(literal 1 binary32) (*.f32 alphay alphay))) sin2phi)))
68.2%
(/.f32 (neg.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/3 binary32) u0) #s(literal 1/2 binary32)) u0) #s(literal 1 binary32)) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
65.8%
(/.f32 (neg.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (*.f32 (-.f32 (*.f32 #s(literal -1/2 binary32) u0) #s(literal 1 binary32)) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
58.3%
(/.f32 (neg.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (neg.f32 u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
58.4%
(/.f32 (log.f32 (/.f32 #s(literal 1 binary32) (-.f32 #s(literal 1 binary32) u0))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
47.1%
(/.f32 (log.f32 (/.f32 #s(literal 1 binary32) (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
87.4%
(/.f32 #s(approx (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (*.f32 (fma.f32 #s(literal 1/2 binary32) u0 #s(literal 1 binary32)) u0)) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
75.4%
(/.f32 #s(approx (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) u0) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
92.9%
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0 u0)) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))
92.9%
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0 u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 (fma.f32 (*.f32 alphax alphax) (/.f32 sin2phi (*.f32 alphay alphay)) cos2phi) (*.f32 alphax alphax))))
69.8%
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0 u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
27.5%
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0 u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
91.0%
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 (*.f32 (fma.f32 #s(approx (+ (* 1/4 u0) 1/3) #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0 u0)) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))
87.5%
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 (*.f32 #s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(literal 1/2 binary32)) u0) u0 u0)) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))
69.7%
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 (/.f32 sin2phi alphay) alphay)))
68.2%
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (pow.f32 (exp.f32 (log.f32 alphay)) #s(literal 2 binary32)))))
68.3%
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (exp.f32 (*.f32 (log.f32 alphay) #s(literal 2 binary32))))))
68.4%
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 (fma.f32 #s(approx (+ (* 1/4 u0) 1/3) #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
65.9%
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 #s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(literal 1/2 binary32)) u0)))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
91.1%
(/.f32 #s(approx (neg (log (- 1 u0))) (+.f32 u0 (*.f32 (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0) u0))) (+.f32 (/.f32 (/.f32 cos2phi alphax) alphax) (/.f32 sin2phi (*.f32 alphay alphay))))
27.1%
(/.f32 #s(approx (neg (log (- 1 u0))) (+.f32 u0 (*.f32 (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
27.5%
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
51.7%
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (*.f32 #s(approx (+ (/ sin2phi (* (* alphay alphay) cos2phi)) (/ 1 (* alphax alphax))) (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi))) cos2phi)))
27.4%
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (*.f32 #s(approx (+ (/ sin2phi (* (* alphay alphay) cos2phi)) (/ 1 (* alphax alphax))) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))) cos2phi)))
90.6%
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) (/.f32 (fma.f32 (*.f32 alphay alphay) cos2phi (*.f32 (*.f32 alphax alphax) sin2phi)) (*.f32 (*.f32 alphax alphax) (*.f32 alphay alphay))))
90.8%
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 (/.f32 sin2phi alphay) alphay)))
90.8%
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
90.8%
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 (fma.f32 (*.f32 alphay alphay) (/.f32 cos2phi (*.f32 alphax alphax)) sin2phi) (*.f32 alphay alphay))))
27.1%
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 (/.f32 cos2phi alphax) alphax)))
27.0%
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
90.0%
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (*.f32 (+.f32 (/.f32 cos2phi (*.f32 (*.f32 alphax alphax) sin2phi)) (/.f32 #s(literal 1 binary32) (*.f32 alphay alphay))) sin2phi)))
71.0%
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 #s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (*.f32 (+.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))) cos2phi)))
92.3%
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) 1) (neg.f32 (*.f32 (-.f32 (neg.f32 (/.f32 (+.f32 (+.f32 (/.f32 #s(literal 1 binary32) (*.f32 u0 u0)) (/.f32 #s(literal 1/2 binary32) u0)) #s(literal 1/3 binary32)) u0)) #s(literal 1/4 binary32)) (*.f32 (*.f32 u0 u0) u0)))) u0)) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
87.5%
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) (fma.f32 #s(literal 1/2 binary32) u0 #s(literal 1 binary32))) u0)) (+.f32 (/.f32 (/.f32 cos2phi alphax) alphax) (/.f32 sin2phi (*.f32 alphay alphay))))
26.3%
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) (fma.f32 #s(literal 1/2 binary32) u0 #s(literal 1 binary32))) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
75.4%
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(literal 1 binary32)) u0)) (+.f32 (/.f32 (/.f32 cos2phi alphax) alphax) (/.f32 (/.f32 sin2phi alphay) alphay)))
75.4%
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(literal 1 binary32)) u0)) (+.f32 (/.f32 (/.f32 cos2phi alphax) alphax) (/.f32 sin2phi (*.f32 alphay alphay))))
23.9%
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
92.2%
(/.f32 #s(approx (neg (log (- 1 u0))) #s(approx (+ (* (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) u0) u0) (*.f32 (+.f32 (neg.f32 (/.f32 (-.f32 (neg.f32 (/.f32 (+.f32 (/.f32 #s(literal 1 binary32) u0) #s(literal 1/2 binary32)) u0)) #s(literal 1/3 binary32)) u0)) #s(literal 1/4 binary32)) (*.f32 (*.f32 u0 u0) (*.f32 u0 u0))))) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))
90.6%
(/.f32 #s(approx (neg (log (- 1 u0))) #s(approx (* (+ (* (+ (* 1/3 u0) 1/2) u0) 1) u0) (neg.f32 (*.f32 (-.f32 (neg.f32 (/.f32 (+.f32 (/.f32 #s(literal 1 binary32) u0) #s(literal 1/2 binary32)) u0)) #s(literal 1/3 binary32)) (*.f32 (*.f32 u0 u0) u0))))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
46.6%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (*.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (*.f32 alphay alphay)) sin2phi))
21.9%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (*.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (*.f32 alphax alphax)) cos2phi))
22.7%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (neg.f32 (*.f32 (*.f32 alphax alphax) (log.f32 (-.f32 #s(literal 1 binary32) u0)))) cos2phi))
90.7%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (fma.f32 (fma.f32 (/.f32 u0 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))) #s(literal 1/3 binary32) (/.f32 #s(literal 1/2 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0 (/.f32 #s(literal 1 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0))
87.4%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (fma.f32 (/.f32 u0 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))) #s(literal 1/2 binary32) (/.f32 #s(literal 1 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0))
14.0%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (+.f32 (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 alphax alphax) sin2phi) (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))))) (*.f32 (*.f32 cos2phi cos2phi) (*.f32 alphay alphay)))) (-.f32 (/.f32 (log.f32 (+.f32 u0 #s(literal 1 binary32))) cos2phi) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) cos2phi))) (*.f32 alphax alphax)))
49.1%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphay alphay) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi))))
22.1%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (-.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) (log.f32 (+.f32 u0 #s(literal 1 binary32)))) cos2phi))))
22.7%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi))))
26.3%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (*.f32 (-.f32 (*.f32 #s(literal -1/2 binary32) u0) #s(literal 1 binary32)) u0)) cos2phi))))
26.3%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) #s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 (-.f32 (*.f32 (/.f32 u0 cos2phi) #s(literal -1/2 binary32)) (/.f32 #s(literal 1 binary32) cos2phi)) u0)))))
23.9%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) #s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 #s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) (/.f32 #s(literal -1 binary32) cos2phi)) u0)))))
27.5%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) #s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 #s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) (neg.f32 (/.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) cos2phi))) u0)))))
22.7%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 alphax (*.f32 alphax (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi)))))
27.4%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 alphax (*.f32 alphax #s(approx (/ (log (- 1 u0)) cos2phi) (/.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)) u0) #s(literal 1 binary32)) u0) cos2phi))))))
23.9%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi)))
23.9%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 (exp.f32 (*.f32 (log.f32 alphax) #s(literal 2 binary32))) u0) cos2phi)))
23.9%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 alphax (*.f32 alphax u0)) cos2phi)))
26.4%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 (-.f32 (*.f32 (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi) #s(literal 1/2 binary32)) (neg.f32 (/.f32 (*.f32 alphax alphax) cos2phi))) u0)))
23.9%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 (*.f32 alphax alphax) (/.f32 u0 cos2phi))))
23.9%
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 alphax (*.f32 alphax (/.f32 u0 cos2phi)))))
Compiler

Compiled 3 272 to 2 487 computations (24% saved)

regimes634.0ms (10.1%)

