Metrics for Text.Parsec.Token:makeTokenParser from parsec-3.1.9, A

start0.0ms (0%)

Memory: 0.1MiB live, 0.1MiB allocated

analyze0.0ms (0%)

Memory

0.3MiB live, 0.3MiB allocated

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)

sample537.0ms (12.7%)

Memory

12.1MiB live, 665.7MiB allocated

Samples

309.0ms

8 256×

valid

Precisions

Click to see histograms. Total time spent on operations: 146.0ms

ival-div: 79.0ms (54% of total)

ival-add: 53.0ms (36.2% of total)

ival-true: 6.0ms (4.1% of total)

exact: 5.0ms (3.4% of total)

ival-assert: 3.0ms (2% of total)

Bogosity

explain67.0ms (1.6%)

Memory

18.1MiB live, 94.2MiB allocated

FPErrors

Click to see full error table

Example	Example	Subexpression
-	-	`y`
-	-	`(+.f64 x y)`
-	-	`(/.f64 (+.f64 x y) #s(literal 10 binary64))`
-	-	`x`
-	-	`#s(literal 10 binary64)`

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

24.0ms

512×

valid

Compiler

Compiled 64 to 36 computations (43.8% saved)

Precisions

Click to see histograms. Total time spent on operations: 12.0ms

ival-div: 8.0ms (68.2% of total)

ival-add: 3.0ms (25.6% of total)

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

exact: 0.0ms (0% of total)

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

preprocess36.0ms (0.8%)

Memory

-10.9MiB live, 28.0MiB allocated

Algorithm

1×	egg-herbie

Iterations

Useful iterations: 0 (0.0ms)

Iter	Nodes	Cost
0	13	27
1	35	25
2	66	25
3	139	25
4	348	25
5	523	25
6	555	25
7	572	25
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 (+.f64 x y) #s(literal 10 binary64))

Outputs
(/.f64 (+.f64 x y) #s(literal 10 binary64))
(/.f64 (+.f64 y x) #s(literal 10 binary64))

Symmetry

(sort x y)

Compiler

Compiled 5 to 5 computations (0% saved)

eval0.0ms (0%)

Memory: 0.4MiB live, 0.4MiB allocated
Compiler: Compiled 0 to 2 computations (-∞% saved)

prune0.0ms (0%)

Memory

0.9MiB live, 0.9MiB allocated

Alt Table

Click to see full alt table

Status	Accuracy	Program
▶	100.0%	(/.f64 (+.f64 x y) #s(literal 10 binary64))

Compiler

Compiled 5 to 5 computations (0% saved)

simplify3.0ms (0.1%)

Memory

3.8MiB live, 3.8MiB allocated

Algorithm

1×	egg-herbie

Localize:

Found 2 expressions of interest:

New	Metric	Score	Program
cost-diff	0	(+.f64 x y)
cost-diff	0	(/.f64 (+.f64 x y) #s(literal 10 binary64))

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 (+.f64 x y) #s(literal 10 binary64))
(+.f64 x y)
x
y
#s(literal 10 binary64)

Outputs
(/.f64 (+.f64 x y) #s(literal 10 binary64))
(/.f64 (+.f64 y x) #s(literal 10 binary64))
(+.f64 x y)
(+.f64 y x)
x
y
#s(literal 10 binary64)

localize14.0ms (0.3%)

Memory

19.9MiB live, 19.9MiB allocated

Localize:

Found 2 expressions of interest:

New	Metric	Score	Program
accuracy	0	(+.f64 x y)
accuracy	0.015625	(/.f64 (+.f64 x y) #s(literal 10 binary64))

Samples

10.0ms

256×

valid

Compiler

Compiled 24 to 12 computations (50% saved)

Precisions

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

ival-div: 2.0ms (53.6% of total)

ival-add: 2.0ms (53.6% of total)

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

exact: 0.0ms (0% of total)

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

series7.0ms (0.2%)

Memory

-41.0MiB live, 5.7MiB allocated

Counts

2 → 48

Calls

Call 1

Inputs
#s(alt (/.f64 (+.f64 x y) #s(literal 10 binary64)) (patch (/.f64 (+.f64 x y) #s(literal 10 binary64)) #<representation binary64>) () ())
#s(alt (+.f64 x y) (patch (+.f64 x y) #<representation binary64>) () ())

Inputs

#s(alt (/.f64 (+.f64 x y) #s(literal 10 binary64)) (patch (/.f64 (+.f64 x y) #s(literal 10 binary64)) #<representation binary64>) () ())

#s(alt (+.f64 x y) (patch (+.f64 x y) #<representation binary64>) () ())

Outputs
#s(alt (* 1/10 x) (taylor 0 y) (#s(alt (/.f64 (+.f64 x y) #s(literal 10 binary64)) (patch (/.f64 (+.f64 x y) #s(literal 10 binary64)) #<representation binary64>) () ())) ())
#s(alt (+ (* 1/10 x) (* 1/10 y)) (taylor 0 y) (#s(alt (/.f64 (+.f64 x y) #s(literal 10 binary64)) (patch (/.f64 (+.f64 x y) #s(literal 10 binary64)) #<representation binary64>) () ())) ())
#s(alt (+ (* 1/10 x) (* 1/10 y)) (taylor 0 y) (#s(alt (/.f64 (+.f64 x y) #s(literal 10 binary64)) (patch (/.f64 (+.f64 x y) #s(literal 10 binary64)) #<representation binary64>) () ())) ())
#s(alt (+ (* 1/10 x) (* 1/10 y)) (taylor 0 y) (#s(alt (/.f64 (+.f64 x y) #s(literal 10 binary64)) (patch (/.f64 (+.f64 x y) #s(literal 10 binary64)) #<representation binary64>) () ())) ())
#s(alt x (taylor 0 y) (#s(alt (+.f64 x y) (patch (+.f64 x y) #<representation binary64>) () ())) ())
#s(alt (+ x y) (taylor 0 y) (#s(alt (+.f64 x y) (patch (+.f64 x y) #<representation binary64>) () ())) ())
#s(alt (+ x y) (taylor 0 y) (#s(alt (+.f64 x y) (patch (+.f64 x y) #<representation binary64>) () ())) ())
#s(alt (+ x y) (taylor 0 y) (#s(alt (+.f64 x y) (patch (+.f64 x y) #<representation binary64>) () ())) ())
#s(alt (* 1/10 y) (taylor inf y) (#s(alt (/.f64 (+.f64 x y) #s(literal 10 binary64)) (patch (/.f64 (+.f64 x y) #s(literal 10 binary64)) #<representation binary64>) () ())) ())
#s(alt (* y (+ 1/10 (* 1/10 (/ x y)))) (taylor inf y) (#s(alt (/.f64 (+.f64 x y) #s(literal 10 binary64)) (patch (/.f64 (+.f64 x y) #s(literal 10 binary64)) #<representation binary64>) () ())) ())
#s(alt (* y (+ 1/10 (* 1/10 (/ x y)))) (taylor inf y) (#s(alt (/.f64 (+.f64 x y) #s(literal 10 binary64)) (patch (/.f64 (+.f64 x y) #s(literal 10 binary64)) #<representation binary64>) () ())) ())
#s(alt (* y (+ 1/10 (* 1/10 (/ x y)))) (taylor inf y) (#s(alt (/.f64 (+.f64 x y) #s(literal 10 binary64)) (patch (/.f64 (+.f64 x y) #s(literal 10 binary64)) #<representation binary64>) () ())) ())
#s(alt y (taylor inf y) (#s(alt (+.f64 x y) (patch (+.f64 x y) #<representation binary64>) () ())) ())
#s(alt (* y (+ 1 (/ x y))) (taylor inf y) (#s(alt (+.f64 x y) (patch (+.f64 x y) #<representation binary64>) () ())) ())
#s(alt (* y (+ 1 (/ x y))) (taylor inf y) (#s(alt (+.f64 x y) (patch (+.f64 x y) #<representation binary64>) () ())) ())
#s(alt (* y (+ 1 (/ x y))) (taylor inf y) (#s(alt (+.f64 x y) (patch (+.f64 x y) #<representation binary64>) () ())) ())
#s(alt (* 1/10 y) (taylor -inf y) (#s(alt (/.f64 (+.f64 x y) #s(literal 10 binary64)) (patch (/.f64 (+.f64 x y) #s(literal 10 binary64)) #<representation binary64>) () ())) ())
#s(alt (* -1 (* y (- (* -1/10 (/ x y)) 1/10))) (taylor -inf y) (#s(alt (/.f64 (+.f64 x y) #s(literal 10 binary64)) (patch (/.f64 (+.f64 x y) #s(literal 10 binary64)) #<representation binary64>) () ())) ())
#s(alt (* -1 (* y (- (* -1/10 (/ x y)) 1/10))) (taylor -inf y) (#s(alt (/.f64 (+.f64 x y) #s(literal 10 binary64)) (patch (/.f64 (+.f64 x y) #s(literal 10 binary64)) #<representation binary64>) () ())) ())
#s(alt (* -1 (* y (- (* -1/10 (/ x y)) 1/10))) (taylor -inf y) (#s(alt (/.f64 (+.f64 x y) #s(literal 10 binary64)) (patch (/.f64 (+.f64 x y) #s(literal 10 binary64)) #<representation binary64>) () ())) ())
#s(alt y (taylor -inf y) (#s(alt (+.f64 x y) (patch (+.f64 x y) #<representation binary64>) () ())) ())
#s(alt (* -1 (* y (- (* -1 (/ x y)) 1))) (taylor -inf y) (#s(alt (+.f64 x y) (patch (+.f64 x y) #<representation binary64>) () ())) ())
#s(alt (* -1 (* y (- (* -1 (/ x y)) 1))) (taylor -inf y) (#s(alt (+.f64 x y) (patch (+.f64 x y) #<representation binary64>) () ())) ())
#s(alt (* -1 (* y (- (* -1 (/ x y)) 1))) (taylor -inf y) (#s(alt (+.f64 x y) (patch (+.f64 x y) #<representation binary64>) () ())) ())
#s(alt (* 1/10 y) (taylor 0 x) (#s(alt (/.f64 (+.f64 x y) #s(literal 10 binary64)) (patch (/.f64 (+.f64 x y) #s(literal 10 binary64)) #<representation binary64>) () ())) ())
#s(alt (+ (* 1/10 x) (* 1/10 y)) (taylor 0 x) (#s(alt (/.f64 (+.f64 x y) #s(literal 10 binary64)) (patch (/.f64 (+.f64 x y) #s(literal 10 binary64)) #<representation binary64>) () ())) ())
#s(alt (+ (* 1/10 x) (* 1/10 y)) (taylor 0 x) (#s(alt (/.f64 (+.f64 x y) #s(literal 10 binary64)) (patch (/.f64 (+.f64 x y) #s(literal 10 binary64)) #<representation binary64>) () ())) ())
#s(alt (+ (* 1/10 x) (* 1/10 y)) (taylor 0 x) (#s(alt (/.f64 (+.f64 x y) #s(literal 10 binary64)) (patch (/.f64 (+.f64 x y) #s(literal 10 binary64)) #<representation binary64>) () ())) ())
#s(alt y (taylor 0 x) (#s(alt (+.f64 x y) (patch (+.f64 x y) #<representation binary64>) () ())) ())
#s(alt (+ x y) (taylor 0 x) (#s(alt (+.f64 x y) (patch (+.f64 x y) #<representation binary64>) () ())) ())
#s(alt (+ x y) (taylor 0 x) (#s(alt (+.f64 x y) (patch (+.f64 x y) #<representation binary64>) () ())) ())
#s(alt (+ x y) (taylor 0 x) (#s(alt (+.f64 x y) (patch (+.f64 x y) #<representation binary64>) () ())) ())
#s(alt (* 1/10 x) (taylor inf x) (#s(alt (/.f64 (+.f64 x y) #s(literal 10 binary64)) (patch (/.f64 (+.f64 x y) #s(literal 10 binary64)) #<representation binary64>) () ())) ())
#s(alt (* x (+ 1/10 (* 1/10 (/ y x)))) (taylor inf x) (#s(alt (/.f64 (+.f64 x y) #s(literal 10 binary64)) (patch (/.f64 (+.f64 x y) #s(literal 10 binary64)) #<representation binary64>) () ())) ())
#s(alt (* x (+ 1/10 (* 1/10 (/ y x)))) (taylor inf x) (#s(alt (/.f64 (+.f64 x y) #s(literal 10 binary64)) (patch (/.f64 (+.f64 x y) #s(literal 10 binary64)) #<representation binary64>) () ())) ())
#s(alt (* x (+ 1/10 (* 1/10 (/ y x)))) (taylor inf x) (#s(alt (/.f64 (+.f64 x y) #s(literal 10 binary64)) (patch (/.f64 (+.f64 x y) #s(literal 10 binary64)) #<representation binary64>) () ())) ())
#s(alt x (taylor inf x) (#s(alt (+.f64 x y) (patch (+.f64 x y) #<representation binary64>) () ())) ())
#s(alt (* x (+ 1 (/ y x))) (taylor inf x) (#s(alt (+.f64 x y) (patch (+.f64 x y) #<representation binary64>) () ())) ())
#s(alt (* x (+ 1 (/ y x))) (taylor inf x) (#s(alt (+.f64 x y) (patch (+.f64 x y) #<representation binary64>) () ())) ())
#s(alt (* x (+ 1 (/ y x))) (taylor inf x) (#s(alt (+.f64 x y) (patch (+.f64 x y) #<representation binary64>) () ())) ())
#s(alt (* 1/10 x) (taylor -inf x) (#s(alt (/.f64 (+.f64 x y) #s(literal 10 binary64)) (patch (/.f64 (+.f64 x y) #s(literal 10 binary64)) #<representation binary64>) () ())) ())
#s(alt (* -1 (* x (- (* -1/10 (/ y x)) 1/10))) (taylor -inf x) (#s(alt (/.f64 (+.f64 x y) #s(literal 10 binary64)) (patch (/.f64 (+.f64 x y) #s(literal 10 binary64)) #<representation binary64>) () ())) ())
#s(alt (* -1 (* x (- (* -1/10 (/ y x)) 1/10))) (taylor -inf x) (#s(alt (/.f64 (+.f64 x y) #s(literal 10 binary64)) (patch (/.f64 (+.f64 x y) #s(literal 10 binary64)) #<representation binary64>) () ())) ())
#s(alt (* -1 (* x (- (* -1/10 (/ y x)) 1/10))) (taylor -inf x) (#s(alt (/.f64 (+.f64 x y) #s(literal 10 binary64)) (patch (/.f64 (+.f64 x y) #s(literal 10 binary64)) #<representation binary64>) () ())) ())
#s(alt x (taylor -inf x) (#s(alt (+.f64 x y) (patch (+.f64 x y) #<representation binary64>) () ())) ())
#s(alt (* -1 (* x (- (* -1 (/ y x)) 1))) (taylor -inf x) (#s(alt (+.f64 x y) (patch (+.f64 x y) #<representation binary64>) () ())) ())
#s(alt (* -1 (* x (- (* -1 (/ y x)) 1))) (taylor -inf x) (#s(alt (+.f64 x y) (patch (+.f64 x y) #<representation binary64>) () ())) ())
#s(alt (* -1 (* x (- (* -1 (/ y x)) 1))) (taylor -inf x) (#s(alt (+.f64 x y) (patch (+.f64 x y) #<representation binary64>) () ())) ())

