Metrics for Data.Colour.CIE:cieLABView from colour-2.3.3, C

start0.0ms (0%)

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

analyze0.0ms (0%)

Memory

0.4MiB live, 0.4MiB allocated; 0ms collecting garbage

Algorithm

1×

Search

Probability	Valid	Unknown	Precondition	Infinite	Domain	Can't	Iter
0%	0%	99.9%	0.1%	0%	0%	0%	0
100%	99.9%	0%	0.1%	0%	0%	0%	1

Compiler

Compiled 7 to 7 computations (0% saved)

sample761.0ms (23.2%)

Memory

24.5MiB live, 640.4MiB allocated; 92ms collecting garbage

Samples

490.0ms	8 090×	0	valid
7.0ms	52×	3	valid
5.0ms	52×	2	valid
4.0ms	62×	1	valid

Precisions

Click to see histograms. Total time spent on operations: 171.0ms

ival-sub: 96.0ms (56% of total)

ival-mult: 55.0ms (32.1% of total)

adjust: 7.0ms (4.1% of total)

ival-true: 5.0ms (2.9% of total)

exact: 5.0ms (2.9% of total)

ival-assert: 3.0ms (1.8% of total)

Bogosity

explain69.0ms (2.1%)

Memory

-8.0MiB live, 37.7MiB allocated; 6ms collecting garbage

FPErrors

Click to see full error table

Example	Example	Subexpression
-	-	`(*.f64 #s(literal 200 binary64) (-.f64 x y))`
-	-	`#s(literal 200 binary64)`
-	-	`y`
-	-	`(-.f64 x y)`
-	-	`x`

Confusion

	Predicted +	Predicted -
+	0	0
-	0	256

Precision

0/0

Recall

0/0

Confusion?

	Predicted +	Predicted Maybe	Predicted -
+	0	0	0
-	0	0	256

Precision?

0/0

Recall?

0/0

Freqs

test

number	freq
0	256

Total Confusion?

	Predicted +	Predicted Maybe	Predicted -
+	0	0	0
-	0	0	1

Precision?

0/0

Recall?

0/0

Samples

19.0ms	506×	0	valid
1.0ms	4×	3	valid
0.0ms	2×	1	valid

Compiler

Compiled 31 to 19 computations (38.7% saved)

Precisions

Click to see histograms. Total time spent on operations: 8.0ms

ival-mult: 3.0ms (39.3% of total)

ival-sub: 3.0ms (39.3% of total)

adjust: 0.0ms (0% of total)

ival-assert: 0.0ms (0% of total)

ival-true: 0.0ms (0% of total)

exact: 0.0ms (0% of total)

preprocess16.0ms (0.5%)

Memory

11.8MiB live, 11.8MiB allocated; 0ms collecting garbage

Iterations

Useful iterations: 0 (0.0ms)

Iter	Nodes	Cost
0	15	34
1	27	34
2	31	34
0	5	5
0	7	5
1	8	5
0	8	5

Stop Event

1×	iter limit
1×	saturated
1×	iter limit
1×	saturated

Calls

Call 1

Inputs
(*.f64 #s(literal 200 binary64) (-.f64 x y))

Outputs
(*.f64 #s(literal 200 binary64) (-.f64 x y))
(*.f64 (-.f64 x y) #s(literal 200 binary64))

Compiler

Compiled 5 to 5 computations (0% saved)

eval0.0ms (0%)

Memory: 0.1MiB live, 0.1MiB allocated; 0ms collecting garbage
Compiler: Compiled 0 to 2 computations (-∞% saved)

prune0.0ms (0%)

Memory

0.5MiB live, 0.5MiB allocated; 0ms collecting garbage

Alt Table

Click to see full alt table

Status	Accuracy	Program
▶	100.0%	(*.f64 #s(literal 200 binary64) (-.f64 x y))

Compiler

Compiled 5 to 5 computations (0% saved)

simplify3.0ms (0.1%)

Memory

3.1MiB live, 3.1MiB allocated; 0ms collecting garbage

Localize:

Found 2 expressions of interest:

New	Metric	Score	Program
cost-diff	0	(-.f64 x y)
cost-diff	0	(*.f64 #s(literal 200 binary64) (-.f64 x y))

Iterations

Useful iterations: 0 (0.0ms)

Iter	Nodes	Cost
0	5	11
0	7	11
1	8	11
0	8	11

Stop Event

1×	iter limit
1×	saturated
1×	iter limit

Calls

Call 1

Inputs
(*.f64 #s(literal 200 binary64) (-.f64 x y))
#s(literal 200 binary64)
(-.f64 x y)
x
y

Outputs
(*.f64 #s(literal 200 binary64) (-.f64 x y))
(*.f64 (-.f64 x y) #s(literal 200 binary64))
#s(literal 200 binary64)
(-.f64 x y)
x
y

localize41.0ms (1.2%)

Memory

-25.6MiB live, 18.8MiB allocated; 6ms collecting garbage

Localize:

Found 2 expressions of interest:

New	Metric	Score	Program
accuracy	0.0	(-.f64 x y)
accuracy	0.03125	(*.f64 #s(literal 200 binary64) (-.f64 x y))

Samples

9.0ms	253×	0	valid
0.0ms	2×	3	valid
0.0ms	1×	1	valid

Compiler

Compiled 13 to 7 computations (46.2% saved)

Precisions

Click to see histograms. Total time spent on operations: 4.0ms

ival-mult: 2.0ms (53.9% of total)

ival-sub: 1.0ms (26.9% of total)

adjust: 0.0ms (0% of total)

ival-assert: 0.0ms (0% of total)

ival-true: 0.0ms (0% of total)

exact: 0.0ms (0% of total)

series3.0ms (0.1%)

Memory

6.4MiB live, 6.4MiB allocated; 0ms collecting garbage

Counts

2 → 15

Calls

Call 1

Inputs
(*.f64 #s(literal 200 binary64) (-.f64 x y))
(-.f64 x y)

Outputs
#s(approx (* 200 (- x y)) #s(hole binary64 (* -200 y)))
#s(approx (* 200 (- x y)) #s(hole binary64 (+ (* -200 y) (* 200 x))))
#s(approx (- x y) #s(hole binary64 (* -1 y)))
#s(approx (- x y) #s(hole binary64 (- x y)))
#s(approx (* 200 (- x y)) #s(hole binary64 (* 200 x)))
#s(approx (* 200 (- x y)) #s(hole binary64 (* x (+ 200 (* -200 (/ y x))))))
#s(approx (- x y) #s(hole binary64 x))
#s(approx (- x y) #s(hole binary64 (* x (+ 1 (* -1 (/ y x))))))
#s(approx (* 200 (- x y)) #s(hole binary64 (* -1 (* x (- (* 200 (/ y x)) 200)))))
#s(approx (- x y) #s(hole binary64 (* -1 (* x (- (/ y x) 1)))))
#s(approx (- x y) #s(hole binary64 (+ x (* -1 y))))
#s(approx (* 200 (- x y)) #s(hole binary64 (* y (- (* 200 (/ x y)) 200))))
#s(approx (- x y) #s(hole binary64 (* y (- (/ x y) 1))))
#s(approx (* 200 (- x y)) #s(hole binary64 (* -1 (* y (+ 200 (* -200 (/ x y)))))))
#s(approx (- x y) #s(hole binary64 (* -1 (* y (+ 1 (* -1 (/ x y)))))))

Calls

6 calls:

Time	Variable		Point	Expression
1.0ms	y	@	-inf	((* 200 (- x y)) (- x y))
0.0ms	x	@	inf	((* 200 (- x y)) (- x y))
0.0ms	x	@	-inf	((* 200 (- x y)) (- x y))
0.0ms	y	@	inf	((* 200 (- x y)) (- x y))
0.0ms	x	@	0	((* 200 (- x y)) (- x y))

simplify145.0ms (4.4%)

Memory

9.5MiB live, 151.1MiB allocated; 20ms collecting garbage

Iterations

Useful iterations: 1 (0.0ms)

Iter	Nodes	Cost
0	56	136
1	139	126
2	384	126
3	1155	126
4	4137	126
5	7900	126
0	8039	126

Stop Event

1×	iter limit
1×	node limit

Counts

15 → 15

Calls

Call 1

Inputs
#s(approx (* 200 (- x y)) #s(hole binary64 (* -200 y)))
#s(approx (* 200 (- x y)) #s(hole binary64 (+ (* -200 y) (* 200 x))))
#s(approx (- x y) #s(hole binary64 (* -1 y)))
#s(approx (- x y) #s(hole binary64 (- x y)))
#s(approx (* 200 (- x y)) #s(hole binary64 (* 200 x)))
#s(approx (* 200 (- x y)) #s(hole binary64 (* x (+ 200 (* -200 (/ y x))))))
#s(approx (- x y) #s(hole binary64 x))
#s(approx (- x y) #s(hole binary64 (* x (+ 1 (* -1 (/ y x))))))
#s(approx (* 200 (- x y)) #s(hole binary64 (* -1 (* x (- (* 200 (/ y x)) 200)))))
#s(approx (- x y) #s(hole binary64 (* -1 (* x (- (/ y x) 1)))))
#s(approx (- x y) #s(hole binary64 (+ x (* -1 y))))
#s(approx (* 200 (- x y)) #s(hole binary64 (* y (- (* 200 (/ x y)) 200))))
#s(approx (- x y) #s(hole binary64 (* y (- (/ x y) 1))))
#s(approx (* 200 (- x y)) #s(hole binary64 (* -1 (* y (+ 200 (* -200 (/ x y)))))))
#s(approx (- x y) #s(hole binary64 (* -1 (* y (+ 1 (* -1 (/ x y)))))))

Outputs
#s(approx (* 200 (- x y)) #s(hole binary64 (* -200 y)))
#s(approx (* 200 (- x y)) (*.f64 #s(literal -200 binary64) y))
#s(approx (* 200 (- x y)) #s(hole binary64 (+ (* -200 y) (* 200 x))))
#s(approx (* 200 (- x y)) (*.f64 (-.f64 x y) #s(literal 200 binary64)))
#s(approx (- x y) #s(hole binary64 (* -1 y)))
#s(approx (- x y) (neg.f64 y))
#s(approx (- x y) #s(hole binary64 (- x y)))
#s(approx (- x y) (-.f64 x y))
#s(approx (* 200 (- x y)) #s(hole binary64 (* 200 x)))
#s(approx (* 200 (- x y)) (*.f64 #s(literal 200 binary64) x))
#s(approx (* 200 (- x y)) #s(hole binary64 (* x (+ 200 (* -200 (/ y x))))))
#s(approx (* 200 (- x y)) (*.f64 (-.f64 x y) #s(literal 200 binary64)))
#s(approx (- x y) #s(hole binary64 x))
#s(approx (- x y) x)
#s(approx (- x y) #s(hole binary64 (* x (+ 1 (* -1 (/ y x))))))
#s(approx (- x y) (-.f64 x y))
#s(approx (* 200 (- x y)) #s(hole binary64 (* -1 (* x (- (* 200 (/ y x)) 200)))))
#s(approx (* 200 (- x y)) (*.f64 (-.f64 x y) #s(literal 200 binary64)))
#s(approx (- x y) #s(hole binary64 (* -1 (* x (- (/ y x) 1)))))
#s(approx (- x y) (-.f64 x y))
#s(approx (- x y) #s(hole binary64 (+ x (* -1 y))))
#s(approx (- x y) (-.f64 x y))
#s(approx (* 200 (- x y)) #s(hole binary64 (* y (- (* 200 (/ x y)) 200))))
#s(approx (* 200 (- x y)) (*.f64 (-.f64 x y) #s(literal 200 binary64)))
#s(approx (- x y) #s(hole binary64 (* y (- (/ x y) 1))))
#s(approx (- x y) (-.f64 x y))
#s(approx (* 200 (- x y)) #s(hole binary64 (* -1 (* y (+ 200 (* -200 (/ x y)))))))
#s(approx (* 200 (- x y)) (*.f64 (-.f64 x y) #s(literal 200 binary64)))
#s(approx (- x y) #s(hole binary64 (* -1 (* y (+ 1 (* -1 (/ x y)))))))
#s(approx (- x y) (-.f64 x y))

rewrite155.0ms (4.7%)

Memory

-0.3MiB live, 197.6MiB allocated; 39ms collecting garbage

Iterations

Useful iterations: 0 (0.0ms)

Iter	Nodes	Cost
0	5	8
0	7	8
1	87	8
2	1101	8
0	8128	8

Stop Event

1×	iter limit
1×	node limit
1×	iter limit

Counts

2 → 104

Calls

Call 1

Inputs
(*.f64 #s(literal 200 binary64) (-.f64 x y))
(-.f64 x y)

Outputs
(.f64 (cbrt.f64 (pow.f64 (.f64 (-.f64 x y) #s(literal 200 binary64)) #s(literal 5/2 binary64))) (cbrt.f64 (sqrt.f64 (*.f64 (-.f64 x y) #s(literal 200 binary64)))))
(.f64 (cbrt.f64 (pow.f64 (.f64 (.f64 (-.f64 x y) #s(literal 200 binary64)) (cbrt.f64 (.f64 (-.f64 x y) #s(literal 200 binary64)))) #s(literal 2 binary64))) (cbrt.f64 (cbrt.f64 (*.f64 (-.f64 x y) #s(literal 200 binary64)))))
(.f64 (cbrt.f64 (.f64 (pow.f64 (*.f64 (-.f64 x y) #s(literal 200 binary64)) #s(literal 2 binary64)) (-.f64 x y))) (cbrt.f64 #s(literal 200 binary64)))
(.f64 (cbrt.f64 (.f64 (pow.f64 (*.f64 (-.f64 x y) #s(literal 200 binary64)) #s(literal 2 binary64)) #s(literal 200 binary64))) (cbrt.f64 (-.f64 x y)))
(.f64 (cbrt.f64 (sqrt.f64 (pow.f64 (.f64 (-.f64 x y) #s(literal 200 binary64)) #s(literal 3 binary64)))) (cbrt.f64 (sqrt.f64 (pow.f64 (*.f64 (-.f64 x y) #s(literal 200 binary64)) #s(literal 3 binary64)))))
(.f64 (pow.f64 (pow.f64 (.f64 (-.f64 x y) #s(literal 200 binary64)) #s(literal 5/2 binary64)) #s(literal 1/3 binary64)) (cbrt.f64 (sqrt.f64 (*.f64 (-.f64 x y) #s(literal 200 binary64)))))
(.f64 (pow.f64 (pow.f64 (.f64 (.f64 (-.f64 x y) #s(literal 200 binary64)) (cbrt.f64 (.f64 (-.f64 x y) #s(literal 200 binary64)))) #s(literal 2 binary64)) #s(literal 1/3 binary64)) (cbrt.f64 (cbrt.f64 (*.f64 (-.f64 x y) #s(literal 200 binary64)))))
(.f64 (pow.f64 (.f64 (pow.f64 (*.f64 (-.f64 x y) #s(literal 200 binary64)) #s(literal 2 binary64)) (-.f64 x y)) #s(literal 1/3 binary64)) (cbrt.f64 #s(literal 200 binary64)))
(.f64 (pow.f64 (.f64 (pow.f64 (*.f64 (-.f64 x y) #s(literal 200 binary64)) #s(literal 2 binary64)) #s(literal 200 binary64)) #s(literal 1/3 binary64)) (cbrt.f64 (-.f64 x y)))
(.f64 (pow.f64 (sqrt.f64 (pow.f64 (.f64 (-.f64 x y) #s(literal 200 binary64)) #s(literal 3 binary64))) #s(literal 1/3 binary64)) (pow.f64 (sqrt.f64 (pow.f64 (*.f64 (-.f64 x y) #s(literal 200 binary64)) #s(literal 3 binary64))) #s(literal 1/3 binary64)))
(.f64 (pow.f64 (sqrt.f64 (cbrt.f64 (.f64 (-.f64 x y) #s(literal 200 binary64)))) #s(literal 3 binary64)) (pow.f64 (sqrt.f64 (cbrt.f64 (*.f64 (-.f64 x y) #s(literal 200 binary64)))) #s(literal 3 binary64)))
(.f64 (.f64 (-.f64 x y) (sqrt.f64 #s(literal 200 binary64))) (sqrt.f64 #s(literal 200 binary64)))
(.f64 (.f64 (-.f64 x y) (cbrt.f64 #s(literal 40000 binary64))) (cbrt.f64 #s(literal 200 binary64)))
(.f64 (.f64 #s(literal 200 binary64) (sqrt.f64 (-.f64 x y))) (sqrt.f64 (-.f64 x y)))
(.f64 (.f64 #s(literal 200 binary64) (pow.f64 (cbrt.f64 (-.f64 x y)) #s(literal 2 binary64))) (cbrt.f64 (-.f64 x y)))
(.f64 (neg.f64 (sqrt.f64 (.f64 (-.f64 x y) #s(literal 200 binary64)))) (neg.f64 (sqrt.f64 (*.f64 (-.f64 x y) #s(literal 200 binary64)))))
(.f64 (sqrt.f64 (-.f64 x y)) (.f64 (sqrt.f64 (-.f64 x y)) #s(literal 200 binary64)))
(.f64 (sqrt.f64 (.f64 (-.f64 x y) #s(literal 200 binary64))) (sqrt.f64 (*.f64 (-.f64 x y) #s(literal 200 binary64))))
(.f64 (sqrt.f64 #s(literal 200 binary64)) (.f64 (sqrt.f64 #s(literal 200 binary64)) (-.f64 x y)))
(.f64 (pow.f64 (cbrt.f64 (-.f64 x y)) #s(literal 2 binary64)) (.f64 (cbrt.f64 (-.f64 x y)) #s(literal 200 binary64)))
(.f64 (pow.f64 (cbrt.f64 (.f64 (-.f64 x y) #s(literal 200 binary64))) #s(literal 2 binary64)) (cbrt.f64 (*.f64 (-.f64 x y) #s(literal 200 binary64))))
(.f64 (cbrt.f64 (.f64 (-.f64 x y) #s(literal 200 binary64))) (pow.f64 (cbrt.f64 (*.f64 (-.f64 x y) #s(literal 200 binary64))) #s(literal 2 binary64)))
(.f64 (cbrt.f64 #s(literal 40000 binary64)) (.f64 (cbrt.f64 #s(literal 200 binary64)) (-.f64 x y)))
(.f64 #s(literal 1 binary64) (.f64 (-.f64 x y) #s(literal 200 binary64)))
(*.f64 (-.f64 x y) #s(literal 200 binary64))
(*.f64 #s(literal 200 binary64) (-.f64 x y))
(pow.f64 (exp.f64 (sqrt.f64 (log.f64 (.f64 (-.f64 x y) #s(literal 200 binary64))))) (sqrt.f64 (log.f64 (.f64 (-.f64 x y) #s(literal 200 binary64)))))
(pow.f64 (exp.f64 (pow.f64 (cbrt.f64 (log.f64 (.f64 (-.f64 x y) #s(literal 200 binary64)))) #s(literal 2 binary64))) (cbrt.f64 (log.f64 (.f64 (-.f64 x y) #s(literal 200 binary64)))))
(pow.f64 (pow.f64 (cbrt.f64 (*.f64 (-.f64 x y) #s(literal 200 binary64))) (sqrt.f64 #s(literal 3 binary64))) (sqrt.f64 #s(literal 3 binary64)))
(pow.f64 (pow.f64 (cbrt.f64 (*.f64 (-.f64 x y) #s(literal 200 binary64))) (pow.f64 (cbrt.f64 #s(literal 3 binary64)) #s(literal 2 binary64))) (cbrt.f64 #s(literal 3 binary64)))
(pow.f64 (neg.f64 (sqrt.f64 (*.f64 (-.f64 x y) #s(literal 200 binary64)))) #s(literal 2 binary64))
(pow.f64 (E.f64) (log.f64 (*.f64 (-.f64 x y) #s(literal 200 binary64))))
(pow.f64 (sqrt.f64 (*.f64 (-.f64 x y) #s(literal 200 binary64))) #s(literal 2 binary64))
(pow.f64 (pow.f64 (*.f64 (-.f64 x y) #s(literal 200 binary64)) #s(literal 3 binary64)) #s(literal 1/3 binary64))
(pow.f64 (pow.f64 (*.f64 (-.f64 x y) #s(literal 200 binary64)) #s(literal 2 binary64)) #s(literal 1/2 binary64))
(pow.f64 (cbrt.f64 (*.f64 (-.f64 x y) #s(literal 200 binary64))) #s(literal 3 binary64))
(pow.f64 (*.f64 (-.f64 x y) #s(literal 200 binary64)) #s(literal 1 binary64))
(/.f64 (.f64 (.f64 (+.f64 y x) (-.f64 x y)) #s(literal 200 binary64)) (+.f64 y x))
(/.f64 (.f64 (-.f64 (pow.f64 x #s(literal 3 binary64)) (pow.f64 y #s(literal 3 binary64))) #s(literal 200 binary64)) (fma.f64 y (+.f64 y x) (.f64 x x)))
(/.f64 (.f64 #s(literal 200 binary64) (.f64 (+.f64 y x) (-.f64 x y))) (+.f64 y x))
(/.f64 (.f64 #s(literal 200 binary64) (-.f64 (pow.f64 x #s(literal 3 binary64)) (pow.f64 y #s(literal 3 binary64)))) (fma.f64 y (+.f64 y x) (.f64 x x)))
(cbrt.f64 (pow.f64 (*.f64 (-.f64 x y) #s(literal 200 binary64)) #s(literal 3 binary64)))
(sqrt.f64 (pow.f64 (*.f64 (-.f64 x y) #s(literal 200 binary64)) #s(literal 2 binary64)))
(exp.f64 (/.f64 (fma.f64 #s(literal 2 binary64) (log.f64 (-.f64 x y)) (log.f64 #s(literal 40000 binary64))) #s(literal 2 binary64)))
(exp.f64 (/.f64 (log.f64 (pow.f64 (*.f64 (-.f64 x y) #s(literal 200 binary64)) #s(literal 3 binary64))) #s(literal 3 binary64)))
(exp.f64 (.f64 (log.f64 (sqrt.f64 (.f64 (-.f64 x y) #s(literal 200 binary64)))) #s(literal 2 binary64)))
(exp.f64 (.f64 (log.f64 (pow.f64 (.f64 (-.f64 x y) #s(literal 200 binary64)) #s(literal 3 binary64))) #s(literal 1/3 binary64)))
(exp.f64 (.f64 (log.f64 (cbrt.f64 (.f64 (-.f64 x y) #s(literal 200 binary64)))) #s(literal 3 binary64)))
(exp.f64 (log.f64 (*.f64 (-.f64 x y) #s(literal 200 binary64))))
(+.f64 (log.f64 (sqrt.f64 (pow.f64 (exp.f64 #s(literal 200 binary64)) (-.f64 x y)))) (log.f64 (sqrt.f64 (pow.f64 (exp.f64 #s(literal 200 binary64)) (-.f64 x y)))))
(+.f64 (log.f64 (pow.f64 (cbrt.f64 (pow.f64 (exp.f64 #s(literal 200 binary64)) (-.f64 x y))) #s(literal 2 binary64))) (log.f64 (cbrt.f64 (pow.f64 (exp.f64 #s(literal 200 binary64)) (-.f64 x y)))))
(+.f64 (cosh.f64 (log.f64 (.f64 (-.f64 x y) #s(literal 200 binary64)))) (sinh.f64 (log.f64 (.f64 (-.f64 x y) #s(literal 200 binary64)))))
(log.f64 (pow.f64 (exp.f64 (sqrt.f64 #s(literal 200 binary64))) (*.f64 (-.f64 x y) (sqrt.f64 #s(literal 200 binary64)))))
(log.f64 (pow.f64 (exp.f64 (cbrt.f64 #s(literal 200 binary64))) (*.f64 (-.f64 x y) (cbrt.f64 #s(literal 40000 binary64)))))
(log.f64 (pow.f64 (exp.f64 (sqrt.f64 (-.f64 x y))) (*.f64 #s(literal 200 binary64) (sqrt.f64 (-.f64 x y)))))
(log.f64 (pow.f64 (exp.f64 (cbrt.f64 (-.f64 x y))) (*.f64 #s(literal 200 binary64) (pow.f64 (cbrt.f64 (-.f64 x y)) #s(literal 2 binary64)))))
(log.f64 (pow.f64 (exp.f64 #s(literal 200 binary64)) (-.f64 x y)))
(*.f64 (cbrt.f64 (pow.f64 (-.f64 x y) #s(literal 5/2 binary64))) (cbrt.f64 (sqrt.f64 (-.f64 x y))))
(.f64 (cbrt.f64 (pow.f64 (.f64 (-.f64 x y) (cbrt.f64 (-.f64 x y))) #s(literal 2 binary64))) (cbrt.f64 (cbrt.f64 (-.f64 x y))))
(*.f64 (cbrt.f64 (sqrt.f64 (pow.f64 (-.f64 x y) #s(literal 3 binary64)))) (cbrt.f64 (sqrt.f64 (pow.f64 (-.f64 x y) #s(literal 3 binary64)))))
(*.f64 (pow.f64 (pow.f64 (-.f64 x y) #s(literal 5/2 binary64)) #s(literal 1/3 binary64)) (cbrt.f64 (sqrt.f64 (-.f64 x y))))
(.f64 (pow.f64 (pow.f64 (.f64 (-.f64 x y) (cbrt.f64 (-.f64 x y))) #s(literal 2 binary64)) #s(literal 1/3 binary64)) (cbrt.f64 (cbrt.f64 (-.f64 x y))))
(*.f64 (pow.f64 (sqrt.f64 (pow.f64 (-.f64 x y) #s(literal 3 binary64))) #s(literal 1/3 binary64)) (pow.f64 (sqrt.f64 (pow.f64 (-.f64 x y) #s(literal 3 binary64))) #s(literal 1/3 binary64)))
(*.f64 (pow.f64 (sqrt.f64 (cbrt.f64 (-.f64 x y))) #s(literal 3 binary64)) (pow.f64 (sqrt.f64 (cbrt.f64 (-.f64 x y))) #s(literal 3 binary64)))
(*.f64 (+.f64 (sqrt.f64 x) (sqrt.f64 y)) (-.f64 (sqrt.f64 x) (sqrt.f64 y)))
(*.f64 (neg.f64 (sqrt.f64 (-.f64 x y))) (neg.f64 (sqrt.f64 (-.f64 x y))))
(*.f64 (sqrt.f64 (-.f64 x y)) (sqrt.f64 (-.f64 x y)))
(*.f64 (pow.f64 (cbrt.f64 (-.f64 x y)) #s(literal 2 binary64)) (cbrt.f64 (-.f64 x y)))
(*.f64 (cbrt.f64 (-.f64 x y)) (pow.f64 (cbrt.f64 (-.f64 x y)) #s(literal 2 binary64)))
(*.f64 #s(literal 1 binary64) (-.f64 x y))
(pow.f64 (exp.f64 (sqrt.f64 (log.f64 (-.f64 x y)))) (sqrt.f64 (log.f64 (-.f64 x y))))
(pow.f64 (exp.f64 (pow.f64 (cbrt.f64 (log.f64 (-.f64 x y))) #s(literal 2 binary64))) (cbrt.f64 (log.f64 (-.f64 x y))))
(pow.f64 (pow.f64 (cbrt.f64 (-.f64 x y)) (sqrt.f64 #s(literal 3 binary64))) (sqrt.f64 #s(literal 3 binary64)))
(pow.f64 (pow.f64 (cbrt.f64 (-.f64 x y)) (pow.f64 (cbrt.f64 #s(literal 3 binary64)) #s(literal 2 binary64))) (cbrt.f64 #s(literal 3 binary64)))
(pow.f64 (neg.f64 (sqrt.f64 (-.f64 x y))) #s(literal 2 binary64))
(pow.f64 (E.f64) (log.f64 (-.f64 x y)))
(pow.f64 (sqrt.f64 (-.f64 x y)) #s(literal 2 binary64))
(pow.f64 (pow.f64 (-.f64 x y) #s(literal 3 binary64)) #s(literal 1/3 binary64))
(pow.f64 (pow.f64 (-.f64 x y) #s(literal 2 binary64)) #s(literal 1/2 binary64))
(pow.f64 (cbrt.f64 (-.f64 x y)) #s(literal 3 binary64))
(pow.f64 (-.f64 x y) #s(literal 1 binary64))
(/.f64 (cbrt.f64 (.f64 (pow.f64 (-.f64 x y) #s(literal 2 binary64)) (.f64 (+.f64 y x) (-.f64 x y)))) (cbrt.f64 (+.f64 y x)))
(/.f64 (cbrt.f64 (.f64 (pow.f64 (-.f64 x y) #s(literal 2 binary64)) (-.f64 (pow.f64 x #s(literal 3 binary64)) (pow.f64 y #s(literal 3 binary64))))) (cbrt.f64 (fma.f64 y (+.f64 y x) (.f64 x x))))
(/.f64 (neg.f64 (*.f64 (+.f64 y x) (-.f64 x y))) (neg.f64 (+.f64 y x)))
(/.f64 (neg.f64 (-.f64 (pow.f64 x #s(literal 3 binary64)) (pow.f64 y #s(literal 3 binary64)))) (neg.f64 (fma.f64 y (+.f64 y x) (*.f64 x x))))
(/.f64 (*.f64 (+.f64 y x) (-.f64 x y)) (+.f64 y x))
(/.f64 (-.f64 (pow.f64 x #s(literal 3 binary64)) (pow.f64 y #s(literal 3 binary64))) (fma.f64 y (+.f64 y x) (*.f64 x x)))
(cbrt.f64 (pow.f64 (-.f64 x y) #s(literal 3 binary64)))
(sqrt.f64 (pow.f64 (-.f64 x y) #s(literal 2 binary64)))
(-.f64 (/.f64 (.f64 x x) (+.f64 y x)) (/.f64 (.f64 y y) (+.f64 y x)))
(-.f64 (/.f64 (pow.f64 x #s(literal 3 binary64)) (fma.f64 y (+.f64 y x) (.f64 x x))) (/.f64 (pow.f64 y #s(literal 3 binary64)) (fma.f64 y (+.f64 y x) (.f64 x x))))
(-.f64 x y)
(exp.f64 (/.f64 (log.f64 (pow.f64 (-.f64 x y) #s(literal 2 binary64))) #s(literal 2 binary64)))
(exp.f64 (/.f64 (log.f64 (pow.f64 (-.f64 x y) #s(literal 3 binary64))) #s(literal 3 binary64)))
(exp.f64 (*.f64 (log.f64 (sqrt.f64 (-.f64 x y))) #s(literal 2 binary64)))
(exp.f64 (*.f64 (log.f64 (pow.f64 (-.f64 x y) #s(literal 3 binary64))) #s(literal 1/3 binary64)))
(exp.f64 (*.f64 (log.f64 (cbrt.f64 (-.f64 x y))) #s(literal 3 binary64)))
(exp.f64 (log.f64 (-.f64 x y)))
(+.f64 (log.f64 (sqrt.f64 (exp.f64 (-.f64 x y)))) (log.f64 (sqrt.f64 (exp.f64 (-.f64 x y)))))
(+.f64 (log.f64 (pow.f64 (cbrt.f64 (exp.f64 (-.f64 x y))) #s(literal 2 binary64))) (log.f64 (cbrt.f64 (exp.f64 (-.f64 x y)))))
(+.f64 (cosh.f64 (log.f64 (-.f64 x y))) (sinh.f64 (log.f64 (-.f64 x y))))
(+.f64 x (*.f64 (neg.f64 (sqrt.f64 y)) (sqrt.f64 y)))
(+.f64 x (*.f64 (neg.f64 (pow.f64 (cbrt.f64 y) #s(literal 2 binary64))) (cbrt.f64 y)))
(log.f64 (exp.f64 (-.f64 x y)))

eval43.0ms (1.3%)

Memory: -20.5MiB live, 25.2MiB allocated; 5ms collecting garbage
Compiler: Compiled 1 394 to 335 computations (76% saved)

prune4.0ms (0.1%)

Memory

13.7MiB live, 13.7MiB allocated; 0ms collecting garbage

Pruning

7 alts after pruning (6 fresh and 1 done)

	Pruned	Kept	Total
New	104	6	110
Fresh	0	0	0
Picked	0	1	1
Done	0	0	0
Total	104	7	111

Accuracy

100.0%

Counts

111 → 7

Alt Table

Click to see full alt table

Status	Accuracy	Program
▶	99.2%	(.f64 (.f64 (-.f64 x y) (sqrt.f64 #s(literal 200 binary64))) (sqrt.f64 #s(literal 200 binary64)))
▶	99.2%	(.f64 (.f64 (-.f64 x y) (cbrt.f64 #s(literal 40000 binary64))) (cbrt.f64 #s(literal 200 binary64)))
▶	43.3%	(.f64 (sqrt.f64 (.f64 (-.f64 x y) #s(literal 200 binary64))) (sqrt.f64 (*.f64 (-.f64 x y) #s(literal 200 binary64))))
✓	100.0%	(*.f64 #s(literal 200 binary64) (-.f64 x y))
	98.9%	(.f64 #s(literal 200 binary64) (+.f64 x (.f64 (neg.f64 (pow.f64 (cbrt.f64 y) #s(literal 2 binary64))) (cbrt.f64 y))))
▶	50.1%	(*.f64 #s(literal 200 binary64) #s(approx (- x y) x))
▶	50.7%	#s(approx (* 200 (- x y)) (*.f64 #s(literal -200 binary64) y))