Memory
32.3MiB live, 1 225.5MiB allocated; 198ms collecting garbage
Counts
104 → 2
Calls
Call 1
Inputs
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 alphax (*.f32 alphax (/.f32 u0 cos2phi)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 (*.f32 alphax alphax) (/.f32 u0 cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 alphax (*.f32 alphax u0)) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (neg.f32 u0)) cos2phi))))
(/.f32 (neg.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (neg.f32 u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) #s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 #s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) (/.f32 #s(literal -1 binary32) cos2phi)) u0)))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) (fma.f32 #s(literal 1/2 binary32) u0 #s(literal 1 binary32))) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (*.f32 (-.f32 (*.f32 #s(literal -1/2 binary32) u0) #s(literal 1 binary32)) u0)) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 alphax (*.f32 alphax (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphay alphay) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (neg.f32 (*.f32 (*.f32 alphax alphax) (log.f32 (-.f32 #s(literal 1 binary32) u0)))) cos2phi))
(/.f32 #s(approx (neg (log (- 1 u0))) u0) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) u0) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
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(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0 u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (*.f32 (+.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))) cos2phi)))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (*.f32 (+.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))) cos2phi)))
(/.f32 (neg.f32 (-.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) (log.f32 (+.f32 #s(literal 1 binary32) u0)))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 (/.f32 sin2phi alphay) alphay)))
(/.f32 (neg.f32 (-.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) (log1p.f32 u0))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (neg.f32 (-.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 (*.f32 u0 u0) u0))) (log.f32 (+.f32 #s(literal 1 binary32) (fma.f32 u0 u0 (*.f32 #s(literal 1 binary32) u0)))))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (neg.f32 (-.f32 (log1p.f32 (*.f32 (neg.f32 u0) u0)) (log.f32 (+.f32 #s(literal 1 binary32) u0)))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (exp.f32 (*.f32 (log.f32 alphay) #s(literal 2 binary32))))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (fma.f32 #s(literal 1/2 binary32) (/.f32 u0 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))) (/.f32 #s(literal 1 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (fma.f32 (/.f32 u0 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))) #s(literal 1/2 binary32) (/.f32 #s(literal 1 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (exp.f32 (*.f32 (log.f32 alphay) #s(literal 2 binary32))))))
(/.f32 #s(approx (neg (log (- 1 u0))) #s(approx (* (+ (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) 1) u0) (*.f32 (+.f32 (neg.f32 (/.f32 (-.f32 (neg.f32 (/.f32 (+.f32 (/.f32 #s(literal 1 binary32) u0) #s(literal 1/2 binary32)) u0)) #s(literal 1/3 binary32)) u0)) #s(literal 1/4 binary32)) (*.f32 (*.f32 u0 u0) (*.f32 u0 u0))))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) #s(approx (+ (* u0 1) (* u0 (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0))) (*.f32 (+.f32 (neg.f32 (/.f32 (-.f32 (neg.f32 (/.f32 (+.f32 (/.f32 #s(literal 1 binary32) u0) #s(literal 1/2 binary32)) u0)) #s(literal 1/3 binary32)) u0)) #s(literal 1/4 binary32)) (*.f32 (*.f32 u0 u0) (*.f32 u0 u0))))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) #s(approx (+ (* (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) u0) u0) (*.f32 (+.f32 (neg.f32 (/.f32 (-.f32 (neg.f32 (/.f32 (+.f32 (/.f32 #s(literal 1 binary32) u0) #s(literal 1/2 binary32)) u0)) #s(literal 1/3 binary32)) u0)) #s(literal 1/4 binary32)) (*.f32 (*.f32 u0 u0) (*.f32 u0 u0))))) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))
(/.f32 (neg.f32 (-.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) #s(approx (log (+ 1 u0)) (*.f32 (fma.f32 (-.f32 (*.f32 (fma.f32 #s(literal -1/4 binary32) u0 #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (neg.f32 (-.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 (*.f32 u0 u0) u0))) (log.f32 (+.f32 #s(literal 1 binary32) (fma.f32 u0 u0 (*.f32 #s(literal 1 binary32) u0)))))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) u0) 1) (neg.f32 (*.f32 (-.f32 (neg.f32 (/.f32 (+.f32 (+.f32 (/.f32 #s(literal 1 binary32) (*.f32 u0 u0)) (/.f32 #s(literal 1/2 binary32) u0)) #s(literal 1/3 binary32)) u0)) #s(literal 1/4 binary32)) (*.f32 (*.f32 u0 u0) u0)))) u0)) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (pow.f32 (exp.f32 (log.f32 alphay)) #s(literal 2 binary32)))))
(/.f32 (neg.f32 (-.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) (-.f32 (log.f32 (+.f32 #s(literal 1 binary32) (*.f32 (*.f32 u0 u0) u0))) (log.f32 (+.f32 #s(literal 1 binary32) (-.f32 (*.f32 u0 u0) (*.f32 #s(literal 1 binary32) u0))))))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (pow.f32 (exp.f32 (log.f32 alphay)) #s(literal 2 binary32)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) (/.f32 u0 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))) (/.f32 #s(literal 1/2 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0 (/.f32 #s(literal 1 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (fma.f32 (fma.f32 (/.f32 u0 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))) #s(literal 1/3 binary32) (/.f32 #s(literal 1/2 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0 (/.f32 #s(literal 1 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (+.f32 (neg.f32 (/.f32 (*.f32 (*.f32 (*.f32 alphax alphax) sin2phi) (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))))) (*.f32 (*.f32 cos2phi cos2phi) (*.f32 alphay alphay)))) (-.f32 (/.f32 (log.f32 (+.f32 u0 #s(literal 1 binary32))) cos2phi) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) cos2phi))) (*.f32 alphax alphax)))
(/.f32 (neg.f32 (-.f32 (log.f32 (/.f32 (-.f32 #s(literal 1 binary32) (pow.f32 (*.f32 u0 u0) #s(literal 3 binary32))) (+.f32 #s(literal 1 binary32) (fma.f32 (*.f32 u0 u0) (*.f32 u0 u0) (*.f32 #s(literal 1 binary32) (*.f32 u0 u0)))))) (log.f32 (+.f32 #s(literal 1 binary32) u0)))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (*.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) (/.f32 u0 (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax)))) (/.f32 #s(literal 1/3 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0 (/.f32 #s(literal 1/2 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0 (/.f32 #s(literal 1 binary32) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))) u0))
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) (/.f32 (+.f32 (pow.f32 (/.f32 cos2phi (*.f32 alphax alphax)) #s(literal 3 binary32)) (pow.f32 (/.f32 sin2phi (*.f32 alphay alphay)) #s(literal 3 binary32))) (+.f32 (/.f32 (*.f32 cos2phi cos2phi) (*.f32 (*.f32 alphax alphax) (*.f32 alphax alphax))) (-.f32 (/.f32 (*.f32 sin2phi sin2phi) (*.f32 (*.f32 alphay alphay) (*.f32 alphay alphay))) (/.f32 (*.f32 cos2phi sin2phi) (*.f32 (*.f32 alphax alphax) (*.f32 alphay alphay)))))))
Outputs
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0 u0)) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
Calls

14 calls:

106.0ms
cos2phi
97.0ms
(/.f32 cos2phi (*.f32 alphax alphax))
63.0ms
(/.f32 sin2phi (*.f32 alphay alphay))
54.0ms
(*.f32 alphax alphax)
42.0ms
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
Results
AccuracySegmentsBranch
92.9%1(*.f32 alphay alphay)
92.9%1(/.f32 sin2phi (*.f32 alphay alphay))
92.9%1(*.f32 alphax alphax)
92.9%1(/.f32 cos2phi (*.f32 alphax alphax))
92.9%1(+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay)))
98.4%2(-.f32 #s(literal 1 binary32) u0)
98.4%2(log.f32 (-.f32 #s(literal 1 binary32) u0))
98.4%2(neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)))
92.9%1(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
92.9%1alphax
92.9%1alphay
98.4%2u0
92.9%1cos2phi
92.9%1sin2phi
Compiler

Compiled 53 to 100 computations (-88.7% saved)

regimes71.0ms (1.1%)