Calls

6 calls:

Time	Variable		Point	Expression
3.0ms	x	@	-inf	((/ (+ x y) 10) (+ x y))
0.0ms	y	@	-inf	((/ (+ x y) 10) (+ x y))
0.0ms	y	@	inf	((/ (+ x y) 10) (+ x y))
0.0ms	x	@	inf	((/ (+ x y) 10) (+ x y))
0.0ms	y	@	0	((/ (+ x y) 10) (+ x y))

simplify298.0ms (7%)

Memory

23.0MiB live, 134.2MiB allocated

Algorithm

1×	egg-herbie

Iterations

Useful iterations: 0 (0.0ms)

Iter	Nodes	Cost
0	38	168
1	115	168
2	264	168
3	783	168
4	1814	168
5	2648	168
6	3320	168
7	3621	168
8	3783	168
9	3819	168
10	6057	168
0	8007	168

Stop Event

1×	iter limit
1×	node limit

Counts

48 → 42

Calls

Call 1

Inputs
(* 1/10 x)
(+ (* 1/10 x) (* 1/10 y))
(+ (* 1/10 x) (* 1/10 y))
(+ (* 1/10 x) (* 1/10 y))
x
(+ x y)
(+ x y)
(+ x y)
(* 1/10 y)
(* y (+ 1/10 (* 1/10 (/ x y))))
(* y (+ 1/10 (* 1/10 (/ x y))))
(* y (+ 1/10 (* 1/10 (/ x y))))
y
(* y (+ 1 (/ x y)))
(* y (+ 1 (/ x y)))
(* y (+ 1 (/ x y)))
(* 1/10 y)
(* -1 (* y (- (* -1/10 (/ x y)) 1/10)))
(* -1 (* y (- (* -1/10 (/ x y)) 1/10)))
(* -1 (* y (- (* -1/10 (/ x y)) 1/10)))
y
(* -1 (* y (- (* -1 (/ x y)) 1)))
(* -1 (* y (- (* -1 (/ x y)) 1)))
(* -1 (* y (- (* -1 (/ x y)) 1)))
(* 1/10 y)
(+ (* 1/10 x) (* 1/10 y))
(+ (* 1/10 x) (* 1/10 y))
(+ (* 1/10 x) (* 1/10 y))
y
(+ x y)
(+ x y)
(+ x y)
(* 1/10 x)
(* x (+ 1/10 (* 1/10 (/ y x))))
(* x (+ 1/10 (* 1/10 (/ y x))))
(* x (+ 1/10 (* 1/10 (/ y x))))
x
(* x (+ 1 (/ y x)))
(* x (+ 1 (/ y x)))
(* x (+ 1 (/ y x)))
(* 1/10 x)
(* -1 (* x (- (* -1/10 (/ y x)) 1/10)))
(* -1 (* x (- (* -1/10 (/ y x)) 1/10)))
(* -1 (* x (- (* -1/10 (/ y x)) 1/10)))
x
(* -1 (* x (- (* -1 (/ y x)) 1)))
(* -1 (* x (- (* -1 (/ y x)) 1)))
(* -1 (* x (- (* -1 (/ y x)) 1)))

Outputs
(* 1/10 x)
(*.f64 x #s(literal 1/10 binary64))
(+ (* 1/10 x) (* 1/10 y))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(+ (* 1/10 x) (* 1/10 y))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(+ (* 1/10 x) (* 1/10 y))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
x
(+ x y)
(+.f64 y x)
(+ x y)
(+.f64 y x)
(+ x y)
(+.f64 y x)
(* 1/10 y)
(*.f64 y #s(literal 1/10 binary64))
(* y (+ 1/10 (* 1/10 (/ x y))))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* y (+ 1/10 (* 1/10 (/ x y))))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* y (+ 1/10 (* 1/10 (/ x y))))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
y
(* y (+ 1 (/ x y)))
(+.f64 y x)
(* y (+ 1 (/ x y)))
(+.f64 y x)
(* y (+ 1 (/ x y)))
(+.f64 y x)
(* 1/10 y)
(*.f64 y #s(literal 1/10 binary64))
(* -1 (* y (- (* -1/10 (/ x y)) 1/10)))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* -1 (* y (- (* -1/10 (/ x y)) 1/10)))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* -1 (* y (- (* -1/10 (/ x y)) 1/10)))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
y
(* -1 (* y (- (* -1 (/ x y)) 1)))
(+.f64 y x)
(* -1 (* y (- (* -1 (/ x y)) 1)))
(+.f64 y x)
(* -1 (* y (- (* -1 (/ x y)) 1)))
(+.f64 y x)
(* 1/10 y)
(*.f64 y #s(literal 1/10 binary64))
(+ (* 1/10 x) (* 1/10 y))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(+ (* 1/10 x) (* 1/10 y))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(+ (* 1/10 x) (* 1/10 y))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
y
(+ x y)
(+.f64 y x)
(+ x y)
(+.f64 y x)
(+ x y)
(+.f64 y x)
(* 1/10 x)
(*.f64 x #s(literal 1/10 binary64))
(* x (+ 1/10 (* 1/10 (/ y x))))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* x (+ 1/10 (* 1/10 (/ y x))))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* x (+ 1/10 (* 1/10 (/ y x))))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
x
(* x (+ 1 (/ y x)))
(+.f64 y x)
(* x (+ 1 (/ y x)))
(+.f64 y x)
(* x (+ 1 (/ y x)))
(+.f64 y x)
(* 1/10 x)
(*.f64 x #s(literal 1/10 binary64))
(* -1 (* x (- (* -1/10 (/ y x)) 1/10)))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* -1 (* x (- (* -1/10 (/ y x)) 1/10)))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* -1 (* x (- (* -1/10 (/ y x)) 1/10)))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
x
(* -1 (* x (- (* -1 (/ y x)) 1)))
(+.f64 y x)
(* -1 (* x (- (* -1 (/ y x)) 1)))
(+.f64 y x)
(* -1 (* x (- (* -1 (/ y x)) 1)))
(+.f64 y x)

rewrite221.0ms (5.2%)

Memory

-11.1MiB live, 234.7MiB allocated

Iterations

Useful iterations: 0 (0.0ms)

Iter	Nodes	Cost
0	5	8
0	7	8
1	31	8
2	183	8
3	1735	8
0	8213	8

Stop Event

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

Counts

2 → 371

Calls

Call 1

Inputs
(/.f64 (+.f64 x y) #s(literal 10 binary64))
(+.f64 x y)

Outputs
#<batchref>
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eval194.0ms (4.6%)

Memory: 17.9MiB live, 92.1MiB allocated
Compiler: Compiled 8 499 to 1 095 computations (87.1% saved)

prune12.0ms (0.3%)

Memory

-21.9MiB live, 26.9MiB allocated

Pruning

7 alts after pruning (6 fresh and 1 done)