Compiler

Compiled 123 to 99 computations (19.5% saved)

simplify12.0ms (0.4%)

Memory

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

Localize:

Found 16 expressions of interest:

New	Metric	Score
cost-diff	0	(cbrt.f64 #s(literal 40000 binary64))
cost-diff	0	(-.f64 x y)
cost-diff	0	(*.f64 (-.f64 x y) (cbrt.f64 #s(literal 40000 binary64)))
cost-diff	0	(.f64 (.f64 (-.f64 x y) (cbrt.f64 #s(literal 40000 binary64))) (cbrt.f64 #s(literal 200 binary64)))
cost-diff	0	(-.f64 x y)
cost-diff	0	(*.f64 (-.f64 x y) #s(literal 200 binary64))
cost-diff	0	(sqrt.f64 (*.f64 (-.f64 x y) #s(literal 200 binary64)))
cost-diff	8	(.f64 (sqrt.f64 (.f64 (-.f64 x y) #s(literal 200 binary64))) (sqrt.f64 (*.f64 (-.f64 x y) #s(literal 200 binary64))))
cost-diff	0	#s(approx (- x y) x)
cost-diff	0	(*.f64 #s(literal 200 binary64) #s(approx (- x y) x))
cost-diff	0	(*.f64 #s(literal -200 binary64) y)
cost-diff	0	#s(approx (* 200 (- x y)) (*.f64 #s(literal -200 binary64) y))
cost-diff	0	(sqrt.f64 #s(literal 200 binary64))
cost-diff	0	(-.f64 x y)
cost-diff	0	(*.f64 (-.f64 x y) (sqrt.f64 #s(literal 200 binary64)))
cost-diff	4	(.f64 (.f64 (-.f64 x y) (sqrt.f64 #s(literal 200 binary64))) (sqrt.f64 #s(literal 200 binary64)))

Iterations

Useful iterations: 1 (0.0ms)

Iter	Nodes	Cost
0	22	107
0	36	107
1	51	95
2	74	95
3	111	95
4	169	95
5	207	95
6	245	95
7	275	95
8	308	95
9	335	95
10	364	95
0	364	95

Stop Event

1×	iter limit
1×	saturated
1×	iter limit

Calls

Call 1

Inputs
(.f64 (.f64 (-.f64 x y) (sqrt.f64 #s(literal 200 binary64))) (sqrt.f64 #s(literal 200 binary64)))
(*.f64 (-.f64 x y) (sqrt.f64 #s(literal 200 binary64)))
(-.f64 x y)
x
y
(sqrt.f64 #s(literal 200 binary64))
#s(literal 200 binary64)
#s(approx (* 200 (- x y)) (*.f64 #s(literal -200 binary64) y))
(*.f64 #s(literal -200 binary64) y)
#s(literal -200 binary64)
y
(*.f64 #s(literal 200 binary64) #s(approx (- x y) x))
#s(literal 200 binary64)
#s(approx (- x y) x)
x
(.f64 (sqrt.f64 (.f64 (-.f64 x y) #s(literal 200 binary64))) (sqrt.f64 (*.f64 (-.f64 x y) #s(literal 200 binary64))))
(sqrt.f64 (*.f64 (-.f64 x y) #s(literal 200 binary64)))
(*.f64 (-.f64 x y) #s(literal 200 binary64))
(-.f64 x y)
x
y
#s(literal 200 binary64)
(.f64 (.f64 (-.f64 x y) (cbrt.f64 #s(literal 40000 binary64))) (cbrt.f64 #s(literal 200 binary64)))
(*.f64 (-.f64 x y) (cbrt.f64 #s(literal 40000 binary64)))
(-.f64 x y)
x
y
(cbrt.f64 #s(literal 40000 binary64))
#s(literal 40000 binary64)
(cbrt.f64 #s(literal 200 binary64))
#s(literal 200 binary64)

Outputs
(.f64 (.f64 (-.f64 x y) (sqrt.f64 #s(literal 200 binary64))) (sqrt.f64 #s(literal 200 binary64)))
(*.f64 #s(literal 200 binary64) (-.f64 x y))
(*.f64 (-.f64 x y) (sqrt.f64 #s(literal 200 binary64)))
(*.f64 (sqrt.f64 #s(literal 200 binary64)) (-.f64 x y))
(-.f64 x y)
x
y
(sqrt.f64 #s(literal 200 binary64))
#s(literal 200 binary64)
#s(approx (* 200 (- x y)) (*.f64 #s(literal -200 binary64) y))
(*.f64 #s(literal -200 binary64) y)
#s(literal -200 binary64)
y
(*.f64 #s(literal 200 binary64) #s(approx (- x y) x))
(*.f64 #s(approx (- x y) x) #s(literal 200 binary64))
#s(literal 200 binary64)
#s(approx (- x y) x)
x
(.f64 (sqrt.f64 (.f64 (-.f64 x y) #s(literal 200 binary64))) (sqrt.f64 (*.f64 (-.f64 x y) #s(literal 200 binary64))))
(*.f64 #s(literal 200 binary64) (-.f64 x y))
(sqrt.f64 (*.f64 (-.f64 x y) #s(literal 200 binary64)))
(sqrt.f64 (*.f64 #s(literal 200 binary64) (-.f64 x y)))
(*.f64 (-.f64 x y) #s(literal 200 binary64))
(*.f64 #s(literal 200 binary64) (-.f64 x y))
(-.f64 x y)
x
y
#s(literal 200 binary64)
(.f64 (.f64 (-.f64 x y) (cbrt.f64 #s(literal 40000 binary64))) (cbrt.f64 #s(literal 200 binary64)))
(.f64 (cbrt.f64 #s(literal 200 binary64)) (.f64 (cbrt.f64 #s(literal 40000 binary64)) (-.f64 x y)))
(*.f64 (-.f64 x y) (cbrt.f64 #s(literal 40000 binary64)))
(*.f64 (cbrt.f64 #s(literal 40000 binary64)) (-.f64 x y))
(-.f64 x y)
x
y
(cbrt.f64 #s(literal 40000 binary64))
#s(literal 40000 binary64)
(cbrt.f64 #s(literal 200 binary64))
#s(literal 200 binary64)

localize57.0ms (1.7%)

Memory

-25.9MiB live, 119.1MiB allocated; 16ms collecting garbage

Localize:

Found 16 expressions of interest:

New	Metric	Score
accuracy	0.0	(cbrt.f64 #s(literal 40000 binary64))
accuracy	0.0	(cbrt.f64 #s(literal 200 binary64))
accuracy	0.1328125	(.f64 (.f64 (-.f64 x y) (cbrt.f64 #s(literal 40000 binary64))) (cbrt.f64 #s(literal 200 binary64)))
accuracy	0.1953125	(*.f64 (-.f64 x y) (cbrt.f64 #s(literal 40000 binary64)))
accuracy	0.0	(-.f64 x y)
accuracy	0.01171875	(*.f64 (-.f64 x y) #s(literal 200 binary64))
accuracy	0.0859375	(sqrt.f64 (*.f64 (-.f64 x y) #s(literal 200 binary64)))
accuracy	0.27248002930532605	(.f64 (sqrt.f64 (.f64 (-.f64 x y) #s(literal 200 binary64))) (sqrt.f64 (*.f64 (-.f64 x y) #s(literal 200 binary64))))
accuracy	0.01171875	(*.f64 #s(literal 200 binary64) #s(approx (- x y) x))
accuracy	13.221425562350387	#s(approx (- x y) x)
accuracy	0.0	(*.f64 #s(literal -200 binary64) y)
accuracy	14.590773873776618	#s(approx (* 200 (- x y)) (*.f64 #s(literal -200 binary64) y))
accuracy	0.0	(-.f64 x y)
accuracy	0.0	(sqrt.f64 #s(literal 200 binary64))
accuracy	0.1484375	(*.f64 (-.f64 x y) (sqrt.f64 #s(literal 200 binary64)))
accuracy	0.1484375	(.f64 (.f64 (-.f64 x y) (sqrt.f64 #s(literal 200 binary64))) (sqrt.f64 #s(literal 200 binary64)))

Samples

21.0ms	112×	0	valid
21.0ms	144×	0	invalid

Compiler

Compiled 101 to 20 computations (80.2% saved)

Precisions

Click to see histograms. Total time spent on operations: 26.0ms

ival-mult: 17.0ms (66.2% of total)

ival-sqrt: 3.0ms (11.7% of total)

ival-cbrt: 3.0ms (11.7% of total)

ival-sub: 2.0ms (7.8% of total)

ival-true: 0.0ms (0% of total)

adjust: 0.0ms (0% of total)

exact: 0.0ms (0% of total)

ival-assert: 0.0ms (0% of total)

series37.0ms (1.1%)

Memory

3.6MiB live, 49.4MiB allocated; 4ms collecting garbage

Counts

15 → 81

Calls

Call 1

Inputs
(.f64 (.f64 (-.f64 x y) (sqrt.f64 #s(literal 200 binary64))) (sqrt.f64 #s(literal 200 binary64)))
(*.f64 (-.f64 x y) (sqrt.f64 #s(literal 200 binary64)))
(-.f64 x y)
(sqrt.f64 #s(literal 200 binary64))
#s(approx (* 200 (- x y)) (*.f64 #s(literal -200 binary64) y))
(*.f64 #s(literal -200 binary64) y)
(*.f64 #s(literal 200 binary64) #s(approx (- x y) x))
#s(approx (- x y) x)
(.f64 (sqrt.f64 (.f64 (-.f64 x y) #s(literal 200 binary64))) (sqrt.f64 (*.f64 (-.f64 x y) #s(literal 200 binary64))))
(sqrt.f64 (*.f64 (-.f64 x y) #s(literal 200 binary64)))
(*.f64 (-.f64 x y) #s(literal 200 binary64))
(.f64 (.f64 (-.f64 x y) (cbrt.f64 #s(literal 40000 binary64))) (cbrt.f64 #s(literal 200 binary64)))
(*.f64 (-.f64 x y) (cbrt.f64 #s(literal 40000 binary64)))
(cbrt.f64 #s(literal 40000 binary64))
(cbrt.f64 #s(literal 200 binary64))

Outputs
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (* -1 (* y (pow (sqrt 200) 2)))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (+ (* -1 (* y (pow (sqrt 200) 2))) (* x (pow (sqrt 200) 2)))))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (* -1 (* y (sqrt 200)))))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (+ (* -1 (* y (sqrt 200))) (* x (sqrt 200)))))
#s(approx (- x y) #s(hole binary64 (* -1 y)))
#s(approx (- x y) #s(hole binary64 (- x y)))
#s(approx (* 200 (- x y)) #s(hole binary64 (* -200 y)))
#s(approx (* 200 (- x y)) #s(hole binary64 (+ (* -200 y) (* 200 x))))
#s(approx (* (sqrt (* (- x y) 200)) (sqrt (* (- x y) 200))) #s(hole binary64 (* -1 (* y (pow (sqrt 200) 2)))))
#s(approx (* (sqrt (* (- x y) 200)) (sqrt (* (- x y) 200))) #s(hole binary64 (+ (* -1 (* y (pow (sqrt 200) 2))) (* x (pow (sqrt 200) 2)))))
#s(approx (sqrt (* (- x y) 200)) #s(hole binary64 (* (sqrt y) (* (sqrt -1) (sqrt 200)))))
#s(approx (sqrt (* (- x y) 200)) #s(hole binary64 (+ (* 1/2 (* (/ (* x (sqrt 200)) (sqrt -1)) (sqrt (/ 1 y)))) (* (sqrt y) (* (sqrt -1) (sqrt 200))))))
#s(approx (sqrt (* (- x y) 200)) #s(hole binary64 (+ (* x (+ (* -1/8 (* (/ (* x (sqrt 200)) (pow (sqrt -1) 3)) (sqrt (/ 1 (pow y 3))))) (* 1/2 (* (sqrt (/ 1 y)) (/ (sqrt 200) (sqrt -1)))))) (* (sqrt y) (* (sqrt -1) (sqrt 200))))))
#s(approx (sqrt (* (- x y) 200)) #s(hole binary64 (+ (* x (+ (* 1/2 (* (sqrt (/ 1 y)) (/ (sqrt 200) (sqrt -1)))) (* x (+ (* -1/8 (* (sqrt (/ 1 (pow y 3))) (/ (sqrt 200) (pow (sqrt -1) 3)))) (* 1/16 (* (/ (* x (sqrt 200)) (pow (sqrt -1) 5)) (sqrt (/ 1 (pow y 5))))))))) (* (sqrt y) (* (sqrt -1) (sqrt 200))))))
#s(approx (* (- x y) 200) #s(hole binary64 (* -200 y)))
#s(approx (* (- x y) 200) #s(hole binary64 (+ (* -200 y) (* 200 x))))
#s(approx (* (* (- x y) (cbrt 40000)) (cbrt 200)) #s(hole binary64 (* -1 (* y (* (cbrt 200) (cbrt 40000))))))
#s(approx (* (* (- x y) (cbrt 40000)) (cbrt 200)) #s(hole binary64 (+ (* -1 (* y (* (cbrt 200) (cbrt 40000)))) (* x (* (cbrt 200) (cbrt 40000))))))
#s(approx (* (- x y) (cbrt 40000)) #s(hole binary64 (* -1 (* y (cbrt 40000)))))
#s(approx (* (- x y) (cbrt 40000)) #s(hole binary64 (+ (* -1 (* y (cbrt 40000))) (* x (cbrt 40000)))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (* x (pow (sqrt 200) 2))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (* x (+ (* -1 (/ (* y (pow (sqrt 200) 2)) x)) (pow (sqrt 200) 2)))))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (* x (sqrt 200))))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (* x (+ (sqrt 200) (* -1 (/ (* y (sqrt 200)) x))))))
#s(approx (- x y) #s(hole binary64 x))
#s(approx (- x y) #s(hole binary64 (* x (+ 1 (* -1 (/ y x))))))
#s(approx (* 200 (- x y)) #s(hole binary64 (* 200 x)))
#s(approx (* 200 (- x y)) #s(hole binary64 (* x (+ 200 (* -200 (/ y x))))))
#s(approx (* (sqrt (* (- x y) 200)) (sqrt (* (- x y) 200))) #s(hole binary64 (* x (pow (sqrt 200) 2))))
#s(approx (* (sqrt (* (- x y) 200)) (sqrt (* (- x y) 200))) #s(hole binary64 (* x (+ (* -1 (/ (* y (pow (sqrt 200) 2)) x)) (pow (sqrt 200) 2)))))
#s(approx (sqrt (* (- x y) 200)) #s(hole binary64 (* (sqrt x) (sqrt 200))))
#s(approx (sqrt (* (- x y) 200)) #s(hole binary64 (* x (+ (* -1/2 (* (sqrt (/ 1 (pow x 3))) (* y (sqrt 200)))) (* (sqrt (/ 1 x)) (sqrt 200))))))
#s(approx (sqrt (* (- x y) 200)) #s(hole binary64 (* x (+ (* -1/2 (* (sqrt (/ 1 (pow x 3))) (* y (sqrt 200)))) (+ (* -1/8 (* (sqrt (/ 1 (pow x 5))) (* (pow y 2) (sqrt 200)))) (* (sqrt (/ 1 x)) (sqrt 200)))))))
#s(approx (sqrt (* (- x y) 200)) #s(hole binary64 (* x (+ (* -1/2 (* (sqrt (/ 1 (pow x 3))) (* y (sqrt 200)))) (+ (* -1/8 (* (sqrt (/ 1 (pow x 5))) (* (pow y 2) (sqrt 200)))) (+ (* -1/16 (* (sqrt (/ 1 (pow x 7))) (* (pow y 3) (sqrt 200)))) (* (sqrt (/ 1 x)) (sqrt 200))))))))
#s(approx (* (- x y) 200) #s(hole binary64 (* 200 x)))
#s(approx (* (- x y) 200) #s(hole binary64 (* x (+ 200 (* -200 (/ y x))))))
#s(approx (* (* (- x y) (cbrt 40000)) (cbrt 200)) #s(hole binary64 (* x (* (cbrt 200) (cbrt 40000)))))
#s(approx (* (* (- x y) (cbrt 40000)) (cbrt 200)) #s(hole binary64 (* x (+ (* -1 (/ (* y (* (cbrt 200) (cbrt 40000))) x)) (* (cbrt 200) (cbrt 40000))))))
#s(approx (* (- x y) (cbrt 40000)) #s(hole binary64 (* x (cbrt 40000))))
#s(approx (* (- x y) (cbrt 40000)) #s(hole binary64 (* x (+ (cbrt 40000) (* -1 (/ (* y (cbrt 40000)) x))))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (* -1 (* x (+ (* -1 (pow (sqrt 200) 2)) (/ (* y (pow (sqrt 200) 2)) x))))))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (* -1 (* x (+ (* -1 (sqrt 200)) (/ (* y (sqrt 200)) x))))))
#s(approx (- x y) #s(hole binary64 (* -1 (* x (- (/ y x) 1)))))
#s(approx (* 200 (- x y)) #s(hole binary64 (* -1 (* x (- (* 200 (/ y x)) 200)))))
#s(approx (* (sqrt (* (- x y) 200)) (sqrt (* (- x y) 200))) #s(hole binary64 (* -1 (* x (pow (sqrt -200) 2)))))
#s(approx (* (sqrt (* (- x y) 200)) (sqrt (* (- x y) 200))) #s(hole binary64 (* -1 (* x (+ (* -1 (/ (* y (pow (sqrt -200) 2)) x)) (pow (sqrt -200) 2))))))
#s(approx (sqrt (* (- x y) 200)) #s(hole binary64 (* -1 (* (sqrt x) (* (sqrt -200) (sqrt -1))))))
#s(approx (sqrt (* (- x y) 200)) #s(hole binary64 (* -1 (* x (+ (* 1/2 (* (sqrt (/ 1 (pow x 3))) (* y (* (sqrt -200) (sqrt -1))))) (* (sqrt (/ 1 x)) (* (sqrt -200) (sqrt -1))))))))
#s(approx (sqrt (* (- x y) 200)) #s(hole binary64 (* -1 (* x (+ (* -1/8 (* (sqrt (/ 1 (pow x 5))) (* (pow y 2) (* (sqrt -200) (sqrt -1))))) (+ (* 1/2 (* (sqrt (/ 1 (pow x 3))) (* y (* (sqrt -200) (sqrt -1))))) (* (sqrt (/ 1 x)) (* (sqrt -200) (sqrt -1)))))))))
#s(approx (sqrt (* (- x y) 200)) #s(hole binary64 (* -1 (* x (+ (* -1/8 (* (sqrt (/ 1 (pow x 5))) (* (pow y 2) (* (sqrt -200) (sqrt -1))))) (+ (* 1/16 (* (sqrt (/ 1 (pow x 7))) (* (pow y 3) (* (sqrt -200) (sqrt -1))))) (+ (* 1/2 (* (sqrt (/ 1 (pow x 3))) (* y (* (sqrt -200) (sqrt -1))))) (* (sqrt (/ 1 x)) (* (sqrt -200) (sqrt -1))))))))))
#s(approx (* (- x y) 200) #s(hole binary64 (* -1 (* x (- (* 200 (/ y x)) 200)))))
#s(approx (* (* (- x y) (cbrt 40000)) (cbrt 200)) #s(hole binary64 (* -1 (* x (+ (* -1 (* (cbrt 200) (cbrt 40000))) (/ (* y (* (cbrt 200) (cbrt 40000))) x))))))
#s(approx (* (- x y) (cbrt 40000)) #s(hole binary64 (* -1 (* x (+ (* -1 (cbrt 40000)) (/ (* y (cbrt 40000)) x))))))
#s(approx (- x y) #s(hole binary64 (+ x (* -1 y))))
#s(approx (* -200 y) #s(hole binary64 (* -200 y)))
#s(approx (sqrt (* (- x y) 200)) #s(hole binary64 (+ (* -1/2 (* (sqrt (/ 1 x)) (* y (sqrt 200)))) (* (sqrt x) (sqrt 200)))))
#s(approx (sqrt (* (- x y) 200)) #s(hole binary64 (+ (* y (+ (* -1/2 (* (sqrt (/ 1 x)) (sqrt 200))) (* -1/8 (* (sqrt (/ 1 (pow x 3))) (* y (sqrt 200)))))) (* (sqrt x) (sqrt 200)))))
#s(approx (sqrt (* (- x y) 200)) #s(hole binary64 (+ (* y (+ (* -1/2 (* (sqrt (/ 1 x)) (sqrt 200))) (* y (+ (* -1/8 (* (sqrt (/ 1 (pow x 3))) (sqrt 200))) (* -1/16 (* (sqrt (/ 1 (pow x 5))) (* y (sqrt 200)))))))) (* (sqrt x) (sqrt 200)))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (* y (+ (* -1 (pow (sqrt 200) 2)) (/ (* x (pow (sqrt 200) 2)) y)))))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (* y (+ (* -1 (sqrt 200)) (/ (* x (sqrt 200)) y)))))
#s(approx (- x y) #s(hole binary64 (* y (- (/ x y) 1))))
#s(approx (* 200 (- x y)) #s(hole binary64 (* y (- (* 200 (/ x y)) 200))))
#s(approx (* (sqrt (* (- x y) 200)) (sqrt (* (- x y) 200))) #s(hole binary64 (* y (+ (* -1 (pow (sqrt 200) 2)) (/ (* x (pow (sqrt 200) 2)) y)))))
#s(approx (sqrt (* (- x y) 200)) #s(hole binary64 (* y (+ (* 1/2 (* (/ (* x (sqrt 200)) (sqrt -1)) (sqrt (/ 1 (pow y 3))))) (* (sqrt (/ 1 y)) (* (sqrt -1) (sqrt 200)))))))
#s(approx (sqrt (* (- x y) 200)) #s(hole binary64 (* y (+ (* -1/8 (* (/ (* (pow x 2) (sqrt 200)) (pow (sqrt -1) 3)) (sqrt (/ 1 (pow y 5))))) (+ (* 1/2 (* (/ (* x (sqrt 200)) (sqrt -1)) (sqrt (/ 1 (pow y 3))))) (* (sqrt (/ 1 y)) (* (sqrt -1) (sqrt 200))))))))
#s(approx (sqrt (* (- x y) 200)) #s(hole binary64 (* y (+ (* -1/8 (* (/ (* (pow x 2) (sqrt 200)) (pow (sqrt -1) 3)) (sqrt (/ 1 (pow y 5))))) (+ (* 1/16 (* (/ (* (pow x 3) (sqrt 200)) (pow (sqrt -1) 5)) (sqrt (/ 1 (pow y 7))))) (+ (* 1/2 (* (/ (* x (sqrt 200)) (sqrt -1)) (sqrt (/ 1 (pow y 3))))) (* (sqrt (/ 1 y)) (* (sqrt -1) (sqrt 200)))))))))
#s(approx (* (- x y) 200) #s(hole binary64 (* y (- (* 200 (/ x y)) 200))))
#s(approx (* (* (- x y) (cbrt 40000)) (cbrt 200)) #s(hole binary64 (* y (+ (* -1 (* (cbrt 200) (cbrt 40000))) (/ (* x (* (cbrt 200) (cbrt 40000))) y)))))
#s(approx (* (- x y) (cbrt 40000)) #s(hole binary64 (* y (+ (* -1 (cbrt 40000)) (/ (* x (cbrt 40000)) y)))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (* -1 (* y (+ (* -1 (/ (* x (pow (sqrt 200) 2)) y)) (pow (sqrt 200) 2))))))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (* -1 (* y (+ (sqrt 200) (* -1 (/ (* x (sqrt 200)) y)))))))
#s(approx (- x y) #s(hole binary64 (* -1 (* y (+ 1 (* -1 (/ x y)))))))
#s(approx (* 200 (- x y)) #s(hole binary64 (* -1 (* y (+ 200 (* -200 (/ x y)))))))
#s(approx (* (sqrt (* (- x y) 200)) (sqrt (* (- x y) 200))) #s(hole binary64 (* -1 (* y (+ (* -1 (/ (* x (pow (sqrt 200) 2)) y)) (pow (sqrt 200) 2))))))
#s(approx (sqrt (* (- x y) 200)) #s(hole binary64 (* -1 (* (sqrt y) (* (sqrt -1) (sqrt 200))))))
#s(approx (sqrt (* (- x y) 200)) #s(hole binary64 (* -1 (* y (+ (* 1/2 (* (* x (* (sqrt -1) (sqrt 200))) (sqrt (/ 1 (pow y 3))))) (* (sqrt (/ 1 y)) (* (sqrt -1) (sqrt 200))))))))
#s(approx (sqrt (* (- x y) 200)) #s(hole binary64 (* -1 (* y (+ (* -1/8 (* (* (pow x 2) (* (sqrt -1) (sqrt 200))) (sqrt (/ 1 (pow y 5))))) (+ (* 1/2 (* (* x (* (sqrt -1) (sqrt 200))) (sqrt (/ 1 (pow y 3))))) (* (sqrt (/ 1 y)) (* (sqrt -1) (sqrt 200)))))))))
#s(approx (sqrt (* (- x y) 200)) #s(hole binary64 (* -1 (* y (+ (* -1/8 (* (* (pow x 2) (* (sqrt -1) (sqrt 200))) (sqrt (/ 1 (pow y 5))))) (+ (* 1/16 (* (* (pow x 3) (* (sqrt -1) (sqrt 200))) (sqrt (/ 1 (pow y 7))))) (+ (* 1/2 (* (* x (* (sqrt -1) (sqrt 200))) (sqrt (/ 1 (pow y 3))))) (* (sqrt (/ 1 y)) (* (sqrt -1) (sqrt 200))))))))))
#s(approx (* (- x y) 200) #s(hole binary64 (* -1 (* y (+ 200 (* -200 (/ x y)))))))
#s(approx (* (* (- x y) (cbrt 40000)) (cbrt 200)) #s(hole binary64 (* -1 (* y (+ (* -1 (/ (* x (* (cbrt 200) (cbrt 40000))) y)) (* (cbrt 200) (cbrt 40000)))))))
#s(approx (* (- x y) (cbrt 40000)) #s(hole binary64 (* -1 (* y (+ (cbrt 40000) (* -1 (/ (* x (cbrt 40000)) y)))))))

Calls

6 calls:

Time	Variable		Point	Expression
18.0ms	x	@	-inf	((* (* (- x y) (sqrt 200)) (sqrt 200)) (* (- x y) (sqrt 200)) (- x y) (sqrt 200) (* 200 (- x y)) (* -200 y) (* 200 (- x y)) (- x y) (* (sqrt (* (- x y) 200)) (sqrt (* (- x y) 200))) (sqrt (* (- x y) 200)) (* (- x y) 200) (* (* (- x y) (cbrt 40000)) (cbrt 200)) (* (- x y) (cbrt 40000)) (cbrt 40000) (cbrt 200))
4.0ms	x	@	0	((* (* (- x y) (sqrt 200)) (sqrt 200)) (* (- x y) (sqrt 200)) (- x y) (sqrt 200) (* 200 (- x y)) (* -200 y) (* 200 (- x y)) (- x y) (* (sqrt (* (- x y) 200)) (sqrt (* (- x y) 200))) (sqrt (* (- x y) 200)) (* (- x y) 200) (* (* (- x y) (cbrt 40000)) (cbrt 200)) (* (- x y) (cbrt 40000)) (cbrt 40000) (cbrt 200))
4.0ms	y	@	inf	((* (* (- x y) (sqrt 200)) (sqrt 200)) (* (- x y) (sqrt 200)) (- x y) (sqrt 200) (* 200 (- x y)) (* -200 y) (* 200 (- x y)) (- x y) (* (sqrt (* (- x y) 200)) (sqrt (* (- x y) 200))) (sqrt (* (- x y) 200)) (* (- x y) 200) (* (* (- x y) (cbrt 40000)) (cbrt 200)) (* (- x y) (cbrt 40000)) (cbrt 40000) (cbrt 200))
3.0ms	y	@	-inf	((* (* (- x y) (sqrt 200)) (sqrt 200)) (* (- x y) (sqrt 200)) (- x y) (sqrt 200) (* 200 (- x y)) (* -200 y) (* 200 (- x y)) (- x y) (* (sqrt (* (- x y) 200)) (sqrt (* (- x y) 200))) (sqrt (* (- x y) 200)) (* (- x y) 200) (* (* (- x y) (cbrt 40000)) (cbrt 200)) (* (- x y) (cbrt 40000)) (cbrt 40000) (cbrt 200))
3.0ms	x	@	inf	((* (* (- x y) (sqrt 200)) (sqrt 200)) (* (- x y) (sqrt 200)) (- x y) (sqrt 200) (* 200 (- x y)) (* -200 y) (* 200 (- x y)) (- x y) (* (sqrt (* (- x y) 200)) (sqrt (* (- x y) 200))) (sqrt (* (- x y) 200)) (* (- x y) 200) (* (* (- x y) (cbrt 40000)) (cbrt 200)) (* (- x y) (cbrt 40000)) (cbrt 40000) (cbrt 200))

simplify173.0ms (5.3%)

Memory

30.7MiB live, 219.2MiB allocated; 18ms collecting garbage

Iterations

Useful iterations: 0 (0.0ms)