Memory
12.3MiB live, 147.1MiB allocated; 9ms collecting garbage
Counts
67 → 2
Calls
Call 1
Inputs
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 alphax (*.f32 alphax (/.f32 u0 cos2phi)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 (*.f32 alphax alphax) (/.f32 u0 cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 alphax (*.f32 alphax u0)) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (neg.f32 u0)) cos2phi))))
(/.f32 (neg.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (neg.f32 u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) #s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 #s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) (/.f32 #s(literal -1 binary32) cos2phi)) u0)))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) (fma.f32 #s(literal 1/2 binary32) u0 #s(literal 1 binary32))) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (*.f32 (-.f32 (*.f32 #s(literal -1/2 binary32) u0) #s(literal 1 binary32)) u0)) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 alphax (*.f32 alphax (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphay alphay) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (neg.f32 (*.f32 (*.f32 alphax alphax) (log.f32 (-.f32 #s(literal 1 binary32) u0)))) cos2phi))
(/.f32 #s(approx (neg (log (- 1 u0))) u0) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) u0) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (neg.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (*.f32 (-.f32 (*.f32 #s(literal -1/2 binary32) u0) #s(literal 1 binary32)) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 (/.f32 sin2phi alphay) alphay)))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 #s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(literal 1/2 binary32)) u0)))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (log.f32 (/.f32 #s(literal 1 binary32) (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) #s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 (-.f32 (*.f32 (/.f32 u0 cos2phi) #s(literal -1/2 binary32)) (/.f32 #s(literal 1 binary32) cos2phi)) u0)))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(literal 1 binary32)) u0)) (+.f32 (/.f32 (/.f32 cos2phi alphax) alphax) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
(/.f32 #s(approx (neg (log (- 1 u0))) (+.f32 u0 (*.f32 (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(literal 1 binary32)) u0)) (+.f32 (/.f32 (/.f32 cos2phi alphax) alphax) (/.f32 (/.f32 sin2phi alphay) alphay)))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 (/.f32 cos2phi alphax) alphax)))
(/.f32 (neg.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/3 binary32) u0) #s(literal 1/2 binary32)) u0) #s(literal 1 binary32)) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 (-.f32 (*.f32 (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi) #s(literal 1/2 binary32)) (neg.f32 (/.f32 (*.f32 alphax alphax) cos2phi))) u0)))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 (fma.f32 #s(approx (+ (* 1/4 u0) 1/3) #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 (exp.f32 (*.f32 (log.f32 alphax) #s(literal 2 binary32))) u0) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (*.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (*.f32 alphax alphax)) cos2phi))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (*.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (*.f32 alphay alphay)) sin2phi))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 #s(literal 1/2 binary32) u0 #s(literal 1 binary32)) u0)) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 (*.f32 #s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(literal 1/2 binary32)) u0) u0 u0)) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))
(/.f32 #s(approx (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (*.f32 (fma.f32 #s(literal 1/2 binary32) u0 #s(literal 1 binary32)) u0)) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) (fma.f32 #s(literal 1/2 binary32) u0 #s(literal 1 binary32))) u0)) (+.f32 (/.f32 (/.f32 cos2phi alphax) alphax) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0 u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0 u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) #s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 #s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) (neg.f32 (/.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) cos2phi))) u0)))))
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 (/.f32 sin2phi alphay) alphay)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 alphax (*.f32 alphax #s(approx (/ (log (- 1 u0)) cos2phi) (/.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)) u0) #s(literal 1 binary32)) u0) cos2phi))))))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 #s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(literal 1/2 binary32)) u0)))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (neg.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)) u0) #s(literal 1 binary32)) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (*.f32 #s(approx (+ (/ sin2phi (* (* alphay alphay) cos2phi)) (/ 1 (* alphax alphax))) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))) cos2phi)))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (log.f32 (/.f32 #s(literal 1 binary32) (-.f32 #s(literal 1 binary32) u0))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) #s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (/.f32 u0 cos2phi) #s(literal -1/3 binary32)) (/.f32 #s(literal 1/2 binary32) cos2phi)) u0) (/.f32 #s(literal 1 binary32) cos2phi)) u0)))))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 (/.f32 sin2phi alphay) alphay)))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 (*.f32 (fma.f32 #s(approx (+ (* 1/4 u0) 1/3) #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0 u0)) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (-.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) (log.f32 (+.f32 u0 #s(literal 1 binary32)))) cos2phi))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 (/.f32 sin2phi alphay) alphay)))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) (+.f32 (/.f32 (/.f32 cos2phi alphax) alphax) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) #s(approx (* (+ (* (+ (* 1/3 u0) 1/2) u0) 1) u0) (neg.f32 (*.f32 (-.f32 (neg.f32 (/.f32 (+.f32 (/.f32 #s(literal 1 binary32) u0) #s(literal 1/2 binary32)) u0)) #s(literal 1/3 binary32)) (*.f32 (*.f32 u0 u0) u0))))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 #s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (*.f32 (+.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))) cos2phi)))
(/.f32 (neg.f32 (-.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) (log.f32 (+.f32 u0 #s(literal 1 binary32))))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (+.f32 u0 (*.f32 (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0) u0))) (+.f32 (/.f32 (/.f32 cos2phi alphax) alphax) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (*.f32 #s(approx (+ (/ sin2phi (* (* alphay alphay) cos2phi)) (/ 1 (* alphax alphax))) (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi))) cos2phi)))
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (*.f32 (+.f32 (/.f32 cos2phi (*.f32 (*.f32 alphax alphax) sin2phi)) (/.f32 #s(literal 1 binary32) (*.f32 alphay alphay))) sin2phi)))
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (*.f32 (+.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))) cos2phi)))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0)))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (exp.f32 (*.f32 (log.f32 alphay) #s(literal 2 binary32))))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
Outputs
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
Calls

4 calls:

19.0ms
u0
18.0ms
(-.f32 #s(literal 1 binary32) u0)
16.0ms
(log.f32 (-.f32 #s(literal 1 binary32) u0))
15.0ms
(neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)))
Results
AccuracySegmentsBranch
98.1%2(-.f32 #s(literal 1 binary32) u0)
98.1%2(log.f32 (-.f32 #s(literal 1 binary32) u0))
98.1%2(neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)))
98.1%2u0
Compiler

Compiled 13 to 29 computations (-123.1% saved)

regimes127.0ms (2%)

Memory
-29.0MiB live, 114.2MiB allocated; 13ms collecting garbage
Counts
66 → 2
Calls
Call 1
Inputs
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 alphax (*.f32 alphax (/.f32 u0 cos2phi)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 (*.f32 alphax alphax) (/.f32 u0 cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 alphax (*.f32 alphax u0)) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (neg.f32 u0)) cos2phi))))
(/.f32 (neg.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (neg.f32 u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) #s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 #s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) (/.f32 #s(literal -1 binary32) cos2phi)) u0)))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) (fma.f32 #s(literal 1/2 binary32) u0 #s(literal 1 binary32))) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (*.f32 (-.f32 (*.f32 #s(literal -1/2 binary32) u0) #s(literal 1 binary32)) u0)) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 alphax (*.f32 alphax (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphay alphay) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (neg.f32 (*.f32 (*.f32 alphax alphax) (log.f32 (-.f32 #s(literal 1 binary32) u0)))) cos2phi))
(/.f32 #s(approx (neg (log (- 1 u0))) u0) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) u0) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (neg.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (*.f32 (-.f32 (*.f32 #s(literal -1/2 binary32) u0) #s(literal 1 binary32)) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 (/.f32 sin2phi alphay) alphay)))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 #s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(literal 1/2 binary32)) u0)))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (log.f32 (/.f32 #s(literal 1 binary32) (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) #s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 (-.f32 (*.f32 (/.f32 u0 cos2phi) #s(literal -1/2 binary32)) (/.f32 #s(literal 1 binary32) cos2phi)) u0)))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(literal 1 binary32)) u0)) (+.f32 (/.f32 (/.f32 cos2phi alphax) alphax) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
(/.f32 #s(approx (neg (log (- 1 u0))) (+.f32 u0 (*.f32 (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(literal 1 binary32)) u0)) (+.f32 (/.f32 (/.f32 cos2phi alphax) alphax) (/.f32 (/.f32 sin2phi alphay) alphay)))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 (/.f32 cos2phi alphax) alphax)))
(/.f32 (neg.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/3 binary32) u0) #s(literal 1/2 binary32)) u0) #s(literal 1 binary32)) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 (-.f32 (*.f32 (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi) #s(literal 1/2 binary32)) (neg.f32 (/.f32 (*.f32 alphax alphax) cos2phi))) u0)))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 (fma.f32 #s(approx (+ (* 1/4 u0) 1/3) #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 (exp.f32 (*.f32 (log.f32 alphax) #s(literal 2 binary32))) u0) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (*.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (*.f32 alphax alphax)) cos2phi))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (*.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (*.f32 alphay alphay)) sin2phi))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 #s(literal 1/2 binary32) u0 #s(literal 1 binary32)) u0)) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 (*.f32 #s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(literal 1/2 binary32)) u0) u0 u0)) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))
(/.f32 #s(approx (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (*.f32 (fma.f32 #s(literal 1/2 binary32) u0 #s(literal 1 binary32)) u0)) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) (fma.f32 #s(literal 1/2 binary32) u0 #s(literal 1 binary32))) u0)) (+.f32 (/.f32 (/.f32 cos2phi alphax) alphax) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0 u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0 u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) #s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 #s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) (neg.f32 (/.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) cos2phi))) u0)))))
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 (/.f32 sin2phi alphay) alphay)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 alphax (*.f32 alphax #s(approx (/ (log (- 1 u0)) cos2phi) (/.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)) u0) #s(literal 1 binary32)) u0) cos2phi))))))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 #s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(literal 1/2 binary32)) u0)))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (neg.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)) u0) #s(literal 1 binary32)) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (*.f32 #s(approx (+ (/ sin2phi (* (* alphay alphay) cos2phi)) (/ 1 (* alphax alphax))) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))) cos2phi)))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (log.f32 (/.f32 #s(literal 1 binary32) (-.f32 #s(literal 1 binary32) u0))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) #s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (/.f32 u0 cos2phi) #s(literal -1/3 binary32)) (/.f32 #s(literal 1/2 binary32) cos2phi)) u0) (/.f32 #s(literal 1 binary32) cos2phi)) u0)))))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 (/.f32 sin2phi alphay) alphay)))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 (*.f32 (fma.f32 #s(approx (+ (* 1/4 u0) 1/3) #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0 u0)) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (-.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) (log.f32 (+.f32 u0 #s(literal 1 binary32)))) cos2phi))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 (/.f32 sin2phi alphay) alphay)))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) (+.f32 (/.f32 (/.f32 cos2phi alphax) alphax) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) #s(approx (* (+ (* (+ (* 1/3 u0) 1/2) u0) 1) u0) (neg.f32 (*.f32 (-.f32 (neg.f32 (/.f32 (+.f32 (/.f32 #s(literal 1 binary32) u0) #s(literal 1/2 binary32)) u0)) #s(literal 1/3 binary32)) (*.f32 (*.f32 u0 u0) u0))))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 #s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (*.f32 (+.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))) cos2phi)))
(/.f32 (neg.f32 (-.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) (log.f32 (+.f32 u0 #s(literal 1 binary32))))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (+.f32 u0 (*.f32 (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0) u0))) (+.f32 (/.f32 (/.f32 cos2phi alphax) alphax) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (*.f32 #s(approx (+ (/ sin2phi (* (* alphay alphay) cos2phi)) (/ 1 (* alphax alphax))) (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi))) cos2phi)))
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (*.f32 (+.f32 (/.f32 cos2phi (*.f32 (*.f32 alphax alphax) sin2phi)) (/.f32 #s(literal 1 binary32) (*.f32 alphay alphay))) sin2phi)))
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (*.f32 (+.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))) cos2phi)))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0)))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (exp.f32 (*.f32 (log.f32 alphay) #s(literal 2 binary32))))))
Outputs
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (+.f32 u0 (*.f32 (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0) u0))) (+.f32 (/.f32 (/.f32 cos2phi alphax) alphax) (/.f32 sin2phi (*.f32 alphay alphay))))
Calls