	Pruned	Kept	Total
New	407	6	413
Fresh	0	0	0
Picked	0	1	1
Done	0	0	0
Total	407	7	414

Accuracy

100.0%

Counts

414 → 7

Alt Table

Click to see full alt table

Status	Accuracy	Program
▶	99.4%	(fma.f64 y #s(literal 1/10 binary64) (*.f64 x #s(literal 1/10 binary64)))
✓	100.0%	(/.f64 (+.f64 x y) #s(literal 10 binary64))
▶	99.6%	(/.f64 #s(literal 1 binary64) (/.f64 #s(literal 10 binary64) (+.f64 y x)))
	99.0%	(.f64 (+.f64 y x) (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64))))
▶	99.4%	(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
▶	52.6%	#s(approx (/ (+ x y) 10) (*.f64 y #s(literal 1/10 binary64)))
▶	48.6%	#s(approx (/ (+ x y) 10) (*.f64 x #s(literal 1/10 binary64)))

Compiler

Compiled 83 to 75 computations (9.6% saved)

simplify3.0ms (0.1%)

Memory

4.5MiB live, 4.5MiB allocated

Algorithm

1×	egg-herbie

Localize:

Found 11 expressions of interest:

New	Metric	Score
cost-diff	0	(*.f64 x #s(literal 1/10 binary64))
cost-diff	192	(fma.f64 y #s(literal 1/10 binary64) (*.f64 x #s(literal 1/10 binary64)))
cost-diff	0	(+.f64 y x)
cost-diff	0	(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
cost-diff	0	(*.f64 y #s(literal 1/10 binary64))
cost-diff	0	#s(approx (/ (+ x y) 10) (*.f64 y #s(literal 1/10 binary64)))
cost-diff	0	(*.f64 x #s(literal 1/10 binary64))
cost-diff	0	#s(approx (/ (+ x y) 10) (*.f64 x #s(literal 1/10 binary64)))
cost-diff	0	(+.f64 y x)
cost-diff	0	(/.f64 #s(literal 10 binary64) (+.f64 y x))
cost-diff	1088	(/.f64 #s(literal 1 binary64) (/.f64 #s(literal 10 binary64) (+.f64 y x)))

Iterations

Useful iterations: 0 (0.0ms)

Iter	Nodes	Cost
0	16	70
0	23	67
1	31	67
0	31	67

Stop Event

1×	iter limit
1×	saturated
1×	iter limit

Calls

Call 1

Inputs
(/.f64 #s(literal 1 binary64) (/.f64 #s(literal 10 binary64) (+.f64 y x)))
#s(literal 1 binary64)
(/.f64 #s(literal 10 binary64) (+.f64 y x))
#s(literal 10 binary64)
(+.f64 y x)
y
x
#s(approx (/ (+ x y) 10) (*.f64 x #s(literal 1/10 binary64)))
(*.f64 x #s(literal 1/10 binary64))
x
#s(literal 1/10 binary64)
#s(approx (/ (+ x y) 10) (*.f64 y #s(literal 1/10 binary64)))
(*.f64 y #s(literal 1/10 binary64))
y
#s(literal 1/10 binary64)
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(+.f64 y x)
y
x
#s(literal 1/10 binary64)
(fma.f64 y #s(literal 1/10 binary64) (*.f64 x #s(literal 1/10 binary64)))
y
#s(literal 1/10 binary64)
(*.f64 x #s(literal 1/10 binary64))
x

Outputs
(/.f64 #s(literal 1 binary64) (/.f64 #s(literal 10 binary64) (+.f64 y x)))
(*.f64 #s(literal 1/10 binary64) (+.f64 x y))
#s(literal 1 binary64)
(/.f64 #s(literal 10 binary64) (+.f64 y x))
(/.f64 #s(literal 10 binary64) (+.f64 x y))
#s(literal 10 binary64)
(+.f64 y x)
(+.f64 x y)
y
x
#s(approx (/ (+ x y) 10) (*.f64 x #s(literal 1/10 binary64)))
#s(approx (/ (+ x y) 10) (*.f64 #s(literal 1/10 binary64) x))
(*.f64 x #s(literal 1/10 binary64))
(*.f64 #s(literal 1/10 binary64) x)
x
#s(literal 1/10 binary64)
#s(approx (/ (+ x y) 10) (*.f64 y #s(literal 1/10 binary64)))
#s(approx (/ (+ x y) 10) (*.f64 #s(literal 1/10 binary64) y))
(*.f64 y #s(literal 1/10 binary64))
(*.f64 #s(literal 1/10 binary64) y)
y
#s(literal 1/10 binary64)
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(*.f64 #s(literal 1/10 binary64) (+.f64 x y))
(+.f64 y x)
(+.f64 x y)
y
x
#s(literal 1/10 binary64)
(fma.f64 y #s(literal 1/10 binary64) (*.f64 x #s(literal 1/10 binary64)))
(*.f64 #s(literal 1/10 binary64) (+.f64 x y))
y
#s(literal 1/10 binary64)
(*.f64 x #s(literal 1/10 binary64))
(*.f64 #s(literal 1/10 binary64) x)
x

localize55.0ms (1.3%)

Memory

3.8MiB live, 42.3MiB allocated

Localize:

Found 11 expressions of interest:

New	Metric	Score
accuracy	0.21875	(fma.f64 y #s(literal 1/10 binary64) (*.f64 x #s(literal 1/10 binary64)))
accuracy	0.37890625	(*.f64 x #s(literal 1/10 binary64))
accuracy	0	(+.f64 y x)
accuracy	0.40625	(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
accuracy	0.390625	(*.f64 y #s(literal 1/10 binary64))
accuracy	29.85250166306117	#s(approx (/ (+ x y) 10) (*.f64 y #s(literal 1/10 binary64)))
accuracy	0.37890625	(*.f64 x #s(literal 1/10 binary64))
accuracy	32.73534476220518	#s(approx (/ (+ x y) 10) (*.f64 x #s(literal 1/10 binary64)))
accuracy	0	(+.f64 y x)
accuracy	0.015625	(/.f64 #s(literal 10 binary64) (+.f64 y x))
accuracy	0.26171875	(/.f64 #s(literal 1 binary64) (/.f64 #s(literal 10 binary64) (+.f64 y x)))

Samples

44.0ms	255×	0	valid
1.0ms	1×	5	exit

Compiler

Compiled 125 to 30 computations (76% saved)

Precisions

Click to see histograms. Total time spent on operations: 33.0ms

ival-add: 19.0ms (58.3% of total)

ival-div: 5.0ms (15.3% of total)

ival-mult: 5.0ms (15.3% of total)

const: 4.0ms (12.3% 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)

series10.0ms (0.2%)

Memory

7.2MiB live, 7.2MiB allocated

Counts

9 → 192

Calls

Call 1

Inputs
#s(alt (/.f64 #s(literal 1 binary64) (/.f64 #s(literal 10 binary64) (+.f64 y x))) (patch (/.f64 #s(literal 1 binary64) (/.f64 #s(literal 10 binary64) (+.f64 y x))) #<representation binary64>) () ())
#s(alt (/.f64 #s(literal 10 binary64) (+.f64 y x)) (patch (/.f64 #s(literal 10 binary64) (+.f64 y x)) #<representation binary64>) () ())
#s(alt (+.f64 y x) (patch (+.f64 y x) #<representation binary64>) () ())
#s(alt #s(approx (/ (+ x y) 10) (.f64 x #s(literal 1/10 binary64))) (patch #s(approx (/ (+ x y) 10) (.f64 x #s(literal 1/10 binary64))) #<representation binary64>) () ())
#s(alt (.f64 x #s(literal 1/10 binary64)) (patch (.f64 x #s(literal 1/10 binary64)) #<representation binary64>) () ())
#s(alt #s(approx (/ (+ x y) 10) (.f64 y #s(literal 1/10 binary64))) (patch #s(approx (/ (+ x y) 10) (.f64 y #s(literal 1/10 binary64))) #<representation binary64>) () ())
#s(alt (.f64 y #s(literal 1/10 binary64)) (patch (.f64 y #s(literal 1/10 binary64)) #<representation binary64>) () ())
#s(alt (.f64 (+.f64 y x) #s(literal 1/10 binary64)) (patch (.f64 (+.f64 y x) #s(literal 1/10 binary64)) #<representation binary64>) () ())
#s(alt (fma.f64 y #s(literal 1/10 binary64) (.f64 x #s(literal 1/10 binary64))) (patch (fma.f64 y #s(literal 1/10 binary64) (.f64 x #s(literal 1/10 binary64))) #<representation binary64>) () ())