Iter	Nodes	Cost
0	382	2081
1	1149	1793
2	4479	1780
0	8478	1724

Stop Event

1×	iter limit
1×	node limit

Counts

81 → 81

Calls

Call 1

Inputs
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (* -1 (* y (pow (sqrt 200) 2)))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (+ (* -1 (* y (pow (sqrt 200) 2))) (* x (pow (sqrt 200) 2)))))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (* -1 (* y (sqrt 200)))))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (+ (* -1 (* y (sqrt 200))) (* x (sqrt 200)))))
#s(approx (- x y) #s(hole binary64 (* -1 y)))
#s(approx (- x y) #s(hole binary64 (- x y)))
#s(approx (* 200 (- x y)) #s(hole binary64 (* -200 y)))
#s(approx (* 200 (- x y)) #s(hole binary64 (+ (* -200 y) (* 200 x))))
#s(approx (* (sqrt (* (- x y) 200)) (sqrt (* (- x y) 200))) #s(hole binary64 (* -1 (* y (pow (sqrt 200) 2)))))
#s(approx (* (sqrt (* (- x y) 200)) (sqrt (* (- x y) 200))) #s(hole binary64 (+ (* -1 (* y (pow (sqrt 200) 2))) (* x (pow (sqrt 200) 2)))))
#s(approx (sqrt (* (- x y) 200)) #s(hole binary64 (* (sqrt y) (* (sqrt -1) (sqrt 200)))))
#s(approx (sqrt (* (- x y) 200)) #s(hole binary64 (+ (* 1/2 (* (/ (* x (sqrt 200)) (sqrt -1)) (sqrt (/ 1 y)))) (* (sqrt y) (* (sqrt -1) (sqrt 200))))))
#s(approx (sqrt (* (- x y) 200)) #s(hole binary64 (+ (* x (+ (* -1/8 (* (/ (* x (sqrt 200)) (pow (sqrt -1) 3)) (sqrt (/ 1 (pow y 3))))) (* 1/2 (* (sqrt (/ 1 y)) (/ (sqrt 200) (sqrt -1)))))) (* (sqrt y) (* (sqrt -1) (sqrt 200))))))
#s(approx (sqrt (* (- x y) 200)) #s(hole binary64 (+ (* x (+ (* 1/2 (* (sqrt (/ 1 y)) (/ (sqrt 200) (sqrt -1)))) (* x (+ (* -1/8 (* (sqrt (/ 1 (pow y 3))) (/ (sqrt 200) (pow (sqrt -1) 3)))) (* 1/16 (* (/ (* x (sqrt 200)) (pow (sqrt -1) 5)) (sqrt (/ 1 (pow y 5))))))))) (* (sqrt y) (* (sqrt -1) (sqrt 200))))))
#s(approx (* (- x y) 200) #s(hole binary64 (* -200 y)))
#s(approx (* (- x y) 200) #s(hole binary64 (+ (* -200 y) (* 200 x))))
#s(approx (* (* (- x y) (cbrt 40000)) (cbrt 200)) #s(hole binary64 (* -1 (* y (* (cbrt 200) (cbrt 40000))))))
#s(approx (* (* (- x y) (cbrt 40000)) (cbrt 200)) #s(hole binary64 (+ (* -1 (* y (* (cbrt 200) (cbrt 40000)))) (* x (* (cbrt 200) (cbrt 40000))))))
#s(approx (* (- x y) (cbrt 40000)) #s(hole binary64 (* -1 (* y (cbrt 40000)))))
#s(approx (* (- x y) (cbrt 40000)) #s(hole binary64 (+ (* -1 (* y (cbrt 40000))) (* x (cbrt 40000)))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (* x (pow (sqrt 200) 2))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (* x (+ (* -1 (/ (* y (pow (sqrt 200) 2)) x)) (pow (sqrt 200) 2)))))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (* x (sqrt 200))))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (* x (+ (sqrt 200) (* -1 (/ (* y (sqrt 200)) x))))))
#s(approx (- x y) #s(hole binary64 x))
#s(approx (- x y) #s(hole binary64 (* x (+ 1 (* -1 (/ y x))))))
#s(approx (* 200 (- x y)) #s(hole binary64 (* 200 x)))
#s(approx (* 200 (- x y)) #s(hole binary64 (* x (+ 200 (* -200 (/ y x))))))
#s(approx (* (sqrt (* (- x y) 200)) (sqrt (* (- x y) 200))) #s(hole binary64 (* x (pow (sqrt 200) 2))))
#s(approx (* (sqrt (* (- x y) 200)) (sqrt (* (- x y) 200))) #s(hole binary64 (* x (+ (* -1 (/ (* y (pow (sqrt 200) 2)) x)) (pow (sqrt 200) 2)))))
#s(approx (sqrt (* (- x y) 200)) #s(hole binary64 (* (sqrt x) (sqrt 200))))
#s(approx (sqrt (* (- x y) 200)) #s(hole binary64 (* x (+ (* -1/2 (* (sqrt (/ 1 (pow x 3))) (* y (sqrt 200)))) (* (sqrt (/ 1 x)) (sqrt 200))))))
#s(approx (sqrt (* (- x y) 200)) #s(hole binary64 (* x (+ (* -1/2 (* (sqrt (/ 1 (pow x 3))) (* y (sqrt 200)))) (+ (* -1/8 (* (sqrt (/ 1 (pow x 5))) (* (pow y 2) (sqrt 200)))) (* (sqrt (/ 1 x)) (sqrt 200)))))))
#s(approx (sqrt (* (- x y) 200)) #s(hole binary64 (* x (+ (* -1/2 (* (sqrt (/ 1 (pow x 3))) (* y (sqrt 200)))) (+ (* -1/8 (* (sqrt (/ 1 (pow x 5))) (* (pow y 2) (sqrt 200)))) (+ (* -1/16 (* (sqrt (/ 1 (pow x 7))) (* (pow y 3) (sqrt 200)))) (* (sqrt (/ 1 x)) (sqrt 200))))))))
#s(approx (* (- x y) 200) #s(hole binary64 (* 200 x)))
#s(approx (* (- x y) 200) #s(hole binary64 (* x (+ 200 (* -200 (/ y x))))))
#s(approx (* (* (- x y) (cbrt 40000)) (cbrt 200)) #s(hole binary64 (* x (* (cbrt 200) (cbrt 40000)))))
#s(approx (* (* (- x y) (cbrt 40000)) (cbrt 200)) #s(hole binary64 (* x (+ (* -1 (/ (* y (* (cbrt 200) (cbrt 40000))) x)) (* (cbrt 200) (cbrt 40000))))))
#s(approx (* (- x y) (cbrt 40000)) #s(hole binary64 (* x (cbrt 40000))))
#s(approx (* (- x y) (cbrt 40000)) #s(hole binary64 (* x (+ (cbrt 40000) (* -1 (/ (* y (cbrt 40000)) x))))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (* -1 (* x (+ (* -1 (pow (sqrt 200) 2)) (/ (* y (pow (sqrt 200) 2)) x))))))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (* -1 (* x (+ (* -1 (sqrt 200)) (/ (* y (sqrt 200)) x))))))
#s(approx (- x y) #s(hole binary64 (* -1 (* x (- (/ y x) 1)))))
#s(approx (* 200 (- x y)) #s(hole binary64 (* -1 (* x (- (* 200 (/ y x)) 200)))))
#s(approx (* (sqrt (* (- x y) 200)) (sqrt (* (- x y) 200))) #s(hole binary64 (* -1 (* x (pow (sqrt -200) 2)))))
#s(approx (* (sqrt (* (- x y) 200)) (sqrt (* (- x y) 200))) #s(hole binary64 (* -1 (* x (+ (* -1 (/ (* y (pow (sqrt -200) 2)) x)) (pow (sqrt -200) 2))))))
#s(approx (sqrt (* (- x y) 200)) #s(hole binary64 (* -1 (* (sqrt x) (* (sqrt -200) (sqrt -1))))))
#s(approx (sqrt (* (- x y) 200)) #s(hole binary64 (* -1 (* x (+ (* 1/2 (* (sqrt (/ 1 (pow x 3))) (* y (* (sqrt -200) (sqrt -1))))) (* (sqrt (/ 1 x)) (* (sqrt -200) (sqrt -1))))))))
#s(approx (sqrt (* (- x y) 200)) #s(hole binary64 (* -1 (* x (+ (* -1/8 (* (sqrt (/ 1 (pow x 5))) (* (pow y 2) (* (sqrt -200) (sqrt -1))))) (+ (* 1/2 (* (sqrt (/ 1 (pow x 3))) (* y (* (sqrt -200) (sqrt -1))))) (* (sqrt (/ 1 x)) (* (sqrt -200) (sqrt -1)))))))))
#s(approx (sqrt (* (- x y) 200)) #s(hole binary64 (* -1 (* x (+ (* -1/8 (* (sqrt (/ 1 (pow x 5))) (* (pow y 2) (* (sqrt -200) (sqrt -1))))) (+ (* 1/16 (* (sqrt (/ 1 (pow x 7))) (* (pow y 3) (* (sqrt -200) (sqrt -1))))) (+ (* 1/2 (* (sqrt (/ 1 (pow x 3))) (* y (* (sqrt -200) (sqrt -1))))) (* (sqrt (/ 1 x)) (* (sqrt -200) (sqrt -1))))))))))
#s(approx (* (- x y) 200) #s(hole binary64 (* -1 (* x (- (* 200 (/ y x)) 200)))))
#s(approx (* (* (- x y) (cbrt 40000)) (cbrt 200)) #s(hole binary64 (* -1 (* x (+ (* -1 (* (cbrt 200) (cbrt 40000))) (/ (* y (* (cbrt 200) (cbrt 40000))) x))))))
#s(approx (* (- x y) (cbrt 40000)) #s(hole binary64 (* -1 (* x (+ (* -1 (cbrt 40000)) (/ (* y (cbrt 40000)) x))))))
#s(approx (- x y) #s(hole binary64 (+ x (* -1 y))))
#s(approx (* -200 y) #s(hole binary64 (* -200 y)))
#s(approx (sqrt (* (- x y) 200)) #s(hole binary64 (+ (* -1/2 (* (sqrt (/ 1 x)) (* y (sqrt 200)))) (* (sqrt x) (sqrt 200)))))
#s(approx (sqrt (* (- x y) 200)) #s(hole binary64 (+ (* y (+ (* -1/2 (* (sqrt (/ 1 x)) (sqrt 200))) (* -1/8 (* (sqrt (/ 1 (pow x 3))) (* y (sqrt 200)))))) (* (sqrt x) (sqrt 200)))))
#s(approx (sqrt (* (- x y) 200)) #s(hole binary64 (+ (* y (+ (* -1/2 (* (sqrt (/ 1 x)) (sqrt 200))) (* y (+ (* -1/8 (* (sqrt (/ 1 (pow x 3))) (sqrt 200))) (* -1/16 (* (sqrt (/ 1 (pow x 5))) (* y (sqrt 200)))))))) (* (sqrt x) (sqrt 200)))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (* y (+ (* -1 (pow (sqrt 200) 2)) (/ (* x (pow (sqrt 200) 2)) y)))))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (* y (+ (* -1 (sqrt 200)) (/ (* x (sqrt 200)) y)))))
#s(approx (- x y) #s(hole binary64 (* y (- (/ x y) 1))))
#s(approx (* 200 (- x y)) #s(hole binary64 (* y (- (* 200 (/ x y)) 200))))
#s(approx (* (sqrt (* (- x y) 200)) (sqrt (* (- x y) 200))) #s(hole binary64 (* y (+ (* -1 (pow (sqrt 200) 2)) (/ (* x (pow (sqrt 200) 2)) y)))))
#s(approx (sqrt (* (- x y) 200)) #s(hole binary64 (* y (+ (* 1/2 (* (/ (* x (sqrt 200)) (sqrt -1)) (sqrt (/ 1 (pow y 3))))) (* (sqrt (/ 1 y)) (* (sqrt -1) (sqrt 200)))))))
#s(approx (sqrt (* (- x y) 200)) #s(hole binary64 (* y (+ (* -1/8 (* (/ (* (pow x 2) (sqrt 200)) (pow (sqrt -1) 3)) (sqrt (/ 1 (pow y 5))))) (+ (* 1/2 (* (/ (* x (sqrt 200)) (sqrt -1)) (sqrt (/ 1 (pow y 3))))) (* (sqrt (/ 1 y)) (* (sqrt -1) (sqrt 200))))))))
#s(approx (sqrt (* (- x y) 200)) #s(hole binary64 (* y (+ (* -1/8 (* (/ (* (pow x 2) (sqrt 200)) (pow (sqrt -1) 3)) (sqrt (/ 1 (pow y 5))))) (+ (* 1/16 (* (/ (* (pow x 3) (sqrt 200)) (pow (sqrt -1) 5)) (sqrt (/ 1 (pow y 7))))) (+ (* 1/2 (* (/ (* x (sqrt 200)) (sqrt -1)) (sqrt (/ 1 (pow y 3))))) (* (sqrt (/ 1 y)) (* (sqrt -1) (sqrt 200)))))))))
#s(approx (* (- x y) 200) #s(hole binary64 (* y (- (* 200 (/ x y)) 200))))
#s(approx (* (* (- x y) (cbrt 40000)) (cbrt 200)) #s(hole binary64 (* y (+ (* -1 (* (cbrt 200) (cbrt 40000))) (/ (* x (* (cbrt 200) (cbrt 40000))) y)))))
#s(approx (* (- x y) (cbrt 40000)) #s(hole binary64 (* y (+ (* -1 (cbrt 40000)) (/ (* x (cbrt 40000)) y)))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (* -1 (* y (+ (* -1 (/ (* x (pow (sqrt 200) 2)) y)) (pow (sqrt 200) 2))))))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (* -1 (* y (+ (sqrt 200) (* -1 (/ (* x (sqrt 200)) y)))))))
#s(approx (- x y) #s(hole binary64 (* -1 (* y (+ 1 (* -1 (/ x y)))))))
#s(approx (* 200 (- x y)) #s(hole binary64 (* -1 (* y (+ 200 (* -200 (/ x y)))))))
#s(approx (* (sqrt (* (- x y) 200)) (sqrt (* (- x y) 200))) #s(hole binary64 (* -1 (* y (+ (* -1 (/ (* x (pow (sqrt 200) 2)) y)) (pow (sqrt 200) 2))))))
#s(approx (sqrt (* (- x y) 200)) #s(hole binary64 (* -1 (* (sqrt y) (* (sqrt -1) (sqrt 200))))))
#s(approx (sqrt (* (- x y) 200)) #s(hole binary64 (* -1 (* y (+ (* 1/2 (* (* x (* (sqrt -1) (sqrt 200))) (sqrt (/ 1 (pow y 3))))) (* (sqrt (/ 1 y)) (* (sqrt -1) (sqrt 200))))))))
#s(approx (sqrt (* (- x y) 200)) #s(hole binary64 (* -1 (* y (+ (* -1/8 (* (* (pow x 2) (* (sqrt -1) (sqrt 200))) (sqrt (/ 1 (pow y 5))))) (+ (* 1/2 (* (* x (* (sqrt -1) (sqrt 200))) (sqrt (/ 1 (pow y 3))))) (* (sqrt (/ 1 y)) (* (sqrt -1) (sqrt 200)))))))))
#s(approx (sqrt (* (- x y) 200)) #s(hole binary64 (* -1 (* y (+ (* -1/8 (* (* (pow x 2) (* (sqrt -1) (sqrt 200))) (sqrt (/ 1 (pow y 5))))) (+ (* 1/16 (* (* (pow x 3) (* (sqrt -1) (sqrt 200))) (sqrt (/ 1 (pow y 7))))) (+ (* 1/2 (* (* x (* (sqrt -1) (sqrt 200))) (sqrt (/ 1 (pow y 3))))) (* (sqrt (/ 1 y)) (* (sqrt -1) (sqrt 200))))))))))
#s(approx (* (- x y) 200) #s(hole binary64 (* -1 (* y (+ 200 (* -200 (/ x y)))))))
#s(approx (* (* (- x y) (cbrt 40000)) (cbrt 200)) #s(hole binary64 (* -1 (* y (+ (* -1 (/ (* x (* (cbrt 200) (cbrt 40000))) y)) (* (cbrt 200) (cbrt 40000)))))))
#s(approx (* (- x y) (cbrt 40000)) #s(hole binary64 (* -1 (* y (+ (cbrt 40000) (* -1 (/ (* x (cbrt 40000)) y)))))))

Outputs
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (* -1 (* y (pow (sqrt 200) 2)))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 #s(literal -200 binary64) y))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (+ (* -1 (* y (pow (sqrt 200) 2))) (* x (pow (sqrt 200) 2)))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 (-.f64 x y) #s(literal 200 binary64)))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (* -1 (* y (sqrt 200)))))
#s(approx (* (- x y) (sqrt 200)) (*.f64 (neg.f64 y) (sqrt.f64 #s(literal 200 binary64))))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (+ (* -1 (* y (sqrt 200))) (* x (sqrt 200)))))
#s(approx (* (- x y) (sqrt 200)) (*.f64 (sqrt.f64 #s(literal 200 binary64)) (-.f64 x y)))
#s(approx (- x y) #s(hole binary64 (* -1 y)))
#s(approx (- x y) (neg.f64 y))
#s(approx (- x y) #s(hole binary64 (- x y)))
#s(approx (- x y) (-.f64 x y))
#s(approx (* 200 (- x y)) #s(hole binary64 (* -200 y)))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 #s(literal -200 binary64) y))
#s(approx (* 200 (- x y)) #s(hole binary64 (+ (* -200 y) (* 200 x))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 (-.f64 x y) #s(literal 200 binary64)))
#s(approx (* (sqrt (* (- x y) 200)) (sqrt (* (- x y) 200))) #s(hole binary64 (* -1 (* y (pow (sqrt 200) 2)))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 #s(literal -200 binary64) y))
#s(approx (* (sqrt (* (- x y) 200)) (sqrt (* (- x y) 200))) #s(hole binary64 (+ (* -1 (* y (pow (sqrt 200) 2))) (* x (pow (sqrt 200) 2)))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 (-.f64 x y) #s(literal 200 binary64)))
#s(approx (sqrt (* (- x y) 200)) #s(hole binary64 (* (sqrt y) (* (sqrt -1) (sqrt 200)))))
#s(approx (sqrt (* (- x y) 200)) (.f64 (.f64 (sqrt.f64 #s(literal -1 binary64)) (sqrt.f64 #s(literal 200 binary64))) (sqrt.f64 y)))
#s(approx (sqrt (* (- x y) 200)) #s(hole binary64 (+ (* 1/2 (* (/ (* x (sqrt 200)) (sqrt -1)) (sqrt (/ 1 y)))) (* (sqrt y) (* (sqrt -1) (sqrt 200))))))
#s(approx (sqrt (* (- x y) 200)) (fma.f64 (.f64 (sqrt.f64 y) (sqrt.f64 #s(literal 200 binary64))) (sqrt.f64 #s(literal -1 binary64)) (.f64 (.f64 (.f64 #s(literal 1/2 binary64) x) (/.f64 (sqrt.f64 #s(literal 200 binary64)) (sqrt.f64 #s(literal -1 binary64)))) (sqrt.f64 (/.f64 #s(literal 1 binary64) y)))))
#s(approx (sqrt (* (- x y) 200)) #s(hole binary64 (+ (* x (+ (* -1/8 (* (/ (* x (sqrt 200)) (pow (sqrt -1) 3)) (sqrt (/ 1 (pow y 3))))) (* 1/2 (* (sqrt (/ 1 y)) (/ (sqrt 200) (sqrt -1)))))) (* (sqrt y) (* (sqrt -1) (sqrt 200))))))
#s(approx (sqrt (* (- x y) 200)) (fma.f64 (.f64 (sqrt.f64 y) (sqrt.f64 #s(literal 200 binary64))) (sqrt.f64 #s(literal -1 binary64)) (.f64 (fma.f64 (.f64 #s(literal 1/8 binary64) (.f64 (sqrt.f64 #s(literal 200 binary64)) (/.f64 x (sqrt.f64 #s(literal -1 binary64))))) (sqrt.f64 (/.f64 #s(literal 1 binary64) (pow.f64 y #s(literal 3 binary64)))) (.f64 (.f64 #s(literal 1/2 binary64) (/.f64 (sqrt.f64 #s(literal 200 binary64)) (sqrt.f64 #s(literal -1 binary64)))) (sqrt.f64 (/.f64 #s(literal 1 binary64) y)))) x)))
#s(approx (sqrt (* (- x y) 200)) #s(hole binary64 (+ (* x (+ (* 1/2 (* (sqrt (/ 1 y)) (/ (sqrt 200) (sqrt -1)))) (* x (+ (* -1/8 (* (sqrt (/ 1 (pow y 3))) (/ (sqrt 200) (pow (sqrt -1) 3)))) (* 1/16 (* (/ (* x (sqrt 200)) (pow (sqrt -1) 5)) (sqrt (/ 1 (pow y 5))))))))) (* (sqrt y) (* (sqrt -1) (sqrt 200))))))
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#s(approx (* (- x y) 200) #s(hole binary64 (* y (- (* 200 (/ x y)) 200))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64)) y))
#s(approx (* (* (- x y) (cbrt 40000)) (cbrt 200)) #s(hole binary64 (* y (+ (* -1 (* (cbrt 200) (cbrt 40000))) (/ (* x (* (cbrt 200) (cbrt 40000))) y)))))
#s(approx (* (* (- x y) (cbrt 40000)) (cbrt 200)) (.f64 (fma.f64 (neg.f64 (cbrt.f64 #s(literal 40000 binary64))) (cbrt.f64 #s(literal 200 binary64)) (.f64 (*.f64 (cbrt.f64 #s(literal 200 binary64)) x) (/.f64 (cbrt.f64 #s(literal 40000 binary64)) y))) y))
#s(approx (* (- x y) (cbrt 40000)) #s(hole binary64 (* y (+ (* -1 (cbrt 40000)) (/ (* x (cbrt 40000)) y)))))
#s(approx (* (- x y) (cbrt 40000)) (*.f64 (fma.f64 (/.f64 (cbrt.f64 #s(literal 40000 binary64)) y) x (neg.f64 (cbrt.f64 #s(literal 40000 binary64)))) y))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (* -1 (* y (+ (* -1 (/ (* x (pow (sqrt 200) 2)) y)) (pow (sqrt 200) 2))))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64)) y))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (* -1 (* y (+ (sqrt 200) (* -1 (/ (* x (sqrt 200)) y)))))))
#s(approx (* (- x y) (sqrt 200)) (*.f64 (fma.f64 (/.f64 (sqrt.f64 #s(literal 200 binary64)) y) x (neg.f64 (sqrt.f64 #s(literal 200 binary64)))) y))
#s(approx (- x y) #s(hole binary64 (* -1 (* y (+ 1 (* -1 (/ x y)))))))
#s(approx (- x y) (fma.f64 (/.f64 x y) y (neg.f64 y)))
#s(approx (* 200 (- x y)) #s(hole binary64 (* -1 (* y (+ 200 (* -200 (/ x y)))))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64)) y))
#s(approx (* (sqrt (* (- x y) 200)) (sqrt (* (- x y) 200))) #s(hole binary64 (* -1 (* y (+ (* -1 (/ (* x (pow (sqrt 200) 2)) y)) (pow (sqrt 200) 2))))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64)) y))
#s(approx (sqrt (* (- x y) 200)) #s(hole binary64 (* -1 (* (sqrt y) (* (sqrt -1) (sqrt 200))))))
#s(approx (sqrt (* (- x y) 200)) (.f64 (neg.f64 (sqrt.f64 y)) (.f64 (sqrt.f64 #s(literal -1 binary64)) (sqrt.f64 #s(literal 200 binary64)))))
#s(approx (sqrt (* (- x y) 200)) #s(hole binary64 (* -1 (* y (+ (* 1/2 (* (* x (* (sqrt -1) (sqrt 200))) (sqrt (/ 1 (pow y 3))))) (* (sqrt (/ 1 y)) (* (sqrt -1) (sqrt 200))))))))
#s(approx (sqrt (* (- x y) 200)) (.f64 (fma.f64 (.f64 (sqrt.f64 (/.f64 #s(literal 1 binary64) y)) (sqrt.f64 #s(literal 200 binary64))) (sqrt.f64 #s(literal -1 binary64)) (.f64 (.f64 (.f64 #s(literal 1/2 binary64) (.f64 (sqrt.f64 #s(literal -1 binary64)) x)) (sqrt.f64 #s(literal 200 binary64))) (sqrt.f64 (/.f64 #s(literal 1 binary64) (pow.f64 y #s(literal 3 binary64)))))) (neg.f64 y)))
#s(approx (sqrt (* (- x y) 200)) #s(hole binary64 (* -1 (* y (+ (* -1/8 (* (* (pow x 2) (* (sqrt -1) (sqrt 200))) (sqrt (/ 1 (pow y 5))))) (+ (* 1/2 (* (* x (* (sqrt -1) (sqrt 200))) (sqrt (/ 1 (pow y 3))))) (* (sqrt (/ 1 y)) (* (sqrt -1) (sqrt 200)))))))))
#s(approx (sqrt (* (- x y) 200)) (.f64 (fma.f64 (.f64 (.f64 #s(literal -1/8 binary64) (.f64 x (.f64 (sqrt.f64 #s(literal -1 binary64)) x))) (sqrt.f64 #s(literal 200 binary64))) (sqrt.f64 (/.f64 #s(literal 1 binary64) (pow.f64 y #s(literal 5 binary64)))) (fma.f64 (.f64 (sqrt.f64 (/.f64 #s(literal 1 binary64) y)) (sqrt.f64 #s(literal 200 binary64))) (sqrt.f64 #s(literal -1 binary64)) (.f64 (.f64 (.f64 #s(literal 1/2 binary64) (.f64 (sqrt.f64 #s(literal -1 binary64)) x)) (sqrt.f64 #s(literal 200 binary64))) (sqrt.f64 (/.f64 #s(literal 1 binary64) (pow.f64 y #s(literal 3 binary64))))))) (neg.f64 y)))
#s(approx (sqrt (* (- x y) 200)) #s(hole binary64 (* -1 (* y (+ (* -1/8 (* (* (pow x 2) (* (sqrt -1) (sqrt 200))) (sqrt (/ 1 (pow y 5))))) (+ (* 1/16 (* (* (pow x 3) (* (sqrt -1) (sqrt 200))) (sqrt (/ 1 (pow y 7))))) (+ (* 1/2 (* (* x (* (sqrt -1) (sqrt 200))) (sqrt (/ 1 (pow y 3))))) (* (sqrt (/ 1 y)) (* (sqrt -1) (sqrt 200))))))))))
#s(approx (sqrt (* (- x y) 200)) (.f64 (fma.f64 (.f64 (.f64 #s(literal 1/16 binary64) (pow.f64 x #s(literal 3 binary64))) (.f64 (sqrt.f64 #s(literal -1 binary64)) (sqrt.f64 #s(literal 200 binary64)))) (sqrt.f64 (/.f64 #s(literal 1 binary64) (pow.f64 y #s(literal 7 binary64)))) (fma.f64 (.f64 (.f64 #s(literal -1/8 binary64) (.f64 x (.f64 (sqrt.f64 #s(literal -1 binary64)) x))) (sqrt.f64 #s(literal 200 binary64))) (sqrt.f64 (/.f64 #s(literal 1 binary64) (pow.f64 y #s(literal 5 binary64)))) (fma.f64 (.f64 (sqrt.f64 (/.f64 #s(literal 1 binary64) y)) (sqrt.f64 #s(literal 200 binary64))) (sqrt.f64 #s(literal -1 binary64)) (.f64 (.f64 (.f64 #s(literal 1/2 binary64) (*.f64 (sqrt.f64 #s(literal -1 binary64)) x)) (sqrt.f64 #s(literal 200 binary64))) (sqrt.f64 (/.f64 #s(literal 1 binary64) (pow.f64 y #s(literal 3 binary64)))))))) (neg.f64 y)))
#s(approx (* (- x y) 200) #s(hole binary64 (* -1 (* y (+ 200 (* -200 (/ x y)))))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64)) y))
#s(approx (* (* (- x y) (cbrt 40000)) (cbrt 200)) #s(hole binary64 (* -1 (* y (+ (* -1 (/ (* x (* (cbrt 200) (cbrt 40000))) y)) (* (cbrt 200) (cbrt 40000)))))))
#s(approx (* (* (- x y) (cbrt 40000)) (cbrt 200)) (.f64 (fma.f64 (neg.f64 (cbrt.f64 #s(literal 40000 binary64))) (cbrt.f64 #s(literal 200 binary64)) (.f64 (*.f64 (cbrt.f64 #s(literal 200 binary64)) x) (/.f64 (cbrt.f64 #s(literal 40000 binary64)) y))) y))
#s(approx (* (- x y) (cbrt 40000)) #s(hole binary64 (* -1 (* y (+ (cbrt 40000) (* -1 (/ (* x (cbrt 40000)) y)))))))
#s(approx (* (- x y) (cbrt 40000)) (*.f64 (fma.f64 (/.f64 (cbrt.f64 #s(literal 40000 binary64)) y) x (neg.f64 (cbrt.f64 #s(literal 40000 binary64)))) y))

rewrite48.0ms (1.5%)

Memory

-23.1MiB live, 79.3MiB allocated; 10ms collecting garbage

Iterations

Useful iterations: 0 (0.0ms)

Iter	Nodes	Cost
0	22	87
0	36	75
0	340	75

Stop Event

1×	iter limit
1×	iter limit
1×	iter limit
1×	unsound
1×	iter limit

Counts

15 → 137

Calls

Call 1

Inputs
(.f64 (.f64 (-.f64 x y) (sqrt.f64 #s(literal 200 binary64))) (sqrt.f64 #s(literal 200 binary64)))
(*.f64 (-.f64 x y) (sqrt.f64 #s(literal 200 binary64)))
(-.f64 x y)
(sqrt.f64 #s(literal 200 binary64))
#s(approx (* 200 (- x y)) (*.f64 #s(literal -200 binary64) y))
(*.f64 #s(literal -200 binary64) y)
(*.f64 #s(literal 200 binary64) #s(approx (- x y) x))
#s(approx (- x y) x)
(.f64 (sqrt.f64 (.f64 (-.f64 x y) #s(literal 200 binary64))) (sqrt.f64 (*.f64 (-.f64 x y) #s(literal 200 binary64))))
(sqrt.f64 (*.f64 (-.f64 x y) #s(literal 200 binary64)))
(*.f64 (-.f64 x y) #s(literal 200 binary64))
(.f64 (.f64 (-.f64 x y) (cbrt.f64 #s(literal 40000 binary64))) (cbrt.f64 #s(literal 200 binary64)))
(*.f64 (-.f64 x y) (cbrt.f64 #s(literal 40000 binary64)))
(cbrt.f64 #s(literal 40000 binary64))
(cbrt.f64 #s(literal 200 binary64))