4 calls:

61.0ms
u0
29.0ms
(log.f32 (-.f32 #s(literal 1 binary32) u0))
20.0ms
(-.f32 #s(literal 1 binary32) u0)
14.0ms
(neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)))
Results
AccuracySegmentsBranch
98.1%2(-.f32 #s(literal 1 binary32) u0)
98.1%2(log.f32 (-.f32 #s(literal 1 binary32) u0))
98.1%2(neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)))
98.1%2u0
Compiler

Compiled 13 to 29 computations (-123.1% saved)

regimes65.0ms (1%)

Memory
30.8MiB live, 130.6MiB allocated; 9ms collecting garbage
Counts
60 → 2
Calls
Call 1
Inputs
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 alphax (*.f32 alphax (/.f32 u0 cos2phi)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 (*.f32 alphax alphax) (/.f32 u0 cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 alphax (*.f32 alphax u0)) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (neg.f32 u0)) cos2phi))))
(/.f32 (neg.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (neg.f32 u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) #s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 #s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) (/.f32 #s(literal -1 binary32) cos2phi)) u0)))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) (fma.f32 #s(literal 1/2 binary32) u0 #s(literal 1 binary32))) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (*.f32 (-.f32 (*.f32 #s(literal -1/2 binary32) u0) #s(literal 1 binary32)) u0)) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 alphax (*.f32 alphax (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphay alphay) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (neg.f32 (*.f32 (*.f32 alphax alphax) (log.f32 (-.f32 #s(literal 1 binary32) u0)))) cos2phi))
(/.f32 #s(approx (neg (log (- 1 u0))) u0) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) u0) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (neg.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (*.f32 (-.f32 (*.f32 #s(literal -1/2 binary32) u0) #s(literal 1 binary32)) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 (/.f32 sin2phi alphay) alphay)))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 #s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(literal 1/2 binary32)) u0)))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (log.f32 (/.f32 #s(literal 1 binary32) (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) #s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 (-.f32 (*.f32 (/.f32 u0 cos2phi) #s(literal -1/2 binary32)) (/.f32 #s(literal 1 binary32) cos2phi)) u0)))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(literal 1 binary32)) u0)) (+.f32 (/.f32 (/.f32 cos2phi alphax) alphax) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
(/.f32 #s(approx (neg (log (- 1 u0))) (+.f32 u0 (*.f32 (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(literal 1 binary32)) u0)) (+.f32 (/.f32 (/.f32 cos2phi alphax) alphax) (/.f32 (/.f32 sin2phi alphay) alphay)))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 (/.f32 cos2phi alphax) alphax)))
(/.f32 (neg.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/3 binary32) u0) #s(literal 1/2 binary32)) u0) #s(literal 1 binary32)) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 (-.f32 (*.f32 (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi) #s(literal 1/2 binary32)) (neg.f32 (/.f32 (*.f32 alphax alphax) cos2phi))) u0)))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 (fma.f32 #s(approx (+ (* 1/4 u0) 1/3) #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 (exp.f32 (*.f32 (log.f32 alphax) #s(literal 2 binary32))) u0) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (*.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (*.f32 alphax alphax)) cos2phi))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (*.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (*.f32 alphay alphay)) sin2phi))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 #s(literal 1/2 binary32) u0 #s(literal 1 binary32)) u0)) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 (*.f32 #s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(literal 1/2 binary32)) u0) u0 u0)) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))
(/.f32 #s(approx (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (*.f32 (fma.f32 #s(literal 1/2 binary32) u0 #s(literal 1 binary32)) u0)) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) (fma.f32 #s(literal 1/2 binary32) u0 #s(literal 1 binary32))) u0)) (+.f32 (/.f32 (/.f32 cos2phi alphax) alphax) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0 u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0 u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) #s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 #s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) (neg.f32 (/.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) cos2phi))) u0)))))
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 (/.f32 sin2phi alphay) alphay)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 alphax (*.f32 alphax #s(approx (/ (log (- 1 u0)) cos2phi) (/.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)) u0) #s(literal 1 binary32)) u0) cos2phi))))))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 #s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(literal 1/2 binary32)) u0)))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (neg.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)) u0) #s(literal 1 binary32)) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (*.f32 #s(approx (+ (/ sin2phi (* (* alphay alphay) cos2phi)) (/ 1 (* alphax alphax))) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))) cos2phi)))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (log.f32 (/.f32 #s(literal 1 binary32) (-.f32 #s(literal 1 binary32) u0))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) #s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (/.f32 u0 cos2phi) #s(literal -1/3 binary32)) (/.f32 #s(literal 1/2 binary32) cos2phi)) u0) (/.f32 #s(literal 1 binary32) cos2phi)) u0)))))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 (/.f32 sin2phi alphay) alphay)))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 (*.f32 (fma.f32 #s(approx (+ (* 1/4 u0) 1/3) #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0 u0)) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (-.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) (log.f32 (+.f32 u0 #s(literal 1 binary32)))) cos2phi))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 (/.f32 sin2phi alphay) alphay)))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) (+.f32 (/.f32 (/.f32 cos2phi alphax) alphax) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) #s(approx (* (+ (* (+ (* 1/3 u0) 1/2) u0) 1) u0) (neg.f32 (*.f32 (-.f32 (neg.f32 (/.f32 (+.f32 (/.f32 #s(literal 1 binary32) u0) #s(literal 1/2 binary32)) u0)) #s(literal 1/3 binary32)) (*.f32 (*.f32 u0 u0) u0))))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 #s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (*.f32 (+.f32 (/.f32 sin2phi (*.f32 (*.f32 alphay alphay) cos2phi)) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))) cos2phi)))
(/.f32 (neg.f32 (-.f32 (log.f32 (-.f32 #s(literal 1 binary32) (*.f32 u0 u0))) (log.f32 (+.f32 u0 #s(literal 1 binary32))))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
Outputs
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 (*.f32 (fma.f32 #s(approx (+ (* 1/4 u0) 1/3) #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0 u0)) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))
Calls

4 calls:

18.0ms
(-.f32 #s(literal 1 binary32) u0)
17.0ms
u0
15.0ms
(log.f32 (-.f32 #s(literal 1 binary32) u0))
13.0ms
(neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)))
Results
AccuracySegmentsBranch
98.0%2(neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)))
98.0%2u0
98.0%2(-.f32 #s(literal 1 binary32) u0)
98.0%2(log.f32 (-.f32 #s(literal 1 binary32) u0))
Compiler

Compiled 13 to 29 computations (-123.1% saved)

regimes59.0ms (0.9%)

Memory
-6.9MiB live, 129.6MiB allocated; 10ms collecting garbage
Counts
53 → 2
Calls
Call 1
Inputs
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 alphax (*.f32 alphax (/.f32 u0 cos2phi)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 (*.f32 alphax alphax) (/.f32 u0 cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 alphax (*.f32 alphax u0)) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (neg.f32 u0)) cos2phi))))
(/.f32 (neg.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (neg.f32 u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) #s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 #s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) (/.f32 #s(literal -1 binary32) cos2phi)) u0)))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) (fma.f32 #s(literal 1/2 binary32) u0 #s(literal 1 binary32))) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (*.f32 (-.f32 (*.f32 #s(literal -1/2 binary32) u0) #s(literal 1 binary32)) u0)) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 alphax (*.f32 alphax (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphay alphay) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (neg.f32 (*.f32 (*.f32 alphax alphax) (log.f32 (-.f32 #s(literal 1 binary32) u0)))) cos2phi))
(/.f32 #s(approx (neg (log (- 1 u0))) u0) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) u0) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (neg.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (*.f32 (-.f32 (*.f32 #s(literal -1/2 binary32) u0) #s(literal 1 binary32)) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 (/.f32 sin2phi alphay) alphay)))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 #s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(literal 1/2 binary32)) u0)))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (log.f32 (/.f32 #s(literal 1 binary32) (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) #s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 (-.f32 (*.f32 (/.f32 u0 cos2phi) #s(literal -1/2 binary32)) (/.f32 #s(literal 1 binary32) cos2phi)) u0)))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(literal 1 binary32)) u0)) (+.f32 (/.f32 (/.f32 cos2phi alphax) alphax) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
(/.f32 #s(approx (neg (log (- 1 u0))) (+.f32 u0 (*.f32 (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(literal 1 binary32)) u0)) (+.f32 (/.f32 (/.f32 cos2phi alphax) alphax) (/.f32 (/.f32 sin2phi alphay) alphay)))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 (/.f32 cos2phi alphax) alphax)))
(/.f32 (neg.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/3 binary32) u0) #s(literal 1/2 binary32)) u0) #s(literal 1 binary32)) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 (-.f32 (*.f32 (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi) #s(literal 1/2 binary32)) (neg.f32 (/.f32 (*.f32 alphax alphax) cos2phi))) u0)))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 (fma.f32 #s(approx (+ (* 1/4 u0) 1/3) #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 (exp.f32 (*.f32 (log.f32 alphax) #s(literal 2 binary32))) u0) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (*.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (*.f32 alphax alphax)) cos2phi))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (*.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (*.f32 alphay alphay)) sin2phi))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 #s(literal 1/2 binary32) u0 #s(literal 1 binary32)) u0)) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 (*.f32 #s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(literal 1/2 binary32)) u0) u0 u0)) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))
(/.f32 #s(approx (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (*.f32 (fma.f32 #s(literal 1/2 binary32) u0 #s(literal 1 binary32)) u0)) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) (fma.f32 #s(literal 1/2 binary32) u0 #s(literal 1 binary32))) u0)) (+.f32 (/.f32 (/.f32 cos2phi alphax) alphax) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0 u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0 u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) #s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 #s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) (neg.f32 (/.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) cos2phi))) u0)))))
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 (/.f32 sin2phi alphay) alphay)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 alphax (*.f32 alphax #s(approx (/ (log (- 1 u0)) cos2phi) (/.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)) u0) #s(literal 1 binary32)) u0) cos2phi))))))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 #s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(literal 1/2 binary32)) u0)))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (neg.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)) u0) #s(literal 1 binary32)) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (*.f32 #s(approx (+ (/ sin2phi (* (* alphay alphay) cos2phi)) (/ 1 (* alphax alphax))) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))) cos2phi)))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (log.f32 (/.f32 #s(literal 1 binary32) (-.f32 #s(literal 1 binary32) u0))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) #s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (/.f32 u0 cos2phi) #s(literal -1/3 binary32)) (/.f32 #s(literal 1/2 binary32) cos2phi)) u0) (/.f32 #s(literal 1 binary32) cos2phi)) u0)))))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 (/.f32 sin2phi alphay) alphay)))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
Outputs
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
Calls