Outputs
#s(alt (* 1/10 x) (taylor 0 y) (#s(alt (/.f64 #s(literal 1 binary64) (/.f64 #s(literal 10 binary64) (+.f64 y x))) (patch (/.f64 #s(literal 1 binary64) (/.f64 #s(literal 10 binary64) (+.f64 y x))) #<representation binary64>) () ())) ())
#s(alt (+ (* 1/10 x) (* 1/10 y)) (taylor 0 y) (#s(alt (/.f64 #s(literal 1 binary64) (/.f64 #s(literal 10 binary64) (+.f64 y x))) (patch (/.f64 #s(literal 1 binary64) (/.f64 #s(literal 10 binary64) (+.f64 y x))) #<representation binary64>) () ())) ())
#s(alt (+ (* 1/10 x) (* 1/10 y)) (taylor 0 y) (#s(alt (/.f64 #s(literal 1 binary64) (/.f64 #s(literal 10 binary64) (+.f64 y x))) (patch (/.f64 #s(literal 1 binary64) (/.f64 #s(literal 10 binary64) (+.f64 y x))) #<representation binary64>) () ())) ())
#s(alt (+ (* 1/10 x) (* 1/10 y)) (taylor 0 y) (#s(alt (/.f64 #s(literal 1 binary64) (/.f64 #s(literal 10 binary64) (+.f64 y x))) (patch (/.f64 #s(literal 1 binary64) (/.f64 #s(literal 10 binary64) (+.f64 y x))) #<representation binary64>) () ())) ())
#s(alt (/ 10 x) (taylor 0 y) (#s(alt (/.f64 #s(literal 10 binary64) (+.f64 y x)) (patch (/.f64 #s(literal 10 binary64) (+.f64 y x)) #<representation binary64>) () ())) ())
#s(alt (+ (* -10 (/ y (pow x 2))) (* 10 (/ 1 x))) (taylor 0 y) (#s(alt (/.f64 #s(literal 10 binary64) (+.f64 y x)) (patch (/.f64 #s(literal 10 binary64) (+.f64 y x)) #<representation binary64>) () ())) ())
#s(alt (+ (* y (- (* 10 (/ y (pow x 3))) (* 10 (/ 1 (pow x 2))))) (* 10 (/ 1 x))) (taylor 0 y) (#s(alt (/.f64 #s(literal 10 binary64) (+.f64 y x)) (patch (/.f64 #s(literal 10 binary64) (+.f64 y x)) #<representation binary64>) () ())) ())
#s(alt (+ (* y (- (* y (+ (* -10 (/ y (pow x 4))) (* 10 (/ 1 (pow x 3))))) (* 10 (/ 1 (pow x 2))))) (* 10 (/ 1 x))) (taylor 0 y) (#s(alt (/.f64 #s(literal 10 binary64) (+.f64 y x)) (patch (/.f64 #s(literal 10 binary64) (+.f64 y x)) #<representation binary64>) () ())) ())
#s(alt x (taylor 0 y) (#s(alt (+.f64 y x) (patch (+.f64 y x) #<representation binary64>) () ())) ())
#s(alt (+ x y) (taylor 0 y) (#s(alt (+.f64 y x) (patch (+.f64 y x) #<representation binary64>) () ())) ())
#s(alt (+ x y) (taylor 0 y) (#s(alt (+.f64 y x) (patch (+.f64 y x) #<representation binary64>) () ())) ())
#s(alt (+ x y) (taylor 0 y) (#s(alt (+.f64 y x) (patch (+.f64 y x) #<representation binary64>) () ())) ())
#s(alt (* 1/10 x) (taylor 0 y) (#s(alt #s(approx (/ (+ x y) 10) (.f64 x #s(literal 1/10 binary64))) (patch #s(approx (/ (+ x y) 10) (.f64 x #s(literal 1/10 binary64))) #<representation binary64>) () ())) ())
#s(alt (+ (* 1/10 x) (* 1/10 y)) (taylor 0 y) (#s(alt #s(approx (/ (+ x y) 10) (.f64 x #s(literal 1/10 binary64))) (patch #s(approx (/ (+ x y) 10) (.f64 x #s(literal 1/10 binary64))) #<representation binary64>) () ())) ())
#s(alt (+ (* 1/10 x) (* 1/10 y)) (taylor 0 y) (#s(alt #s(approx (/ (+ x y) 10) (.f64 x #s(literal 1/10 binary64))) (patch #s(approx (/ (+ x y) 10) (.f64 x #s(literal 1/10 binary64))) #<representation binary64>) () ())) ())
#s(alt (+ (* 1/10 x) (* 1/10 y)) (taylor 0 y) (#s(alt #s(approx (/ (+ x y) 10) (.f64 x #s(literal 1/10 binary64))) (patch #s(approx (/ (+ x y) 10) (.f64 x #s(literal 1/10 binary64))) #<representation binary64>) () ())) ())
#s(alt (* 1/10 x) (taylor 0 y) (#s(alt #s(approx (/ (+ x y) 10) (.f64 y #s(literal 1/10 binary64))) (patch #s(approx (/ (+ x y) 10) (.f64 y #s(literal 1/10 binary64))) #<representation binary64>) () ())) ())
#s(alt (+ (* 1/10 x) (* 1/10 y)) (taylor 0 y) (#s(alt #s(approx (/ (+ x y) 10) (.f64 y #s(literal 1/10 binary64))) (patch #s(approx (/ (+ x y) 10) (.f64 y #s(literal 1/10 binary64))) #<representation binary64>) () ())) ())
#s(alt (+ (* 1/10 x) (* 1/10 y)) (taylor 0 y) (#s(alt #s(approx (/ (+ x y) 10) (.f64 y #s(literal 1/10 binary64))) (patch #s(approx (/ (+ x y) 10) (.f64 y #s(literal 1/10 binary64))) #<representation binary64>) () ())) ())
#s(alt (+ (* 1/10 x) (* 1/10 y)) (taylor 0 y) (#s(alt #s(approx (/ (+ x y) 10) (.f64 y #s(literal 1/10 binary64))) (patch #s(approx (/ (+ x y) 10) (.f64 y #s(literal 1/10 binary64))) #<representation binary64>) () ())) ())
#s(alt (* 1/10 y) (taylor 0 y) (#s(alt (.f64 y #s(literal 1/10 binary64)) (patch (.f64 y #s(literal 1/10 binary64)) #<representation binary64>) () ())) ())
#s(alt (* 1/10 y) (taylor 0 y) (#s(alt (.f64 y #s(literal 1/10 binary64)) (patch (.f64 y #s(literal 1/10 binary64)) #<representation binary64>) () ())) ())
#s(alt (* 1/10 y) (taylor 0 y) (#s(alt (.f64 y #s(literal 1/10 binary64)) (patch (.f64 y #s(literal 1/10 binary64)) #<representation binary64>) () ())) ())
#s(alt (* 1/10 y) (taylor 0 y) (#s(alt (.f64 y #s(literal 1/10 binary64)) (patch (.f64 y #s(literal 1/10 binary64)) #<representation binary64>) () ())) ())
#s(alt (* 1/10 x) (taylor 0 y) (#s(alt (.f64 (+.f64 y x) #s(literal 1/10 binary64)) (patch (.f64 (+.f64 y x) #s(literal 1/10 binary64)) #<representation binary64>) () ())) ())
#s(alt (+ (* 1/10 x) (* 1/10 y)) (taylor 0 y) (#s(alt (.f64 (+.f64 y x) #s(literal 1/10 binary64)) (patch (.f64 (+.f64 y x) #s(literal 1/10 binary64)) #<representation binary64>) () ())) ())
#s(alt (+ (* 1/10 x) (* 1/10 y)) (taylor 0 y) (#s(alt (.f64 (+.f64 y x) #s(literal 1/10 binary64)) (patch (.f64 (+.f64 y x) #s(literal 1/10 binary64)) #<representation binary64>) () ())) ())
#s(alt (+ (* 1/10 x) (* 1/10 y)) (taylor 0 y) (#s(alt (.f64 (+.f64 y x) #s(literal 1/10 binary64)) (patch (.f64 (+.f64 y x) #s(literal 1/10 binary64)) #<representation binary64>) () ())) ())
#s(alt (* 1/10 x) (taylor 0 y) (#s(alt (fma.f64 y #s(literal 1/10 binary64) (.f64 x #s(literal 1/10 binary64))) (patch (fma.f64 y #s(literal 1/10 binary64) (.f64 x #s(literal 1/10 binary64))) #<representation binary64>) () ())) ())
#s(alt (+ (* 1/10 x) (* 1/10 y)) (taylor 0 y) (#s(alt (fma.f64 y #s(literal 1/10 binary64) (.f64 x #s(literal 1/10 binary64))) (patch (fma.f64 y #s(literal 1/10 binary64) (.f64 x #s(literal 1/10 binary64))) #<representation binary64>) () ())) ())
#s(alt (+ (* 1/10 x) (* 1/10 y)) (taylor 0 y) (#s(alt (fma.f64 y #s(literal 1/10 binary64) (.f64 x #s(literal 1/10 binary64))) (patch (fma.f64 y #s(literal 1/10 binary64) (.f64 x #s(literal 1/10 binary64))) #<representation binary64>) () ())) ())
#s(alt (+ (* 1/10 x) (* 1/10 y)) (taylor 0 y) (#s(alt (fma.f64 y #s(literal 1/10 binary64) (.f64 x #s(literal 1/10 binary64))) (patch (fma.f64 y #s(literal 1/10 binary64) (.f64 x #s(literal 1/10 binary64))) #<representation binary64>) () ())) ())
#s(alt (* 1/10 y) (taylor inf y) (#s(alt (/.f64 #s(literal 1 binary64) (/.f64 #s(literal 10 binary64) (+.f64 y x))) (patch (/.f64 #s(literal 1 binary64) (/.f64 #s(literal 10 binary64) (+.f64 y x))) #<representation binary64>) () ())) ())
#s(alt (* y (+ 1/10 (* 1/10 (/ x y)))) (taylor inf y) (#s(alt (/.f64 #s(literal 1 binary64) (/.f64 #s(literal 10 binary64) (+.f64 y x))) (patch (/.f64 #s(literal 1 binary64) (/.f64 #s(literal 10 binary64) (+.f64 y x))) #<representation binary64>) () ())) ())
#s(alt (* y (+ 1/10 (* 1/10 (/ x y)))) (taylor inf y) (#s(alt (/.f64 #s(literal 1 binary64) (/.f64 #s(literal 10 binary64) (+.f64 y x))) (patch (/.f64 #s(literal 1 binary64) (/.f64 #s(literal 10 binary64) (+.f64 y x))) #<representation binary64>) () ())) ())
#s(alt (* y (+ 1/10 (* 1/10 (/ x y)))) (taylor inf y) (#s(alt (/.f64 #s(literal 1 binary64) (/.f64 #s(literal 10 binary64) (+.f64 y x))) (patch (/.f64 #s(literal 1 binary64) (/.f64 #s(literal 10 binary64) (+.f64 y x))) #<representation binary64>) () ())) ())
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#s(alt (/ 10 x) (taylor inf x) (#s(alt (/.f64 #s(literal 10 binary64) (+.f64 y x)) (patch (/.f64 #s(literal 10 binary64) (+.f64 y x)) #<representation binary64>) () ())) ())
#s(alt (/ (+ 10 (* -10 (/ y x))) x) (taylor inf x) (#s(alt (/.f64 #s(literal 10 binary64) (+.f64 y x)) (patch (/.f64 #s(literal 10 binary64) (+.f64 y x)) #<representation binary64>) () ())) ())
#s(alt (/ (- (+ 10 (* 10 (/ (pow y 2) (pow x 2)))) (* 10 (/ y x))) x) (taylor inf x) (#s(alt (/.f64 #s(literal 10 binary64) (+.f64 y x)) (patch (/.f64 #s(literal 10 binary64) (+.f64 y x)) #<representation binary64>) () ())) ())
#s(alt (/ (- (+ 10 (* -10 (/ (pow y 3) (pow x 3)))) (+ (* -10 (/ (pow y 2) (pow x 2))) (* 10 (/ y x)))) x) (taylor inf x) (#s(alt (/.f64 #s(literal 10 binary64) (+.f64 y x)) (patch (/.f64 #s(literal 10 binary64) (+.f64 y x)) #<representation binary64>) () ())) ())
#s(alt x (taylor inf x) (#s(alt (+.f64 y x) (patch (+.f64 y x) #<representation binary64>) () ())) ())
#s(alt (* x (+ 1 (/ y x))) (taylor inf x) (#s(alt (+.f64 y x) (patch (+.f64 y x) #<representation binary64>) () ())) ())
#s(alt (* x (+ 1 (/ y x))) (taylor inf x) (#s(alt (+.f64 y x) (patch (+.f64 y x) #<representation binary64>) () ())) ())
#s(alt (* x (+ 1 (/ y x))) (taylor inf x) (#s(alt (+.f64 y x) (patch (+.f64 y x) #<representation binary64>) () ())) ())
#s(alt (* 1/10 x) (taylor inf x) (#s(alt #s(approx (/ (+ x y) 10) (.f64 x #s(literal 1/10 binary64))) (patch #s(approx (/ (+ x y) 10) (.f64 x #s(literal 1/10 binary64))) #<representation binary64>) () ())) ())
#s(alt (* x (+ 1/10 (* 1/10 (/ y x)))) (taylor inf x) (#s(alt #s(approx (/ (+ x y) 10) (.f64 x #s(literal 1/10 binary64))) (patch #s(approx (/ (+ x y) 10) (.f64 x #s(literal 1/10 binary64))) #<representation binary64>) () ())) ())
#s(alt (* x (+ 1/10 (* 1/10 (/ y x)))) (taylor inf x) (#s(alt #s(approx (/ (+ x y) 10) (.f64 x #s(literal 1/10 binary64))) (patch #s(approx (/ (+ x y) 10) (.f64 x #s(literal 1/10 binary64))) #<representation binary64>) () ())) ())
#s(alt (* x (+ 1/10 (* 1/10 (/ y x)))) (taylor inf x) (#s(alt #s(approx (/ (+ x y) 10) (.f64 x #s(literal 1/10 binary64))) (patch #s(approx (/ (+ x y) 10) (.f64 x #s(literal 1/10 binary64))) #<representation binary64>) () ())) ())
#s(alt (* 1/10 x) (taylor inf x) (#s(alt (.f64 x #s(literal 1/10 binary64)) (patch (.f64 x #s(literal 1/10 binary64)) #<representation binary64>) () ())) ())