Outputs
(.f64 (neg.f64 (sqrt.f64 (.f64 #s(literal 200 binary64) (-.f64 x y)))) (neg.f64 (sqrt.f64 (*.f64 #s(literal 200 binary64) (-.f64 x y)))))
(.f64 (fabs.f64 (sqrt.f64 (.f64 #s(literal 200 binary64) (-.f64 x y)))) (fabs.f64 (sqrt.f64 (*.f64 #s(literal 200 binary64) (-.f64 x y)))))
(.f64 (.f64 (cbrt.f64 (.f64 #s(literal 200 binary64) (-.f64 x y))) (cbrt.f64 (.f64 #s(literal 200 binary64) (-.f64 x y)))) (cbrt.f64 (*.f64 #s(literal 200 binary64) (-.f64 x y))))
(.f64 (sqrt.f64 (.f64 #s(literal 200 binary64) (-.f64 x y))) (sqrt.f64 (*.f64 #s(literal 200 binary64) (-.f64 x y))))
(.f64 (.f64 (sqrt.f64 #s(literal 200 binary64)) (-.f64 x y)) (sqrt.f64 #s(literal 200 binary64)))
(.f64 (sqrt.f64 #s(literal 200 binary64)) (.f64 (sqrt.f64 #s(literal 200 binary64)) (-.f64 x y)))
(*.f64 #s(literal 200 binary64) (-.f64 x y))
(*.f64 (-.f64 x y) #s(literal 200 binary64))
(pow.f64 (sqrt.f64 (*.f64 #s(literal 200 binary64) (-.f64 x y))) #s(literal 2 binary64))
(pow.f64 (*.f64 #s(literal 200 binary64) (-.f64 x y)) #s(literal 1 binary64))
(cbrt.f64 (.f64 (.f64 (.f64 #s(literal 200 binary64) (-.f64 x y)) (.f64 #s(literal 200 binary64) (-.f64 x y))) (*.f64 #s(literal 200 binary64) (-.f64 x y))))
(sqrt.f64 (.f64 (.f64 #s(literal 200 binary64) (-.f64 x y)) (*.f64 #s(literal 200 binary64) (-.f64 x y))))
(exp.f64 (log.f64 (*.f64 #s(literal 200 binary64) (-.f64 x y))))
(log.f64 (exp.f64 (*.f64 #s(literal 200 binary64) (-.f64 x y))))
(.f64 (sqrt.f64 (.f64 (sqrt.f64 #s(literal 200 binary64)) (-.f64 x y))) (sqrt.f64 (*.f64 (sqrt.f64 #s(literal 200 binary64)) (-.f64 x y))))
(.f64 (.f64 (cbrt.f64 (.f64 (sqrt.f64 #s(literal 200 binary64)) (-.f64 x y))) (cbrt.f64 (.f64 (sqrt.f64 #s(literal 200 binary64)) (-.f64 x y)))) (cbrt.f64 (*.f64 (sqrt.f64 #s(literal 200 binary64)) (-.f64 x y))))
(*.f64 (sqrt.f64 #s(literal 200 binary64)) (-.f64 x y))
(*.f64 (-.f64 x y) (sqrt.f64 #s(literal 200 binary64)))
(pow.f64 (*.f64 (sqrt.f64 #s(literal 200 binary64)) (-.f64 x y)) #s(literal 1 binary64))
(cbrt.f64 (.f64 (.f64 (.f64 (sqrt.f64 #s(literal 200 binary64)) (-.f64 x y)) (.f64 (sqrt.f64 #s(literal 200 binary64)) (-.f64 x y))) (*.f64 (sqrt.f64 #s(literal 200 binary64)) (-.f64 x y))))
(exp.f64 (log.f64 (*.f64 (sqrt.f64 #s(literal 200 binary64)) (-.f64 x y))))
(log.f64 (exp.f64 (*.f64 (sqrt.f64 #s(literal 200 binary64)) (-.f64 x y))))
(*.f64 (sqrt.f64 (-.f64 x y)) (sqrt.f64 (-.f64 x y)))
(.f64 (.f64 (cbrt.f64 (-.f64 x y)) (cbrt.f64 (-.f64 x y))) (cbrt.f64 (-.f64 x y)))
(pow.f64 (-.f64 x y) #s(literal 1 binary64))
(/.f64 (-.f64 (.f64 x x) (.f64 y y)) (+.f64 x y))
(/.f64 (-.f64 (pow.f64 x #s(literal 3 binary64)) (pow.f64 y #s(literal 3 binary64))) (fma.f64 x x (fma.f64 y y (*.f64 x y))))
(cbrt.f64 (.f64 (.f64 (-.f64 x y) (-.f64 x y)) (-.f64 x y)))
(-.f64 x y)
(exp.f64 (log.f64 (-.f64 x y)))
(log.f64 (exp.f64 (-.f64 x y)))
(*.f64 (sqrt.f64 (sqrt.f64 #s(literal 200 binary64))) (sqrt.f64 (sqrt.f64 #s(literal 200 binary64))))
(.f64 (.f64 (cbrt.f64 (sqrt.f64 #s(literal 200 binary64))) (cbrt.f64 (sqrt.f64 #s(literal 200 binary64)))) (cbrt.f64 (sqrt.f64 #s(literal 200 binary64))))
(pow.f64 (sqrt.f64 #s(literal 200 binary64)) #s(literal 1 binary64))
(pow.f64 #s(literal 200 binary64) #s(literal 1/2 binary64))
(cbrt.f64 (*.f64 #s(literal 200 binary64) (sqrt.f64 #s(literal 200 binary64))))
(sqrt.f64 #s(literal 200 binary64))
(exp.f64 (log.f64 (sqrt.f64 #s(literal 200 binary64))))
(log.f64 (exp.f64 (sqrt.f64 #s(literal 200 binary64))))
(.f64 (sqrt.f64 #s(approx ( 200 (- x y)) (.f64 #s(literal -200 binary64) y))) (sqrt.f64 #s(approx ( 200 (- x y)) (*.f64 #s(literal -200 binary64) y))))
(.f64 (.f64 (cbrt.f64 #s(approx (* 200 (- x y)) (.f64 #s(literal -200 binary64) y))) (cbrt.f64 #s(approx ( 200 (- x y)) (.f64 #s(literal -200 binary64) y)))) (cbrt.f64 #s(approx ( 200 (- x y)) (*.f64 #s(literal -200 binary64) y))))
(pow.f64 #s(approx (* 200 (- x y)) (*.f64 #s(literal -200 binary64) y)) #s(literal 1 binary64))
#s(approx (* 200 (- x y)) (*.f64 #s(literal -200 binary64) y))
(cbrt.f64 (.f64 (.f64 #s(approx (* 200 (- x y)) (.f64 #s(literal -200 binary64) y)) #s(approx ( 200 (- x y)) (.f64 #s(literal -200 binary64) y))) #s(approx ( 200 (- x y)) (*.f64 #s(literal -200 binary64) y))))
(exp.f64 (log.f64 #s(approx (* 200 (- x y)) (*.f64 #s(literal -200 binary64) y))))
(log.f64 (exp.f64 #s(approx (* 200 (- x y)) (*.f64 #s(literal -200 binary64) y))))
(.f64 (sqrt.f64 (.f64 #s(literal -200 binary64) y)) (sqrt.f64 (*.f64 #s(literal -200 binary64) y)))
(.f64 (.f64 (cbrt.f64 (.f64 #s(literal -200 binary64) y)) (cbrt.f64 (.f64 #s(literal -200 binary64) y))) (cbrt.f64 (*.f64 #s(literal -200 binary64) y)))
(*.f64 #s(literal -200 binary64) y)
(*.f64 y #s(literal -200 binary64))
(pow.f64 (*.f64 #s(literal -200 binary64) y) #s(literal 1 binary64))
(cbrt.f64 (.f64 (.f64 (.f64 #s(literal -200 binary64) y) (.f64 #s(literal -200 binary64) y)) (*.f64 #s(literal -200 binary64) y)))
(exp.f64 (log.f64 (*.f64 #s(literal -200 binary64) y)))
(log.f64 (exp.f64 (*.f64 #s(literal -200 binary64) y)))
(.f64 (sqrt.f64 (.f64 #s(approx (- x y) x) #s(literal 200 binary64))) (sqrt.f64 (*.f64 #s(approx (- x y) x) #s(literal 200 binary64))))
(.f64 (.f64 (cbrt.f64 (.f64 #s(approx (- x y) x) #s(literal 200 binary64))) (cbrt.f64 (.f64 #s(approx (- x y) x) #s(literal 200 binary64)))) (cbrt.f64 (*.f64 #s(approx (- x y) x) #s(literal 200 binary64))))
(*.f64 #s(approx (- x y) x) #s(literal 200 binary64))
(*.f64 #s(literal 200 binary64) #s(approx (- x y) x))
(pow.f64 (*.f64 #s(approx (- x y) x) #s(literal 200 binary64)) #s(literal 1 binary64))
(cbrt.f64 (.f64 (.f64 (.f64 #s(approx (- x y) x) #s(literal 200 binary64)) (.f64 #s(approx (- x y) x) #s(literal 200 binary64))) (*.f64 #s(approx (- x y) x) #s(literal 200 binary64))))
(exp.f64 (log.f64 (*.f64 #s(approx (- x y) x) #s(literal 200 binary64))))
(log.f64 (exp.f64 (*.f64 #s(approx (- x y) x) #s(literal 200 binary64))))
(*.f64 (sqrt.f64 #s(approx (- x y) x)) (sqrt.f64 #s(approx (- x y) x)))
(.f64 (.f64 (cbrt.f64 #s(approx (- x y) x)) (cbrt.f64 #s(approx (- x y) x))) (cbrt.f64 #s(approx (- x y) x)))
(pow.f64 #s(approx (- x y) x) #s(literal 1 binary64))
#s(approx (- x y) x)
(cbrt.f64 (.f64 (.f64 #s(approx (- x y) x) #s(approx (- x y) x)) #s(approx (- x y) x)))
(exp.f64 (log.f64 #s(approx (- x y) x)))
(log.f64 (exp.f64 #s(approx (- x y) x)))
(.f64 (neg.f64 (sqrt.f64 (.f64 #s(literal 200 binary64) (-.f64 x y)))) (neg.f64 (sqrt.f64 (*.f64 #s(literal 200 binary64) (-.f64 x y)))))
(.f64 (fabs.f64 (sqrt.f64 (.f64 #s(literal 200 binary64) (-.f64 x y)))) (fabs.f64 (sqrt.f64 (*.f64 #s(literal 200 binary64) (-.f64 x y)))))
(.f64 (.f64 (cbrt.f64 (.f64 #s(literal 200 binary64) (-.f64 x y))) (cbrt.f64 (.f64 #s(literal 200 binary64) (-.f64 x y)))) (cbrt.f64 (*.f64 #s(literal 200 binary64) (-.f64 x y))))
(.f64 (sqrt.f64 (.f64 #s(literal 200 binary64) (-.f64 x y))) (sqrt.f64 (*.f64 #s(literal 200 binary64) (-.f64 x y))))
(.f64 (.f64 (sqrt.f64 #s(literal 200 binary64)) (-.f64 x y)) (sqrt.f64 #s(literal 200 binary64)))
(.f64 (sqrt.f64 #s(literal 200 binary64)) (.f64 (sqrt.f64 #s(literal 200 binary64)) (-.f64 x y)))
(*.f64 #s(literal 200 binary64) (-.f64 x y))
(*.f64 (-.f64 x y) #s(literal 200 binary64))
(pow.f64 (sqrt.f64 (*.f64 #s(literal 200 binary64) (-.f64 x y))) #s(literal 2 binary64))
(pow.f64 (*.f64 #s(literal 200 binary64) (-.f64 x y)) #s(literal 1 binary64))
(cbrt.f64 (.f64 (.f64 (.f64 #s(literal 200 binary64) (-.f64 x y)) (.f64 #s(literal 200 binary64) (-.f64 x y))) (*.f64 #s(literal 200 binary64) (-.f64 x y))))
(sqrt.f64 (.f64 (.f64 #s(literal 200 binary64) (-.f64 x y)) (*.f64 #s(literal 200 binary64) (-.f64 x y))))
(exp.f64 (log.f64 (*.f64 #s(literal 200 binary64) (-.f64 x y))))
(log.f64 (exp.f64 (*.f64 #s(literal 200 binary64) (-.f64 x y))))
(.f64 (sqrt.f64 (sqrt.f64 (.f64 #s(literal 200 binary64) (-.f64 x y)))) (sqrt.f64 (sqrt.f64 (*.f64 #s(literal 200 binary64) (-.f64 x y)))))
(*.f64 (sqrt.f64 (-.f64 x y)) (sqrt.f64 #s(literal 200 binary64)))
(.f64 (.f64 (cbrt.f64 (sqrt.f64 (.f64 #s(literal 200 binary64) (-.f64 x y)))) (cbrt.f64 (sqrt.f64 (.f64 #s(literal 200 binary64) (-.f64 x y))))) (cbrt.f64 (sqrt.f64 (*.f64 #s(literal 200 binary64) (-.f64 x y)))))
(pow.f64 (sqrt.f64 (*.f64 #s(literal 200 binary64) (-.f64 x y))) #s(literal 1 binary64))
(pow.f64 (*.f64 #s(literal 200 binary64) (-.f64 x y)) #s(literal 1/2 binary64))
(cbrt.f64 (.f64 (.f64 #s(literal 200 binary64) (-.f64 x y)) (sqrt.f64 (*.f64 #s(literal 200 binary64) (-.f64 x y)))))
(sqrt.f64 (*.f64 #s(literal 200 binary64) (-.f64 x y)))
(exp.f64 (log.f64 (sqrt.f64 (*.f64 #s(literal 200 binary64) (-.f64 x y)))))
(log.f64 (exp.f64 (sqrt.f64 (*.f64 #s(literal 200 binary64) (-.f64 x y)))))
(.f64 (neg.f64 (sqrt.f64 (.f64 #s(literal 200 binary64) (-.f64 x y)))) (neg.f64 (sqrt.f64 (*.f64 #s(literal 200 binary64) (-.f64 x y)))))
(.f64 (fabs.f64 (sqrt.f64 (.f64 #s(literal 200 binary64) (-.f64 x y)))) (fabs.f64 (sqrt.f64 (*.f64 #s(literal 200 binary64) (-.f64 x y)))))
(.f64 (.f64 (cbrt.f64 (.f64 #s(literal 200 binary64) (-.f64 x y))) (cbrt.f64 (.f64 #s(literal 200 binary64) (-.f64 x y)))) (cbrt.f64 (*.f64 #s(literal 200 binary64) (-.f64 x y))))
(.f64 (sqrt.f64 (.f64 #s(literal 200 binary64) (-.f64 x y))) (sqrt.f64 (*.f64 #s(literal 200 binary64) (-.f64 x y))))
(.f64 (.f64 (sqrt.f64 #s(literal 200 binary64)) (-.f64 x y)) (sqrt.f64 #s(literal 200 binary64)))
(.f64 (sqrt.f64 #s(literal 200 binary64)) (.f64 (sqrt.f64 #s(literal 200 binary64)) (-.f64 x y)))
(*.f64 #s(literal 200 binary64) (-.f64 x y))
(*.f64 (-.f64 x y) #s(literal 200 binary64))
(pow.f64 (sqrt.f64 (*.f64 #s(literal 200 binary64) (-.f64 x y))) #s(literal 2 binary64))
(pow.f64 (*.f64 #s(literal 200 binary64) (-.f64 x y)) #s(literal 1 binary64))
(cbrt.f64 (.f64 (.f64 (.f64 #s(literal 200 binary64) (-.f64 x y)) (.f64 #s(literal 200 binary64) (-.f64 x y))) (*.f64 #s(literal 200 binary64) (-.f64 x y))))
(sqrt.f64 (.f64 (.f64 #s(literal 200 binary64) (-.f64 x y)) (*.f64 #s(literal 200 binary64) (-.f64 x y))))
(exp.f64 (log.f64 (*.f64 #s(literal 200 binary64) (-.f64 x y))))
(log.f64 (exp.f64 (*.f64 #s(literal 200 binary64) (-.f64 x y))))
(.f64 (sqrt.f64 (.f64 (cbrt.f64 #s(literal 200 binary64)) (.f64 (cbrt.f64 #s(literal 40000 binary64)) (-.f64 x y)))) (sqrt.f64 (.f64 (cbrt.f64 #s(literal 200 binary64)) (*.f64 (cbrt.f64 #s(literal 40000 binary64)) (-.f64 x y)))))
(.f64 (.f64 (cbrt.f64 (.f64 (cbrt.f64 #s(literal 200 binary64)) (.f64 (cbrt.f64 #s(literal 40000 binary64)) (-.f64 x y)))) (cbrt.f64 (.f64 (cbrt.f64 #s(literal 200 binary64)) (.f64 (cbrt.f64 #s(literal 40000 binary64)) (-.f64 x y))))) (cbrt.f64 (.f64 (cbrt.f64 #s(literal 200 binary64)) (.f64 (cbrt.f64 #s(literal 40000 binary64)) (-.f64 x y)))))
(.f64 (cbrt.f64 #s(literal 200 binary64)) (.f64 (cbrt.f64 #s(literal 40000 binary64)) (-.f64 x y)))
(.f64 (.f64 (cbrt.f64 #s(literal 40000 binary64)) (-.f64 x y)) (cbrt.f64 #s(literal 200 binary64)))
(.f64 (-.f64 x y) (.f64 (cbrt.f64 #s(literal 40000 binary64)) (cbrt.f64 #s(literal 200 binary64))))
(pow.f64 (.f64 (cbrt.f64 #s(literal 200 binary64)) (.f64 (cbrt.f64 #s(literal 40000 binary64)) (-.f64 x y))) #s(literal 1 binary64))
(cbrt.f64 (.f64 (.f64 (.f64 (cbrt.f64 #s(literal 200 binary64)) (.f64 (cbrt.f64 #s(literal 40000 binary64)) (-.f64 x y))) (.f64 (cbrt.f64 #s(literal 200 binary64)) (.f64 (cbrt.f64 #s(literal 40000 binary64)) (-.f64 x y)))) (.f64 (cbrt.f64 #s(literal 200 binary64)) (.f64 (cbrt.f64 #s(literal 40000 binary64)) (-.f64 x y)))))
(exp.f64 (log.f64 (.f64 (cbrt.f64 #s(literal 200 binary64)) (.f64 (cbrt.f64 #s(literal 40000 binary64)) (-.f64 x y)))))
(log.f64 (exp.f64 (.f64 (cbrt.f64 #s(literal 200 binary64)) (.f64 (cbrt.f64 #s(literal 40000 binary64)) (-.f64 x y)))))
(.f64 (sqrt.f64 (.f64 (cbrt.f64 #s(literal 40000 binary64)) (-.f64 x y))) (sqrt.f64 (*.f64 (cbrt.f64 #s(literal 40000 binary64)) (-.f64 x y))))
(.f64 (.f64 (cbrt.f64 (.f64 (cbrt.f64 #s(literal 40000 binary64)) (-.f64 x y))) (cbrt.f64 (.f64 (cbrt.f64 #s(literal 40000 binary64)) (-.f64 x y)))) (cbrt.f64 (*.f64 (cbrt.f64 #s(literal 40000 binary64)) (-.f64 x y))))
(*.f64 (cbrt.f64 #s(literal 40000 binary64)) (-.f64 x y))
(*.f64 (-.f64 x y) (cbrt.f64 #s(literal 40000 binary64)))
(pow.f64 (*.f64 (cbrt.f64 #s(literal 40000 binary64)) (-.f64 x y)) #s(literal 1 binary64))
(cbrt.f64 (.f64 (.f64 (.f64 (cbrt.f64 #s(literal 40000 binary64)) (-.f64 x y)) (.f64 (cbrt.f64 #s(literal 40000 binary64)) (-.f64 x y))) (*.f64 (cbrt.f64 #s(literal 40000 binary64)) (-.f64 x y))))
(exp.f64 (log.f64 (*.f64 (cbrt.f64 #s(literal 40000 binary64)) (-.f64 x y))))
(log.f64 (exp.f64 (*.f64 (cbrt.f64 #s(literal 40000 binary64)) (-.f64 x y))))
(*.f64 (sqrt.f64 (cbrt.f64 #s(literal 40000 binary64))) (sqrt.f64 (cbrt.f64 #s(literal 40000 binary64))))
(.f64 (.f64 (cbrt.f64 (cbrt.f64 #s(literal 40000 binary64))) (cbrt.f64 (cbrt.f64 #s(literal 40000 binary64)))) (cbrt.f64 (cbrt.f64 #s(literal 40000 binary64))))
(pow.f64 (cbrt.f64 #s(literal 40000 binary64)) #s(literal 1 binary64))
(pow.f64 #s(literal 40000 binary64) #s(literal 1/3 binary64))
(cbrt.f64 #s(literal 40000 binary64))
(exp.f64 (log.f64 (cbrt.f64 #s(literal 40000 binary64))))
(log.f64 (exp.f64 (cbrt.f64 #s(literal 40000 binary64))))
(*.f64 (sqrt.f64 (cbrt.f64 #s(literal 200 binary64))) (sqrt.f64 (cbrt.f64 #s(literal 200 binary64))))
(.f64 (.f64 (cbrt.f64 (cbrt.f64 #s(literal 200 binary64))) (cbrt.f64 (cbrt.f64 #s(literal 200 binary64)))) (cbrt.f64 (cbrt.f64 #s(literal 200 binary64))))
(pow.f64 (cbrt.f64 #s(literal 200 binary64)) #s(literal 1 binary64))
(pow.f64 #s(literal 200 binary64) #s(literal 1/3 binary64))
(cbrt.f64 #s(literal 200 binary64))
(exp.f64 (log.f64 (cbrt.f64 #s(literal 200 binary64))))
(log.f64 (exp.f64 (cbrt.f64 #s(literal 200 binary64))))

eval25.0ms (0.8%)

Memory: 18.0MiB live, 63.3MiB allocated; 5ms collecting garbage
Compiler: Compiled 5 158 to 713 computations (86.2% saved)

prune10.0ms (0.3%)

Memory

-19.1MiB live, 26.9MiB allocated; 4ms collecting garbage

Pruning

10 alts after pruning (5 fresh and 5 done)

	Pruned	Kept	Total
New	236	5	241
Fresh	1	0	1
Picked	1	4	5
Done	0	1	1
Total	238	10	248

Accuracy

100.0%

Counts

248 → 10

Alt Table

Click to see full alt table

Status	Accuracy	Program
✓	99.2%	(.f64 (.f64 (-.f64 x y) (sqrt.f64 #s(literal 200 binary64))) (sqrt.f64 #s(literal 200 binary64)))
▶	99.5%	(.f64 (.f64 (-.f64 x y) (sqrt.f64 #s(literal 200 binary64))) (cbrt.f64 (*.f64 #s(literal 200 binary64) (sqrt.f64 #s(literal 200 binary64)))))
▶	50.3%	(.f64 (.f64 #s(approx (- x y) (neg.f64 y)) (cbrt.f64 #s(literal 40000 binary64))) (cbrt.f64 #s(literal 200 binary64)))
▶	49.7%	(.f64 (.f64 #s(approx (- x y) x) (sqrt.f64 #s(literal 200 binary64))) (sqrt.f64 #s(literal 200 binary64)))
✓	43.3%	(.f64 (sqrt.f64 (.f64 (-.f64 x y) #s(literal 200 binary64))) (sqrt.f64 (*.f64 (-.f64 x y) #s(literal 200 binary64))))
✓	100.0%	(*.f64 #s(literal 200 binary64) (-.f64 x y))
✓	50.1%	(*.f64 #s(literal 200 binary64) #s(approx (- x y) x))
▶	89.1%	#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64)) y))
▶	87.3%	#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64)) x))
✓	50.7%	#s(approx (* 200 (- x y)) (*.f64 #s(literal -200 binary64) y))

Compiler

Compiled 185 to 141 computations (23.8% saved)

simplify346.0ms (10.5%)

Memory

-8.1MiB live, 237.4MiB allocated; 153ms collecting garbage

Localize:

Found 20 expressions of interest:

New	Metric	Score
cost-diff	0	(neg.f64 y)
cost-diff	0	#s(approx (- x y) (neg.f64 y))
cost-diff	0	(*.f64 #s(approx (- x y) (neg.f64 y)) (cbrt.f64 #s(literal 40000 binary64)))
cost-diff	0	(.f64 (.f64 #s(approx (- x y) (neg.f64 y)) (cbrt.f64 #s(literal 40000 binary64))) (cbrt.f64 #s(literal 200 binary64)))
cost-diff	0	(sqrt.f64 #s(literal 200 binary64))
cost-diff	0	#s(approx (- x y) x)
cost-diff	0	(*.f64 #s(approx (- x y) x) (sqrt.f64 #s(literal 200 binary64)))
cost-diff	4	(.f64 (.f64 #s(approx (- x y) x) (sqrt.f64 #s(literal 200 binary64))) (sqrt.f64 #s(literal 200 binary64)))
cost-diff	0	(/.f64 #s(literal 200 binary64) y)
cost-diff	0	(fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64))
cost-diff	0	#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64)) y))
cost-diff	3	(*.f64 (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64)) y)
cost-diff	0	(/.f64 #s(literal -200 binary64) x)
cost-diff	0	(fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64))
cost-diff	0	#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64)) x))
cost-diff	3	(*.f64 (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64)) x)
cost-diff	0	(-.f64 x y)
cost-diff	0	(*.f64 (-.f64 x y) (sqrt.f64 #s(literal 200 binary64)))
cost-diff	3	(cbrt.f64 (*.f64 #s(literal 200 binary64) (sqrt.f64 #s(literal 200 binary64))))
cost-diff	4	(.f64 (.f64 (-.f64 x y) (sqrt.f64 #s(literal 200 binary64))) (cbrt.f64 (*.f64 #s(literal 200 binary64) (sqrt.f64 #s(literal 200 binary64)))))

Iterations

Useful iterations: 5 (0.0ms)

Iter	Nodes	Cost
0	32	177
0	54	182
1	79	170
2	136	170
3	268	149
4	640	147
5	1512	143
6	3737	143
7	7857	143
0	8172	143

Stop Event

1×	iter limit
1×	node limit
1×	iter limit

Calls

Call 1

Inputs
(.f64 (.f64 (-.f64 x y) (sqrt.f64 #s(literal 200 binary64))) (cbrt.f64 (*.f64 #s(literal 200 binary64) (sqrt.f64 #s(literal 200 binary64)))))
(*.f64 (-.f64 x y) (sqrt.f64 #s(literal 200 binary64)))
(-.f64 x y)
x
y
(sqrt.f64 #s(literal 200 binary64))
#s(literal 200 binary64)
(cbrt.f64 (*.f64 #s(literal 200 binary64) (sqrt.f64 #s(literal 200 binary64))))
(*.f64 #s(literal 200 binary64) (sqrt.f64 #s(literal 200 binary64)))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64)) x))
(*.f64 (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64)) x)
(fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64))
(/.f64 #s(literal -200 binary64) x)
#s(literal -200 binary64)
x
y
#s(literal 200 binary64)
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64)) y))
(*.f64 (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64)) y)
(fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64))
(/.f64 #s(literal 200 binary64) y)
#s(literal 200 binary64)
y
x
#s(literal -200 binary64)
(.f64 (.f64 #s(approx (- x y) x) (sqrt.f64 #s(literal 200 binary64))) (sqrt.f64 #s(literal 200 binary64)))
(*.f64 #s(approx (- x y) x) (sqrt.f64 #s(literal 200 binary64)))
#s(approx (- x y) x)
x
(sqrt.f64 #s(literal 200 binary64))
#s(literal 200 binary64)
(.f64 (.f64 #s(approx (- x y) (neg.f64 y)) (cbrt.f64 #s(literal 40000 binary64))) (cbrt.f64 #s(literal 200 binary64)))
(*.f64 #s(approx (- x y) (neg.f64 y)) (cbrt.f64 #s(literal 40000 binary64)))
#s(approx (- x y) (neg.f64 y))
(neg.f64 y)
y
(cbrt.f64 #s(literal 40000 binary64))
#s(literal 40000 binary64)
(cbrt.f64 #s(literal 200 binary64))
#s(literal 200 binary64)

Outputs
(.f64 (.f64 (-.f64 x y) (sqrt.f64 #s(literal 200 binary64))) (cbrt.f64 (*.f64 #s(literal 200 binary64) (sqrt.f64 #s(literal 200 binary64)))))
(*.f64 (-.f64 x y) #s(literal 200 binary64))
(*.f64 (-.f64 x y) (sqrt.f64 #s(literal 200 binary64)))
(-.f64 x y)
x
y
(sqrt.f64 #s(literal 200 binary64))
#s(literal 200 binary64)
(cbrt.f64 (*.f64 #s(literal 200 binary64) (sqrt.f64 #s(literal 200 binary64))))
(sqrt.f64 #s(literal 200 binary64))
(*.f64 #s(literal 200 binary64) (sqrt.f64 #s(literal 200 binary64)))
(*.f64 (sqrt.f64 #s(literal 200 binary64)) #s(literal 200 binary64))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64)) x))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 (-.f64 x y) #s(literal 200 binary64)))
(*.f64 (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64)) x)
(*.f64 (-.f64 x y) #s(literal 200 binary64))
(fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64))
(/.f64 #s(literal -200 binary64) x)
#s(literal -200 binary64)
x
y
#s(literal 200 binary64)
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64)) y))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 (-.f64 x y) #s(literal 200 binary64)))
(*.f64 (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64)) y)
(*.f64 (-.f64 x y) #s(literal 200 binary64))
(fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64))
(/.f64 #s(literal 200 binary64) y)
#s(literal 200 binary64)
y
x
#s(literal -200 binary64)
(.f64 (.f64 #s(approx (- x y) x) (sqrt.f64 #s(literal 200 binary64))) (sqrt.f64 #s(literal 200 binary64)))
(*.f64 #s(approx (- x y) x) #s(literal 200 binary64))
(*.f64 #s(approx (- x y) x) (sqrt.f64 #s(literal 200 binary64)))
#s(approx (- x y) x)
x
(sqrt.f64 #s(literal 200 binary64))
#s(literal 200 binary64)
(.f64 (.f64 #s(approx (- x y) (neg.f64 y)) (cbrt.f64 #s(literal 40000 binary64))) (cbrt.f64 #s(literal 200 binary64)))
(.f64 (cbrt.f64 #s(literal 200 binary64)) (.f64 (cbrt.f64 #s(literal 40000 binary64)) #s(approx (- x y) (neg.f64 y))))
(*.f64 #s(approx (- x y) (neg.f64 y)) (cbrt.f64 #s(literal 40000 binary64)))
(*.f64 (cbrt.f64 #s(literal 40000 binary64)) #s(approx (- x y) (neg.f64 y)))
#s(approx (- x y) (neg.f64 y))
(neg.f64 y)
y
(cbrt.f64 #s(literal 40000 binary64))
#s(literal 40000 binary64)
(cbrt.f64 #s(literal 200 binary64))
#s(literal 200 binary64)

localize101.0ms (3.1%)

Memory

-2.0MiB live, 194.9MiB allocated; 29ms collecting garbage

Localize:

Found 20 expressions of interest:

New	Metric	Score
accuracy	0.0	(cbrt.f64 #s(literal 200 binary64))
accuracy	0.296875	(.f64 (.f64 #s(approx (- x y) (neg.f64 y)) (cbrt.f64 #s(literal 40000 binary64))) (cbrt.f64 #s(literal 200 binary64)))
accuracy	0.4375	(*.f64 #s(approx (- x y) (neg.f64 y)) (cbrt.f64 #s(literal 40000 binary64)))
accuracy	31.56306082955128	#s(approx (- x y) (neg.f64 y))
accuracy	0.0	(sqrt.f64 #s(literal 200 binary64))
accuracy	0.29296875	(*.f64 #s(approx (- x y) x) (sqrt.f64 #s(literal 200 binary64)))
accuracy	0.32259750976844204	(.f64 (.f64 #s(approx (- x y) x) (sqrt.f64 #s(literal 200 binary64))) (sqrt.f64 #s(literal 200 binary64)))
accuracy	31.959129166454755	#s(approx (- x y) x)
accuracy	0.0	(/.f64 #s(literal 200 binary64) y)
accuracy	0.0	#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64)) y))
accuracy	0.5775442535241713	(fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64))
accuracy	6.4653794700875356	(*.f64 (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64)) y)
accuracy	0.0	(/.f64 #s(literal -200 binary64) x)
accuracy	0.0	#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64)) x))
accuracy	0.08984375	(fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64))
accuracy	8.09138037302267	(*.f64 (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64)) x)
accuracy	0.0	(sqrt.f64 #s(literal 200 binary64))
accuracy	0.29296875	(*.f64 (-.f64 x y) (sqrt.f64 #s(literal 200 binary64)))
accuracy	0.32259750976844204	(.f64 (.f64 (-.f64 x y) (sqrt.f64 #s(literal 200 binary64))) (cbrt.f64 (*.f64 #s(literal 200 binary64) (sqrt.f64 #s(literal 200 binary64)))))
accuracy	1.0	(cbrt.f64 (*.f64 #s(literal 200 binary64) (sqrt.f64 #s(literal 200 binary64))))

Samples

74.0ms	249×	0	valid
6.0ms	3×	3	valid
2.0ms	2×	2	valid
1.0ms	2×	1	valid

Compiler

Compiled 150 to 27 computations (82% saved)

Precisions

Click to see histograms. Total time spent on operations: 41.0ms

ival-mult: 18.0ms (43.8% of total)

ival-cbrt: 7.0ms (17% of total)

ival-sqrt: 6.0ms (14.6% of total)

ival-div: 4.0ms (9.7% of total)

ival-sub: 2.0ms (4.9% of total)

ival-add: 2.0ms (4.9% of total)

adjust: 1.0ms (2.4% of total)

ival-neg: 1.0ms (2.4% of total)

ival-assert: 0.0ms (0% of total)

ival-true: 0.0ms (0% of total)

exact: 0.0ms (0% of total)

series41.0ms (1.2%)

Memory

15.8MiB live, 62.7MiB allocated; 4ms collecting garbage

Counts

21 → 72

Calls

Call 1

Inputs
(.f64 (.f64 (-.f64 x y) (sqrt.f64 #s(literal 200 binary64))) (cbrt.f64 (*.f64 #s(literal 200 binary64) (sqrt.f64 #s(literal 200 binary64)))))
(cbrt.f64 (*.f64 #s(literal 200 binary64) (sqrt.f64 #s(literal 200 binary64))))
(*.f64 (-.f64 x y) (sqrt.f64 #s(literal 200 binary64)))
(-.f64 x y)
(*.f64 (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64)) x)
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64)) x))
(fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64))
(/.f64 #s(literal -200 binary64) x)
(*.f64 (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64)) y)
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64)) y))
(fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64))
(/.f64 #s(literal 200 binary64) y)
(.f64 (.f64 #s(approx (- x y) x) (sqrt.f64 #s(literal 200 binary64))) (sqrt.f64 #s(literal 200 binary64)))
(*.f64 #s(approx (- x y) x) (sqrt.f64 #s(literal 200 binary64)))
#s(approx (- x y) x)
(sqrt.f64 #s(literal 200 binary64))
(.f64 (.f64 #s(approx (- x y) (neg.f64 y)) (cbrt.f64 #s(literal 40000 binary64))) (cbrt.f64 #s(literal 200 binary64)))
(*.f64 #s(approx (- x y) (neg.f64 y)) (cbrt.f64 #s(literal 40000 binary64)))
#s(approx (- x y) (neg.f64 y))
(neg.f64 y)
(cbrt.f64 #s(literal 200 binary64))