4 calls:

16.0ms
(-.f32 #s(literal 1 binary32) u0)
15.0ms
(log.f32 (-.f32 #s(literal 1 binary32) u0))
13.0ms
u0
12.0ms
(neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)))
Results
AccuracySegmentsBranch
97.8%2(neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)))
97.8%2u0
97.8%2(-.f32 #s(literal 1 binary32) u0)
97.8%2(log.f32 (-.f32 #s(literal 1 binary32) u0))
Compiler

Compiled 13 to 29 computations (-123.1% saved)

regimes58.0ms (0.9%)

Memory
-7.6MiB live, 96.5MiB allocated; 11ms collecting garbage
Counts
52 → 2
Calls
Call 1
Inputs
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 alphax (*.f32 alphax (/.f32 u0 cos2phi)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 (*.f32 alphax alphax) (/.f32 u0 cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 alphax (*.f32 alphax u0)) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (neg.f32 u0)) cos2phi))))
(/.f32 (neg.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (neg.f32 u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) #s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 #s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) (/.f32 #s(literal -1 binary32) cos2phi)) u0)))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) (fma.f32 #s(literal 1/2 binary32) u0 #s(literal 1 binary32))) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (*.f32 (-.f32 (*.f32 #s(literal -1/2 binary32) u0) #s(literal 1 binary32)) u0)) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 alphax (*.f32 alphax (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphay alphay) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (neg.f32 (*.f32 (*.f32 alphax alphax) (log.f32 (-.f32 #s(literal 1 binary32) u0)))) cos2phi))
(/.f32 #s(approx (neg (log (- 1 u0))) u0) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) u0) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (neg.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (*.f32 (-.f32 (*.f32 #s(literal -1/2 binary32) u0) #s(literal 1 binary32)) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 (/.f32 sin2phi alphay) alphay)))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 #s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(literal 1/2 binary32)) u0)))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (log.f32 (/.f32 #s(literal 1 binary32) (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) #s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 (-.f32 (*.f32 (/.f32 u0 cos2phi) #s(literal -1/2 binary32)) (/.f32 #s(literal 1 binary32) cos2phi)) u0)))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(literal 1 binary32)) u0)) (+.f32 (/.f32 (/.f32 cos2phi alphax) alphax) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
(/.f32 #s(approx (neg (log (- 1 u0))) (+.f32 u0 (*.f32 (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(literal 1 binary32)) u0)) (+.f32 (/.f32 (/.f32 cos2phi alphax) alphax) (/.f32 (/.f32 sin2phi alphay) alphay)))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 (/.f32 cos2phi alphax) alphax)))
(/.f32 (neg.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/3 binary32) u0) #s(literal 1/2 binary32)) u0) #s(literal 1 binary32)) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 (-.f32 (*.f32 (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi) #s(literal 1/2 binary32)) (neg.f32 (/.f32 (*.f32 alphax alphax) cos2phi))) u0)))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 (fma.f32 #s(approx (+ (* 1/4 u0) 1/3) #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 (exp.f32 (*.f32 (log.f32 alphax) #s(literal 2 binary32))) u0) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (*.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (*.f32 alphax alphax)) cos2phi))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (*.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (*.f32 alphay alphay)) sin2phi))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 #s(literal 1/2 binary32) u0 #s(literal 1 binary32)) u0)) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 (*.f32 #s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(literal 1/2 binary32)) u0) u0 u0)) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))
(/.f32 #s(approx (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (*.f32 (fma.f32 #s(literal 1/2 binary32) u0 #s(literal 1 binary32)) u0)) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) (fma.f32 #s(literal 1/2 binary32) u0 #s(literal 1 binary32))) u0)) (+.f32 (/.f32 (/.f32 cos2phi alphax) alphax) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0 u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0 u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) #s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 #s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) (neg.f32 (/.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) cos2phi))) u0)))))
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 (/.f32 sin2phi alphay) alphay)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 alphax (*.f32 alphax #s(approx (/ (log (- 1 u0)) cos2phi) (/.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)) u0) #s(literal 1 binary32)) u0) cos2phi))))))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 #s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(literal 1/2 binary32)) u0)))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (neg.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/4 binary32) u0) #s(literal 1/3 binary32)) u0) #s(literal 1/2 binary32)) u0) #s(literal 1 binary32)) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (*.f32 #s(approx (+ (/ sin2phi (* (* alphay alphay) cos2phi)) (/ 1 (* alphax alphax))) (/.f32 #s(literal 1 binary32) (*.f32 alphax alphax))) cos2phi)))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (log.f32 (/.f32 #s(literal 1 binary32) (-.f32 #s(literal 1 binary32) u0))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) #s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 (/.f32 u0 cos2phi) #s(literal -1/3 binary32)) (/.f32 #s(literal 1/2 binary32) cos2phi)) u0) (/.f32 #s(literal 1 binary32) cos2phi)) u0)))))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 (/.f32 sin2phi alphay) alphay)))
Outputs
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 (*.f32 #s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(literal 1/2 binary32)) u0) u0 u0)) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
Calls

4 calls:

18.0ms
u0
14.0ms
(-.f32 #s(literal 1 binary32) u0)
12.0ms
(log.f32 (-.f32 #s(literal 1 binary32) u0))
11.0ms
(neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)))
Results
AccuracySegmentsBranch
97.1%2(-.f32 #s(literal 1 binary32) u0)
97.1%2(log.f32 (-.f32 #s(literal 1 binary32) u0))
97.1%2(neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)))
97.1%2u0
Compiler

Compiled 13 to 29 computations (-123.1% saved)

regimes153.0ms (2.4%)

Memory
9.0MiB live, 291.0MiB allocated; 14ms collecting garbage
Counts
41 → 2
Calls
Call 1
Inputs
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 alphax (*.f32 alphax (/.f32 u0 cos2phi)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 (*.f32 alphax alphax) (/.f32 u0 cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 alphax (*.f32 alphax u0)) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (neg.f32 u0)) cos2phi))))
(/.f32 (neg.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (neg.f32 u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) #s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 #s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) (/.f32 #s(literal -1 binary32) cos2phi)) u0)))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) (fma.f32 #s(literal 1/2 binary32) u0 #s(literal 1 binary32))) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (*.f32 (-.f32 (*.f32 #s(literal -1/2 binary32) u0) #s(literal 1 binary32)) u0)) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 alphax (*.f32 alphax (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphay alphay) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (neg.f32 (*.f32 (*.f32 alphax alphax) (log.f32 (-.f32 #s(literal 1 binary32) u0)))) cos2phi))
(/.f32 #s(approx (neg (log (- 1 u0))) u0) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) u0) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (neg.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (*.f32 (-.f32 (*.f32 #s(literal -1/2 binary32) u0) #s(literal 1 binary32)) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 (/.f32 sin2phi alphay) alphay)))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 #s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(literal 1/2 binary32)) u0)))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (log.f32 (/.f32 #s(literal 1 binary32) (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) #s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 (-.f32 (*.f32 (/.f32 u0 cos2phi) #s(literal -1/2 binary32)) (/.f32 #s(literal 1 binary32) cos2phi)) u0)))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(literal 1 binary32)) u0)) (+.f32 (/.f32 (/.f32 cos2phi alphax) alphax) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
(/.f32 #s(approx (neg (log (- 1 u0))) (+.f32 u0 (*.f32 (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(literal 1 binary32)) u0)) (+.f32 (/.f32 (/.f32 cos2phi alphax) alphax) (/.f32 (/.f32 sin2phi alphay) alphay)))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 (/.f32 cos2phi alphax) alphax)))
(/.f32 (neg.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/3 binary32) u0) #s(literal 1/2 binary32)) u0) #s(literal 1 binary32)) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 (-.f32 (*.f32 (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi) #s(literal 1/2 binary32)) (neg.f32 (/.f32 (*.f32 alphax alphax) cos2phi))) u0)))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 (fma.f32 #s(approx (+ (* 1/4 u0) 1/3) #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 (exp.f32 (*.f32 (log.f32 alphax) #s(literal 2 binary32))) u0) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (*.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (*.f32 alphax alphax)) cos2phi))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (*.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (*.f32 alphay alphay)) sin2phi))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 #s(literal 1/2 binary32) u0 #s(literal 1 binary32)) u0)) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 (*.f32 #s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(literal 1/2 binary32)) u0) u0 u0)) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))
(/.f32 #s(approx (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) (*.f32 (fma.f32 #s(literal 1/2 binary32) u0 #s(literal 1 binary32)) u0)) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) (fma.f32 #s(literal 1/2 binary32) u0 #s(literal 1 binary32))) u0)) (+.f32 (/.f32 (/.f32 cos2phi alphax) alphax) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0 u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 (*.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0) u0 u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 (fma.f32 #s(literal 1/4 binary32) u0 #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
Outputs
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 (*.f32 #s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(literal 1/2 binary32)) u0) u0 u0)) (+.f32 (/.f32 sin2phi (*.f32 alphay alphay)) (/.f32 cos2phi (*.f32 alphax alphax))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphay alphay) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi))))
Calls