#s(alt (* 1/10 x) (taylor inf x) (#s(alt (.f64 x #s(literal 1/10 binary64)) (patch (.f64 x #s(literal 1/10 binary64)) #<representation binary64>) () ())) ())
#s(alt (* 1/10 x) (taylor inf x) (#s(alt (.f64 x #s(literal 1/10 binary64)) (patch (.f64 x #s(literal 1/10 binary64)) #<representation binary64>) () ())) ())
#s(alt (* 1/10 x) (taylor inf x) (#s(alt (.f64 x #s(literal 1/10 binary64)) (patch (.f64 x #s(literal 1/10 binary64)) #<representation binary64>) () ())) ())
#s(alt (* 1/10 x) (taylor inf x) (#s(alt #s(approx (/ (+ x y) 10) (.f64 y #s(literal 1/10 binary64))) (patch #s(approx (/ (+ x y) 10) (.f64 y #s(literal 1/10 binary64))) #<representation binary64>) () ())) ())
#s(alt (* x (+ 1/10 (* 1/10 (/ y x)))) (taylor inf x) (#s(alt #s(approx (/ (+ x y) 10) (.f64 y #s(literal 1/10 binary64))) (patch #s(approx (/ (+ x y) 10) (.f64 y #s(literal 1/10 binary64))) #<representation binary64>) () ())) ())
#s(alt (* x (+ 1/10 (* 1/10 (/ y x)))) (taylor inf x) (#s(alt #s(approx (/ (+ x y) 10) (.f64 y #s(literal 1/10 binary64))) (patch #s(approx (/ (+ x y) 10) (.f64 y #s(literal 1/10 binary64))) #<representation binary64>) () ())) ())
#s(alt (* x (+ 1/10 (* 1/10 (/ y x)))) (taylor inf x) (#s(alt #s(approx (/ (+ x y) 10) (.f64 y #s(literal 1/10 binary64))) (patch #s(approx (/ (+ x y) 10) (.f64 y #s(literal 1/10 binary64))) #<representation binary64>) () ())) ())
#s(alt (* 1/10 x) (taylor inf x) (#s(alt (.f64 (+.f64 y x) #s(literal 1/10 binary64)) (patch (.f64 (+.f64 y x) #s(literal 1/10 binary64)) #<representation binary64>) () ())) ())
#s(alt (* x (+ 1/10 (* 1/10 (/ y x)))) (taylor inf x) (#s(alt (.f64 (+.f64 y x) #s(literal 1/10 binary64)) (patch (.f64 (+.f64 y x) #s(literal 1/10 binary64)) #<representation binary64>) () ())) ())
#s(alt (* x (+ 1/10 (* 1/10 (/ y x)))) (taylor inf x) (#s(alt (.f64 (+.f64 y x) #s(literal 1/10 binary64)) (patch (.f64 (+.f64 y x) #s(literal 1/10 binary64)) #<representation binary64>) () ())) ())
#s(alt (* x (+ 1/10 (* 1/10 (/ y x)))) (taylor inf x) (#s(alt (.f64 (+.f64 y x) #s(literal 1/10 binary64)) (patch (.f64 (+.f64 y x) #s(literal 1/10 binary64)) #<representation binary64>) () ())) ())
#s(alt (* 1/10 x) (taylor inf x) (#s(alt (fma.f64 y #s(literal 1/10 binary64) (.f64 x #s(literal 1/10 binary64))) (patch (fma.f64 y #s(literal 1/10 binary64) (.f64 x #s(literal 1/10 binary64))) #<representation binary64>) () ())) ())
#s(alt (* x (+ 1/10 (* 1/10 (/ y x)))) (taylor inf x) (#s(alt (fma.f64 y #s(literal 1/10 binary64) (.f64 x #s(literal 1/10 binary64))) (patch (fma.f64 y #s(literal 1/10 binary64) (.f64 x #s(literal 1/10 binary64))) #<representation binary64>) () ())) ())
#s(alt (* x (+ 1/10 (* 1/10 (/ y x)))) (taylor inf x) (#s(alt (fma.f64 y #s(literal 1/10 binary64) (.f64 x #s(literal 1/10 binary64))) (patch (fma.f64 y #s(literal 1/10 binary64) (.f64 x #s(literal 1/10 binary64))) #<representation binary64>) () ())) ())
#s(alt (* x (+ 1/10 (* 1/10 (/ y x)))) (taylor inf x) (#s(alt (fma.f64 y #s(literal 1/10 binary64) (.f64 x #s(literal 1/10 binary64))) (patch (fma.f64 y #s(literal 1/10 binary64) (.f64 x #s(literal 1/10 binary64))) #<representation binary64>) () ())) ())
#s(alt (* 1/10 x) (taylor -inf x) (#s(alt (/.f64 #s(literal 1 binary64) (/.f64 #s(literal 10 binary64) (+.f64 y x))) (patch (/.f64 #s(literal 1 binary64) (/.f64 #s(literal 10 binary64) (+.f64 y x))) #<representation binary64>) () ())) ())
#s(alt (* -1 (* x (- (* -1/10 (/ y x)) 1/10))) (taylor -inf x) (#s(alt (/.f64 #s(literal 1 binary64) (/.f64 #s(literal 10 binary64) (+.f64 y x))) (patch (/.f64 #s(literal 1 binary64) (/.f64 #s(literal 10 binary64) (+.f64 y x))) #<representation binary64>) () ())) ())
#s(alt (* -1 (* x (- (* -1/10 (/ y x)) 1/10))) (taylor -inf x) (#s(alt (/.f64 #s(literal 1 binary64) (/.f64 #s(literal 10 binary64) (+.f64 y x))) (patch (/.f64 #s(literal 1 binary64) (/.f64 #s(literal 10 binary64) (+.f64 y x))) #<representation binary64>) () ())) ())
#s(alt (* -1 (* x (- (* -1/10 (/ y x)) 1/10))) (taylor -inf x) (#s(alt (/.f64 #s(literal 1 binary64) (/.f64 #s(literal 10 binary64) (+.f64 y x))) (patch (/.f64 #s(literal 1 binary64) (/.f64 #s(literal 10 binary64) (+.f64 y x))) #<representation binary64>) () ())) ())
#s(alt (/ 10 x) (taylor -inf x) (#s(alt (/.f64 #s(literal 10 binary64) (+.f64 y x)) (patch (/.f64 #s(literal 10 binary64) (+.f64 y x)) #<representation binary64>) () ())) ())
#s(alt (* -1 (/ (- (* 10 (/ y x)) 10) x)) (taylor -inf x) (#s(alt (/.f64 #s(literal 10 binary64) (+.f64 y x)) (patch (/.f64 #s(literal 10 binary64) (+.f64 y x)) #<representation binary64>) () ())) ())
#s(alt (* -1 (/ (- (* -1 (/ (- (* 10 (/ (pow y 2) x)) (* 10 y)) x)) 10) x)) (taylor -inf x) (#s(alt (/.f64 #s(literal 10 binary64) (+.f64 y x)) (patch (/.f64 #s(literal 10 binary64) (+.f64 y x)) #<representation binary64>) () ())) ())
#s(alt (* -1 (/ (- (* -1 (/ (- (* -1 (/ (- (* 10 (/ (pow y 3) x)) (* 10 (pow y 2))) x)) (* 10 y)) x)) 10) x)) (taylor -inf x) (#s(alt (/.f64 #s(literal 10 binary64) (+.f64 y x)) (patch (/.f64 #s(literal 10 binary64) (+.f64 y x)) #<representation binary64>) () ())) ())
#s(alt x (taylor -inf x) (#s(alt (+.f64 y x) (patch (+.f64 y x) #<representation binary64>) () ())) ())
#s(alt (* -1 (* x (- (* -1 (/ y x)) 1))) (taylor -inf x) (#s(alt (+.f64 y x) (patch (+.f64 y x) #<representation binary64>) () ())) ())
#s(alt (* -1 (* x (- (* -1 (/ y x)) 1))) (taylor -inf x) (#s(alt (+.f64 y x) (patch (+.f64 y x) #<representation binary64>) () ())) ())
#s(alt (* -1 (* x (- (* -1 (/ y x)) 1))) (taylor -inf x) (#s(alt (+.f64 y x) (patch (+.f64 y x) #<representation binary64>) () ())) ())
#s(alt (* 1/10 x) (taylor -inf x) (#s(alt #s(approx (/ (+ x y) 10) (.f64 x #s(literal 1/10 binary64))) (patch #s(approx (/ (+ x y) 10) (.f64 x #s(literal 1/10 binary64))) #<representation binary64>) () ())) ())
#s(alt (* -1 (* x (- (* -1/10 (/ y x)) 1/10))) (taylor -inf x) (#s(alt #s(approx (/ (+ x y) 10) (.f64 x #s(literal 1/10 binary64))) (patch #s(approx (/ (+ x y) 10) (.f64 x #s(literal 1/10 binary64))) #<representation binary64>) () ())) ())
#s(alt (* -1 (* x (- (* -1/10 (/ y x)) 1/10))) (taylor -inf x) (#s(alt #s(approx (/ (+ x y) 10) (.f64 x #s(literal 1/10 binary64))) (patch #s(approx (/ (+ x y) 10) (.f64 x #s(literal 1/10 binary64))) #<representation binary64>) () ())) ())
#s(alt (* -1 (* x (- (* -1/10 (/ y x)) 1/10))) (taylor -inf x) (#s(alt #s(approx (/ (+ x y) 10) (.f64 x #s(literal 1/10 binary64))) (patch #s(approx (/ (+ x y) 10) (.f64 x #s(literal 1/10 binary64))) #<representation binary64>) () ())) ())
#s(alt (* 1/10 x) (taylor -inf x) (#s(alt (.f64 x #s(literal 1/10 binary64)) (patch (.f64 x #s(literal 1/10 binary64)) #<representation binary64>) () ())) ())
#s(alt (* 1/10 x) (taylor -inf x) (#s(alt (.f64 x #s(literal 1/10 binary64)) (patch (.f64 x #s(literal 1/10 binary64)) #<representation binary64>) () ())) ())
#s(alt (* 1/10 x) (taylor -inf x) (#s(alt (.f64 x #s(literal 1/10 binary64)) (patch (.f64 x #s(literal 1/10 binary64)) #<representation binary64>) () ())) ())
#s(alt (* 1/10 x) (taylor -inf x) (#s(alt (.f64 x #s(literal 1/10 binary64)) (patch (.f64 x #s(literal 1/10 binary64)) #<representation binary64>) () ())) ())
#s(alt (* 1/10 x) (taylor -inf x) (#s(alt #s(approx (/ (+ x y) 10) (.f64 y #s(literal 1/10 binary64))) (patch #s(approx (/ (+ x y) 10) (.f64 y #s(literal 1/10 binary64))) #<representation binary64>) () ())) ())
#s(alt (* -1 (* x (- (* -1/10 (/ y x)) 1/10))) (taylor -inf x) (#s(alt #s(approx (/ (+ x y) 10) (.f64 y #s(literal 1/10 binary64))) (patch #s(approx (/ (+ x y) 10) (.f64 y #s(literal 1/10 binary64))) #<representation binary64>) () ())) ())
#s(alt (* -1 (* x (- (* -1/10 (/ y x)) 1/10))) (taylor -inf x) (#s(alt #s(approx (/ (+ x y) 10) (.f64 y #s(literal 1/10 binary64))) (patch #s(approx (/ (+ x y) 10) (.f64 y #s(literal 1/10 binary64))) #<representation binary64>) () ())) ())
#s(alt (* -1 (* x (- (* -1/10 (/ y x)) 1/10))) (taylor -inf x) (#s(alt #s(approx (/ (+ x y) 10) (.f64 y #s(literal 1/10 binary64))) (patch #s(approx (/ (+ x y) 10) (.f64 y #s(literal 1/10 binary64))) #<representation binary64>) () ())) ())
#s(alt (* 1/10 x) (taylor -inf x) (#s(alt (.f64 (+.f64 y x) #s(literal 1/10 binary64)) (patch (.f64 (+.f64 y x) #s(literal 1/10 binary64)) #<representation binary64>) () ())) ())
#s(alt (* -1 (* x (- (* -1/10 (/ y x)) 1/10))) (taylor -inf x) (#s(alt (.f64 (+.f64 y x) #s(literal 1/10 binary64)) (patch (.f64 (+.f64 y x) #s(literal 1/10 binary64)) #<representation binary64>) () ())) ())
#s(alt (* -1 (* x (- (* -1/10 (/ y x)) 1/10))) (taylor -inf x) (#s(alt (.f64 (+.f64 y x) #s(literal 1/10 binary64)) (patch (.f64 (+.f64 y x) #s(literal 1/10 binary64)) #<representation binary64>) () ())) ())
#s(alt (* -1 (* x (- (* -1/10 (/ y x)) 1/10))) (taylor -inf x) (#s(alt (.f64 (+.f64 y x) #s(literal 1/10 binary64)) (patch (.f64 (+.f64 y x) #s(literal 1/10 binary64)) #<representation binary64>) () ())) ())
#s(alt (* 1/10 x) (taylor -inf x) (#s(alt (fma.f64 y #s(literal 1/10 binary64) (.f64 x #s(literal 1/10 binary64))) (patch (fma.f64 y #s(literal 1/10 binary64) (.f64 x #s(literal 1/10 binary64))) #<representation binary64>) () ())) ())
#s(alt (* -1 (* x (- (* -1/10 (/ y x)) 1/10))) (taylor -inf x) (#s(alt (fma.f64 y #s(literal 1/10 binary64) (.f64 x #s(literal 1/10 binary64))) (patch (fma.f64 y #s(literal 1/10 binary64) (.f64 x #s(literal 1/10 binary64))) #<representation binary64>) () ())) ())
#s(alt (* -1 (* x (- (* -1/10 (/ y x)) 1/10))) (taylor -inf x) (#s(alt (fma.f64 y #s(literal 1/10 binary64) (.f64 x #s(literal 1/10 binary64))) (patch (fma.f64 y #s(literal 1/10 binary64) (.f64 x #s(literal 1/10 binary64))) #<representation binary64>) () ())) ())
#s(alt (* -1 (* x (- (* -1/10 (/ y x)) 1/10))) (taylor -inf x) (#s(alt (fma.f64 y #s(literal 1/10 binary64) (.f64 x #s(literal 1/10 binary64))) (patch (fma.f64 y #s(literal 1/10 binary64) (.f64 x #s(literal 1/10 binary64))) #<representation binary64>) () ())) ())