Outputs
#s(approx (* (* (- x y) (sqrt 200)) (cbrt (* 200 (sqrt 200)))) #s(hole binary64 (* -1 (* (* y (cbrt 200)) (cbrt (pow (sqrt 200) 4))))))
#s(approx (* (* (- x y) (sqrt 200)) (cbrt (* 200 (sqrt 200)))) #s(hole binary64 (+ (* -1 (* (* y (cbrt 200)) (cbrt (pow (sqrt 200) 4)))) (* (* x (cbrt 200)) (cbrt (pow (sqrt 200) 4))))))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (* -1 (* y (sqrt 200)))))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (+ (* -1 (* y (sqrt 200))) (* x (sqrt 200)))))
#s(approx (- x y) #s(hole binary64 (* -1 y)))
#s(approx (- x y) #s(hole binary64 (- x y)))
#s(approx (* (+ (* (/ -200 x) y) 200) x) #s(hole binary64 (* -200 y)))
#s(approx (* (+ (* (/ -200 x) y) 200) x) #s(hole binary64 (+ (* -200 y) (* 200 x))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (* -1 (* y (pow (sqrt 200) 2)))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (+ (* -1 (* y (pow (sqrt 200) 2))) (* x (pow (sqrt 200) 2)))))
#s(approx (+ (* (/ -200 x) y) 200) #s(hole binary64 (* -200 (/ y x))))
#s(approx (+ (* (/ -200 x) y) 200) #s(hole binary64 (/ (+ (* -200 y) (* 200 x)) x)))
#s(approx (/ -200 x) #s(hole binary64 (/ -200 x)))
#s(approx (* (+ (* (/ 200 y) x) -200) y) #s(hole binary64 (* -200 y)))
#s(approx (* (+ (* (/ 200 y) x) -200) y) #s(hole binary64 (+ (* -200 y) (* 200 x))))
#s(approx (+ (* (/ 200 y) x) -200) #s(hole binary64 -200))
#s(approx (+ (* (/ 200 y) x) -200) #s(hole binary64 (- (* 200 (/ x y)) 200)))
#s(approx (* (* (- x y) (cbrt 40000)) (cbrt 200)) #s(hole binary64 (* -1 (* y (* (cbrt 200) (cbrt 40000))))))
#s(approx (* (* (- x y) (cbrt 40000)) (cbrt 200)) #s(hole binary64 (+ (* -1 (* y (* (cbrt 200) (cbrt 40000)))) (* x (* (cbrt 200) (cbrt 40000))))))
#s(approx (* (- x y) (cbrt 40000)) #s(hole binary64 (* -1 (* y (cbrt 40000)))))
#s(approx (* (- x y) (cbrt 40000)) #s(hole binary64 (+ (* -1 (* y (cbrt 40000))) (* x (cbrt 40000)))))
#s(approx (* (* (- x y) (sqrt 200)) (cbrt (* 200 (sqrt 200)))) #s(hole binary64 (* (* x (cbrt 200)) (cbrt (pow (sqrt 200) 4)))))
#s(approx (* (* (- x y) (sqrt 200)) (cbrt (* 200 (sqrt 200)))) #s(hole binary64 (* x (+ (* -1 (* (/ (* y (cbrt 200)) x) (cbrt (pow (sqrt 200) 4)))) (* (cbrt 200) (cbrt (pow (sqrt 200) 4)))))))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (* x (sqrt 200))))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (* x (+ (sqrt 200) (* -1 (/ (* y (sqrt 200)) x))))))
#s(approx (- x y) #s(hole binary64 x))
#s(approx (- x y) #s(hole binary64 (* x (+ 1 (* -1 (/ y x))))))
#s(approx (* (+ (* (/ -200 x) y) 200) x) #s(hole binary64 (* 200 x)))
#s(approx (* (+ (* (/ -200 x) y) 200) x) #s(hole binary64 (* x (+ 200 (* -200 (/ y x))))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (* x (pow (sqrt 200) 2))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (* x (+ (* -1 (/ (* y (pow (sqrt 200) 2)) x)) (pow (sqrt 200) 2)))))
#s(approx (+ (* (/ -200 x) y) 200) #s(hole binary64 200))
#s(approx (+ (* (/ -200 x) y) 200) #s(hole binary64 (+ 200 (* -200 (/ y x)))))
#s(approx (* (+ (* (/ 200 y) x) -200) y) #s(hole binary64 (* 200 x)))
#s(approx (* (+ (* (/ 200 y) x) -200) y) #s(hole binary64 (* x (+ 200 (* -200 (/ y x))))))
#s(approx (+ (* (/ 200 y) x) -200) #s(hole binary64 (* 200 (/ x y))))
#s(approx (+ (* (/ 200 y) x) -200) #s(hole binary64 (* x (- (* 200 (/ 1 y)) (* 200 (/ 1 x))))))
#s(approx (* (* (- x y) (cbrt 40000)) (cbrt 200)) #s(hole binary64 (* x (* (cbrt 200) (cbrt 40000)))))
#s(approx (* (* (- x y) (cbrt 40000)) (cbrt 200)) #s(hole binary64 (* x (+ (* -1 (/ (* y (* (cbrt 200) (cbrt 40000))) x)) (* (cbrt 200) (cbrt 40000))))))
#s(approx (* (- x y) (cbrt 40000)) #s(hole binary64 (* x (cbrt 40000))))
#s(approx (* (- x y) (cbrt 40000)) #s(hole binary64 (* x (+ (cbrt 40000) (* -1 (/ (* y (cbrt 40000)) x))))))
#s(approx (* (* (- x y) (sqrt 200)) (cbrt (* 200 (sqrt 200)))) #s(hole binary64 (* -1 (* x (+ (* -1 (* (cbrt 200) (cbrt (pow (sqrt 200) 4)))) (* (/ (* y (cbrt 200)) x) (cbrt (pow (sqrt 200) 4))))))))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (* -1 (* x (+ (* -1 (sqrt 200)) (/ (* y (sqrt 200)) x))))))
#s(approx (- x y) #s(hole binary64 (* -1 (* x (- (/ y x) 1)))))
#s(approx (* (+ (* (/ -200 x) y) 200) x) #s(hole binary64 (* -1 (* x (- (* 200 (/ y x)) 200)))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (* -1 (* x (+ (* -1 (pow (sqrt 200) 2)) (/ (* y (pow (sqrt 200) 2)) x))))))
#s(approx (* (+ (* (/ 200 y) x) -200) y) #s(hole binary64 (* -1 (* x (- (* 200 (/ y x)) 200)))))
#s(approx (+ (* (/ 200 y) x) -200) #s(hole binary64 (* -1 (* x (- (* 200 (/ 1 x)) (* 200 (/ 1 y)))))))
#s(approx (* (* (- x y) (cbrt 40000)) (cbrt 200)) #s(hole binary64 (* -1 (* x (+ (* -1 (* (cbrt 200) (cbrt 40000))) (/ (* y (* (cbrt 200) (cbrt 40000))) x))))))
#s(approx (* (- x y) (cbrt 40000)) #s(hole binary64 (* -1 (* x (+ (* -1 (cbrt 40000)) (/ (* y (cbrt 40000)) x))))))
#s(approx (- x y) #s(hole binary64 (+ x (* -1 y))))
#s(approx (+ (* (/ 200 y) x) -200) #s(hole binary64 (/ (+ (* -200 y) (* 200 x)) y)))
#s(approx (/ 200 y) #s(hole binary64 (/ 200 y)))
#s(approx (neg y) #s(hole binary64 (* -1 y)))
#s(approx (* (* (- x y) (sqrt 200)) (cbrt (* 200 (sqrt 200)))) #s(hole binary64 (* y (+ (* -1 (* (cbrt 200) (cbrt (pow (sqrt 200) 4)))) (* (/ (* x (cbrt 200)) y) (cbrt (pow (sqrt 200) 4)))))))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (* y (+ (* -1 (sqrt 200)) (/ (* x (sqrt 200)) y)))))
#s(approx (- x y) #s(hole binary64 (* y (- (/ x y) 1))))
#s(approx (* (+ (* (/ -200 x) y) 200) x) #s(hole binary64 (* y (- (* 200 (/ x y)) 200))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (* y (+ (* -1 (pow (sqrt 200) 2)) (/ (* x (pow (sqrt 200) 2)) y)))))
#s(approx (+ (* (/ -200 x) y) 200) #s(hole binary64 (* y (- (* 200 (/ 1 y)) (* 200 (/ 1 x))))))
#s(approx (* (+ (* (/ 200 y) x) -200) y) #s(hole binary64 (* y (- (* 200 (/ x y)) 200))))
#s(approx (* (* (- x y) (cbrt 40000)) (cbrt 200)) #s(hole binary64 (* y (+ (* -1 (* (cbrt 200) (cbrt 40000))) (/ (* x (* (cbrt 200) (cbrt 40000))) y)))))
#s(approx (* (- x y) (cbrt 40000)) #s(hole binary64 (* y (+ (* -1 (cbrt 40000)) (/ (* x (cbrt 40000)) y)))))
#s(approx (* (* (- x y) (sqrt 200)) (cbrt (* 200 (sqrt 200)))) #s(hole binary64 (* -1 (* y (+ (* -1 (* (/ (* x (cbrt 200)) y) (cbrt (pow (sqrt 200) 4)))) (* (cbrt 200) (cbrt (pow (sqrt 200) 4))))))))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (* -1 (* y (+ (sqrt 200) (* -1 (/ (* x (sqrt 200)) y)))))))
#s(approx (- x y) #s(hole binary64 (* -1 (* y (+ 1 (* -1 (/ x y)))))))
#s(approx (* (+ (* (/ -200 x) y) 200) x) #s(hole binary64 (* -1 (* y (+ 200 (* -200 (/ x y)))))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (* -1 (* y (+ (* -1 (/ (* x (pow (sqrt 200) 2)) y)) (pow (sqrt 200) 2))))))
#s(approx (+ (* (/ -200 x) y) 200) #s(hole binary64 (* -1 (* y (- (* 200 (/ 1 x)) (* 200 (/ 1 y)))))))
#s(approx (* (+ (* (/ 200 y) x) -200) y) #s(hole binary64 (* -1 (* y (+ 200 (* -200 (/ x y)))))))
#s(approx (* (* (- x y) (cbrt 40000)) (cbrt 200)) #s(hole binary64 (* -1 (* y (+ (* -1 (/ (* x (* (cbrt 200) (cbrt 40000))) y)) (* (cbrt 200) (cbrt 40000)))))))
#s(approx (* (- x y) (cbrt 40000)) #s(hole binary64 (* -1 (* y (+ (cbrt 40000) (* -1 (/ (* x (cbrt 40000)) y)))))))

Calls

6 calls:

Time	Variable		Point	Expression
18.0ms	x	@	-inf	((* (* (- x y) (sqrt 200)) (cbrt (* 200 (sqrt 200)))) (cbrt (* 200 (sqrt 200))) (* (- x y) (sqrt 200)) (- x y) (* (+ (* (/ -200 x) y) 200) x) (* (* (- x y) (sqrt 200)) (sqrt 200)) (+ (* (/ -200 x) y) 200) (/ -200 x) (* (+ (* (/ 200 y) x) -200) y) (* (* (- x y) (sqrt 200)) (sqrt 200)) (+ (* (/ 200 y) x) -200) (/ 200 y) (* (* (- x y) (sqrt 200)) (sqrt 200)) (* (- x y) (sqrt 200)) (- x y) (sqrt 200) (* (* (- x y) (cbrt 40000)) (cbrt 200)) (* (- x y) (cbrt 40000)) (- x y) (neg y) (cbrt 200))
7.0ms	x	@	0	((* (* (- x y) (sqrt 200)) (cbrt (* 200 (sqrt 200)))) (cbrt (* 200 (sqrt 200))) (* (- x y) (sqrt 200)) (- x y) (* (+ (* (/ -200 x) y) 200) x) (* (* (- x y) (sqrt 200)) (sqrt 200)) (+ (* (/ -200 x) y) 200) (/ -200 x) (* (+ (* (/ 200 y) x) -200) y) (* (* (- x y) (sqrt 200)) (sqrt 200)) (+ (* (/ 200 y) x) -200) (/ 200 y) (* (* (- x y) (sqrt 200)) (sqrt 200)) (* (- x y) (sqrt 200)) (- x y) (sqrt 200) (* (* (- x y) (cbrt 40000)) (cbrt 200)) (* (- x y) (cbrt 40000)) (- x y) (neg y) (cbrt 200))
4.0ms	y	@	-inf	((* (* (- x y) (sqrt 200)) (cbrt (* 200 (sqrt 200)))) (cbrt (* 200 (sqrt 200))) (* (- x y) (sqrt 200)) (- x y) (* (+ (* (/ -200 x) y) 200) x) (* (* (- x y) (sqrt 200)) (sqrt 200)) (+ (* (/ -200 x) y) 200) (/ -200 x) (* (+ (* (/ 200 y) x) -200) y) (* (* (- x y) (sqrt 200)) (sqrt 200)) (+ (* (/ 200 y) x) -200) (/ 200 y) (* (* (- x y) (sqrt 200)) (sqrt 200)) (* (- x y) (sqrt 200)) (- x y) (sqrt 200) (* (* (- x y) (cbrt 40000)) (cbrt 200)) (* (- x y) (cbrt 40000)) (- x y) (neg y) (cbrt 200))
4.0ms	y	@	0	((* (* (- x y) (sqrt 200)) (cbrt (* 200 (sqrt 200)))) (cbrt (* 200 (sqrt 200))) (* (- x y) (sqrt 200)) (- x y) (* (+ (* (/ -200 x) y) 200) x) (* (* (- x y) (sqrt 200)) (sqrt 200)) (+ (* (/ -200 x) y) 200) (/ -200 x) (* (+ (* (/ 200 y) x) -200) y) (* (* (- x y) (sqrt 200)) (sqrt 200)) (+ (* (/ 200 y) x) -200) (/ 200 y) (* (* (- x y) (sqrt 200)) (sqrt 200)) (* (- x y) (sqrt 200)) (- x y) (sqrt 200) (* (* (- x y) (cbrt 40000)) (cbrt 200)) (* (- x y) (cbrt 40000)) (- x y) (neg y) (cbrt 200))
4.0ms	x	@	inf	((* (* (- x y) (sqrt 200)) (cbrt (* 200 (sqrt 200)))) (cbrt (* 200 (sqrt 200))) (* (- x y) (sqrt 200)) (- x y) (* (+ (* (/ -200 x) y) 200) x) (* (* (- x y) (sqrt 200)) (sqrt 200)) (+ (* (/ -200 x) y) 200) (/ -200 x) (* (+ (* (/ 200 y) x) -200) y) (* (* (- x y) (sqrt 200)) (sqrt 200)) (+ (* (/ 200 y) x) -200) (/ 200 y) (* (* (- x y) (sqrt 200)) (sqrt 200)) (* (- x y) (sqrt 200)) (- x y) (sqrt 200) (* (* (- x y) (cbrt 40000)) (cbrt 200)) (* (- x y) (cbrt 40000)) (- x y) (neg y) (cbrt 200))

simplify140.0ms (4.3%)

Memory

-18.8MiB live, 212.6MiB allocated; 29ms collecting garbage

Iterations

Useful iterations: 0 (0.0ms)

Iter	Nodes	Cost
0	252	1180
1	714	1037
2	2386	933
3	6555	884
0	8433	864

Stop Event

1×	iter limit
1×	node limit

Counts

72 → 72

Calls

Call 1

Inputs
#s(approx (* (* (- x y) (sqrt 200)) (cbrt (* 200 (sqrt 200)))) #s(hole binary64 (* -1 (* (* y (cbrt 200)) (cbrt (pow (sqrt 200) 4))))))
#s(approx (* (* (- x y) (sqrt 200)) (cbrt (* 200 (sqrt 200)))) #s(hole binary64 (+ (* -1 (* (* y (cbrt 200)) (cbrt (pow (sqrt 200) 4)))) (* (* x (cbrt 200)) (cbrt (pow (sqrt 200) 4))))))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (* -1 (* y (sqrt 200)))))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (+ (* -1 (* y (sqrt 200))) (* x (sqrt 200)))))
#s(approx (- x y) #s(hole binary64 (* -1 y)))
#s(approx (- x y) #s(hole binary64 (- x y)))
#s(approx (* (+ (* (/ -200 x) y) 200) x) #s(hole binary64 (* -200 y)))
#s(approx (* (+ (* (/ -200 x) y) 200) x) #s(hole binary64 (+ (* -200 y) (* 200 x))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (* -1 (* y (pow (sqrt 200) 2)))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (+ (* -1 (* y (pow (sqrt 200) 2))) (* x (pow (sqrt 200) 2)))))
#s(approx (+ (* (/ -200 x) y) 200) #s(hole binary64 (* -200 (/ y x))))
#s(approx (+ (* (/ -200 x) y) 200) #s(hole binary64 (/ (+ (* -200 y) (* 200 x)) x)))
#s(approx (/ -200 x) #s(hole binary64 (/ -200 x)))
#s(approx (* (+ (* (/ 200 y) x) -200) y) #s(hole binary64 (* -200 y)))
#s(approx (* (+ (* (/ 200 y) x) -200) y) #s(hole binary64 (+ (* -200 y) (* 200 x))))
#s(approx (+ (* (/ 200 y) x) -200) #s(hole binary64 -200))
#s(approx (+ (* (/ 200 y) x) -200) #s(hole binary64 (- (* 200 (/ x y)) 200)))
#s(approx (* (* (- x y) (cbrt 40000)) (cbrt 200)) #s(hole binary64 (* -1 (* y (* (cbrt 200) (cbrt 40000))))))
#s(approx (* (* (- x y) (cbrt 40000)) (cbrt 200)) #s(hole binary64 (+ (* -1 (* y (* (cbrt 200) (cbrt 40000)))) (* x (* (cbrt 200) (cbrt 40000))))))
#s(approx (* (- x y) (cbrt 40000)) #s(hole binary64 (* -1 (* y (cbrt 40000)))))
#s(approx (* (- x y) (cbrt 40000)) #s(hole binary64 (+ (* -1 (* y (cbrt 40000))) (* x (cbrt 40000)))))
#s(approx (* (* (- x y) (sqrt 200)) (cbrt (* 200 (sqrt 200)))) #s(hole binary64 (* (* x (cbrt 200)) (cbrt (pow (sqrt 200) 4)))))
#s(approx (* (* (- x y) (sqrt 200)) (cbrt (* 200 (sqrt 200)))) #s(hole binary64 (* x (+ (* -1 (* (/ (* y (cbrt 200)) x) (cbrt (pow (sqrt 200) 4)))) (* (cbrt 200) (cbrt (pow (sqrt 200) 4)))))))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (* x (sqrt 200))))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (* x (+ (sqrt 200) (* -1 (/ (* y (sqrt 200)) x))))))
#s(approx (- x y) #s(hole binary64 x))
#s(approx (- x y) #s(hole binary64 (* x (+ 1 (* -1 (/ y x))))))
#s(approx (* (+ (* (/ -200 x) y) 200) x) #s(hole binary64 (* 200 x)))
#s(approx (* (+ (* (/ -200 x) y) 200) x) #s(hole binary64 (* x (+ 200 (* -200 (/ y x))))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (* x (pow (sqrt 200) 2))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (* x (+ (* -1 (/ (* y (pow (sqrt 200) 2)) x)) (pow (sqrt 200) 2)))))
#s(approx (+ (* (/ -200 x) y) 200) #s(hole binary64 200))
#s(approx (+ (* (/ -200 x) y) 200) #s(hole binary64 (+ 200 (* -200 (/ y x)))))
#s(approx (* (+ (* (/ 200 y) x) -200) y) #s(hole binary64 (* 200 x)))
#s(approx (* (+ (* (/ 200 y) x) -200) y) #s(hole binary64 (* x (+ 200 (* -200 (/ y x))))))
#s(approx (+ (* (/ 200 y) x) -200) #s(hole binary64 (* 200 (/ x y))))
#s(approx (+ (* (/ 200 y) x) -200) #s(hole binary64 (* x (- (* 200 (/ 1 y)) (* 200 (/ 1 x))))))
#s(approx (* (* (- x y) (cbrt 40000)) (cbrt 200)) #s(hole binary64 (* x (* (cbrt 200) (cbrt 40000)))))
#s(approx (* (* (- x y) (cbrt 40000)) (cbrt 200)) #s(hole binary64 (* x (+ (* -1 (/ (* y (* (cbrt 200) (cbrt 40000))) x)) (* (cbrt 200) (cbrt 40000))))))
#s(approx (* (- x y) (cbrt 40000)) #s(hole binary64 (* x (cbrt 40000))))
#s(approx (* (- x y) (cbrt 40000)) #s(hole binary64 (* x (+ (cbrt 40000) (* -1 (/ (* y (cbrt 40000)) x))))))
#s(approx (* (* (- x y) (sqrt 200)) (cbrt (* 200 (sqrt 200)))) #s(hole binary64 (* -1 (* x (+ (* -1 (* (cbrt 200) (cbrt (pow (sqrt 200) 4)))) (* (/ (* y (cbrt 200)) x) (cbrt (pow (sqrt 200) 4))))))))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (* -1 (* x (+ (* -1 (sqrt 200)) (/ (* y (sqrt 200)) x))))))
#s(approx (- x y) #s(hole binary64 (* -1 (* x (- (/ y x) 1)))))
#s(approx (* (+ (* (/ -200 x) y) 200) x) #s(hole binary64 (* -1 (* x (- (* 200 (/ y x)) 200)))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (* -1 (* x (+ (* -1 (pow (sqrt 200) 2)) (/ (* y (pow (sqrt 200) 2)) x))))))
#s(approx (* (+ (* (/ 200 y) x) -200) y) #s(hole binary64 (* -1 (* x (- (* 200 (/ y x)) 200)))))
#s(approx (+ (* (/ 200 y) x) -200) #s(hole binary64 (* -1 (* x (- (* 200 (/ 1 x)) (* 200 (/ 1 y)))))))
#s(approx (* (* (- x y) (cbrt 40000)) (cbrt 200)) #s(hole binary64 (* -1 (* x (+ (* -1 (* (cbrt 200) (cbrt 40000))) (/ (* y (* (cbrt 200) (cbrt 40000))) x))))))
#s(approx (* (- x y) (cbrt 40000)) #s(hole binary64 (* -1 (* x (+ (* -1 (cbrt 40000)) (/ (* y (cbrt 40000)) x))))))
#s(approx (- x y) #s(hole binary64 (+ x (* -1 y))))
#s(approx (+ (* (/ 200 y) x) -200) #s(hole binary64 (/ (+ (* -200 y) (* 200 x)) y)))
#s(approx (/ 200 y) #s(hole binary64 (/ 200 y)))
#s(approx (neg y) #s(hole binary64 (* -1 y)))
#s(approx (* (* (- x y) (sqrt 200)) (cbrt (* 200 (sqrt 200)))) #s(hole binary64 (* y (+ (* -1 (* (cbrt 200) (cbrt (pow (sqrt 200) 4)))) (* (/ (* x (cbrt 200)) y) (cbrt (pow (sqrt 200) 4)))))))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (* y (+ (* -1 (sqrt 200)) (/ (* x (sqrt 200)) y)))))
#s(approx (- x y) #s(hole binary64 (* y (- (/ x y) 1))))
#s(approx (* (+ (* (/ -200 x) y) 200) x) #s(hole binary64 (* y (- (* 200 (/ x y)) 200))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (* y (+ (* -1 (pow (sqrt 200) 2)) (/ (* x (pow (sqrt 200) 2)) y)))))
#s(approx (+ (* (/ -200 x) y) 200) #s(hole binary64 (* y (- (* 200 (/ 1 y)) (* 200 (/ 1 x))))))
#s(approx (* (+ (* (/ 200 y) x) -200) y) #s(hole binary64 (* y (- (* 200 (/ x y)) 200))))
#s(approx (* (* (- x y) (cbrt 40000)) (cbrt 200)) #s(hole binary64 (* y (+ (* -1 (* (cbrt 200) (cbrt 40000))) (/ (* x (* (cbrt 200) (cbrt 40000))) y)))))
#s(approx (* (- x y) (cbrt 40000)) #s(hole binary64 (* y (+ (* -1 (cbrt 40000)) (/ (* x (cbrt 40000)) y)))))
#s(approx (* (* (- x y) (sqrt 200)) (cbrt (* 200 (sqrt 200)))) #s(hole binary64 (* -1 (* y (+ (* -1 (* (/ (* x (cbrt 200)) y) (cbrt (pow (sqrt 200) 4)))) (* (cbrt 200) (cbrt (pow (sqrt 200) 4))))))))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (* -1 (* y (+ (sqrt 200) (* -1 (/ (* x (sqrt 200)) y)))))))
#s(approx (- x y) #s(hole binary64 (* -1 (* y (+ 1 (* -1 (/ x y)))))))
#s(approx (* (+ (* (/ -200 x) y) 200) x) #s(hole binary64 (* -1 (* y (+ 200 (* -200 (/ x y)))))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (* -1 (* y (+ (* -1 (/ (* x (pow (sqrt 200) 2)) y)) (pow (sqrt 200) 2))))))
#s(approx (+ (* (/ -200 x) y) 200) #s(hole binary64 (* -1 (* y (- (* 200 (/ 1 x)) (* 200 (/ 1 y)))))))
#s(approx (* (+ (* (/ 200 y) x) -200) y) #s(hole binary64 (* -1 (* y (+ 200 (* -200 (/ x y)))))))
#s(approx (* (* (- x y) (cbrt 40000)) (cbrt 200)) #s(hole binary64 (* -1 (* y (+ (* -1 (/ (* x (* (cbrt 200) (cbrt 40000))) y)) (* (cbrt 200) (cbrt 40000)))))))
#s(approx (* (- x y) (cbrt 40000)) #s(hole binary64 (* -1 (* y (+ (cbrt 40000) (* -1 (/ (* x (cbrt 40000)) y)))))))

Outputs
#s(approx (* (* (- x y) (sqrt 200)) (cbrt (* 200 (sqrt 200)))) #s(hole binary64 (* -1 (* (* y (cbrt 200)) (cbrt (pow (sqrt 200) 4))))))
#s(approx (* (+ (* (/ 200 y) x) -200) y) (.f64 (.f64 (neg.f64 (cbrt.f64 #s(literal 200 binary64))) y) (cbrt.f64 (pow.f64 (sqrt.f64 #s(literal 200 binary64)) #s(literal 4 binary64)))))
#s(approx (* (* (- x y) (sqrt 200)) (cbrt (* 200 (sqrt 200)))) #s(hole binary64 (+ (* -1 (* (* y (cbrt 200)) (cbrt (pow (sqrt 200) 4)))) (* (* x (cbrt 200)) (cbrt (pow (sqrt 200) 4))))))
#s(approx (* (+ (* (/ 200 y) x) -200) y) (.f64 (.f64 (cbrt.f64 (pow.f64 (sqrt.f64 #s(literal 200 binary64)) #s(literal 4 binary64))) (cbrt.f64 #s(literal 200 binary64))) (-.f64 x y)))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (* -1 (* y (sqrt 200)))))
#s(approx (* (- x y) (sqrt 200)) (*.f64 (neg.f64 y) (sqrt.f64 #s(literal 200 binary64))))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (+ (* -1 (* y (sqrt 200))) (* x (sqrt 200)))))
#s(approx (* (- x y) (sqrt 200)) (*.f64 (sqrt.f64 #s(literal 200 binary64)) (-.f64 x y)))
#s(approx (- x y) #s(hole binary64 (* -1 y)))
#s(approx (- x y) (neg.f64 y))
#s(approx (- x y) #s(hole binary64 (- x y)))
#s(approx (- x y) (-.f64 x y))
#s(approx (* (+ (* (/ -200 x) y) 200) x) #s(hole binary64 (* -200 y)))
#s(approx (* (+ (* (/ 200 y) x) -200) y) (*.f64 #s(literal -200 binary64) y))
#s(approx (* (+ (* (/ -200 x) y) 200) x) #s(hole binary64 (+ (* -200 y) (* 200 x))))
#s(approx (* (+ (* (/ 200 y) x) -200) y) (*.f64 #s(literal 200 binary64) (-.f64 x y)))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (* -1 (* y (pow (sqrt 200) 2)))))
#s(approx (* (+ (* (/ 200 y) x) -200) y) (*.f64 #s(literal -200 binary64) y))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (+ (* -1 (* y (pow (sqrt 200) 2))) (* x (pow (sqrt 200) 2)))))
#s(approx (* (+ (* (/ 200 y) x) -200) y) (*.f64 #s(literal 200 binary64) (-.f64 x y)))
#s(approx (+ (* (/ -200 x) y) 200) #s(hole binary64 (* -200 (/ y x))))
#s(approx (+ (* (/ -200 x) y) 200) (*.f64 (/.f64 y x) #s(literal -200 binary64)))
#s(approx (+ (* (/ -200 x) y) 200) #s(hole binary64 (/ (+ (* -200 y) (* 200 x)) x)))
#s(approx (+ (* (/ -200 x) y) 200) (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64)))
#s(approx (/ -200 x) #s(hole binary64 (/ -200 x)))
#s(approx (/ -200 x) (/.f64 #s(literal -200 binary64) x))
#s(approx (* (+ (* (/ 200 y) x) -200) y) #s(hole binary64 (* -200 y)))
#s(approx (* (+ (* (/ 200 y) x) -200) y) (*.f64 #s(literal -200 binary64) y))
#s(approx (* (+ (* (/ 200 y) x) -200) y) #s(hole binary64 (+ (* -200 y) (* 200 x))))
#s(approx (* (+ (* (/ 200 y) x) -200) y) (*.f64 #s(literal 200 binary64) (-.f64 x y)))
#s(approx (+ (* (/ 200 y) x) -200) #s(hole binary64 -200))
#s(approx (+ (* (/ 200 y) x) -200) #s(literal -200 binary64))
#s(approx (+ (* (/ 200 y) x) -200) #s(hole binary64 (- (* 200 (/ x y)) 200)))
#s(approx (+ (* (/ 200 y) x) -200) (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64)))
#s(approx (* (* (- x y) (cbrt 40000)) (cbrt 200)) #s(hole binary64 (* -1 (* y (* (cbrt 200) (cbrt 40000))))))
#s(approx (* (* (- x y) (cbrt 40000)) (cbrt 200)) (.f64 (.f64 (cbrt.f64 #s(literal 40000 binary64)) (cbrt.f64 #s(literal 200 binary64))) (neg.f64 y)))
#s(approx (* (* (- x y) (cbrt 40000)) (cbrt 200)) #s(hole binary64 (+ (* -1 (* y (* (cbrt 200) (cbrt 40000)))) (* x (* (cbrt 200) (cbrt 40000))))))
#s(approx (* (* (- x y) (cbrt 40000)) (cbrt 200)) (.f64 (.f64 (cbrt.f64 #s(literal 40000 binary64)) (-.f64 x y)) (cbrt.f64 #s(literal 200 binary64))))
#s(approx (* (- x y) (cbrt 40000)) #s(hole binary64 (* -1 (* y (cbrt 40000)))))
#s(approx (* (- x y) (cbrt 40000)) (*.f64 (cbrt.f64 #s(literal 40000 binary64)) (neg.f64 y)))
#s(approx (* (- x y) (cbrt 40000)) #s(hole binary64 (+ (* -1 (* y (cbrt 40000))) (* x (cbrt 40000)))))
#s(approx (* (- x y) (cbrt 40000)) (*.f64 (cbrt.f64 #s(literal 40000 binary64)) (-.f64 x y)))
#s(approx (* (* (- x y) (sqrt 200)) (cbrt (* 200 (sqrt 200)))) #s(hole binary64 (* (* x (cbrt 200)) (cbrt (pow (sqrt 200) 4)))))
#s(approx (* (+ (* (/ 200 y) x) -200) y) (.f64 (.f64 (cbrt.f64 #s(literal 200 binary64)) x) (cbrt.f64 (pow.f64 (sqrt.f64 #s(literal 200 binary64)) #s(literal 4 binary64)))))
#s(approx (* (* (- x y) (sqrt 200)) (cbrt (* 200 (sqrt 200)))) #s(hole binary64 (* x (+ (* -1 (* (/ (* y (cbrt 200)) x) (cbrt (pow (sqrt 200) 4)))) (* (cbrt 200) (cbrt (pow (sqrt 200) 4)))))))
#s(approx (* (+ (* (/ 200 y) x) -200) y) (.f64 (.f64 (cbrt.f64 (pow.f64 (sqrt.f64 #s(literal 200 binary64)) #s(literal 4 binary64))) (cbrt.f64 #s(literal 200 binary64))) (-.f64 x y)))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (* x (sqrt 200))))
#s(approx (* (- x y) (sqrt 200)) (*.f64 (sqrt.f64 #s(literal 200 binary64)) x))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (* x (+ (sqrt 200) (* -1 (/ (* y (sqrt 200)) x))))))
#s(approx (* (- x y) (sqrt 200)) (*.f64 (sqrt.f64 #s(literal 200 binary64)) (-.f64 x y)))
#s(approx (- x y) #s(hole binary64 x))
#s(approx (- x y) x)
#s(approx (- x y) #s(hole binary64 (* x (+ 1 (* -1 (/ y x))))))
#s(approx (- x y) (-.f64 x y))
#s(approx (* (+ (* (/ -200 x) y) 200) x) #s(hole binary64 (* 200 x)))
#s(approx (* (+ (* (/ 200 y) x) -200) y) (*.f64 #s(literal 200 binary64) x))
#s(approx (* (+ (* (/ -200 x) y) 200) x) #s(hole binary64 (* x (+ 200 (* -200 (/ y x))))))
#s(approx (* (+ (* (/ 200 y) x) -200) y) (*.f64 #s(literal 200 binary64) (-.f64 x y)))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (* x (pow (sqrt 200) 2))))
#s(approx (* (+ (* (/ 200 y) x) -200) y) (*.f64 #s(literal 200 binary64) x))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (* x (+ (* -1 (/ (* y (pow (sqrt 200) 2)) x)) (pow (sqrt 200) 2)))))
#s(approx (* (+ (* (/ 200 y) x) -200) y) (*.f64 #s(literal 200 binary64) (-.f64 x y)))
#s(approx (+ (* (/ -200 x) y) 200) #s(hole binary64 200))
#s(approx (+ (* (/ -200 x) y) 200) #s(literal 200 binary64))
#s(approx (+ (* (/ -200 x) y) 200) #s(hole binary64 (+ 200 (* -200 (/ y x)))))
#s(approx (+ (* (/ -200 x) y) 200) (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64)))
#s(approx (* (+ (* (/ 200 y) x) -200) y) #s(hole binary64 (* 200 x)))
#s(approx (* (+ (* (/ 200 y) x) -200) y) (*.f64 #s(literal 200 binary64) x))
#s(approx (* (+ (* (/ 200 y) x) -200) y) #s(hole binary64 (* x (+ 200 (* -200 (/ y x))))))
#s(approx (* (+ (* (/ 200 y) x) -200) y) (*.f64 #s(literal 200 binary64) (-.f64 x y)))
#s(approx (+ (* (/ 200 y) x) -200) #s(hole binary64 (* 200 (/ x y))))
#s(approx (+ (* (/ 200 y) x) -200) (*.f64 (/.f64 x y) #s(literal 200 binary64)))
#s(approx (+ (* (/ 200 y) x) -200) #s(hole binary64 (* x (- (* 200 (/ 1 y)) (* 200 (/ 1 x))))))
#s(approx (+ (* (/ 200 y) x) -200) (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64)))
#s(approx (* (* (- x y) (cbrt 40000)) (cbrt 200)) #s(hole binary64 (* x (* (cbrt 200) (cbrt 40000)))))
#s(approx (* (* (- x y) (cbrt 40000)) (cbrt 200)) (.f64 (.f64 (cbrt.f64 #s(literal 40000 binary64)) x) (cbrt.f64 #s(literal 200 binary64))))
#s(approx (* (* (- x y) (cbrt 40000)) (cbrt 200)) #s(hole binary64 (* x (+ (* -1 (/ (* y (* (cbrt 200) (cbrt 40000))) x)) (* (cbrt 200) (cbrt 40000))))))
#s(approx (* (* (- x y) (cbrt 40000)) (cbrt 200)) (.f64 (.f64 (cbrt.f64 #s(literal 40000 binary64)) (-.f64 x y)) (cbrt.f64 #s(literal 200 binary64))))
#s(approx (* (- x y) (cbrt 40000)) #s(hole binary64 (* x (cbrt 40000))))
#s(approx (* (- x y) (cbrt 40000)) (*.f64 (cbrt.f64 #s(literal 40000 binary64)) x))
#s(approx (* (- x y) (cbrt 40000)) #s(hole binary64 (* x (+ (cbrt 40000) (* -1 (/ (* y (cbrt 40000)) x))))))
#s(approx (* (- x y) (cbrt 40000)) (*.f64 (cbrt.f64 #s(literal 40000 binary64)) (-.f64 x y)))
#s(approx (* (* (- x y) (sqrt 200)) (cbrt (* 200 (sqrt 200)))) #s(hole binary64 (* -1 (* x (+ (* -1 (* (cbrt 200) (cbrt (pow (sqrt 200) 4)))) (* (/ (* y (cbrt 200)) x) (cbrt (pow (sqrt 200) 4))))))))
#s(approx (* (+ (* (/ 200 y) x) -200) y) (.f64 (.f64 (cbrt.f64 (pow.f64 (sqrt.f64 #s(literal 200 binary64)) #s(literal 4 binary64))) (cbrt.f64 #s(literal 200 binary64))) (-.f64 x y)))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (* -1 (* x (+ (* -1 (sqrt 200)) (/ (* y (sqrt 200)) x))))))
#s(approx (* (- x y) (sqrt 200)) (*.f64 (sqrt.f64 #s(literal 200 binary64)) (-.f64 x y)))
#s(approx (- x y) #s(hole binary64 (* -1 (* x (- (/ y x) 1)))))
#s(approx (- x y) (-.f64 x y))
#s(approx (* (+ (* (/ -200 x) y) 200) x) #s(hole binary64 (* -1 (* x (- (* 200 (/ y x)) 200)))))
#s(approx (* (+ (* (/ 200 y) x) -200) y) (*.f64 #s(literal 200 binary64) (-.f64 x y)))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (* -1 (* x (+ (* -1 (pow (sqrt 200) 2)) (/ (* y (pow (sqrt 200) 2)) x))))))
#s(approx (* (+ (* (/ 200 y) x) -200) y) (*.f64 #s(literal 200 binary64) (-.f64 x y)))
#s(approx (* (+ (* (/ 200 y) x) -200) y) #s(hole binary64 (* -1 (* x (- (* 200 (/ y x)) 200)))))
#s(approx (* (+ (* (/ 200 y) x) -200) y) (*.f64 #s(literal 200 binary64) (-.f64 x y)))
#s(approx (+ (* (/ 200 y) x) -200) #s(hole binary64 (* -1 (* x (- (* 200 (/ 1 x)) (* 200 (/ 1 y)))))))
#s(approx (+ (* (/ 200 y) x) -200) (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64)))
#s(approx (* (* (- x y) (cbrt 40000)) (cbrt 200)) #s(hole binary64 (* -1 (* x (+ (* -1 (* (cbrt 200) (cbrt 40000))) (/ (* y (* (cbrt 200) (cbrt 40000))) x))))))
#s(approx (* (* (- x y) (cbrt 40000)) (cbrt 200)) (.f64 (.f64 (cbrt.f64 #s(literal 40000 binary64)) (-.f64 x y)) (cbrt.f64 #s(literal 200 binary64))))
#s(approx (* (- x y) (cbrt 40000)) #s(hole binary64 (* -1 (* x (+ (* -1 (cbrt 40000)) (/ (* y (cbrt 40000)) x))))))
#s(approx (* (- x y) (cbrt 40000)) (*.f64 (cbrt.f64 #s(literal 40000 binary64)) (-.f64 x y)))
#s(approx (- x y) #s(hole binary64 (+ x (* -1 y))))
#s(approx (- x y) (-.f64 x y))
#s(approx (+ (* (/ 200 y) x) -200) #s(hole binary64 (/ (+ (* -200 y) (* 200 x)) y)))
#s(approx (+ (* (/ 200 y) x) -200) (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64)))
#s(approx (/ 200 y) #s(hole binary64 (/ 200 y)))
#s(approx (/ 200 y) (/.f64 #s(literal 200 binary64) y))
#s(approx (neg y) #s(hole binary64 (* -1 y)))
#s(approx (neg y) (neg.f64 y))
#s(approx (* (* (- x y) (sqrt 200)) (cbrt (* 200 (sqrt 200)))) #s(hole binary64 (* y (+ (* -1 (* (cbrt 200) (cbrt (pow (sqrt 200) 4)))) (* (/ (* x (cbrt 200)) y) (cbrt (pow (sqrt 200) 4)))))))
#s(approx (* (+ (* (/ 200 y) x) -200) y) (.f64 (.f64 (cbrt.f64 (pow.f64 (sqrt.f64 #s(literal 200 binary64)) #s(literal 4 binary64))) (cbrt.f64 #s(literal 200 binary64))) (-.f64 x y)))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (* y (+ (* -1 (sqrt 200)) (/ (* x (sqrt 200)) y)))))
#s(approx (* (- x y) (sqrt 200)) (*.f64 (sqrt.f64 #s(literal 200 binary64)) (-.f64 x y)))
#s(approx (- x y) #s(hole binary64 (* y (- (/ x y) 1))))
#s(approx (- x y) (-.f64 x y))
#s(approx (* (+ (* (/ -200 x) y) 200) x) #s(hole binary64 (* y (- (* 200 (/ x y)) 200))))
#s(approx (* (+ (* (/ 200 y) x) -200) y) (*.f64 #s(literal 200 binary64) (-.f64 x y)))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (* y (+ (* -1 (pow (sqrt 200) 2)) (/ (* x (pow (sqrt 200) 2)) y)))))
#s(approx (* (+ (* (/ 200 y) x) -200) y) (*.f64 #s(literal 200 binary64) (-.f64 x y)))
#s(approx (+ (* (/ -200 x) y) 200) #s(hole binary64 (* y (- (* 200 (/ 1 y)) (* 200 (/ 1 x))))))
#s(approx (+ (* (/ -200 x) y) 200) (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64)))
#s(approx (* (+ (* (/ 200 y) x) -200) y) #s(hole binary64 (* y (- (* 200 (/ x y)) 200))))
#s(approx (* (+ (* (/ 200 y) x) -200) y) (*.f64 #s(literal 200 binary64) (-.f64 x y)))
#s(approx (* (* (- x y) (cbrt 40000)) (cbrt 200)) #s(hole binary64 (* y (+ (* -1 (* (cbrt 200) (cbrt 40000))) (/ (* x (* (cbrt 200) (cbrt 40000))) y)))))
#s(approx (* (* (- x y) (cbrt 40000)) (cbrt 200)) (.f64 (.f64 (cbrt.f64 #s(literal 40000 binary64)) (-.f64 x y)) (cbrt.f64 #s(literal 200 binary64))))
#s(approx (* (- x y) (cbrt 40000)) #s(hole binary64 (* y (+ (* -1 (cbrt 40000)) (/ (* x (cbrt 40000)) y)))))
#s(approx (* (- x y) (cbrt 40000)) (*.f64 (cbrt.f64 #s(literal 40000 binary64)) (-.f64 x y)))
#s(approx (* (* (- x y) (sqrt 200)) (cbrt (* 200 (sqrt 200)))) #s(hole binary64 (* -1 (* y (+ (* -1 (* (/ (* x (cbrt 200)) y) (cbrt (pow (sqrt 200) 4)))) (* (cbrt 200) (cbrt (pow (sqrt 200) 4))))))))
#s(approx (* (+ (* (/ 200 y) x) -200) y) (.f64 (.f64 (cbrt.f64 (pow.f64 (sqrt.f64 #s(literal 200 binary64)) #s(literal 4 binary64))) (cbrt.f64 #s(literal 200 binary64))) (-.f64 x y)))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (* -1 (* y (+ (sqrt 200) (* -1 (/ (* x (sqrt 200)) y)))))))
#s(approx (* (- x y) (sqrt 200)) (*.f64 (sqrt.f64 #s(literal 200 binary64)) (-.f64 x y)))
#s(approx (- x y) #s(hole binary64 (* -1 (* y (+ 1 (* -1 (/ x y)))))))
#s(approx (- x y) (-.f64 x y))
#s(approx (* (+ (* (/ -200 x) y) 200) x) #s(hole binary64 (* -1 (* y (+ 200 (* -200 (/ x y)))))))
#s(approx (* (+ (* (/ 200 y) x) -200) y) (*.f64 #s(literal 200 binary64) (-.f64 x y)))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (* -1 (* y (+ (* -1 (/ (* x (pow (sqrt 200) 2)) y)) (pow (sqrt 200) 2))))))
#s(approx (* (+ (* (/ 200 y) x) -200) y) (*.f64 #s(literal 200 binary64) (-.f64 x y)))
#s(approx (+ (* (/ -200 x) y) 200) #s(hole binary64 (* -1 (* y (- (* 200 (/ 1 x)) (* 200 (/ 1 y)))))))
#s(approx (+ (* (/ -200 x) y) 200) (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64)))
#s(approx (* (+ (* (/ 200 y) x) -200) y) #s(hole binary64 (* -1 (* y (+ 200 (* -200 (/ x y)))))))
#s(approx (* (+ (* (/ 200 y) x) -200) y) (*.f64 #s(literal 200 binary64) (-.f64 x y)))
#s(approx (* (* (- x y) (cbrt 40000)) (cbrt 200)) #s(hole binary64 (* -1 (* y (+ (* -1 (/ (* x (* (cbrt 200) (cbrt 40000))) y)) (* (cbrt 200) (cbrt 40000)))))))
#s(approx (* (* (- x y) (cbrt 40000)) (cbrt 200)) (.f64 (.f64 (cbrt.f64 #s(literal 40000 binary64)) (-.f64 x y)) (cbrt.f64 #s(literal 200 binary64))))
#s(approx (* (- x y) (cbrt 40000)) #s(hole binary64 (* -1 (* y (+ (cbrt 40000) (* -1 (/ (* x (cbrt 40000)) y)))))))
#s(approx (* (- x y) (cbrt 40000)) (*.f64 (cbrt.f64 #s(literal 40000 binary64)) (-.f64 x y)))