14 calls:

13.0ms
cos2phi
12.0ms
(*.f32 alphay alphay)
12.0ms
(+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay)))
12.0ms
(*.f32 alphax alphax)
11.0ms
(-.f32 #s(literal 1 binary32) u0)
Results
AccuracySegmentsBranch
87.5%1(/.f32 sin2phi (*.f32 alphay alphay))
87.5%1(*.f32 alphax alphax)
87.5%1(/.f32 cos2phi (*.f32 alphax alphax))
87.5%1(+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay)))
87.5%1alphax
87.5%1(*.f32 alphay alphay)
87.5%1(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
87.5%1alphay
87.5%1cos2phi
87.5%1sin2phi
92.8%2(-.f32 #s(literal 1 binary32) u0)
92.8%2(log.f32 (-.f32 #s(literal 1 binary32) u0))
92.8%2(neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)))
92.8%2u0
Compiler

Compiled 53 to 100 computations (-88.7% saved)

regimes37.0ms (0.6%)

Memory
13.2MiB live, 65.4MiB allocated; 3ms collecting garbage
Counts
35 → 2
Calls
Call 1
Inputs
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 alphax (*.f32 alphax (/.f32 u0 cos2phi)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 (*.f32 alphax alphax) (/.f32 u0 cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 alphax (*.f32 alphax u0)) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (neg.f32 u0)) cos2phi))))
(/.f32 (neg.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (neg.f32 u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) #s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 #s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) (/.f32 #s(literal -1 binary32) cos2phi)) u0)))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) (fma.f32 #s(literal 1/2 binary32) u0 #s(literal 1 binary32))) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (*.f32 (-.f32 (*.f32 #s(literal -1/2 binary32) u0) #s(literal 1 binary32)) u0)) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 alphax (*.f32 alphax (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphay alphay) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (neg.f32 (*.f32 (*.f32 alphax alphax) (log.f32 (-.f32 #s(literal 1 binary32) u0)))) cos2phi))
(/.f32 #s(approx (neg (log (- 1 u0))) u0) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) u0) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (neg.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (*.f32 (-.f32 (*.f32 #s(literal -1/2 binary32) u0) #s(literal 1 binary32)) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 (/.f32 sin2phi alphay) alphay)))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 #s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(literal 1/2 binary32)) u0)))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (log.f32 (/.f32 #s(literal 1 binary32) (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) #s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 (-.f32 (*.f32 (/.f32 u0 cos2phi) #s(literal -1/2 binary32)) (/.f32 #s(literal 1 binary32) cos2phi)) u0)))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(literal 1 binary32)) u0)) (+.f32 (/.f32 (/.f32 cos2phi alphax) alphax) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
(/.f32 #s(approx (neg (log (- 1 u0))) (+.f32 u0 (*.f32 (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(literal 1 binary32)) u0)) (+.f32 (/.f32 (/.f32 cos2phi alphax) alphax) (/.f32 (/.f32 sin2phi alphay) alphay)))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 (/.f32 cos2phi alphax) alphax)))
(/.f32 (neg.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/3 binary32) u0) #s(literal 1/2 binary32)) u0) #s(literal 1 binary32)) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 (-.f32 (*.f32 (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi) #s(literal 1/2 binary32)) (neg.f32 (/.f32 (*.f32 alphax alphax) cos2phi))) u0)))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 (fma.f32 #s(approx (+ (* 1/4 u0) 1/3) #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 (exp.f32 (*.f32 (log.f32 alphax) #s(literal 2 binary32))) u0) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (*.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (*.f32 alphax alphax)) cos2phi))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (*.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (*.f32 alphay alphay)) sin2phi))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 #s(literal 1/2 binary32) u0 #s(literal 1 binary32)) u0)) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
Outputs
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 #s(literal 1/2 binary32) u0 #s(literal 1 binary32)) u0)) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphay alphay) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi))))
Calls

4 calls:

11.0ms
u0
8.0ms
(log.f32 (-.f32 #s(literal 1 binary32) u0))
8.0ms
(-.f32 #s(literal 1 binary32) u0)
7.0ms
(neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)))
Results
AccuracySegmentsBranch
92.7%2(-.f32 #s(literal 1 binary32) u0)
92.7%2(log.f32 (-.f32 #s(literal 1 binary32) u0))
92.7%2(neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)))
92.7%2u0
Compiler

Compiled 13 to 29 computations (-123.1% saved)

regimes130.0ms (2.1%)

Memory
-23.1MiB live, 257.5MiB allocated; 15ms collecting garbage
Counts
34 → 2
Calls
Call 1
Inputs
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 alphax (*.f32 alphax (/.f32 u0 cos2phi)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 (*.f32 alphax alphax) (/.f32 u0 cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 alphax (*.f32 alphax u0)) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (neg.f32 u0)) cos2phi))))
(/.f32 (neg.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (neg.f32 u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) #s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 #s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) (/.f32 #s(literal -1 binary32) cos2phi)) u0)))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) (fma.f32 #s(literal 1/2 binary32) u0 #s(literal 1 binary32))) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (*.f32 (-.f32 (*.f32 #s(literal -1/2 binary32) u0) #s(literal 1 binary32)) u0)) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 alphax (*.f32 alphax (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphay alphay) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (neg.f32 (*.f32 (*.f32 alphax alphax) (log.f32 (-.f32 #s(literal 1 binary32) u0)))) cos2phi))
(/.f32 #s(approx (neg (log (- 1 u0))) u0) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) u0) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (neg.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (*.f32 (-.f32 (*.f32 #s(literal -1/2 binary32) u0) #s(literal 1 binary32)) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 (/.f32 sin2phi alphay) alphay)))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 #s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(literal 1/2 binary32)) u0)))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (log.f32 (/.f32 #s(literal 1 binary32) (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) #s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 (-.f32 (*.f32 (/.f32 u0 cos2phi) #s(literal -1/2 binary32)) (/.f32 #s(literal 1 binary32) cos2phi)) u0)))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(literal 1 binary32)) u0)) (+.f32 (/.f32 (/.f32 cos2phi alphax) alphax) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
(/.f32 #s(approx (neg (log (- 1 u0))) (+.f32 u0 (*.f32 (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(literal 1 binary32)) u0)) (+.f32 (/.f32 (/.f32 cos2phi alphax) alphax) (/.f32 (/.f32 sin2phi alphay) alphay)))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 (/.f32 cos2phi alphax) alphax)))
(/.f32 (neg.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (*.f32 (-.f32 (*.f32 (-.f32 (*.f32 #s(literal -1/3 binary32) u0) #s(literal 1/2 binary32)) u0) #s(literal 1 binary32)) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 (-.f32 (*.f32 (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi) #s(literal 1/2 binary32)) (neg.f32 (/.f32 (*.f32 alphax alphax) cos2phi))) u0)))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 (fma.f32 #s(approx (+ (* 1/4 u0) 1/3) #s(literal 1/3 binary32)) u0 #s(literal 1/2 binary32)) u0)))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 (exp.f32 (*.f32 (log.f32 alphax) #s(literal 2 binary32))) u0) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (*.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (*.f32 alphax alphax)) cos2phi))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (*.f32 (log.f32 (/.f32 (+.f32 u0 #s(literal 1 binary32)) (-.f32 #s(literal 1 binary32) (*.f32 u0 u0)))) (*.f32 alphay alphay)) sin2phi))
Outputs
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(literal 1 binary32)) u0)) (+.f32 (/.f32 (/.f32 cos2phi alphax) alphax) (/.f32 (/.f32 sin2phi alphay) alphay)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphay alphay) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi))))
Calls

14 calls:

11.0ms
alphax
10.0ms
(/.f32 sin2phi (*.f32 alphay alphay))
10.0ms
u0
10.0ms
cos2phi
10.0ms
(*.f32 alphax alphax)
Results
AccuracySegmentsBranch
83.1%2(/.f32 sin2phi (*.f32 alphay alphay))
82.4%2(+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay)))
75.4%1(*.f32 alphay alphay)
75.4%1(*.f32 alphax alphax)
78.7%2(/.f32 cos2phi (*.f32 alphax alphax))
82.2%3(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
75.4%1alphax
75.4%1alphay
78.7%2cos2phi
82.9%2sin2phi
83.6%2(-.f32 #s(literal 1 binary32) u0)
83.6%2(log.f32 (-.f32 #s(literal 1 binary32) u0))
83.6%2(neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)))
83.6%2u0
Compiler

Compiled 53 to 100 computations (-88.7% saved)

regimes29.0ms (0.5%)