Calls

6 calls:

Time	Variable		Point	Expression
1.0ms	y	@	-inf	((/ 1 (/ 10 (+ y x))) (/ 10 (+ y x)) (+ y x) (/ (+ x y) 10) (* x 1/10) (/ (+ x y) 10) (* y 1/10) (* (+ y x) 1/10) (+ (* y 1/10) (* x 1/10)))
1.0ms	y	@	inf	((/ 1 (/ 10 (+ y x))) (/ 10 (+ y x)) (+ y x) (/ (+ x y) 10) (* x 1/10) (/ (+ x y) 10) (* y 1/10) (* (+ y x) 1/10) (+ (* y 1/10) (* x 1/10)))
1.0ms	y	@	0	((/ 1 (/ 10 (+ y x))) (/ 10 (+ y x)) (+ y x) (/ (+ x y) 10) (* x 1/10) (/ (+ x y) 10) (* y 1/10) (* (+ y x) 1/10) (+ (* y 1/10) (* x 1/10)))
1.0ms	x	@	inf	((/ 1 (/ 10 (+ y x))) (/ 10 (+ y x)) (+ y x) (/ (+ x y) 10) (* x 1/10) (/ (+ x y) 10) (* y 1/10) (* (+ y x) 1/10) (+ (* y 1/10) (* x 1/10)))
1.0ms	x	@	-inf	((/ 1 (/ 10 (+ y x))) (/ 10 (+ y x)) (+ y x) (/ (+ x y) 10) (* x 1/10) (/ (+ x y) 10) (* y 1/10) (* (+ y x) 1/10) (+ (* y 1/10) (* x 1/10)))

simplify154.0ms (3.6%)

Memory

18.1MiB live, 135.6MiB allocated

Algorithm

1×	egg-herbie

Iterations

Useful iterations: 0 (0.0ms)