rewrite98.0ms (3%)

Memory

14.3MiB live, 116.5MiB allocated; 51ms collecting garbage

Iterations

Useful iterations: 0 (0.0ms)

Iter	Nodes	Cost
0	32	153
0	54	131
0	519	131

Stop Event

1×	iter limit
1×	iter limit
1×	iter limit
1×	unsound
1×	iter limit

Counts

21 → 182

Calls

Call 1

Inputs
(.f64 (.f64 (-.f64 x y) (sqrt.f64 #s(literal 200 binary64))) (cbrt.f64 (*.f64 #s(literal 200 binary64) (sqrt.f64 #s(literal 200 binary64)))))
(cbrt.f64 (*.f64 #s(literal 200 binary64) (sqrt.f64 #s(literal 200 binary64))))
(*.f64 (-.f64 x y) (sqrt.f64 #s(literal 200 binary64)))
(-.f64 x y)
(*.f64 (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64)) x)
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64)) x))
(fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64))
(/.f64 #s(literal -200 binary64) x)
(*.f64 (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64)) y)
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64)) y))
(fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64))
(/.f64 #s(literal 200 binary64) y)
(.f64 (.f64 #s(approx (- x y) x) (sqrt.f64 #s(literal 200 binary64))) (sqrt.f64 #s(literal 200 binary64)))
(*.f64 #s(approx (- x y) x) (sqrt.f64 #s(literal 200 binary64)))
#s(approx (- x y) x)
(sqrt.f64 #s(literal 200 binary64))
(.f64 (.f64 #s(approx (- x y) (neg.f64 y)) (cbrt.f64 #s(literal 40000 binary64))) (cbrt.f64 #s(literal 200 binary64)))
(*.f64 #s(approx (- x y) (neg.f64 y)) (cbrt.f64 #s(literal 40000 binary64)))
#s(approx (- x y) (neg.f64 y))
(neg.f64 y)
(cbrt.f64 #s(literal 200 binary64))

Outputs
(.f64 (sqrt.f64 (.f64 (-.f64 x y) #s(literal 200 binary64))) (sqrt.f64 (*.f64 (-.f64 x y) #s(literal 200 binary64))))
(.f64 (.f64 (cbrt.f64 (.f64 (-.f64 x y) #s(literal 200 binary64))) (cbrt.f64 (.f64 (-.f64 x y) #s(literal 200 binary64)))) (cbrt.f64 (*.f64 (-.f64 x y) #s(literal 200 binary64))))
(*.f64 (-.f64 x y) #s(literal 200 binary64))
(.f64 (.f64 (-.f64 x y) (sqrt.f64 #s(literal 200 binary64))) (sqrt.f64 #s(literal 200 binary64)))
(.f64 (sqrt.f64 #s(literal 200 binary64)) (.f64 (-.f64 x y) (sqrt.f64 #s(literal 200 binary64))))
(pow.f64 (*.f64 (-.f64 x y) #s(literal 200 binary64)) #s(literal 1 binary64))
(cbrt.f64 (.f64 (.f64 (.f64 (-.f64 x y) #s(literal 200 binary64)) (.f64 (-.f64 x y) #s(literal 200 binary64))) (*.f64 (-.f64 x y) #s(literal 200 binary64))))
(exp.f64 (log.f64 (*.f64 (-.f64 x y) #s(literal 200 binary64))))
(log.f64 (exp.f64 (*.f64 (-.f64 x y) #s(literal 200 binary64))))
(*.f64 (sqrt.f64 (sqrt.f64 #s(literal 200 binary64))) (sqrt.f64 (sqrt.f64 #s(literal 200 binary64))))
(.f64 (.f64 (cbrt.f64 (sqrt.f64 #s(literal 200 binary64))) (cbrt.f64 (sqrt.f64 #s(literal 200 binary64)))) (cbrt.f64 (sqrt.f64 #s(literal 200 binary64))))
(*.f64 (cbrt.f64 #s(literal 200 binary64)) (cbrt.f64 (sqrt.f64 #s(literal 200 binary64))))
(pow.f64 (*.f64 (sqrt.f64 #s(literal 200 binary64)) #s(literal 200 binary64)) #s(literal 1/3 binary64))
(pow.f64 (sqrt.f64 #s(literal 200 binary64)) #s(literal 1 binary64))
(pow.f64 #s(literal 200 binary64) #s(literal 1/2 binary64))
(cbrt.f64 (*.f64 (sqrt.f64 #s(literal 200 binary64)) #s(literal 200 binary64)))
(sqrt.f64 #s(literal 200 binary64))
(exp.f64 (log.f64 (sqrt.f64 #s(literal 200 binary64))))
(log.f64 (exp.f64 (sqrt.f64 #s(literal 200 binary64))))
(.f64 (sqrt.f64 (.f64 (-.f64 x y) (sqrt.f64 #s(literal 200 binary64)))) (sqrt.f64 (*.f64 (-.f64 x y) (sqrt.f64 #s(literal 200 binary64)))))
(.f64 (.f64 (cbrt.f64 (.f64 (-.f64 x y) (sqrt.f64 #s(literal 200 binary64)))) (cbrt.f64 (.f64 (-.f64 x y) (sqrt.f64 #s(literal 200 binary64))))) (cbrt.f64 (*.f64 (-.f64 x y) (sqrt.f64 #s(literal 200 binary64)))))
(*.f64 (-.f64 x y) (sqrt.f64 #s(literal 200 binary64)))
(*.f64 (sqrt.f64 #s(literal 200 binary64)) (-.f64 x y))
(pow.f64 (*.f64 (-.f64 x y) (sqrt.f64 #s(literal 200 binary64))) #s(literal 1 binary64))
(cbrt.f64 (.f64 (.f64 (.f64 (-.f64 x y) (sqrt.f64 #s(literal 200 binary64))) (.f64 (-.f64 x y) (sqrt.f64 #s(literal 200 binary64)))) (*.f64 (-.f64 x y) (sqrt.f64 #s(literal 200 binary64)))))
(exp.f64 (log.f64 (*.f64 (-.f64 x y) (sqrt.f64 #s(literal 200 binary64)))))
(log.f64 (exp.f64 (*.f64 (-.f64 x y) (sqrt.f64 #s(literal 200 binary64)))))
(*.f64 (sqrt.f64 (-.f64 x y)) (sqrt.f64 (-.f64 x y)))
(.f64 (.f64 (cbrt.f64 (-.f64 x y)) (cbrt.f64 (-.f64 x y))) (cbrt.f64 (-.f64 x y)))
(pow.f64 (-.f64 x y) #s(literal 1 binary64))
(/.f64 (-.f64 (.f64 x x) (.f64 y y)) (+.f64 x y))
(/.f64 (-.f64 (pow.f64 x #s(literal 3 binary64)) (pow.f64 y #s(literal 3 binary64))) (fma.f64 x x (fma.f64 y y (*.f64 x y))))
(cbrt.f64 (.f64 (.f64 (-.f64 x y) (-.f64 x y)) (-.f64 x y)))
(-.f64 x y)
(exp.f64 (log.f64 (-.f64 x y)))
(log.f64 (exp.f64 (-.f64 x y)))
(.f64 (sqrt.f64 (.f64 (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64)) x)) (sqrt.f64 (*.f64 (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64)) x)))
(.f64 (.f64 (cbrt.f64 (.f64 (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64)) x)) (cbrt.f64 (.f64 (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64)) x))) (cbrt.f64 (*.f64 (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64)) x)))
(*.f64 (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64)) x)
(*.f64 x (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64)))
(pow.f64 (*.f64 (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64)) x) #s(literal 1 binary64))
(cbrt.f64 (.f64 (.f64 (.f64 (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64)) x) (.f64 (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64)) x)) (*.f64 (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64)) x)))
(exp.f64 (log.f64 (*.f64 (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64)) x)))
(log.f64 (exp.f64 (*.f64 (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64)) x)))
(.f64 (sqrt.f64 #s(approx ( (* (- x y) (sqrt 200)) (sqrt 200)) (.f64 (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64)) x))) (sqrt.f64 #s(approx ( (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64)) x))))
(.f64 (.f64 (cbrt.f64 #s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (.f64 (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64)) x))) (cbrt.f64 #s(approx ( (* (- x y) (sqrt 200)) (sqrt 200)) (.f64 (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64)) x)))) (cbrt.f64 #s(approx ( (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64)) x))))
(pow.f64 #s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64)) x)) #s(literal 1 binary64))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64)) x))
(cbrt.f64 (.f64 (.f64 #s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (.f64 (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64)) x)) #s(approx ( (* (- x y) (sqrt 200)) (sqrt 200)) (.f64 (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64)) x))) #s(approx ( (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64)) x))))
(exp.f64 (log.f64 #s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64)) x))))
(log.f64 (exp.f64 #s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64)) x))))
(*.f64 (sqrt.f64 (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64))) (sqrt.f64 (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64))))
(.f64 (.f64 (cbrt.f64 (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64))) (cbrt.f64 (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64)))) (cbrt.f64 (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64))))
(pow.f64 (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64)) #s(literal 1 binary64))
(/.f64 (-.f64 (.f64 (.f64 (/.f64 #s(literal -200 binary64) x) y) (.f64 (/.f64 #s(literal -200 binary64) x) y)) #s(literal 40000 binary64)) (-.f64 (.f64 (/.f64 #s(literal -200 binary64) x) y) #s(literal 200 binary64)))
(/.f64 (+.f64 (pow.f64 (.f64 (/.f64 #s(literal -200 binary64) x) y) #s(literal 3 binary64)) #s(literal 8000000 binary64)) (fma.f64 (.f64 (/.f64 #s(literal -200 binary64) x) y) (.f64 (/.f64 #s(literal -200 binary64) x) y) (-.f64 #s(literal 40000 binary64) (.f64 (*.f64 (/.f64 #s(literal -200 binary64) x) y) #s(literal 200 binary64)))))
(fma.f64 (sqrt.f64 (.f64 (/.f64 #s(literal -200 binary64) x) y)) (sqrt.f64 (.f64 (/.f64 #s(literal -200 binary64) x) y)) #s(literal 200 binary64))
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(fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64))
(fma.f64 y (/.f64 #s(literal -200 binary64) x) #s(literal 200 binary64))
(cbrt.f64 (.f64 (.f64 (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64)) (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64))) (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64))))
(exp.f64 (log.f64 (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64))))
(+.f64 (*.f64 (/.f64 #s(literal -200 binary64) x) y) #s(literal 200 binary64))
(+.f64 #s(literal 200 binary64) (*.f64 (/.f64 #s(literal -200 binary64) x) y))
(log.f64 (exp.f64 (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64))))
(*.f64 (sqrt.f64 (/.f64 #s(literal -200 binary64) x)) (sqrt.f64 (/.f64 #s(literal -200 binary64) x)))
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(pow.f64 (/.f64 #s(literal -200 binary64) x) #s(literal 1 binary64))
(/.f64 #s(literal -200 binary64) x)
(/.f64 #s(literal 200 binary64) (neg.f64 x))
(cbrt.f64 (.f64 (.f64 (/.f64 #s(literal -200 binary64) x) (/.f64 #s(literal -200 binary64) x)) (/.f64 #s(literal -200 binary64) x)))
(exp.f64 (log.f64 (/.f64 #s(literal -200 binary64) x)))
(log.f64 (exp.f64 (/.f64 #s(literal -200 binary64) x)))
(.f64 (sqrt.f64 (.f64 (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64)) y)) (sqrt.f64 (*.f64 (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64)) y)))
(.f64 (.f64 (cbrt.f64 (.f64 (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64)) y)) (cbrt.f64 (.f64 (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64)) y))) (cbrt.f64 (*.f64 (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64)) y)))
(*.f64 (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64)) y)
(*.f64 y (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64)))
(pow.f64 (*.f64 (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64)) y) #s(literal 1 binary64))
(cbrt.f64 (.f64 (.f64 (.f64 (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64)) y) (.f64 (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64)) y)) (*.f64 (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64)) y)))
(exp.f64 (log.f64 (*.f64 (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64)) y)))
(log.f64 (exp.f64 (*.f64 (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64)) y)))
(.f64 (sqrt.f64 #s(approx ( (* (- x y) (sqrt 200)) (sqrt 200)) (.f64 (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64)) y))) (sqrt.f64 #s(approx ( (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64)) y))))
(.f64 (.f64 (cbrt.f64 #s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (.f64 (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64)) y))) (cbrt.f64 #s(approx ( (* (- x y) (sqrt 200)) (sqrt 200)) (.f64 (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64)) y)))) (cbrt.f64 #s(approx ( (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64)) y))))
(pow.f64 #s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64)) y)) #s(literal 1 binary64))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64)) y))
(cbrt.f64 (.f64 (.f64 #s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (.f64 (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64)) y)) #s(approx ( (* (- x y) (sqrt 200)) (sqrt 200)) (.f64 (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64)) y))) #s(approx ( (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64)) y))))
(exp.f64 (log.f64 #s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64)) y))))
(log.f64 (exp.f64 #s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64)) y))))
(*.f64 (sqrt.f64 (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64))) (sqrt.f64 (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64))))
(.f64 (.f64 (cbrt.f64 (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64))) (cbrt.f64 (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64)))) (cbrt.f64 (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64))))
(pow.f64 (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64)) #s(literal 1 binary64))
(/.f64 (-.f64 (.f64 (.f64 (/.f64 #s(literal 200 binary64) y) x) (.f64 (/.f64 #s(literal 200 binary64) y) x)) #s(literal 40000 binary64)) (-.f64 (.f64 (/.f64 #s(literal 200 binary64) y) x) #s(literal -200 binary64)))
(/.f64 (+.f64 (pow.f64 (.f64 (/.f64 #s(literal 200 binary64) y) x) #s(literal 3 binary64)) #s(literal -8000000 binary64)) (fma.f64 (.f64 (/.f64 #s(literal 200 binary64) y) x) (.f64 (/.f64 #s(literal 200 binary64) y) x) (-.f64 #s(literal 40000 binary64) (.f64 (*.f64 (/.f64 #s(literal 200 binary64) y) x) #s(literal -200 binary64)))))
(fma.f64 (sqrt.f64 (.f64 (/.f64 #s(literal 200 binary64) y) x)) (sqrt.f64 (.f64 (/.f64 #s(literal 200 binary64) y) x)) #s(literal -200 binary64))
(fma.f64 (.f64 (cbrt.f64 (.f64 (/.f64 #s(literal 200 binary64) y) x)) (cbrt.f64 (.f64 (/.f64 #s(literal 200 binary64) y) x))) (cbrt.f64 (.f64 (/.f64 #s(literal 200 binary64) y) x)) #s(literal -200 binary64))
(fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64))
(fma.f64 x (/.f64 #s(literal 200 binary64) y) #s(literal -200 binary64))
(cbrt.f64 (.f64 (.f64 (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64)) (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64))) (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64))))
(exp.f64 (log.f64 (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64))))
(+.f64 (*.f64 (/.f64 #s(literal 200 binary64) y) x) #s(literal -200 binary64))
(+.f64 #s(literal -200 binary64) (*.f64 (/.f64 #s(literal 200 binary64) y) x))
(log.f64 (exp.f64 (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64))))
(*.f64 (sqrt.f64 (/.f64 #s(literal 200 binary64) y)) (sqrt.f64 (/.f64 #s(literal 200 binary64) y)))
(.f64 (.f64 (cbrt.f64 (/.f64 #s(literal 200 binary64) y)) (cbrt.f64 (/.f64 #s(literal 200 binary64) y))) (cbrt.f64 (/.f64 #s(literal 200 binary64) y)))
(pow.f64 (/.f64 #s(literal 200 binary64) y) #s(literal 1 binary64))
(/.f64 #s(literal -200 binary64) (neg.f64 y))
(/.f64 #s(literal 200 binary64) y)
(cbrt.f64 (.f64 (.f64 (/.f64 #s(literal 200 binary64) y) (/.f64 #s(literal 200 binary64) y)) (/.f64 #s(literal 200 binary64) y)))
(exp.f64 (log.f64 (/.f64 #s(literal 200 binary64) y)))
(log.f64 (exp.f64 (/.f64 #s(literal 200 binary64) y)))
(.f64 (sqrt.f64 (.f64 #s(approx (- x y) x) #s(literal 200 binary64))) (sqrt.f64 (*.f64 #s(approx (- x y) x) #s(literal 200 binary64))))
(.f64 (.f64 (cbrt.f64 (.f64 #s(approx (- x y) x) #s(literal 200 binary64))) (cbrt.f64 (.f64 #s(approx (- x y) x) #s(literal 200 binary64)))) (cbrt.f64 (*.f64 #s(approx (- x y) x) #s(literal 200 binary64))))
(.f64 (.f64 #s(approx (- x y) x) (sqrt.f64 #s(literal 200 binary64))) (sqrt.f64 #s(literal 200 binary64)))
(*.f64 #s(approx (- x y) x) #s(literal 200 binary64))
(.f64 (sqrt.f64 #s(literal 200 binary64)) (.f64 #s(approx (- x y) x) (sqrt.f64 #s(literal 200 binary64))))
(pow.f64 (*.f64 #s(approx (- x y) x) #s(literal 200 binary64)) #s(literal 1 binary64))
(cbrt.f64 (.f64 (.f64 (.f64 #s(approx (- x y) x) #s(literal 200 binary64)) (.f64 #s(approx (- x y) x) #s(literal 200 binary64))) (*.f64 #s(approx (- x y) x) #s(literal 200 binary64))))
(exp.f64 (log.f64 (*.f64 #s(approx (- x y) x) #s(literal 200 binary64))))
(log.f64 (exp.f64 (*.f64 #s(approx (- x y) x) #s(literal 200 binary64))))
(.f64 (sqrt.f64 (.f64 #s(approx (- x y) x) (sqrt.f64 #s(literal 200 binary64)))) (sqrt.f64 (*.f64 #s(approx (- x y) x) (sqrt.f64 #s(literal 200 binary64)))))
(.f64 (.f64 (cbrt.f64 (.f64 #s(approx (- x y) x) (sqrt.f64 #s(literal 200 binary64)))) (cbrt.f64 (.f64 #s(approx (- x y) x) (sqrt.f64 #s(literal 200 binary64))))) (cbrt.f64 (*.f64 #s(approx (- x y) x) (sqrt.f64 #s(literal 200 binary64)))))
(*.f64 #s(approx (- x y) x) (sqrt.f64 #s(literal 200 binary64)))
(*.f64 (sqrt.f64 #s(literal 200 binary64)) #s(approx (- x y) x))
(pow.f64 (*.f64 #s(approx (- x y) x) (sqrt.f64 #s(literal 200 binary64))) #s(literal 1 binary64))
(cbrt.f64 (.f64 (.f64 (.f64 #s(approx (- x y) x) (sqrt.f64 #s(literal 200 binary64))) (.f64 #s(approx (- x y) x) (sqrt.f64 #s(literal 200 binary64)))) (*.f64 #s(approx (- x y) x) (sqrt.f64 #s(literal 200 binary64)))))
(exp.f64 (log.f64 (*.f64 #s(approx (- x y) x) (sqrt.f64 #s(literal 200 binary64)))))
(log.f64 (exp.f64 (*.f64 #s(approx (- x y) x) (sqrt.f64 #s(literal 200 binary64)))))
(*.f64 (sqrt.f64 #s(approx (- x y) x)) (sqrt.f64 #s(approx (- x y) x)))
(.f64 (.f64 (cbrt.f64 #s(approx (- x y) x)) (cbrt.f64 #s(approx (- x y) x))) (cbrt.f64 #s(approx (- x y) x)))
(pow.f64 #s(approx (- x y) x) #s(literal 1 binary64))
#s(approx (- x y) x)
(cbrt.f64 (.f64 (.f64 #s(approx (- x y) x) #s(approx (- x y) x)) #s(approx (- x y) x)))
(exp.f64 (log.f64 #s(approx (- x y) x)))
(log.f64 (exp.f64 #s(approx (- x y) x)))
(*.f64 (sqrt.f64 (sqrt.f64 #s(literal 200 binary64))) (sqrt.f64 (sqrt.f64 #s(literal 200 binary64))))
(.f64 (.f64 (cbrt.f64 (sqrt.f64 #s(literal 200 binary64))) (cbrt.f64 (sqrt.f64 #s(literal 200 binary64)))) (cbrt.f64 (sqrt.f64 #s(literal 200 binary64))))
(*.f64 (cbrt.f64 #s(literal 200 binary64)) (cbrt.f64 (sqrt.f64 #s(literal 200 binary64))))
(pow.f64 (*.f64 (sqrt.f64 #s(literal 200 binary64)) #s(literal 200 binary64)) #s(literal 1/3 binary64))
(pow.f64 (sqrt.f64 #s(literal 200 binary64)) #s(literal 1 binary64))
(pow.f64 #s(literal 200 binary64) #s(literal 1/2 binary64))
(cbrt.f64 (*.f64 (sqrt.f64 #s(literal 200 binary64)) #s(literal 200 binary64)))
(sqrt.f64 #s(literal 200 binary64))
(exp.f64 (log.f64 (sqrt.f64 #s(literal 200 binary64))))
(log.f64 (exp.f64 (sqrt.f64 #s(literal 200 binary64))))
(.f64 (sqrt.f64 (.f64 (cbrt.f64 #s(literal 200 binary64)) (.f64 (cbrt.f64 #s(literal 40000 binary64)) #s(approx (- x y) (neg.f64 y))))) (sqrt.f64 (.f64 (cbrt.f64 #s(literal 200 binary64)) (*.f64 (cbrt.f64 #s(literal 40000 binary64)) #s(approx (- x y) (neg.f64 y))))))
(.f64 (.f64 (cbrt.f64 (.f64 (cbrt.f64 #s(literal 200 binary64)) (.f64 (cbrt.f64 #s(literal 40000 binary64)) #s(approx (- x y) (neg.f64 y))))) (cbrt.f64 (.f64 (cbrt.f64 #s(literal 200 binary64)) (.f64 (cbrt.f64 #s(literal 40000 binary64)) #s(approx (- x y) (neg.f64 y)))))) (cbrt.f64 (.f64 (cbrt.f64 #s(literal 200 binary64)) (.f64 (cbrt.f64 #s(literal 40000 binary64)) #s(approx (- x y) (neg.f64 y))))))
(.f64 (cbrt.f64 #s(literal 200 binary64)) (.f64 (cbrt.f64 #s(literal 40000 binary64)) #s(approx (- x y) (neg.f64 y))))
(.f64 (.f64 (cbrt.f64 #s(literal 40000 binary64)) #s(approx (- x y) (neg.f64 y))) (cbrt.f64 #s(literal 200 binary64)))
(.f64 #s(approx (- x y) (neg.f64 y)) (.f64 (cbrt.f64 #s(literal 40000 binary64)) (cbrt.f64 #s(literal 200 binary64))))
(pow.f64 (.f64 (cbrt.f64 #s(literal 200 binary64)) (.f64 (cbrt.f64 #s(literal 40000 binary64)) #s(approx (- x y) (neg.f64 y)))) #s(literal 1 binary64))
(cbrt.f64 (.f64 (.f64 (.f64 (cbrt.f64 #s(literal 200 binary64)) (.f64 (cbrt.f64 #s(literal 40000 binary64)) #s(approx (- x y) (neg.f64 y)))) (.f64 (cbrt.f64 #s(literal 200 binary64)) (.f64 (cbrt.f64 #s(literal 40000 binary64)) #s(approx (- x y) (neg.f64 y))))) (.f64 (cbrt.f64 #s(literal 200 binary64)) (.f64 (cbrt.f64 #s(literal 40000 binary64)) #s(approx (- x y) (neg.f64 y))))))
(exp.f64 (log.f64 (.f64 (cbrt.f64 #s(literal 200 binary64)) (.f64 (cbrt.f64 #s(literal 40000 binary64)) #s(approx (- x y) (neg.f64 y))))))
(log.f64 (exp.f64 (.f64 (cbrt.f64 #s(literal 200 binary64)) (.f64 (cbrt.f64 #s(literal 40000 binary64)) #s(approx (- x y) (neg.f64 y))))))
(.f64 (sqrt.f64 (.f64 (cbrt.f64 #s(literal 40000 binary64)) #s(approx (- x y) (neg.f64 y)))) (sqrt.f64 (*.f64 (cbrt.f64 #s(literal 40000 binary64)) #s(approx (- x y) (neg.f64 y)))))
(.f64 (.f64 (cbrt.f64 (.f64 (cbrt.f64 #s(literal 40000 binary64)) #s(approx (- x y) (neg.f64 y)))) (cbrt.f64 (.f64 (cbrt.f64 #s(literal 40000 binary64)) #s(approx (- x y) (neg.f64 y))))) (cbrt.f64 (*.f64 (cbrt.f64 #s(literal 40000 binary64)) #s(approx (- x y) (neg.f64 y)))))
(*.f64 (cbrt.f64 #s(literal 40000 binary64)) #s(approx (- x y) (neg.f64 y)))
(*.f64 #s(approx (- x y) (neg.f64 y)) (cbrt.f64 #s(literal 40000 binary64)))
(pow.f64 (*.f64 (cbrt.f64 #s(literal 40000 binary64)) #s(approx (- x y) (neg.f64 y))) #s(literal 1 binary64))
(cbrt.f64 (.f64 (.f64 (.f64 (cbrt.f64 #s(literal 40000 binary64)) #s(approx (- x y) (neg.f64 y))) (.f64 (cbrt.f64 #s(literal 40000 binary64)) #s(approx (- x y) (neg.f64 y)))) (*.f64 (cbrt.f64 #s(literal 40000 binary64)) #s(approx (- x y) (neg.f64 y)))))
(exp.f64 (log.f64 (*.f64 (cbrt.f64 #s(literal 40000 binary64)) #s(approx (- x y) (neg.f64 y)))))
(log.f64 (exp.f64 (*.f64 (cbrt.f64 #s(literal 40000 binary64)) #s(approx (- x y) (neg.f64 y)))))
(*.f64 (sqrt.f64 #s(approx (- x y) (neg.f64 y))) (sqrt.f64 #s(approx (- x y) (neg.f64 y))))
(.f64 (.f64 (cbrt.f64 #s(approx (- x y) (neg.f64 y))) (cbrt.f64 #s(approx (- x y) (neg.f64 y)))) (cbrt.f64 #s(approx (- x y) (neg.f64 y))))
(pow.f64 #s(approx (- x y) (neg.f64 y)) #s(literal 1 binary64))
#s(approx (- x y) (neg.f64 y))
(cbrt.f64 (.f64 (.f64 #s(approx (- x y) (neg.f64 y)) #s(approx (- x y) (neg.f64 y))) #s(approx (- x y) (neg.f64 y))))
(exp.f64 (log.f64 #s(approx (- x y) (neg.f64 y))))
(log.f64 (exp.f64 #s(approx (- x y) (neg.f64 y))))
(*.f64 (sqrt.f64 (neg.f64 y)) (sqrt.f64 (neg.f64 y)))
(.f64 (.f64 (cbrt.f64 (neg.f64 y)) (cbrt.f64 (neg.f64 y))) (cbrt.f64 (neg.f64 y)))
(pow.f64 (neg.f64 y) #s(literal 1 binary64))
(neg.f64 y)
(cbrt.f64 (.f64 (.f64 (neg.f64 y) (neg.f64 y)) (neg.f64 y)))
(exp.f64 (log.f64 (neg.f64 y)))
(log.f64 (exp.f64 (neg.f64 y)))
(*.f64 (sqrt.f64 (cbrt.f64 #s(literal 200 binary64))) (sqrt.f64 (cbrt.f64 #s(literal 200 binary64))))
(.f64 (.f64 (cbrt.f64 (cbrt.f64 #s(literal 200 binary64))) (cbrt.f64 (cbrt.f64 #s(literal 200 binary64)))) (cbrt.f64 (cbrt.f64 #s(literal 200 binary64))))
(pow.f64 (cbrt.f64 #s(literal 200 binary64)) #s(literal 1 binary64))
(pow.f64 #s(literal 200 binary64) #s(literal 1/3 binary64))
(cbrt.f64 #s(literal 200 binary64))
(exp.f64 (log.f64 (cbrt.f64 #s(literal 200 binary64))))
(log.f64 (exp.f64 (cbrt.f64 #s(literal 200 binary64))))

eval28.0ms (0.9%)