Memory
5.3MiB live, 50.9MiB allocated; 2ms collecting garbage
Counts
26 → 2
Calls
Call 1
Inputs
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 alphax (*.f32 alphax (/.f32 u0 cos2phi)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 (*.f32 alphax alphax) (/.f32 u0 cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 alphax (*.f32 alphax u0)) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (neg.f32 u0)) cos2phi))))
(/.f32 (neg.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (neg.f32 u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) #s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 #s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) (/.f32 #s(literal -1 binary32) cos2phi)) u0)))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) (fma.f32 #s(literal 1/2 binary32) u0 #s(literal 1 binary32))) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (*.f32 (-.f32 (*.f32 #s(literal -1/2 binary32) u0) #s(literal 1 binary32)) u0)) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 alphax (*.f32 alphax (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphay alphay) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (neg.f32 (*.f32 (*.f32 alphax alphax) (log.f32 (-.f32 #s(literal 1 binary32) u0)))) cos2phi))
(/.f32 #s(approx (neg (log (- 1 u0))) u0) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) u0) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (neg.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (*.f32 (-.f32 (*.f32 #s(literal -1/2 binary32) u0) #s(literal 1 binary32)) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 (/.f32 sin2phi alphay) alphay)))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 #s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(literal 1/2 binary32)) u0)))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (log.f32 (/.f32 #s(literal 1 binary32) (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) #s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 (-.f32 (*.f32 (/.f32 u0 cos2phi) #s(literal -1/2 binary32)) (/.f32 #s(literal 1 binary32) cos2phi)) u0)))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(literal 1 binary32)) u0)) (+.f32 (/.f32 (/.f32 cos2phi alphax) alphax) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 (fma.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0 #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
(/.f32 #s(approx (neg (log (- 1 u0))) (+.f32 u0 (*.f32 (*.f32 (fma.f32 #s(literal 1/3 binary32) u0 #s(literal 1/2 binary32)) u0) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
Outputs
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(literal 1 binary32)) u0)) (+.f32 (/.f32 (/.f32 cos2phi alphax) alphax) (/.f32 sin2phi (*.f32 alphay alphay))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphay alphay) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi))))
Calls

4 calls:

8.0ms
(log.f32 (-.f32 #s(literal 1 binary32) u0))
7.0ms
u0
7.0ms
(-.f32 #s(literal 1 binary32) u0)
6.0ms
(neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)))
Results
AccuracySegmentsBranch
83.6%2(-.f32 #s(literal 1 binary32) u0)
83.6%2(log.f32 (-.f32 #s(literal 1 binary32) u0))
83.6%2(neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)))
83.6%2u0
Compiler

Compiled 13 to 29 computations (-123.1% saved)

regimes49.0ms (0.8%)

Memory
-14.1MiB live, 48.0MiB allocated; 56ms collecting garbage
Counts
23 → 2
Calls
Call 1
Inputs
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 alphax (*.f32 alphax (/.f32 u0 cos2phi)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 (*.f32 alphax alphax) (/.f32 u0 cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 alphax (*.f32 alphax u0)) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (neg.f32 u0)) cos2phi))))
(/.f32 (neg.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (neg.f32 u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) #s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 #s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) (/.f32 #s(literal -1 binary32) cos2phi)) u0)))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) (fma.f32 #s(literal 1/2 binary32) u0 #s(literal 1 binary32))) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (*.f32 (-.f32 (*.f32 #s(literal -1/2 binary32) u0) #s(literal 1 binary32)) u0)) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 alphax (*.f32 alphax (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphay alphay) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (neg.f32 (*.f32 (*.f32 alphax alphax) (log.f32 (-.f32 #s(literal 1 binary32) u0)))) cos2phi))
(/.f32 #s(approx (neg (log (- 1 u0))) u0) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (- (log (- 1 (* u0 u0))) (log (+ 1 u0)))) u0) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (neg.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (*.f32 (-.f32 (*.f32 #s(literal -1/2 binary32) u0) #s(literal 1 binary32)) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 (/.f32 sin2phi alphay) alphay)))
(/.f32 #s(approx (neg (log (- 1 u0))) (fma.f32 u0 #s(literal 1 binary32) (*.f32 u0 (*.f32 #s(approx (+ (* (+ (* 1/4 u0) 1/3) u0) 1/2) #s(literal 1/2 binary32)) u0)))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 (log.f32 (/.f32 #s(literal 1 binary32) (-.f32 #s(literal 1 binary32) u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) #s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 (-.f32 (*.f32 (/.f32 u0 cos2phi) #s(literal -1/2 binary32)) (/.f32 #s(literal 1 binary32) cos2phi)) u0)))))
Outputs
(/.f32 #s(approx (neg (log (- 1 u0))) u0) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphay alphay) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi))))
Calls

4 calls:

30.0ms
(log.f32 (-.f32 #s(literal 1 binary32) u0))
6.0ms
(-.f32 #s(literal 1 binary32) u0)
6.0ms
u0
5.0ms
(neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)))
Results
AccuracySegmentsBranch
83.6%2(-.f32 #s(literal 1 binary32) u0)
83.6%2(log.f32 (-.f32 #s(literal 1 binary32) u0))
83.6%2(neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)))
83.6%2u0
Compiler

Compiled 13 to 29 computations (-123.1% saved)

regimes60.0ms (1%)

Memory
19.4MiB live, 112.2MiB allocated; 8ms collecting garbage
Counts
14 → 2
Calls
Call 1
Inputs
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 alphax (*.f32 alphax (/.f32 u0 cos2phi)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 (*.f32 alphax alphax) (/.f32 u0 cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 alphax (*.f32 alphax u0)) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (neg.f32 u0)) cos2phi))))
(/.f32 (neg.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (neg.f32 u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) #s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 #s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) (/.f32 #s(literal -1 binary32) cos2phi)) u0)))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) (fma.f32 #s(literal 1/2 binary32) u0 #s(literal 1 binary32))) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (*.f32 (-.f32 (*.f32 #s(literal -1/2 binary32) u0) #s(literal 1 binary32)) u0)) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 alphax (*.f32 alphax (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphay alphay) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (/.f32 (neg.f32 (*.f32 (*.f32 alphax alphax) (log.f32 (-.f32 #s(literal 1 binary32) u0)))) cos2phi))
Outputs
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphay alphay) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) sin2phi))))
(/.f32 (neg.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (neg.f32 u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
Calls

14 calls:

6.0ms
(-.f32 #s(literal 1 binary32) u0)
5.0ms
(/.f32 cos2phi (*.f32 alphax alphax))
4.0ms
u0
4.0ms
(/.f32 sin2phi (*.f32 alphay alphay))
4.0ms
(*.f32 alphay alphay)
Results
AccuracySegmentsBranch
58.3%1(*.f32 alphax alphax)
58.3%1alphax
58.3%1(*.f32 alphay alphay)
58.3%1alphay
58.3%1(/.f32 cos2phi (*.f32 alphax alphax))
58.3%1cos2phi
58.3%1(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
58.3%1(+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay)))
67.4%2sin2phi
67.6%2(/.f32 sin2phi (*.f32 alphay alphay))
69.0%2(-.f32 #s(literal 1 binary32) u0)
69.0%2(log.f32 (-.f32 #s(literal 1 binary32) u0))
69.0%2(neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)))
69.0%2u0
Compiler

Compiled 53 to 100 computations (-88.7% saved)

regimes39.0ms (0.6%)

Memory
-15.0MiB live, 30.6MiB allocated; 3ms collecting garbage
Counts
12 → 2
Calls
Call 1
Inputs
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 alphax (*.f32 alphax (/.f32 u0 cos2phi)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 (*.f32 alphax alphax) (/.f32 u0 cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 alphax (*.f32 alphax u0)) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (neg.f32 u0)) cos2phi))))
(/.f32 (neg.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (neg.f32 u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) #s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 #s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) (/.f32 #s(literal -1 binary32) cos2phi)) u0)))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) (fma.f32 #s(literal 1/2 binary32) u0 #s(literal 1 binary32))) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (*.f32 (-.f32 (*.f32 #s(literal -1/2 binary32) u0) #s(literal 1 binary32)) u0)) cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 alphax (*.f32 alphax (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)) cos2phi))))
Outputs
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) (fma.f32 #s(literal 1/2 binary32) u0 #s(literal 1 binary32))) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
(/.f32 (neg.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (neg.f32 u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
Calls

5 calls:

24.0ms
u0
4.0ms
(/.f32 sin2phi (*.f32 alphay alphay))
4.0ms
(log.f32 (-.f32 #s(literal 1 binary32) u0))
4.0ms
(-.f32 #s(literal 1 binary32) u0)
3.0ms
(neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)))
Results
AccuracySegmentsBranch
67.6%2(/.f32 sin2phi (*.f32 alphay alphay))
58.3%1(neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)))
58.3%1u0
58.3%1(-.f32 #s(literal 1 binary32) u0)
58.3%1(log.f32 (-.f32 #s(literal 1 binary32) u0))
Compiler

Compiled 17 to 36 computations (-111.8% saved)

regimes6.0ms (0.1%)

Memory
12.6MiB live, 12.6MiB allocated; 0ms collecting garbage
Counts
8 → 2
Calls
Call 1
Inputs
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 alphax (*.f32 alphax (/.f32 u0 cos2phi)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 (*.f32 alphax alphax) (/.f32 u0 cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 alphax (*.f32 alphax u0)) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (neg.f32 u0)) cos2phi))))
(/.f32 (neg.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (neg.f32 u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
(/.f32 #s(approx (neg (log (- 1 u0))) (*.f32 #s(approx (+ (* (+ (* 1/3 u0) 1/2) u0) 1) #s(literal 1 binary32)) u0)) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 cos2phi (*.f32 alphax alphax))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) #s(approx (/ (log (- 1 u0)) cos2phi) (*.f32 #s(approx (- (* (- (* (- (* (/ u0 cos2phi) -1/4) (/ 1/3 cos2phi)) u0) (/ 1/2 cos2phi)) u0) (/ 1 cos2phi)) (/.f32 #s(literal -1 binary32) cos2phi)) u0)))))
Outputs
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi)))
(/.f32 (neg.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (neg.f32 u0))) #s(approx (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay))) (/.f32 sin2phi (*.f32 alphay alphay))))
Calls