Iter	Nodes	Cost
0	173	1034
1	516	1022
2	1302	982
3	4363	972
0	8379	954

Stop Event

1×	iter limit
1×	node limit

Counts

192 → 186

Calls

Call 1

Inputs
(* 1/10 x)
(+ (* 1/10 x) (* 1/10 y))
(+ (* 1/10 x) (* 1/10 y))
(+ (* 1/10 x) (* 1/10 y))
(/ 10 x)
(+ (* -10 (/ y (pow x 2))) (* 10 (/ 1 x)))
(+ (* y (- (* 10 (/ y (pow x 3))) (* 10 (/ 1 (pow x 2))))) (* 10 (/ 1 x)))
(+ (* y (- (* y (+ (* -10 (/ y (pow x 4))) (* 10 (/ 1 (pow x 3))))) (* 10 (/ 1 (pow x 2))))) (* 10 (/ 1 x)))
x
(+ x y)
(+ x y)
(+ x y)
(* 1/10 x)
(+ (* 1/10 x) (* 1/10 y))
(+ (* 1/10 x) (* 1/10 y))
(+ (* 1/10 x) (* 1/10 y))
(* 1/10 x)
(+ (* 1/10 x) (* 1/10 y))
(+ (* 1/10 x) (* 1/10 y))
(+ (* 1/10 x) (* 1/10 y))
(* 1/10 y)
(* 1/10 y)
(* 1/10 y)
(* 1/10 y)
(* 1/10 x)
(+ (* 1/10 x) (* 1/10 y))
(+ (* 1/10 x) (* 1/10 y))
(+ (* 1/10 x) (* 1/10 y))
(* 1/10 x)
(+ (* 1/10 x) (* 1/10 y))
(+ (* 1/10 x) (* 1/10 y))
(+ (* 1/10 x) (* 1/10 y))
(* 1/10 y)
(* y (+ 1/10 (* 1/10 (/ x y))))
(* y (+ 1/10 (* 1/10 (/ x y))))
(* y (+ 1/10 (* 1/10 (/ x y))))
(/ 10 y)
(/ (+ 10 (* -10 (/ x y))) y)
(/ (- (+ 10 (* 10 (/ (pow x 2) (pow y 2)))) (* 10 (/ x y))) y)
(/ (- (+ 10 (* -10 (/ (pow x 3) (pow y 3)))) (+ (* -10 (/ (pow x 2) (pow y 2))) (* 10 (/ x y)))) y)
y
(* y (+ 1 (/ x y)))
(* y (+ 1 (/ x y)))
(* y (+ 1 (/ x y)))
(* 1/10 y)
(* y (+ 1/10 (* 1/10 (/ x y))))
(* y (+ 1/10 (* 1/10 (/ x y))))
(* y (+ 1/10 (* 1/10 (/ x y))))
(* 1/10 y)
(* y (+ 1/10 (* 1/10 (/ x y))))
(* y (+ 1/10 (* 1/10 (/ x y))))
(* y (+ 1/10 (* 1/10 (/ x y))))
(* 1/10 y)
(* 1/10 y)
(* 1/10 y)
(* 1/10 y)
(* 1/10 y)
(* y (+ 1/10 (* 1/10 (/ x y))))
(* y (+ 1/10 (* 1/10 (/ x y))))
(* y (+ 1/10 (* 1/10 (/ x y))))
(* 1/10 y)
(* y (+ 1/10 (* 1/10 (/ x y))))
(* y (+ 1/10 (* 1/10 (/ x y))))
(* y (+ 1/10 (* 1/10 (/ x y))))
(* 1/10 y)
(* -1 (* y (- (* -1/10 (/ x y)) 1/10)))
(* -1 (* y (- (* -1/10 (/ x y)) 1/10)))
(* -1 (* y (- (* -1/10 (/ x y)) 1/10)))
(/ 10 y)
(* -1 (/ (- (* 10 (/ x y)) 10) y))
(* -1 (/ (- (* -1 (/ (- (* 10 (/ (pow x 2) y)) (* 10 x)) y)) 10) y))
(* -1 (/ (- (* -1 (/ (- (* -1 (/ (- (* 10 (/ (pow x 3) y)) (* 10 (pow x 2))) y)) (* 10 x)) y)) 10) y))
y
(* -1 (* y (- (* -1 (/ x y)) 1)))
(* -1 (* y (- (* -1 (/ x y)) 1)))
(* -1 (* y (- (* -1 (/ x y)) 1)))
(* 1/10 y)
(* -1 (* y (- (* -1/10 (/ x y)) 1/10)))
(* -1 (* y (- (* -1/10 (/ x y)) 1/10)))
(* -1 (* y (- (* -1/10 (/ x y)) 1/10)))
(* 1/10 y)
(* -1 (* y (- (* -1/10 (/ x y)) 1/10)))
(* -1 (* y (- (* -1/10 (/ x y)) 1/10)))
(* -1 (* y (- (* -1/10 (/ x y)) 1/10)))
(* 1/10 y)
(* 1/10 y)
(* 1/10 y)
(* 1/10 y)
(* 1/10 y)
(* -1 (* y (- (* -1/10 (/ x y)) 1/10)))
(* -1 (* y (- (* -1/10 (/ x y)) 1/10)))
(* -1 (* y (- (* -1/10 (/ x y)) 1/10)))
(* 1/10 y)
(* -1 (* y (- (* -1/10 (/ x y)) 1/10)))
(* -1 (* y (- (* -1/10 (/ x y)) 1/10)))
(* -1 (* y (- (* -1/10 (/ x y)) 1/10)))
(* 1/10 y)
(+ (* 1/10 x) (* 1/10 y))
(+ (* 1/10 x) (* 1/10 y))
(+ (* 1/10 x) (* 1/10 y))
(/ 10 y)
(+ (* -10 (/ x (pow y 2))) (* 10 (/ 1 y)))
(+ (* x (- (* 10 (/ x (pow y 3))) (* 10 (/ 1 (pow y 2))))) (* 10 (/ 1 y)))
(+ (* x (- (* x (+ (* -10 (/ x (pow y 4))) (* 10 (/ 1 (pow y 3))))) (* 10 (/ 1 (pow y 2))))) (* 10 (/ 1 y)))
y
(+ x y)
(+ x y)
(+ x y)
(* 1/10 y)
(+ (* 1/10 x) (* 1/10 y))
(+ (* 1/10 x) (* 1/10 y))
(+ (* 1/10 x) (* 1/10 y))
(* 1/10 x)
(* 1/10 x)
(* 1/10 x)
(* 1/10 x)
(* 1/10 y)
(+ (* 1/10 x) (* 1/10 y))
(+ (* 1/10 x) (* 1/10 y))
(+ (* 1/10 x) (* 1/10 y))
(* 1/10 y)
(+ (* 1/10 x) (* 1/10 y))
(+ (* 1/10 x) (* 1/10 y))
(+ (* 1/10 x) (* 1/10 y))
(* 1/10 y)
(+ (* 1/10 x) (* 1/10 y))
(+ (* 1/10 x) (* 1/10 y))
(+ (* 1/10 x) (* 1/10 y))
(* 1/10 x)
(* x (+ 1/10 (* 1/10 (/ y x))))
(* x (+ 1/10 (* 1/10 (/ y x))))
(* x (+ 1/10 (* 1/10 (/ y x))))
(/ 10 x)
(/ (+ 10 (* -10 (/ y x))) x)
(/ (- (+ 10 (* 10 (/ (pow y 2) (pow x 2)))) (* 10 (/ y x))) x)
(/ (- (+ 10 (* -10 (/ (pow y 3) (pow x 3)))) (+ (* -10 (/ (pow y 2) (pow x 2))) (* 10 (/ y x)))) x)
x
(* x (+ 1 (/ y x)))
(* x (+ 1 (/ y x)))
(* x (+ 1 (/ y x)))
(* 1/10 x)
(* x (+ 1/10 (* 1/10 (/ y x))))
(* x (+ 1/10 (* 1/10 (/ y x))))
(* x (+ 1/10 (* 1/10 (/ y x))))
(* 1/10 x)
(* 1/10 x)
(* 1/10 x)
(* 1/10 x)
(* 1/10 x)
(* x (+ 1/10 (* 1/10 (/ y x))))
(* x (+ 1/10 (* 1/10 (/ y x))))
(* x (+ 1/10 (* 1/10 (/ y x))))
(* 1/10 x)
(* x (+ 1/10 (* 1/10 (/ y x))))
(* x (+ 1/10 (* 1/10 (/ y x))))
(* x (+ 1/10 (* 1/10 (/ y x))))
(* 1/10 x)
(* x (+ 1/10 (* 1/10 (/ y x))))
(* x (+ 1/10 (* 1/10 (/ y x))))
(* x (+ 1/10 (* 1/10 (/ y x))))
(* 1/10 x)
(* -1 (* x (- (* -1/10 (/ y x)) 1/10)))
(* -1 (* x (- (* -1/10 (/ y x)) 1/10)))
(* -1 (* x (- (* -1/10 (/ y x)) 1/10)))
(/ 10 x)
(* -1 (/ (- (* 10 (/ y x)) 10) x))
(* -1 (/ (- (* -1 (/ (- (* 10 (/ (pow y 2) x)) (* 10 y)) x)) 10) x))
(* -1 (/ (- (* -1 (/ (- (* -1 (/ (- (* 10 (/ (pow y 3) x)) (* 10 (pow y 2))) x)) (* 10 y)) x)) 10) x))
x
(* -1 (* x (- (* -1 (/ y x)) 1)))
(* -1 (* x (- (* -1 (/ y x)) 1)))
(* -1 (* x (- (* -1 (/ y x)) 1)))
(* 1/10 x)
(* -1 (* x (- (* -1/10 (/ y x)) 1/10)))
(* -1 (* x (- (* -1/10 (/ y x)) 1/10)))
(* -1 (* x (- (* -1/10 (/ y x)) 1/10)))
(* 1/10 x)
(* 1/10 x)
(* 1/10 x)
(* 1/10 x)
(* 1/10 x)
(* -1 (* x (- (* -1/10 (/ y x)) 1/10)))
(* -1 (* x (- (* -1/10 (/ y x)) 1/10)))
(* -1 (* x (- (* -1/10 (/ y x)) 1/10)))
(* 1/10 x)
(* -1 (* x (- (* -1/10 (/ y x)) 1/10)))
(* -1 (* x (- (* -1/10 (/ y x)) 1/10)))
(* -1 (* x (- (* -1/10 (/ y x)) 1/10)))
(* 1/10 x)
(* -1 (* x (- (* -1/10 (/ y x)) 1/10)))
(* -1 (* x (- (* -1/10 (/ y x)) 1/10)))
(* -1 (* x (- (* -1/10 (/ y x)) 1/10)))