Memory: -4.1MiB live, 43.8MiB allocated; 10ms collecting garbage
Compiler: Compiled 4 059 to 666 computations (83.6% saved)

prune7.0ms (0.2%)

Memory

20.6MiB live, 20.6MiB allocated; 0ms collecting garbage

Pruning

10 alts after pruning (2 fresh and 8 done)

	Pruned	Kept	Total
New	195	2	197
Fresh	0	0	0
Picked	2	3	5
Done	0	5	5
Total	197	10	207

Accuracy

100.0%

Counts

207 → 10

Alt Table

Click to see full alt table

Status	Accuracy	Program
✓	99.2%	(.f64 (.f64 (-.f64 x y) (sqrt.f64 #s(literal 200 binary64))) (sqrt.f64 #s(literal 200 binary64)))
✓	50.3%	(.f64 (.f64 #s(approx (- x y) (neg.f64 y)) (cbrt.f64 #s(literal 40000 binary64))) (cbrt.f64 #s(literal 200 binary64)))
✓	49.7%	(.f64 (.f64 #s(approx (- x y) x) (sqrt.f64 #s(literal 200 binary64))) (sqrt.f64 #s(literal 200 binary64)))
▶	49.8%	(.f64 (.f64 #s(approx (- x y) x) (sqrt.f64 #s(literal 200 binary64))) (cbrt.f64 (*.f64 #s(literal 200 binary64) (sqrt.f64 #s(literal 200 binary64)))))
✓	43.3%	(.f64 (sqrt.f64 (.f64 (-.f64 x y) #s(literal 200 binary64))) (sqrt.f64 (*.f64 (-.f64 x y) #s(literal 200 binary64))))
✓	100.0%	(*.f64 #s(literal 200 binary64) (-.f64 x y))
✓	50.1%	(*.f64 #s(literal 200 binary64) #s(approx (- x y) x))
✓	87.3%	#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64)) x))
▶	40.0%	#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (.f64 #s(approx (+ ( (/ 200 y) x) -200) (*.f64 (/.f64 x y) #s(literal 200 binary64))) y))
✓	50.7%	#s(approx (* 200 (- x y)) (*.f64 #s(literal -200 binary64) y))

Compiler

Compiled 123 to 92 computations (25.2% saved)

simplify195.0ms (5.9%)

Memory

-13.3MiB live, 170.8MiB allocated; 26ms collecting garbage

Localize:

Found 8 expressions of interest:

New	Metric	Score
cost-diff	0	#s(approx (- x y) x)
cost-diff	0	(*.f64 #s(approx (- x y) x) (sqrt.f64 #s(literal 200 binary64)))
cost-diff	3	(cbrt.f64 (*.f64 #s(literal 200 binary64) (sqrt.f64 #s(literal 200 binary64))))
cost-diff	4	(.f64 (.f64 #s(approx (- x y) x) (sqrt.f64 #s(literal 200 binary64))) (cbrt.f64 (*.f64 #s(literal 200 binary64) (sqrt.f64 #s(literal 200 binary64)))))
cost-diff	0	(*.f64 (/.f64 x y) #s(literal 200 binary64))
cost-diff	0	#s(approx (+ (* (/ 200 y) x) -200) (*.f64 (/.f64 x y) #s(literal 200 binary64)))
cost-diff	0	(.f64 #s(approx (+ ( (/ 200 y) x) -200) (*.f64 (/.f64 x y) #s(literal 200 binary64))) y)
cost-diff	0	#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (.f64 #s(approx (+ ( (/ 200 y) x) -200) (*.f64 (/.f64 x y) #s(literal 200 binary64))) y))

Iterations

Useful iterations: 0 (0.0ms)

Iter	Nodes	Cost
0	22	104
0	31	101
1	48	97
2	68	97
3	130	90
4	277	90
5	449	90
6	510	90
7	558	90
8	614	90
9	845	90
10	2292	90
11	6382	90
0	8158	87

Stop Event

1×	iter limit
1×	node limit
1×	iter limit

Calls

Call 1

Inputs
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (.f64 #s(approx (+ ( (/ 200 y) x) -200) (*.f64 (/.f64 x y) #s(literal 200 binary64))) y))
(.f64 #s(approx (+ ( (/ 200 y) x) -200) (*.f64 (/.f64 x y) #s(literal 200 binary64))) y)
#s(approx (+ (* (/ 200 y) x) -200) (*.f64 (/.f64 x y) #s(literal 200 binary64)))
(*.f64 (/.f64 x y) #s(literal 200 binary64))
(/.f64 x y)
x
y
#s(literal 200 binary64)
(.f64 (.f64 #s(approx (- x y) x) (sqrt.f64 #s(literal 200 binary64))) (cbrt.f64 (*.f64 #s(literal 200 binary64) (sqrt.f64 #s(literal 200 binary64)))))
(*.f64 #s(approx (- x y) x) (sqrt.f64 #s(literal 200 binary64)))
#s(approx (- x y) x)
x
(sqrt.f64 #s(literal 200 binary64))
#s(literal 200 binary64)
(cbrt.f64 (*.f64 #s(literal 200 binary64) (sqrt.f64 #s(literal 200 binary64))))
(*.f64 #s(literal 200 binary64) (sqrt.f64 #s(literal 200 binary64)))

Outputs
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (.f64 #s(approx (+ ( (/ 200 y) x) -200) (*.f64 (/.f64 x y) #s(literal 200 binary64))) y))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (.f64 #s(approx (+ ( (/ 200 y) x) -200) (*.f64 (/.f64 #s(literal 200 binary64) y) x)) y))
(.f64 #s(approx (+ ( (/ 200 y) x) -200) (*.f64 (/.f64 x y) #s(literal 200 binary64))) y)
(.f64 #s(approx (+ ( (/ 200 y) x) -200) (*.f64 (/.f64 #s(literal 200 binary64) y) x)) y)
#s(approx (+ (* (/ 200 y) x) -200) (*.f64 (/.f64 x y) #s(literal 200 binary64)))
#s(approx (+ (* (/ 200 y) x) -200) (*.f64 (/.f64 #s(literal 200 binary64) y) x))
(*.f64 (/.f64 x y) #s(literal 200 binary64))
(*.f64 (/.f64 #s(literal 200 binary64) y) x)
(/.f64 x y)
x
y
#s(literal 200 binary64)
(.f64 (.f64 #s(approx (- x y) x) (sqrt.f64 #s(literal 200 binary64))) (cbrt.f64 (*.f64 #s(literal 200 binary64) (sqrt.f64 #s(literal 200 binary64)))))
(*.f64 #s(approx (- x y) x) #s(literal 200 binary64))
(*.f64 #s(approx (- x y) x) (sqrt.f64 #s(literal 200 binary64)))
(*.f64 (sqrt.f64 #s(literal 200 binary64)) #s(approx (- x y) x))
#s(approx (- x y) x)
x
(sqrt.f64 #s(literal 200 binary64))
#s(literal 200 binary64)
(cbrt.f64 (*.f64 #s(literal 200 binary64) (sqrt.f64 #s(literal 200 binary64))))
(sqrt.f64 #s(literal 200 binary64))
(*.f64 #s(literal 200 binary64) (sqrt.f64 #s(literal 200 binary64)))
(*.f64 (sqrt.f64 #s(literal 200 binary64)) #s(literal 200 binary64))

localize88.0ms (2.7%)

Memory

-8.8MiB live, 77.7MiB allocated; 18ms collecting garbage

Localize:

Found 8 expressions of interest:

New	Metric	Score
accuracy	0.29296875	(*.f64 #s(approx (- x y) x) (sqrt.f64 #s(literal 200 binary64)))
accuracy	0.32259750976844204	(.f64 (.f64 #s(approx (- x y) x) (sqrt.f64 #s(literal 200 binary64))) (cbrt.f64 (*.f64 #s(literal 200 binary64) (sqrt.f64 #s(literal 200 binary64)))))
accuracy	1.0	(cbrt.f64 (*.f64 #s(literal 200 binary64) (sqrt.f64 #s(literal 200 binary64))))
accuracy	31.959129166454755	#s(approx (- x y) x)
accuracy	0.0	#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (.f64 #s(approx (+ ( (/ 200 y) x) -200) (*.f64 (/.f64 x y) #s(literal 200 binary64))) y))
accuracy	0.3274389813566639	(*.f64 (/.f64 x y) #s(literal 200 binary64))
accuracy	6.4653794700875356	(.f64 #s(approx (+ ( (/ 200 y) x) -200) (*.f64 (/.f64 x y) #s(literal 200 binary64))) y)
accuracy	31.831937255857177	#s(approx (+ (* (/ 200 y) x) -200) (*.f64 (/.f64 x y) #s(literal 200 binary64)))

Samples

54.0ms	249×	0	valid
2.0ms	3×	3	valid
2.0ms	2×	2	valid
0.0ms	2×	1	valid

Compiler

Compiled 72 to 19 computations (73.6% saved)

Precisions

Click to see histograms. Total time spent on operations: 48.0ms

ival-mult: 34.0ms (71.2% of total)

ival-div: 4.0ms (8.4% of total)

ival-cbrt: 3.0ms (6.3% of total)

ival-sqrt: 2.0ms (4.2% of total)

ival-sub: 2.0ms (4.2% of total)

adjust: 1.0ms (2.1% of total)

ival-add: 1.0ms (2.1% of total)

ival-assert: 0.0ms (0% of total)

ival-true: 0.0ms (0% of total)

exact: 0.0ms (0% of total)

series14.0ms (0.4%)

Memory

27.5MiB live, 27.5MiB allocated; 0ms collecting garbage

Counts

8 → 43

Calls

Call 1

Inputs
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (.f64 #s(approx (+ ( (/ 200 y) x) -200) (*.f64 (/.f64 x y) #s(literal 200 binary64))) y))
(.f64 #s(approx (+ ( (/ 200 y) x) -200) (*.f64 (/.f64 x y) #s(literal 200 binary64))) y)
#s(approx (+ (* (/ 200 y) x) -200) (*.f64 (/.f64 x y) #s(literal 200 binary64)))
(*.f64 (/.f64 x y) #s(literal 200 binary64))
(.f64 (.f64 #s(approx (- x y) x) (sqrt.f64 #s(literal 200 binary64))) (cbrt.f64 (*.f64 #s(literal 200 binary64) (sqrt.f64 #s(literal 200 binary64)))))
(cbrt.f64 (*.f64 #s(literal 200 binary64) (sqrt.f64 #s(literal 200 binary64))))
(*.f64 #s(approx (- x y) x) (sqrt.f64 #s(literal 200 binary64)))
#s(approx (- x y) x)

Outputs
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (* -1 (* y (pow (sqrt 200) 2)))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (+ (* -1 (* y (pow (sqrt 200) 2))) (* x (pow (sqrt 200) 2)))))
#s(approx (* (+ (* (/ 200 y) x) -200) y) #s(hole binary64 (* -200 y)))
#s(approx (* (+ (* (/ 200 y) x) -200) y) #s(hole binary64 (+ (* -200 y) (* 200 x))))
#s(approx (+ (* (/ 200 y) x) -200) #s(hole binary64 -200))
#s(approx (+ (* (/ 200 y) x) -200) #s(hole binary64 (- (* 200 (/ x y)) 200)))
#s(approx (* (/ x y) 200) #s(hole binary64 (* 200 (/ x y))))
#s(approx (* (* (- x y) (sqrt 200)) (cbrt (* 200 (sqrt 200)))) #s(hole binary64 (* -1 (* (* y (cbrt 200)) (cbrt (pow (sqrt 200) 4))))))
#s(approx (* (* (- x y) (sqrt 200)) (cbrt (* 200 (sqrt 200)))) #s(hole binary64 (+ (* -1 (* (* y (cbrt 200)) (cbrt (pow (sqrt 200) 4)))) (* (* x (cbrt 200)) (cbrt (pow (sqrt 200) 4))))))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (* -1 (* y (sqrt 200)))))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (+ (* -1 (* y (sqrt 200))) (* x (sqrt 200)))))
#s(approx (- x y) #s(hole binary64 (* -1 y)))
#s(approx (- x y) #s(hole binary64 (- x y)))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (* x (pow (sqrt 200) 2))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (* x (+ (* -1 (/ (* y (pow (sqrt 200) 2)) x)) (pow (sqrt 200) 2)))))
#s(approx (* (+ (* (/ 200 y) x) -200) y) #s(hole binary64 (* 200 x)))
#s(approx (* (+ (* (/ 200 y) x) -200) y) #s(hole binary64 (* x (+ 200 (* -200 (/ y x))))))
#s(approx (+ (* (/ 200 y) x) -200) #s(hole binary64 (* 200 (/ x y))))
#s(approx (+ (* (/ 200 y) x) -200) #s(hole binary64 (* x (- (* 200 (/ 1 y)) (* 200 (/ 1 x))))))
#s(approx (* (* (- x y) (sqrt 200)) (cbrt (* 200 (sqrt 200)))) #s(hole binary64 (* (* x (cbrt 200)) (cbrt (pow (sqrt 200) 4)))))
#s(approx (* (* (- x y) (sqrt 200)) (cbrt (* 200 (sqrt 200)))) #s(hole binary64 (* x (+ (* -1 (* (/ (* y (cbrt 200)) x) (cbrt (pow (sqrt 200) 4)))) (* (cbrt 200) (cbrt (pow (sqrt 200) 4)))))))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (* x (sqrt 200))))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (* x (+ (sqrt 200) (* -1 (/ (* y (sqrt 200)) x))))))
#s(approx (- x y) #s(hole binary64 x))
#s(approx (- x y) #s(hole binary64 (* x (+ 1 (* -1 (/ y x))))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (* -1 (* x (+ (* -1 (pow (sqrt 200) 2)) (/ (* y (pow (sqrt 200) 2)) x))))))
#s(approx (* (+ (* (/ 200 y) x) -200) y) #s(hole binary64 (* -1 (* x (- (* 200 (/ y x)) 200)))))
#s(approx (+ (* (/ 200 y) x) -200) #s(hole binary64 (* -1 (* x (- (* 200 (/ 1 x)) (* 200 (/ 1 y)))))))
#s(approx (* (* (- x y) (sqrt 200)) (cbrt (* 200 (sqrt 200)))) #s(hole binary64 (* -1 (* x (+ (* -1 (* (cbrt 200) (cbrt (pow (sqrt 200) 4)))) (* (/ (* y (cbrt 200)) x) (cbrt (pow (sqrt 200) 4))))))))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (* -1 (* x (+ (* -1 (sqrt 200)) (/ (* y (sqrt 200)) x))))))
#s(approx (- x y) #s(hole binary64 (* -1 (* x (- (/ y x) 1)))))
#s(approx (+ (* (/ 200 y) x) -200) #s(hole binary64 (/ (+ (* -200 y) (* 200 x)) y)))
#s(approx (- x y) #s(hole binary64 (+ x (* -1 y))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (* y (+ (* -1 (pow (sqrt 200) 2)) (/ (* x (pow (sqrt 200) 2)) y)))))
#s(approx (* (+ (* (/ 200 y) x) -200) y) #s(hole binary64 (* y (- (* 200 (/ x y)) 200))))
#s(approx (* (* (- x y) (sqrt 200)) (cbrt (* 200 (sqrt 200)))) #s(hole binary64 (* y (+ (* -1 (* (cbrt 200) (cbrt (pow (sqrt 200) 4)))) (* (/ (* x (cbrt 200)) y) (cbrt (pow (sqrt 200) 4)))))))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (* y (+ (* -1 (sqrt 200)) (/ (* x (sqrt 200)) y)))))
#s(approx (- x y) #s(hole binary64 (* y (- (/ x y) 1))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (* -1 (* y (+ (* -1 (/ (* x (pow (sqrt 200) 2)) y)) (pow (sqrt 200) 2))))))
#s(approx (* (+ (* (/ 200 y) x) -200) y) #s(hole binary64 (* -1 (* y (+ 200 (* -200 (/ x y)))))))
#s(approx (* (* (- x y) (sqrt 200)) (cbrt (* 200 (sqrt 200)))) #s(hole binary64 (* -1 (* y (+ (* -1 (* (/ (* x (cbrt 200)) y) (cbrt (pow (sqrt 200) 4)))) (* (cbrt 200) (cbrt (pow (sqrt 200) 4))))))))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (* -1 (* y (+ (sqrt 200) (* -1 (/ (* x (sqrt 200)) y)))))))
#s(approx (- x y) #s(hole binary64 (* -1 (* y (+ 1 (* -1 (/ x y)))))))

Calls

6 calls:

Time	Variable		Point	Expression
3.0ms	x	@	-inf	((* (* (- x y) (sqrt 200)) (sqrt 200)) (* (+ (* (/ 200 y) x) -200) y) (+ (* (/ 200 y) x) -200) (* (/ x y) 200) (* (* (- x y) (sqrt 200)) (cbrt (* 200 (sqrt 200)))) (cbrt (* 200 (sqrt 200))) (* (- x y) (sqrt 200)) (- x y))
2.0ms	x	@	inf	((* (* (- x y) (sqrt 200)) (sqrt 200)) (* (+ (* (/ 200 y) x) -200) y) (+ (* (/ 200 y) x) -200) (* (/ x y) 200) (* (* (- x y) (sqrt 200)) (cbrt (* 200 (sqrt 200)))) (cbrt (* 200 (sqrt 200))) (* (- x y) (sqrt 200)) (- x y))
2.0ms	x	@	0	((* (* (- x y) (sqrt 200)) (sqrt 200)) (* (+ (* (/ 200 y) x) -200) y) (+ (* (/ 200 y) x) -200) (* (/ x y) 200) (* (* (- x y) (sqrt 200)) (cbrt (* 200 (sqrt 200)))) (cbrt (* 200 (sqrt 200))) (* (- x y) (sqrt 200)) (- x y))
2.0ms	y	@	inf	((* (* (- x y) (sqrt 200)) (sqrt 200)) (* (+ (* (/ 200 y) x) -200) y) (+ (* (/ 200 y) x) -200) (* (/ x y) 200) (* (* (- x y) (sqrt 200)) (cbrt (* 200 (sqrt 200)))) (cbrt (* 200 (sqrt 200))) (* (- x y) (sqrt 200)) (- x y))
2.0ms	y	@	-inf	((* (* (- x y) (sqrt 200)) (sqrt 200)) (* (+ (* (/ 200 y) x) -200) y) (+ (* (/ 200 y) x) -200) (* (/ x y) 200) (* (* (- x y) (sqrt 200)) (cbrt (* 200 (sqrt 200)))) (cbrt (* 200 (sqrt 200))) (* (- x y) (sqrt 200)) (- x y))

simplify128.0ms (3.9%)

Memory

-10.3MiB live, 88.4MiB allocated; 24ms collecting garbage

Iterations

Useful iterations: 0 (0.0ms)

Iter	Nodes	Cost
0	172	772
1	492	576
2	1704	556
3	4877	507
4	7680	507
0	8026	499

Stop Event

1×	iter limit
1×	node limit

Counts

43 → 43

Calls

Call 1

Inputs
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (* -1 (* y (pow (sqrt 200) 2)))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (+ (* -1 (* y (pow (sqrt 200) 2))) (* x (pow (sqrt 200) 2)))))
#s(approx (* (+ (* (/ 200 y) x) -200) y) #s(hole binary64 (* -200 y)))
#s(approx (* (+ (* (/ 200 y) x) -200) y) #s(hole binary64 (+ (* -200 y) (* 200 x))))
#s(approx (+ (* (/ 200 y) x) -200) #s(hole binary64 -200))
#s(approx (+ (* (/ 200 y) x) -200) #s(hole binary64 (- (* 200 (/ x y)) 200)))
#s(approx (* (/ x y) 200) #s(hole binary64 (* 200 (/ x y))))
#s(approx (* (* (- x y) (sqrt 200)) (cbrt (* 200 (sqrt 200)))) #s(hole binary64 (* -1 (* (* y (cbrt 200)) (cbrt (pow (sqrt 200) 4))))))
#s(approx (* (* (- x y) (sqrt 200)) (cbrt (* 200 (sqrt 200)))) #s(hole binary64 (+ (* -1 (* (* y (cbrt 200)) (cbrt (pow (sqrt 200) 4)))) (* (* x (cbrt 200)) (cbrt (pow (sqrt 200) 4))))))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (* -1 (* y (sqrt 200)))))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (+ (* -1 (* y (sqrt 200))) (* x (sqrt 200)))))
#s(approx (- x y) #s(hole binary64 (* -1 y)))
#s(approx (- x y) #s(hole binary64 (- x y)))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (* x (pow (sqrt 200) 2))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (* x (+ (* -1 (/ (* y (pow (sqrt 200) 2)) x)) (pow (sqrt 200) 2)))))
#s(approx (* (+ (* (/ 200 y) x) -200) y) #s(hole binary64 (* 200 x)))
#s(approx (* (+ (* (/ 200 y) x) -200) y) #s(hole binary64 (* x (+ 200 (* -200 (/ y x))))))
#s(approx (+ (* (/ 200 y) x) -200) #s(hole binary64 (* 200 (/ x y))))
#s(approx (+ (* (/ 200 y) x) -200) #s(hole binary64 (* x (- (* 200 (/ 1 y)) (* 200 (/ 1 x))))))
#s(approx (* (* (- x y) (sqrt 200)) (cbrt (* 200 (sqrt 200)))) #s(hole binary64 (* (* x (cbrt 200)) (cbrt (pow (sqrt 200) 4)))))
#s(approx (* (* (- x y) (sqrt 200)) (cbrt (* 200 (sqrt 200)))) #s(hole binary64 (* x (+ (* -1 (* (/ (* y (cbrt 200)) x) (cbrt (pow (sqrt 200) 4)))) (* (cbrt 200) (cbrt (pow (sqrt 200) 4)))))))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (* x (sqrt 200))))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (* x (+ (sqrt 200) (* -1 (/ (* y (sqrt 200)) x))))))
#s(approx (- x y) #s(hole binary64 x))
#s(approx (- x y) #s(hole binary64 (* x (+ 1 (* -1 (/ y x))))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (* -1 (* x (+ (* -1 (pow (sqrt 200) 2)) (/ (* y (pow (sqrt 200) 2)) x))))))
#s(approx (* (+ (* (/ 200 y) x) -200) y) #s(hole binary64 (* -1 (* x (- (* 200 (/ y x)) 200)))))
#s(approx (+ (* (/ 200 y) x) -200) #s(hole binary64 (* -1 (* x (- (* 200 (/ 1 x)) (* 200 (/ 1 y)))))))
#s(approx (* (* (- x y) (sqrt 200)) (cbrt (* 200 (sqrt 200)))) #s(hole binary64 (* -1 (* x (+ (* -1 (* (cbrt 200) (cbrt (pow (sqrt 200) 4)))) (* (/ (* y (cbrt 200)) x) (cbrt (pow (sqrt 200) 4))))))))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (* -1 (* x (+ (* -1 (sqrt 200)) (/ (* y (sqrt 200)) x))))))
#s(approx (- x y) #s(hole binary64 (* -1 (* x (- (/ y x) 1)))))
#s(approx (+ (* (/ 200 y) x) -200) #s(hole binary64 (/ (+ (* -200 y) (* 200 x)) y)))
#s(approx (- x y) #s(hole binary64 (+ x (* -1 y))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (* y (+ (* -1 (pow (sqrt 200) 2)) (/ (* x (pow (sqrt 200) 2)) y)))))
#s(approx (* (+ (* (/ 200 y) x) -200) y) #s(hole binary64 (* y (- (* 200 (/ x y)) 200))))
#s(approx (* (* (- x y) (sqrt 200)) (cbrt (* 200 (sqrt 200)))) #s(hole binary64 (* y (+ (* -1 (* (cbrt 200) (cbrt (pow (sqrt 200) 4)))) (* (/ (* x (cbrt 200)) y) (cbrt (pow (sqrt 200) 4)))))))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (* y (+ (* -1 (sqrt 200)) (/ (* x (sqrt 200)) y)))))
#s(approx (- x y) #s(hole binary64 (* y (- (/ x y) 1))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (* -1 (* y (+ (* -1 (/ (* x (pow (sqrt 200) 2)) y)) (pow (sqrt 200) 2))))))
#s(approx (* (+ (* (/ 200 y) x) -200) y) #s(hole binary64 (* -1 (* y (+ 200 (* -200 (/ x y)))))))
#s(approx (* (* (- x y) (sqrt 200)) (cbrt (* 200 (sqrt 200)))) #s(hole binary64 (* -1 (* y (+ (* -1 (* (/ (* x (cbrt 200)) y) (cbrt (pow (sqrt 200) 4)))) (* (cbrt 200) (cbrt (pow (sqrt 200) 4))))))))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (* -1 (* y (+ (sqrt 200) (* -1 (/ (* x (sqrt 200)) y)))))))
#s(approx (- x y) #s(hole binary64 (* -1 (* y (+ 1 (* -1 (/ x y)))))))