2 calls:

3.0ms
(/.f32 sin2phi (*.f32 alphay alphay))
3.0ms
sin2phi
Results
AccuracySegmentsBranch
65.1%2sin2phi
65.6%2(/.f32 sin2phi (*.f32 alphay alphay))
Compiler

Compiled 5 to 12 computations (-140% saved)

regimes48.0ms (0.8%)

Memory
-1.2MiB live, 50.5MiB allocated; 4ms collecting garbage
Counts
5 → 1
Calls
Call 1
Inputs
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 alphax (*.f32 alphax (/.f32 u0 cos2phi)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 (*.f32 alphax alphax) (/.f32 u0 cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 alphax (*.f32 alphax u0)) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi)))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) (neg.f32 (*.f32 (*.f32 alphax alphax) (/.f32 #s(approx (- (log (- 1 (* u0 u0))) (log (+ 1 u0))) (neg.f32 u0)) cos2phi))))
Outputs
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 (*.f32 alphax alphax) u0) cos2phi)))
Calls

14 calls:

22.0ms
(+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay)))
2.0ms
cos2phi
2.0ms
(/.f32 cos2phi (*.f32 alphax alphax))
2.0ms
sin2phi
2.0ms
(-.f32 #s(literal 1 binary32) u0)
Results
AccuracySegmentsBranch
23.9%1(*.f32 alphax alphax)
23.9%1(-.f32 #s(literal 1 binary32) u0)
23.9%1(log.f32 (-.f32 #s(literal 1 binary32) u0))
23.9%1alphax
23.9%1(*.f32 alphay alphay)
23.9%1(/.f32 cos2phi (*.f32 alphax alphax))
23.9%1alphay
23.9%1cos2phi
23.9%1(+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay)))
23.9%1(neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)))
23.9%1u0
23.9%1(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
23.9%1sin2phi
23.9%1(/.f32 sin2phi (*.f32 alphay alphay))
Compiler

Compiled 53 to 100 computations (-88.7% saved)

regimes39.0ms (0.6%)

Memory
-0.9MiB live, 45.1MiB allocated; 3ms collecting garbage
Accuracy

Total -0.0b remaining (-0.1%)

Threshold costs -0b (-0.1%)

Counts
3 → 1
Calls
Call 1
Inputs
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 alphax (*.f32 alphax (/.f32 u0 cos2phi)))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 (*.f32 alphax alphax) (/.f32 u0 cos2phi))))
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (/.f32 (*.f32 alphax (*.f32 alphax u0)) cos2phi)))
Outputs
#s(approx (/ (neg (log (- 1 u0))) (+ (/ cos2phi (* alphax alphax)) (/ sin2phi (* alphay alphay)))) #s(approx (neg (* (* alphax alphax) (/ (log (- 1 u0)) cos2phi))) (*.f32 alphax (*.f32 alphax (/.f32 u0 cos2phi)))))
Calls

14 calls:

19.0ms
(+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay)))
2.0ms
(/.f32 cos2phi (*.f32 alphax alphax))
1.0ms
cos2phi
1.0ms
(*.f32 alphay alphay)
1.0ms
(log.f32 (-.f32 #s(literal 1 binary32) u0))
Results
AccuracySegmentsBranch
23.9%1(-.f32 #s(literal 1 binary32) u0)
23.9%1(log.f32 (-.f32 #s(literal 1 binary32) u0))
23.9%1(neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0)))
23.9%1(/.f32 (neg.f32 (log.f32 (-.f32 #s(literal 1 binary32) u0))) (+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay))))
23.9%1u0
23.9%1(*.f32 alphax alphax)
23.9%1alphax
23.9%1(*.f32 alphay alphay)
23.9%1(/.f32 cos2phi (*.f32 alphax alphax))
23.9%1(+.f32 (/.f32 cos2phi (*.f32 alphax alphax)) (/.f32 sin2phi (*.f32 alphay alphay)))
23.9%1alphay
23.9%1sin2phi
23.9%1cos2phi
23.9%1(/.f32 sin2phi (*.f32 alphay alphay))
Compiler

Compiled 53 to 100 computations (-88.7% saved)

bsearch1.0ms (0%)

Memory
1.8MiB live, 1.8MiB allocated; 0ms collecting garbage
Algorithm
binary-search
Stop Event
narrow-enough
Steps
TimeLeftRight
0.0ms
0.02902926690876484
0.030288876965641975
Compiler

Compiled 20 to 23 computations (-15% saved)

bsearch1.0ms (0%)

Memory
1.2MiB live, 1.2MiB allocated; 0ms collecting garbage
Algorithm
binary-search
Stop Event
narrow-enough
Steps
TimeLeftRight
0.0ms
0.02902926690876484
0.030288876965641975
Compiler

Compiled 20 to 23 computations (-15% saved)

bsearch1.0ms (0%)

Memory
1.2MiB live, 1.2MiB allocated; 0ms collecting garbage
Algorithm
left-value
Steps
TimeLeftRight
0.0ms
-0.016765279695391655
-0.015522528439760208
Compiler

Compiled 20 to 23 computations (-15% saved)

bsearch1.0ms (0%)

Memory
1.1MiB live, 1.1MiB allocated; 0ms collecting garbage
Algorithm
left-value
Steps
TimeLeftRight
0.0ms
-0.016765279695391655
-0.015522528439760208
Compiler

Compiled 20 to 23 computations (-15% saved)

bsearch0.0ms (0%)

Memory
1.1MiB live, 1.1MiB allocated; 0ms collecting garbage
Algorithm
left-value
Steps
TimeLeftRight
0.0ms
-0.016765279695391655
-0.015522528439760208
Compiler

Compiled 20 to 23 computations (-15% saved)

bsearch0.0ms (0%)

Memory
1.0MiB live, 1.0MiB allocated; 0ms collecting garbage
Algorithm
binary-search
Stop Event
narrow-enough
Steps
TimeLeftRight
0.0ms
0.002287835581228137
0.0025229444727301598
Compiler

Compiled 20 to 23 computations (-15% saved)

bsearch0.0ms (0%)

Memory
0.9MiB live, 0.9MiB allocated; 0ms collecting garbage
Algorithm
binary-search
Stop Event
narrow-enough
Steps
TimeLeftRight
0.0ms
0.02902926690876484
0.030288876965641975
Compiler

Compiled 20 to 23 computations (-15% saved)

bsearch0.0ms (0%)

Memory
0.8MiB live, 0.8MiB allocated; 0ms collecting garbage
Algorithm
binary-search
Stop Event
narrow-enough
Steps
TimeLeftRight
0.0ms
0.02902926690876484
0.030288876965641975
Compiler

Compiled 20 to 23 computations (-15% saved)

bsearch0.0ms (0%)

Memory
0.8MiB live, 0.8MiB allocated; 0ms collecting garbage
Algorithm
binary-search
Stop Event
narrow-enough
Steps
TimeLeftRight
0.0ms
0.0005063599091954529
0.0007609479362145066
Compiler

Compiled 20 to 23 computations (-15% saved)

bsearch0.0ms (0%)

Memory
0.8MiB live, 0.8MiB allocated; 0ms collecting garbage
Algorithm
binary-search
Stop Event
narrow-enough
Steps
TimeLeftRight
0.0ms
0.0005063599091954529
0.0007609479362145066
Compiler

Compiled 20 to 23 computations (-15% saved)

bsearch0.0ms (0%)

Memory
0.5MiB live, 0.5MiB allocated; 0ms collecting garbage
Algorithm
binary-search
Stop Event
narrow-enough
Steps
TimeLeftRight
0.0ms
0.0005063599091954529
0.0007609479362145066
Compiler

Compiled 20 to 23 computations (-15% saved)

bsearch0.0ms (0%)

Memory
0.5MiB live, 0.5MiB allocated; 0ms collecting garbage
Algorithm
left-value
Steps
TimeLeftRight
0.0ms
-0.0001769818481989205
-0.00017453763575758785
Compiler

Compiled 20 to 23 computations (-15% saved)

bsearch0.0ms (0%)

Memory
0.4MiB live, 0.4MiB allocated; 0ms collecting garbage
Algorithm
binary-search
Stop Event
narrow-enough
Steps
TimeLeftRight
0.0ms
8.895780357663446e-16
1.2300399642998952e-15
Compiler

Compiled 19 to 23 computations (-21.1% saved)

bsearch0.0ms (0%)

Memory
0.4MiB live, 0.4MiB allocated; 0ms collecting garbage
Algorithm
binary-search
Stop Event
narrow-enough
Steps
TimeLeftRight
0.0ms
8.895780357663446e-16
1.2300399642998952e-15
Compiler

Compiled 19 to 23 computations (-21.1% saved)

derivations449.0ms (7.1%)

Memory
-16.8MiB live, 494.9MiB allocated; 57ms collecting garbage
Stop Event
fuel
Compiler

Compiled 221 to 146 computations (33.9% saved)

preprocess160.0ms (2.5%)

Memory
47.8MiB live, 462.3MiB allocated; 55ms collecting garbage
Remove

(abs alphay)

(abs alphax)

Compiler

Compiled 2 708 to 2 385 computations (11.9% saved)

end0.0ms (0%)

Memory
0.0MiB live, 0.0MiB allocated; 0ms collecting garbage

Profiling

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