Outputs
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (* -1 (* y (pow (sqrt 200) 2)))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 #s(literal -200 binary64) y))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (+ (* -1 (* y (pow (sqrt 200) 2))) (* x (pow (sqrt 200) 2)))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 #s(literal 200 binary64) (-.f64 x y)))
#s(approx (* (+ (* (/ 200 y) x) -200) y) #s(hole binary64 (* -200 y)))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 #s(literal -200 binary64) y))
#s(approx (* (+ (* (/ 200 y) x) -200) y) #s(hole binary64 (+ (* -200 y) (* 200 x))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 #s(literal 200 binary64) (-.f64 x y)))
#s(approx (+ (* (/ 200 y) x) -200) #s(hole binary64 -200))
#s(approx (+ (* (/ 200 y) x) -200) #s(literal -200 binary64))
#s(approx (+ (* (/ 200 y) x) -200) #s(hole binary64 (- (* 200 (/ x y)) 200)))
#s(approx (+ (* (/ 200 y) x) -200) (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64)))
#s(approx (* (/ x y) 200) #s(hole binary64 (* 200 (/ x y))))
#s(approx (* (/ x y) 200) (*.f64 (/.f64 x y) #s(literal 200 binary64)))
#s(approx (* (* (- x y) (sqrt 200)) (cbrt (* 200 (sqrt 200)))) #s(hole binary64 (* -1 (* (* y (cbrt 200)) (cbrt (pow (sqrt 200) 4))))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (.f64 (.f64 (neg.f64 y) (cbrt.f64 (pow.f64 (sqrt.f64 #s(literal 200 binary64)) #s(literal 4 binary64)))) (cbrt.f64 #s(literal 200 binary64))))
#s(approx (* (* (- x y) (sqrt 200)) (cbrt (* 200 (sqrt 200)))) #s(hole binary64 (+ (* -1 (* (* y (cbrt 200)) (cbrt (pow (sqrt 200) 4)))) (* (* x (cbrt 200)) (cbrt (pow (sqrt 200) 4))))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (.f64 (.f64 (cbrt.f64 (pow.f64 (sqrt.f64 #s(literal 200 binary64)) #s(literal 4 binary64))) (cbrt.f64 #s(literal 200 binary64))) (-.f64 x y)))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (* -1 (* y (sqrt 200)))))
#s(approx (* (- x y) (sqrt 200)) (*.f64 (neg.f64 y) (sqrt.f64 #s(literal 200 binary64))))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (+ (* -1 (* y (sqrt 200))) (* x (sqrt 200)))))
#s(approx (* (- x y) (sqrt 200)) (*.f64 (sqrt.f64 #s(literal 200 binary64)) (-.f64 x y)))
#s(approx (- x y) #s(hole binary64 (* -1 y)))
#s(approx (- x y) (neg.f64 y))
#s(approx (- x y) #s(hole binary64 (- x y)))
#s(approx (- x y) (-.f64 x y))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (* x (pow (sqrt 200) 2))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 #s(literal 200 binary64) x))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (* x (+ (* -1 (/ (* y (pow (sqrt 200) 2)) x)) (pow (sqrt 200) 2)))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 #s(literal 200 binary64) (-.f64 x y)))
#s(approx (* (+ (* (/ 200 y) x) -200) y) #s(hole binary64 (* 200 x)))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 #s(literal 200 binary64) x))
#s(approx (* (+ (* (/ 200 y) x) -200) y) #s(hole binary64 (* x (+ 200 (* -200 (/ y x))))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 #s(literal 200 binary64) (-.f64 x y)))
#s(approx (+ (* (/ 200 y) x) -200) #s(hole binary64 (* 200 (/ x y))))
#s(approx (+ (* (/ 200 y) x) -200) (*.f64 (/.f64 x y) #s(literal 200 binary64)))
#s(approx (+ (* (/ 200 y) x) -200) #s(hole binary64 (* x (- (* 200 (/ 1 y)) (* 200 (/ 1 x))))))
#s(approx (+ (* (/ 200 y) x) -200) (*.f64 (-.f64 (/.f64 #s(literal -200 binary64) x) (/.f64 #s(literal -200 binary64) y)) x))
#s(approx (* (* (- x y) (sqrt 200)) (cbrt (* 200 (sqrt 200)))) #s(hole binary64 (* (* x (cbrt 200)) (cbrt (pow (sqrt 200) 4)))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (.f64 (.f64 (cbrt.f64 #s(literal 200 binary64)) x) (cbrt.f64 (pow.f64 (sqrt.f64 #s(literal 200 binary64)) #s(literal 4 binary64)))))
#s(approx (* (* (- x y) (sqrt 200)) (cbrt (* 200 (sqrt 200)))) #s(hole binary64 (* x (+ (* -1 (* (/ (* y (cbrt 200)) x) (cbrt (pow (sqrt 200) 4)))) (* (cbrt 200) (cbrt (pow (sqrt 200) 4)))))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (.f64 (.f64 (cbrt.f64 (pow.f64 (sqrt.f64 #s(literal 200 binary64)) #s(literal 4 binary64))) (cbrt.f64 #s(literal 200 binary64))) (-.f64 x y)))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (* x (sqrt 200))))
#s(approx (* (- x y) (sqrt 200)) (*.f64 (sqrt.f64 #s(literal 200 binary64)) x))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (* x (+ (sqrt 200) (* -1 (/ (* y (sqrt 200)) x))))))
#s(approx (* (- x y) (sqrt 200)) (*.f64 (sqrt.f64 #s(literal 200 binary64)) (-.f64 x y)))
#s(approx (- x y) #s(hole binary64 x))
#s(approx (- x y) x)
#s(approx (- x y) #s(hole binary64 (* x (+ 1 (* -1 (/ y x))))))
#s(approx (- x y) (-.f64 x y))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (* -1 (* x (+ (* -1 (pow (sqrt 200) 2)) (/ (* y (pow (sqrt 200) 2)) x))))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 #s(literal 200 binary64) (-.f64 x y)))
#s(approx (* (+ (* (/ 200 y) x) -200) y) #s(hole binary64 (* -1 (* x (- (* 200 (/ y x)) 200)))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 #s(literal 200 binary64) (-.f64 x y)))
#s(approx (+ (* (/ 200 y) x) -200) #s(hole binary64 (* -1 (* x (- (* 200 (/ 1 x)) (* 200 (/ 1 y)))))))
#s(approx (+ (* (/ 200 y) x) -200) (*.f64 (-.f64 (/.f64 #s(literal -200 binary64) x) (/.f64 #s(literal -200 binary64) y)) x))
#s(approx (* (* (- x y) (sqrt 200)) (cbrt (* 200 (sqrt 200)))) #s(hole binary64 (* -1 (* x (+ (* -1 (* (cbrt 200) (cbrt (pow (sqrt 200) 4)))) (* (/ (* y (cbrt 200)) x) (cbrt (pow (sqrt 200) 4))))))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (.f64 (.f64 (cbrt.f64 (pow.f64 (sqrt.f64 #s(literal 200 binary64)) #s(literal 4 binary64))) (cbrt.f64 #s(literal 200 binary64))) (-.f64 x y)))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (* -1 (* x (+ (* -1 (sqrt 200)) (/ (* y (sqrt 200)) x))))))
#s(approx (* (- x y) (sqrt 200)) (*.f64 (sqrt.f64 #s(literal 200 binary64)) (-.f64 x y)))
#s(approx (- x y) #s(hole binary64 (* -1 (* x (- (/ y x) 1)))))
#s(approx (- x y) (-.f64 x y))
#s(approx (+ (* (/ 200 y) x) -200) #s(hole binary64 (/ (+ (* -200 y) (* 200 x)) y)))
#s(approx (+ (* (/ 200 y) x) -200) (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64)))
#s(approx (- x y) #s(hole binary64 (+ x (* -1 y))))
#s(approx (- x y) (-.f64 x y))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (* y (+ (* -1 (pow (sqrt 200) 2)) (/ (* x (pow (sqrt 200) 2)) y)))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 #s(literal 200 binary64) (-.f64 x y)))
#s(approx (* (+ (* (/ 200 y) x) -200) y) #s(hole binary64 (* y (- (* 200 (/ x y)) 200))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 #s(literal 200 binary64) (-.f64 x y)))
#s(approx (* (* (- x y) (sqrt 200)) (cbrt (* 200 (sqrt 200)))) #s(hole binary64 (* y (+ (* -1 (* (cbrt 200) (cbrt (pow (sqrt 200) 4)))) (* (/ (* x (cbrt 200)) y) (cbrt (pow (sqrt 200) 4)))))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (.f64 (.f64 (cbrt.f64 (pow.f64 (sqrt.f64 #s(literal 200 binary64)) #s(literal 4 binary64))) (cbrt.f64 #s(literal 200 binary64))) (-.f64 x y)))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (* y (+ (* -1 (sqrt 200)) (/ (* x (sqrt 200)) y)))))
#s(approx (* (- x y) (sqrt 200)) (*.f64 (sqrt.f64 #s(literal 200 binary64)) (-.f64 x y)))
#s(approx (- x y) #s(hole binary64 (* y (- (/ x y) 1))))
#s(approx (- x y) (-.f64 x y))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) #s(hole binary64 (* -1 (* y (+ (* -1 (/ (* x (pow (sqrt 200) 2)) y)) (pow (sqrt 200) 2))))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 #s(literal 200 binary64) (-.f64 x y)))
#s(approx (* (+ (* (/ 200 y) x) -200) y) #s(hole binary64 (* -1 (* y (+ 200 (* -200 (/ x y)))))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 #s(literal 200 binary64) (-.f64 x y)))
#s(approx (* (* (- x y) (sqrt 200)) (cbrt (* 200 (sqrt 200)))) #s(hole binary64 (* -1 (* y (+ (* -1 (* (/ (* x (cbrt 200)) y) (cbrt (pow (sqrt 200) 4)))) (* (cbrt 200) (cbrt (pow (sqrt 200) 4))))))))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (.f64 (.f64 (cbrt.f64 (pow.f64 (sqrt.f64 #s(literal 200 binary64)) #s(literal 4 binary64))) (cbrt.f64 #s(literal 200 binary64))) (-.f64 x y)))
#s(approx (* (- x y) (sqrt 200)) #s(hole binary64 (* -1 (* y (+ (sqrt 200) (* -1 (/ (* x (sqrt 200)) y)))))))
#s(approx (* (- x y) (sqrt 200)) (*.f64 (sqrt.f64 #s(literal 200 binary64)) (-.f64 x y)))
#s(approx (- x y) #s(hole binary64 (* -1 (* y (+ 1 (* -1 (/ x y)))))))
#s(approx (- x y) (-.f64 x y))

rewrite55.0ms (1.7%)

Memory

-8.4MiB live, 34.2MiB allocated; 13ms collecting garbage

Iterations

Useful iterations: 0 (0.0ms)

Iter	Nodes	Cost
0	22	90
0	31	76
0	355	73

Stop Event

1×	iter limit
1×	iter limit
1×	iter limit
1×	unsound
1×	iter limit

Counts

8 → 65

Calls

Call 1

Inputs
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (.f64 #s(approx (+ ( (/ 200 y) x) -200) (*.f64 (/.f64 x y) #s(literal 200 binary64))) y))
(.f64 #s(approx (+ ( (/ 200 y) x) -200) (*.f64 (/.f64 x y) #s(literal 200 binary64))) y)
#s(approx (+ (* (/ 200 y) x) -200) (*.f64 (/.f64 x y) #s(literal 200 binary64)))
(*.f64 (/.f64 x y) #s(literal 200 binary64))
(.f64 (.f64 #s(approx (- x y) x) (sqrt.f64 #s(literal 200 binary64))) (cbrt.f64 (*.f64 #s(literal 200 binary64) (sqrt.f64 #s(literal 200 binary64)))))
(cbrt.f64 (*.f64 #s(literal 200 binary64) (sqrt.f64 #s(literal 200 binary64))))
(*.f64 #s(approx (- x y) x) (sqrt.f64 #s(literal 200 binary64)))
#s(approx (- x y) x)

Outputs
(.f64 (sqrt.f64 #s(approx ( (* (- x y) (sqrt 200)) (sqrt 200)) (.f64 #s(approx (+ ( (/ 200 y) x) -200) (.f64 (/.f64 x y) #s(literal 200 binary64))) y))) (sqrt.f64 #s(approx ( (* (- x y) (sqrt 200)) (sqrt 200)) (.f64 #s(approx (+ ( (/ 200 y) x) -200) (*.f64 (/.f64 x y) #s(literal 200 binary64))) y))))
(.f64 (.f64 (cbrt.f64 #s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (.f64 #s(approx (+ ( (/ 200 y) x) -200) (.f64 (/.f64 x y) #s(literal 200 binary64))) y))) (cbrt.f64 #s(approx ( (* (- x y) (sqrt 200)) (sqrt 200)) (.f64 #s(approx (+ ( (/ 200 y) x) -200) (.f64 (/.f64 x y) #s(literal 200 binary64))) y)))) (cbrt.f64 #s(approx ( (* (- x y) (sqrt 200)) (sqrt 200)) (.f64 #s(approx (+ ( (/ 200 y) x) -200) (*.f64 (/.f64 x y) #s(literal 200 binary64))) y))))
(pow.f64 #s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (.f64 #s(approx (+ ( (/ 200 y) x) -200) (*.f64 (/.f64 x y) #s(literal 200 binary64))) y)) #s(literal 1 binary64))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (.f64 #s(approx (+ ( (/ 200 y) x) -200) (*.f64 (/.f64 x y) #s(literal 200 binary64))) y))
(cbrt.f64 (.f64 (.f64 #s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (.f64 #s(approx (+ ( (/ 200 y) x) -200) (.f64 (/.f64 x y) #s(literal 200 binary64))) y)) #s(approx ( (* (- x y) (sqrt 200)) (sqrt 200)) (.f64 #s(approx (+ ( (/ 200 y) x) -200) (.f64 (/.f64 x y) #s(literal 200 binary64))) y))) #s(approx ( (* (- x y) (sqrt 200)) (sqrt 200)) (.f64 #s(approx (+ ( (/ 200 y) x) -200) (*.f64 (/.f64 x y) #s(literal 200 binary64))) y))))
(exp.f64 (log.f64 #s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (.f64 #s(approx (+ ( (/ 200 y) x) -200) (*.f64 (/.f64 x y) #s(literal 200 binary64))) y))))
(log.f64 (exp.f64 #s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (.f64 #s(approx (+ ( (/ 200 y) x) -200) (*.f64 (/.f64 x y) #s(literal 200 binary64))) y))))
(.f64 (sqrt.f64 (.f64 #s(approx (+ (* (/ 200 y) x) -200) (.f64 (/.f64 x y) #s(literal 200 binary64))) y)) (sqrt.f64 (.f64 #s(approx (+ (* (/ 200 y) x) -200) (*.f64 (/.f64 x y) #s(literal 200 binary64))) y)))
(.f64 (.f64 (cbrt.f64 (.f64 #s(approx (+ ( (/ 200 y) x) -200) (.f64 (/.f64 x y) #s(literal 200 binary64))) y)) (cbrt.f64 (.f64 #s(approx (+ (* (/ 200 y) x) -200) (.f64 (/.f64 x y) #s(literal 200 binary64))) y))) (cbrt.f64 (.f64 #s(approx (+ (* (/ 200 y) x) -200) (*.f64 (/.f64 x y) #s(literal 200 binary64))) y)))
(.f64 #s(approx (+ ( (/ 200 y) x) -200) (*.f64 (/.f64 x y) #s(literal 200 binary64))) y)
(.f64 y #s(approx (+ ( (/ 200 y) x) -200) (*.f64 (/.f64 x y) #s(literal 200 binary64))))
(pow.f64 (.f64 #s(approx (+ ( (/ 200 y) x) -200) (*.f64 (/.f64 x y) #s(literal 200 binary64))) y) #s(literal 1 binary64))
(cbrt.f64 (.f64 (.f64 (.f64 #s(approx (+ ( (/ 200 y) x) -200) (.f64 (/.f64 x y) #s(literal 200 binary64))) y) (.f64 #s(approx (+ (* (/ 200 y) x) -200) (.f64 (/.f64 x y) #s(literal 200 binary64))) y)) (.f64 #s(approx (+ (* (/ 200 y) x) -200) (*.f64 (/.f64 x y) #s(literal 200 binary64))) y)))
(exp.f64 (log.f64 (.f64 #s(approx (+ ( (/ 200 y) x) -200) (*.f64 (/.f64 x y) #s(literal 200 binary64))) y)))
(log.f64 (exp.f64 (.f64 #s(approx (+ ( (/ 200 y) x) -200) (*.f64 (/.f64 x y) #s(literal 200 binary64))) y)))
(.f64 (sqrt.f64 #s(approx (+ ( (/ 200 y) x) -200) (.f64 (/.f64 x y) #s(literal 200 binary64)))) (sqrt.f64 #s(approx (+ ( (/ 200 y) x) -200) (*.f64 (/.f64 x y) #s(literal 200 binary64)))))
(.f64 (.f64 (cbrt.f64 #s(approx (+ (* (/ 200 y) x) -200) (.f64 (/.f64 x y) #s(literal 200 binary64)))) (cbrt.f64 #s(approx (+ ( (/ 200 y) x) -200) (.f64 (/.f64 x y) #s(literal 200 binary64))))) (cbrt.f64 #s(approx (+ ( (/ 200 y) x) -200) (*.f64 (/.f64 x y) #s(literal 200 binary64)))))
(pow.f64 #s(approx (+ (* (/ 200 y) x) -200) (*.f64 (/.f64 x y) #s(literal 200 binary64))) #s(literal 1 binary64))
#s(approx (+ (* (/ 200 y) x) -200) (*.f64 (/.f64 x y) #s(literal 200 binary64)))
(cbrt.f64 (.f64 (.f64 #s(approx (+ (* (/ 200 y) x) -200) (.f64 (/.f64 x y) #s(literal 200 binary64))) #s(approx (+ ( (/ 200 y) x) -200) (.f64 (/.f64 x y) #s(literal 200 binary64)))) #s(approx (+ ( (/ 200 y) x) -200) (*.f64 (/.f64 x y) #s(literal 200 binary64)))))
(exp.f64 (log.f64 #s(approx (+ (* (/ 200 y) x) -200) (*.f64 (/.f64 x y) #s(literal 200 binary64)))))
(log.f64 (exp.f64 #s(approx (+ (* (/ 200 y) x) -200) (*.f64 (/.f64 x y) #s(literal 200 binary64)))))
(.f64 (sqrt.f64 (.f64 (/.f64 x y) #s(literal 200 binary64))) (sqrt.f64 (*.f64 (/.f64 x y) #s(literal 200 binary64))))
(.f64 (.f64 (cbrt.f64 (.f64 (/.f64 x y) #s(literal 200 binary64))) (cbrt.f64 (.f64 (/.f64 x y) #s(literal 200 binary64)))) (cbrt.f64 (*.f64 (/.f64 x y) #s(literal 200 binary64))))
(*.f64 (/.f64 x y) #s(literal 200 binary64))
(*.f64 #s(literal 200 binary64) (/.f64 x y))
(pow.f64 (*.f64 (/.f64 x y) #s(literal 200 binary64)) #s(literal 1 binary64))
(/.f64 (*.f64 x #s(literal 200 binary64)) y)
(cbrt.f64 (.f64 (.f64 (.f64 (/.f64 x y) #s(literal 200 binary64)) (.f64 (/.f64 x y) #s(literal 200 binary64))) (*.f64 (/.f64 x y) #s(literal 200 binary64))))
(exp.f64 (log.f64 (*.f64 (/.f64 x y) #s(literal 200 binary64))))
(log.f64 (exp.f64 (*.f64 (/.f64 x y) #s(literal 200 binary64))))
(.f64 (sqrt.f64 (.f64 #s(approx (- x y) x) #s(literal 200 binary64))) (sqrt.f64 (*.f64 #s(approx (- x y) x) #s(literal 200 binary64))))
(.f64 (.f64 (cbrt.f64 (.f64 #s(approx (- x y) x) #s(literal 200 binary64))) (cbrt.f64 (.f64 #s(approx (- x y) x) #s(literal 200 binary64)))) (cbrt.f64 (*.f64 #s(approx (- x y) x) #s(literal 200 binary64))))
(.f64 (.f64 (sqrt.f64 #s(literal 200 binary64)) #s(approx (- x y) x)) (sqrt.f64 #s(literal 200 binary64)))
(.f64 (sqrt.f64 #s(literal 200 binary64)) (.f64 (sqrt.f64 #s(literal 200 binary64)) #s(approx (- x y) x)))
(*.f64 #s(approx (- x y) x) #s(literal 200 binary64))
(pow.f64 (*.f64 #s(approx (- x y) x) #s(literal 200 binary64)) #s(literal 1 binary64))
(cbrt.f64 (.f64 (.f64 (.f64 #s(approx (- x y) x) #s(literal 200 binary64)) (.f64 #s(approx (- x y) x) #s(literal 200 binary64))) (*.f64 #s(approx (- x y) x) #s(literal 200 binary64))))
(exp.f64 (log.f64 (*.f64 #s(approx (- x y) x) #s(literal 200 binary64))))
(log.f64 (exp.f64 (*.f64 #s(approx (- x y) x) #s(literal 200 binary64))))
(*.f64 (sqrt.f64 (sqrt.f64 #s(literal 200 binary64))) (sqrt.f64 (sqrt.f64 #s(literal 200 binary64))))
(.f64 (.f64 (cbrt.f64 (sqrt.f64 #s(literal 200 binary64))) (cbrt.f64 (sqrt.f64 #s(literal 200 binary64)))) (cbrt.f64 (sqrt.f64 #s(literal 200 binary64))))
(*.f64 (cbrt.f64 #s(literal 200 binary64)) (cbrt.f64 (sqrt.f64 #s(literal 200 binary64))))
(pow.f64 (*.f64 (sqrt.f64 #s(literal 200 binary64)) #s(literal 200 binary64)) #s(literal 1/3 binary64))
(pow.f64 (sqrt.f64 #s(literal 200 binary64)) #s(literal 1 binary64))
(pow.f64 #s(literal 200 binary64) #s(literal 1/2 binary64))
(cbrt.f64 (*.f64 (sqrt.f64 #s(literal 200 binary64)) #s(literal 200 binary64)))
(sqrt.f64 #s(literal 200 binary64))
(exp.f64 (log.f64 (sqrt.f64 #s(literal 200 binary64))))
(log.f64 (exp.f64 (sqrt.f64 #s(literal 200 binary64))))
(.f64 (sqrt.f64 (.f64 (sqrt.f64 #s(literal 200 binary64)) #s(approx (- x y) x))) (sqrt.f64 (*.f64 (sqrt.f64 #s(literal 200 binary64)) #s(approx (- x y) x))))
(.f64 (.f64 (cbrt.f64 (.f64 (sqrt.f64 #s(literal 200 binary64)) #s(approx (- x y) x))) (cbrt.f64 (.f64 (sqrt.f64 #s(literal 200 binary64)) #s(approx (- x y) x)))) (cbrt.f64 (*.f64 (sqrt.f64 #s(literal 200 binary64)) #s(approx (- x y) x))))
(*.f64 (sqrt.f64 #s(literal 200 binary64)) #s(approx (- x y) x))
(*.f64 #s(approx (- x y) x) (sqrt.f64 #s(literal 200 binary64)))
(pow.f64 (*.f64 (sqrt.f64 #s(literal 200 binary64)) #s(approx (- x y) x)) #s(literal 1 binary64))
(cbrt.f64 (.f64 (.f64 (.f64 (sqrt.f64 #s(literal 200 binary64)) #s(approx (- x y) x)) (.f64 (sqrt.f64 #s(literal 200 binary64)) #s(approx (- x y) x))) (*.f64 (sqrt.f64 #s(literal 200 binary64)) #s(approx (- x y) x))))
(exp.f64 (log.f64 (*.f64 (sqrt.f64 #s(literal 200 binary64)) #s(approx (- x y) x))))
(log.f64 (exp.f64 (*.f64 (sqrt.f64 #s(literal 200 binary64)) #s(approx (- x y) x))))
(*.f64 (sqrt.f64 #s(approx (- x y) x)) (sqrt.f64 #s(approx (- x y) x)))
(.f64 (.f64 (cbrt.f64 #s(approx (- x y) x)) (cbrt.f64 #s(approx (- x y) x))) (cbrt.f64 #s(approx (- x y) x)))
(pow.f64 #s(approx (- x y) x) #s(literal 1 binary64))
#s(approx (- x y) x)
(cbrt.f64 (.f64 (.f64 #s(approx (- x y) x) #s(approx (- x y) x)) #s(approx (- x y) x)))
(exp.f64 (log.f64 #s(approx (- x y) x)))
(log.f64 (exp.f64 #s(approx (- x y) x)))

eval8.0ms (0.2%)

Memory: 17.8MiB live, 17.8MiB allocated; 0ms collecting garbage
Compiler: Compiled 2 003 to 270 computations (86.5% saved)

prune7.0ms (0.2%)

Memory

15.7MiB live, 15.7MiB allocated; 0ms collecting garbage

Pruning

10 alts after pruning (0 fresh and 10 done)

	Pruned	Kept	Total
New	80	0	80
Fresh	0	0	0
Picked	0	2	2
Done	0	8	8
Total	80	10	90

Accuracy

100.0%

Counts

90 → 10

Alt Table

Click to see full alt table

Status	Accuracy	Program
✓	99.2%	(.f64 (.f64 (-.f64 x y) (sqrt.f64 #s(literal 200 binary64))) (sqrt.f64 #s(literal 200 binary64)))
✓	50.3%	(.f64 (.f64 #s(approx (- x y) (neg.f64 y)) (cbrt.f64 #s(literal 40000 binary64))) (cbrt.f64 #s(literal 200 binary64)))
✓	49.7%	(.f64 (.f64 #s(approx (- x y) x) (sqrt.f64 #s(literal 200 binary64))) (sqrt.f64 #s(literal 200 binary64)))
✓	49.8%	(.f64 (.f64 #s(approx (- x y) x) (sqrt.f64 #s(literal 200 binary64))) (cbrt.f64 (*.f64 #s(literal 200 binary64) (sqrt.f64 #s(literal 200 binary64)))))
✓	43.3%	(.f64 (sqrt.f64 (.f64 (-.f64 x y) #s(literal 200 binary64))) (sqrt.f64 (*.f64 (-.f64 x y) #s(literal 200 binary64))))
✓	100.0%	(*.f64 #s(literal 200 binary64) (-.f64 x y))
✓	50.1%	(*.f64 #s(literal 200 binary64) #s(approx (- x y) x))
✓	87.3%	#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64)) x))
✓	40.0%	#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (.f64 #s(approx (+ ( (/ 200 y) x) -200) (*.f64 (/.f64 x y) #s(literal 200 binary64))) y))
✓	50.7%	#s(approx (* 200 (- x y)) (*.f64 #s(literal -200 binary64) y))

Compiler

Compiled 297 to 153 computations (48.5% saved)

regimes71.0ms (2.2%)

Memory

-8.0MiB live, 36.6MiB allocated; 14ms collecting garbage

Counts

14 → 1

Calls

Call 1

Inputs
#s(approx (* 200 (- x y)) (*.f64 #s(literal -200 binary64) y))
(*.f64 #s(literal 200 binary64) #s(approx (- x y) x))
(*.f64 #s(literal 200 binary64) (-.f64 x y))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (.f64 #s(approx (+ ( (/ 200 y) x) -200) (*.f64 (/.f64 x y) #s(literal 200 binary64))) y))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 (fma.f64 (/.f64 #s(literal -200 binary64) x) y #s(literal 200 binary64)) x))
#s(approx (* (* (- x y) (sqrt 200)) (sqrt 200)) (*.f64 (fma.f64 (/.f64 #s(literal 200 binary64) y) x #s(literal -200 binary64)) y))
(.f64 (.f64 #s(approx (- x y) x) (sqrt.f64 #s(literal 200 binary64))) (sqrt.f64 #s(literal 200 binary64)))
(.f64 (.f64 (-.f64 x y) (sqrt.f64 #s(literal 200 binary64))) (sqrt.f64 #s(literal 200 binary64)))
(.f64 (sqrt.f64 (.f64 (-.f64 x y) #s(literal 200 binary64))) (sqrt.f64 (*.f64 (-.f64 x y) #s(literal 200 binary64))))
(.f64 (.f64 #s(approx (- x y) x) (sqrt.f64 #s(literal 200 binary64))) (cbrt.f64 (*.f64 #s(literal 200 binary64) (sqrt.f64 #s(literal 200 binary64)))))
(.f64 (.f64 (-.f64 x y) (sqrt.f64 #s(literal 200 binary64))) (cbrt.f64 (*.f64 #s(literal 200 binary64) (sqrt.f64 #s(literal 200 binary64)))))
(.f64 (.f64 #s(approx (- x y) (neg.f64 y)) (cbrt.f64 #s(literal 40000 binary64))) (cbrt.f64 #s(literal 200 binary64)))
(.f64 (.f64 (-.f64 x y) (cbrt.f64 #s(literal 40000 binary64))) (cbrt.f64 #s(literal 200 binary64)))
(.f64 #s(literal 200 binary64) (+.f64 x (.f64 (neg.f64 (pow.f64 (cbrt.f64 y) #s(literal 2 binary64))) (cbrt.f64 y))))

Outputs
(*.f64 #s(literal 200 binary64) (-.f64 x y))

Calls

4 calls:

4.0ms	y
4.0ms	(*.f64 #s(literal 200 binary64) (-.f64 x y))
4.0ms	(-.f64 x y)
4.0ms	x

Results

Accuracy	Segments	Branch
100.0%	1	`(-.f64 x y)`
100.0%	1	`(*.f64 #s(literal 200 binary64) (-.f64 x y))`
100.0%	1	`x`
100.0%	1	`y`

Compiler

Compiled 10 to 12 computations (-20% saved)

regimes68.0ms (2.1%)

Memory

-34.9MiB live, 24.9MiB allocated; 8ms collecting garbage

Counts

2 → 3

Calls

Call 1

Inputs
#s(approx (* 200 (- x y)) (*.f64 #s(literal -200 binary64) y))
(*.f64 #s(literal 200 binary64) #s(approx (- x y) x))

Outputs
#s(approx (* 200 (- x y)) (*.f64 #s(literal -200 binary64) y))
(*.f64 #s(literal 200 binary64) #s(approx (- x y) x))
#s(approx (* 200 (- x y)) (*.f64 #s(literal -200 binary64) y))

Calls

4 calls:

56.0ms	(*.f64 #s(literal 200 binary64) (-.f64 x y))
9.0ms	(-.f64 x y)
1.0ms	y
1.0ms	x

Results

Accuracy	Segments	Branch
61.7%	4	`(-.f64 x y)`
61.7%	4	`(*.f64 #s(literal 200 binary64) (-.f64 x y))`
75.7%	3	`x`
79.4%	3	`y`

Compiler

Compiled 10 to 12 computations (-20% saved)

regimes4.0ms (0.1%)

Memory

13.6MiB live, 13.6MiB allocated; 0ms collecting garbage

Accuracy

Total -0.0b remaining (-0%)

Threshold costs -0b (-0%)

Counts

1 → 1

Calls

Call 1

Inputs
#s(approx (* 200 (- x y)) (*.f64 #s(literal -200 binary64) y))

Outputs
#s(approx (* 200 (- x y)) (*.f64 #s(literal -200 binary64) y))

Calls

4 calls:

1.0ms	(*.f64 #s(literal 200 binary64) (-.f64 x y))
1.0ms	y
1.0ms	x
1.0ms	(-.f64 x y)

Results

Accuracy	Segments	Branch
50.7%	1	`(-.f64 x y)`
50.7%	1	`(*.f64 #s(literal 200 binary64) (-.f64 x y))`
50.7%	1	`x`
50.7%	1	`y`

Compiler

Compiled 10 to 12 computations (-20% saved)

bsearch71.0ms (2.2%)

Memory

-1.7MiB live, 43.5MiB allocated; 8ms collecting garbage

Algorithm

2×	binary-search

Stop Event

1×	narrow-enough
1×	narrow-enough

Steps

Time	Left	Right
60.0ms	1.607218463636314e-52	4.703199975614764e-50
9.0ms	-263512489020552.3	-972578901687.0905

Samples

59.0ms	252×	0	valid
0.0ms	3×	1	valid
0.0ms	1×	2	valid

Compiler

Compiled 264 to 266 computations (-0.8% saved)

Precisions

Click to see histograms. Total time spent on operations: 4.0ms

ival-mult: 2.0ms (47.8% of total)

ival-sub: 2.0ms (47.8% of total)

adjust: 0.0ms (0% of total)

ival-assert: 0.0ms (0% of total)

ival-true: 0.0ms (0% of total)

exact: 0.0ms (0% of total)

simplify59.0ms (1.8%)

Memory

-3.7MiB live, 41.9MiB allocated; 11ms collecting garbage

Iterations

Useful iterations: 0 (0.0ms)

Iter	Nodes	Cost
0	18	39
1	61	39
2	77	39
3	91	39
4	107	39
5	152	39
6	398	39
7	2943	39
8	6718	39

Stop Event

1×	node limit

Calls

Call 1

Inputs

(*.f64 #s(literal 200 binary64) (-.f64 x y))

(if (<=.f64 y #s(literal -16200000000000 binary64)) #s(approx (* 200 (- x y)) (*.f64 #s(literal -200 binary64) y)) (if (<=.f64 y #s(literal 5728988666769511/842498333348457493583344221469363458551160763204392890034487820288 binary64)) (*.f64 #s(literal 200 binary64) #s(approx (- x y) x)) #s(approx (* 200 (- x y)) (*.f64 #s(literal -200 binary64) y))))

#s(approx (* 200 (- x y)) (*.f64 #s(literal -200 binary64) y))

Outputs
(*.f64 #s(literal 200 binary64) (-.f64 x y))
(if (<=.f64 y #s(literal -16200000000000 binary64)) #s(approx (* 200 (- x y)) (.f64 #s(literal -200 binary64) y)) (if (<=.f64 y #s(literal 5728988666769511/842498333348457493583344221469363458551160763204392890034487820288 binary64)) (.f64 #s(literal 200 binary64) #s(approx (- x y) x)) #s(approx (* 200 (- x y)) (*.f64 #s(literal -200 binary64) y))))
(if (or (<=.f64 y #s(literal -16200000000000 binary64)) (not (<=.f64 y #s(literal 5728988666769511/842498333348457493583344221469363458551160763204392890034487820288 binary64)))) #s(approx (* 200 (- x y)) (.f64 #s(literal -200 binary64) y)) (.f64 #s(literal 200 binary64) #s(approx (- x y) x)))
#s(approx (* 200 (- x y)) (*.f64 #s(literal -200 binary64) y))

derivations130.0ms (3.9%)

Memory

-3.2MiB live, 97.7MiB allocated; 40ms collecting garbage

Stop Event

1×

done

Compiler

Compiled 39 to 20 computations (48.7% saved)

preprocess18.0ms (0.6%)

Memory: 14.0MiB live, 59.2MiB allocated; 6ms collecting garbage
Compiler: Compiled 88 to 50 computations (43.2% saved)

end0.0ms (0%)

Memory: 0.1MiB live, 0.1MiB allocated; 0ms collecting garbage

Iter	Nodes	Cost
0	22	107
0	36	107
1	51	95
2	74	95
3	111	95
4	169	95
5	207	95
6	245	95
7	275	95
8	308	95
9	335	95
10	364	95
0	364	95

Iter	Nodes	Cost
0	22	107
0	36	107
1	51	95
2	74	95
3	111	95
4	169	95
5	207	95
6	245	95
7	275	95
8	308	95
9	335	95
10	364	95
0	364	95

start0.0ms (0%)

analyze0.0ms (0%)

sample761.0ms (23.2%)

explain69.0ms (2.1%)

preprocess16.0ms (0.5%)

eval0.0ms (0%)

prune0.0ms (0%)

simplify3.0ms (0.1%)

localize41.0ms (1.2%)

series3.0ms (0.1%)

simplify145.0ms (4.4%)

rewrite155.0ms (4.7%)

eval43.0ms (1.3%)

prune4.0ms (0.1%)

simplify12.0ms (0.4%)

localize57.0ms (1.7%)

series37.0ms (1.1%)

simplify173.0ms (5.3%)

rewrite48.0ms (1.5%)

eval25.0ms (0.8%)

prune10.0ms (0.3%)

simplify346.0ms (10.5%)

localize101.0ms (3.1%)

series41.0ms (1.2%)

simplify140.0ms (4.3%)

rewrite98.0ms (3%)

eval28.0ms (0.9%)

prune7.0ms (0.2%)

simplify195.0ms (5.9%)

localize88.0ms (2.7%)

series14.0ms (0.4%)

simplify128.0ms (3.9%)

rewrite55.0ms (1.7%)

eval8.0ms (0.2%)

prune7.0ms (0.2%)

regimes71.0ms (2.2%)

regimes68.0ms (2.1%)

regimes4.0ms (0.1%)

bsearch71.0ms (2.2%)

simplify59.0ms (1.8%)

derivations130.0ms (3.9%)

preprocess18.0ms (0.6%)

end0.0ms (0%)

Profiling

Iter	Nodes	Cost
0	22	107
0	36	107
1	51	95
2	74	95
3	111	95
4	169	95
5	207	95
6	245	95
7	275	95
8	308	95
9	335	95
10	364	95
0	364	95