Outputs
(* 1/10 x)
(*.f64 x #s(literal 1/10 binary64))
(+ (* 1/10 x) (* 1/10 y))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(+ (* 1/10 x) (* 1/10 y))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(+ (* 1/10 x) (* 1/10 y))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(/ 10 x)
(/.f64 #s(literal 10 binary64) x)
(+ (* -10 (/ y (pow x 2))) (* 10 (/ 1 x)))
(/.f64 (fma.f64 (/.f64 y x) #s(literal -10 binary64) #s(literal 10 binary64)) x)
(+ (* y (- (* 10 (/ y (pow x 3))) (* 10 (/ 1 (pow x 2))))) (* 10 (/ 1 x)))
(/.f64 (fma.f64 (/.f64 (fma.f64 (neg.f64 y) (/.f64 y x) y) x) #s(literal -10 binary64) #s(literal 10 binary64)) x)
(+ (* y (- (* y (+ (* -10 (/ y (pow x 4))) (* 10 (/ 1 (pow x 3))))) (* 10 (/ 1 (pow x 2))))) (* 10 (/ 1 x)))
(fma.f64 (fma.f64 (fma.f64 (/.f64 y (pow.f64 x #s(literal 4 binary64))) #s(literal -10 binary64) (/.f64 #s(literal 10 binary64) (pow.f64 x #s(literal 3 binary64)))) y (/.f64 #s(literal -10 binary64) (*.f64 x x))) y (/.f64 #s(literal 10 binary64) x))
x
(+ x y)
(+.f64 y x)
(+ x y)
(+.f64 y x)
(+ x y)
(+.f64 y x)
(* 1/10 x)
(*.f64 x #s(literal 1/10 binary64))
(+ (* 1/10 x) (* 1/10 y))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(+ (* 1/10 x) (* 1/10 y))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(+ (* 1/10 x) (* 1/10 y))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* 1/10 x)
(*.f64 x #s(literal 1/10 binary64))
(+ (* 1/10 x) (* 1/10 y))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(+ (* 1/10 x) (* 1/10 y))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(+ (* 1/10 x) (* 1/10 y))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* 1/10 y)
(*.f64 y #s(literal 1/10 binary64))
(* 1/10 y)
(*.f64 y #s(literal 1/10 binary64))
(* 1/10 y)
(*.f64 y #s(literal 1/10 binary64))
(* 1/10 y)
(*.f64 y #s(literal 1/10 binary64))
(* 1/10 x)
(*.f64 x #s(literal 1/10 binary64))
(+ (* 1/10 x) (* 1/10 y))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(+ (* 1/10 x) (* 1/10 y))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(+ (* 1/10 x) (* 1/10 y))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* 1/10 x)
(*.f64 x #s(literal 1/10 binary64))
(+ (* 1/10 x) (* 1/10 y))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(+ (* 1/10 x) (* 1/10 y))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(+ (* 1/10 x) (* 1/10 y))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* 1/10 y)
(*.f64 y #s(literal 1/10 binary64))
(* y (+ 1/10 (* 1/10 (/ x y))))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* y (+ 1/10 (* 1/10 (/ x y))))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* y (+ 1/10 (* 1/10 (/ x y))))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(/ 10 y)
(/.f64 #s(literal 10 binary64) y)
(/ (+ 10 (* -10 (/ x y))) y)
(/.f64 (fma.f64 (/.f64 x y) #s(literal -10 binary64) #s(literal 10 binary64)) y)
(/ (- (+ 10 (* 10 (/ (pow x 2) (pow y 2)))) (* 10 (/ x y))) y)
(/.f64 (fma.f64 (/.f64 (fma.f64 (neg.f64 x) (/.f64 x y) x) y) #s(literal -10 binary64) #s(literal 10 binary64)) y)
(/ (- (+ 10 (* -10 (/ (pow x 3) (pow y 3)))) (+ (* -10 (/ (pow x 2) (pow y 2))) (* 10 (/ x y)))) y)
(/.f64 (fma.f64 (/.f64 (fma.f64 (neg.f64 x) (/.f64 x y) x) y) #s(literal -10 binary64) (fma.f64 (pow.f64 (/.f64 x y) #s(literal 3 binary64)) #s(literal -10 binary64) #s(literal 10 binary64))) y)
y
(* y (+ 1 (/ x y)))
(+.f64 y x)
(* y (+ 1 (/ x y)))
(+.f64 y x)
(* y (+ 1 (/ x y)))
(+.f64 y x)
(* 1/10 y)
(*.f64 y #s(literal 1/10 binary64))
(* y (+ 1/10 (* 1/10 (/ x y))))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* y (+ 1/10 (* 1/10 (/ x y))))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* y (+ 1/10 (* 1/10 (/ x y))))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* 1/10 y)
(*.f64 y #s(literal 1/10 binary64))
(* y (+ 1/10 (* 1/10 (/ x y))))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* y (+ 1/10 (* 1/10 (/ x y))))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* y (+ 1/10 (* 1/10 (/ x y))))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* 1/10 y)
(*.f64 y #s(literal 1/10 binary64))
(* 1/10 y)
(*.f64 y #s(literal 1/10 binary64))
(* 1/10 y)
(*.f64 y #s(literal 1/10 binary64))
(* 1/10 y)
(*.f64 y #s(literal 1/10 binary64))
(* 1/10 y)
(*.f64 y #s(literal 1/10 binary64))
(* y (+ 1/10 (* 1/10 (/ x y))))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* y (+ 1/10 (* 1/10 (/ x y))))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* y (+ 1/10 (* 1/10 (/ x y))))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* 1/10 y)
(*.f64 y #s(literal 1/10 binary64))
(* y (+ 1/10 (* 1/10 (/ x y))))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* y (+ 1/10 (* 1/10 (/ x y))))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* y (+ 1/10 (* 1/10 (/ x y))))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* 1/10 y)
(*.f64 y #s(literal 1/10 binary64))
(* -1 (* y (- (* -1/10 (/ x y)) 1/10)))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* -1 (* y (- (* -1/10 (/ x y)) 1/10)))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* -1 (* y (- (* -1/10 (/ x y)) 1/10)))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(/ 10 y)
(/.f64 #s(literal 10 binary64) y)
(* -1 (/ (- (* 10 (/ x y)) 10) y))
(/.f64 (fma.f64 (/.f64 x y) #s(literal -10 binary64) #s(literal 10 binary64)) y)
(* -1 (/ (- (* -1 (/ (- (* 10 (/ (pow x 2) y)) (* 10 x)) y)) 10) y))
(/.f64 (fma.f64 (/.f64 (fma.f64 (neg.f64 x) (/.f64 x y) x) y) #s(literal -10 binary64) #s(literal 10 binary64)) y)
(* -1 (/ (- (* -1 (/ (- (* -1 (/ (- (* 10 (/ (pow x 3) y)) (* 10 (pow x 2))) y)) (* 10 x)) y)) 10) y))
(/.f64 (fma.f64 (/.f64 (fma.f64 (neg.f64 x) (/.f64 x y) x) y) #s(literal -10 binary64) (fma.f64 (pow.f64 (/.f64 x y) #s(literal 3 binary64)) #s(literal -10 binary64) #s(literal 10 binary64))) y)
y
(* -1 (* y (- (* -1 (/ x y)) 1)))
(+.f64 y x)
(* -1 (* y (- (* -1 (/ x y)) 1)))
(+.f64 y x)
(* -1 (* y (- (* -1 (/ x y)) 1)))
(+.f64 y x)
(* 1/10 y)
(*.f64 y #s(literal 1/10 binary64))
(* -1 (* y (- (* -1/10 (/ x y)) 1/10)))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* -1 (* y (- (* -1/10 (/ x y)) 1/10)))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* -1 (* y (- (* -1/10 (/ x y)) 1/10)))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* 1/10 y)
(*.f64 y #s(literal 1/10 binary64))
(* -1 (* y (- (* -1/10 (/ x y)) 1/10)))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* -1 (* y (- (* -1/10 (/ x y)) 1/10)))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* -1 (* y (- (* -1/10 (/ x y)) 1/10)))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* 1/10 y)
(*.f64 y #s(literal 1/10 binary64))
(* 1/10 y)
(*.f64 y #s(literal 1/10 binary64))
(* 1/10 y)
(*.f64 y #s(literal 1/10 binary64))
(* 1/10 y)
(*.f64 y #s(literal 1/10 binary64))
(* 1/10 y)
(*.f64 y #s(literal 1/10 binary64))
(* -1 (* y (- (* -1/10 (/ x y)) 1/10)))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* -1 (* y (- (* -1/10 (/ x y)) 1/10)))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* -1 (* y (- (* -1/10 (/ x y)) 1/10)))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* 1/10 y)
(*.f64 y #s(literal 1/10 binary64))
(* -1 (* y (- (* -1/10 (/ x y)) 1/10)))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* -1 (* y (- (* -1/10 (/ x y)) 1/10)))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* -1 (* y (- (* -1/10 (/ x y)) 1/10)))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* 1/10 y)
(*.f64 y #s(literal 1/10 binary64))
(+ (* 1/10 x) (* 1/10 y))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(+ (* 1/10 x) (* 1/10 y))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(+ (* 1/10 x) (* 1/10 y))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(/ 10 y)
(/.f64 #s(literal 10 binary64) y)
(+ (* -10 (/ x (pow y 2))) (* 10 (/ 1 y)))
(/.f64 (fma.f64 (/.f64 x y) #s(literal -10 binary64) #s(literal 10 binary64)) y)
(+ (* x (- (* 10 (/ x (pow y 3))) (* 10 (/ 1 (pow y 2))))) (* 10 (/ 1 y)))
(/.f64 (fma.f64 (/.f64 (fma.f64 (neg.f64 x) (/.f64 x y) x) y) #s(literal -10 binary64) #s(literal 10 binary64)) y)
(+ (* x (- (* x (+ (* -10 (/ x (pow y 4))) (* 10 (/ 1 (pow y 3))))) (* 10 (/ 1 (pow y 2))))) (* 10 (/ 1 y)))
(fma.f64 (fma.f64 (fma.f64 (/.f64 x (pow.f64 y #s(literal 4 binary64))) #s(literal -10 binary64) (/.f64 #s(literal 10 binary64) (pow.f64 y #s(literal 3 binary64)))) x (/.f64 #s(literal -10 binary64) (*.f64 y y))) x (/.f64 #s(literal 10 binary64) y))
y
(+ x y)
(+.f64 y x)
(+ x y)
(+.f64 y x)
(+ x y)
(+.f64 y x)
(* 1/10 y)
(*.f64 y #s(literal 1/10 binary64))
(+ (* 1/10 x) (* 1/10 y))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(+ (* 1/10 x) (* 1/10 y))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(+ (* 1/10 x) (* 1/10 y))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* 1/10 x)
(*.f64 x #s(literal 1/10 binary64))
(* 1/10 x)
(*.f64 x #s(literal 1/10 binary64))
(* 1/10 x)
(*.f64 x #s(literal 1/10 binary64))
(* 1/10 x)
(*.f64 x #s(literal 1/10 binary64))
(* 1/10 y)
(*.f64 y #s(literal 1/10 binary64))
(+ (* 1/10 x) (* 1/10 y))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(+ (* 1/10 x) (* 1/10 y))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(+ (* 1/10 x) (* 1/10 y))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* 1/10 y)
(*.f64 y #s(literal 1/10 binary64))
(+ (* 1/10 x) (* 1/10 y))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(+ (* 1/10 x) (* 1/10 y))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(+ (* 1/10 x) (* 1/10 y))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* 1/10 y)
(*.f64 y #s(literal 1/10 binary64))
(+ (* 1/10 x) (* 1/10 y))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(+ (* 1/10 x) (* 1/10 y))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(+ (* 1/10 x) (* 1/10 y))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* 1/10 x)
(*.f64 x #s(literal 1/10 binary64))
(* x (+ 1/10 (* 1/10 (/ y x))))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* x (+ 1/10 (* 1/10 (/ y x))))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* x (+ 1/10 (* 1/10 (/ y x))))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(/ 10 x)
(/.f64 #s(literal 10 binary64) x)
(/ (+ 10 (* -10 (/ y x))) x)
(/.f64 (fma.f64 (/.f64 y x) #s(literal -10 binary64) #s(literal 10 binary64)) x)
(/ (- (+ 10 (* 10 (/ (pow y 2) (pow x 2)))) (* 10 (/ y x))) x)
(/.f64 (fma.f64 (/.f64 (fma.f64 (neg.f64 y) (/.f64 y x) y) x) #s(literal -10 binary64) #s(literal 10 binary64)) x)
(/ (- (+ 10 (* -10 (/ (pow y 3) (pow x 3)))) (+ (* -10 (/ (pow y 2) (pow x 2))) (* 10 (/ y x)))) x)
(/.f64 (fma.f64 (/.f64 (fma.f64 (neg.f64 y) (/.f64 y x) y) x) #s(literal -10 binary64) (fma.f64 (pow.f64 (/.f64 y x) #s(literal 3 binary64)) #s(literal -10 binary64) #s(literal 10 binary64))) x)
x
(* x (+ 1 (/ y x)))
(+.f64 y x)
(* x (+ 1 (/ y x)))
(+.f64 y x)
(* x (+ 1 (/ y x)))
(+.f64 y x)
(* 1/10 x)
(*.f64 x #s(literal 1/10 binary64))
(* x (+ 1/10 (* 1/10 (/ y x))))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* x (+ 1/10 (* 1/10 (/ y x))))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* x (+ 1/10 (* 1/10 (/ y x))))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* 1/10 x)
(*.f64 x #s(literal 1/10 binary64))
(* 1/10 x)
(*.f64 x #s(literal 1/10 binary64))
(* 1/10 x)
(*.f64 x #s(literal 1/10 binary64))
(* 1/10 x)
(*.f64 x #s(literal 1/10 binary64))
(* 1/10 x)
(*.f64 x #s(literal 1/10 binary64))
(* x (+ 1/10 (* 1/10 (/ y x))))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* x (+ 1/10 (* 1/10 (/ y x))))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* x (+ 1/10 (* 1/10 (/ y x))))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* 1/10 x)
(*.f64 x #s(literal 1/10 binary64))
(* x (+ 1/10 (* 1/10 (/ y x))))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* x (+ 1/10 (* 1/10 (/ y x))))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* x (+ 1/10 (* 1/10 (/ y x))))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* 1/10 x)
(*.f64 x #s(literal 1/10 binary64))
(* x (+ 1/10 (* 1/10 (/ y x))))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* x (+ 1/10 (* 1/10 (/ y x))))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* x (+ 1/10 (* 1/10 (/ y x))))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* 1/10 x)
(*.f64 x #s(literal 1/10 binary64))
(* -1 (* x (- (* -1/10 (/ y x)) 1/10)))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* -1 (* x (- (* -1/10 (/ y x)) 1/10)))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* -1 (* x (- (* -1/10 (/ y x)) 1/10)))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(/ 10 x)
(/.f64 #s(literal 10 binary64) x)
(* -1 (/ (- (* 10 (/ y x)) 10) x))
(/.f64 (fma.f64 (/.f64 y x) #s(literal -10 binary64) #s(literal 10 binary64)) x)
(* -1 (/ (- (* -1 (/ (- (* 10 (/ (pow y 2) x)) (* 10 y)) x)) 10) x))
(/.f64 (fma.f64 (/.f64 (fma.f64 (neg.f64 y) (/.f64 y x) y) x) #s(literal -10 binary64) #s(literal 10 binary64)) x)
(* -1 (/ (- (* -1 (/ (- (* -1 (/ (- (* 10 (/ (pow y 3) x)) (* 10 (pow y 2))) x)) (* 10 y)) x)) 10) x))
(/.f64 (fma.f64 (/.f64 (fma.f64 (neg.f64 y) (/.f64 y x) y) x) #s(literal -10 binary64) (fma.f64 (pow.f64 (/.f64 y x) #s(literal 3 binary64)) #s(literal -10 binary64) #s(literal 10 binary64))) x)
x
(* -1 (* x (- (* -1 (/ y x)) 1)))
(+.f64 y x)
(* -1 (* x (- (* -1 (/ y x)) 1)))
(+.f64 y x)
(* -1 (* x (- (* -1 (/ y x)) 1)))
(+.f64 y x)
(* 1/10 x)
(*.f64 x #s(literal 1/10 binary64))
(* -1 (* x (- (* -1/10 (/ y x)) 1/10)))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* -1 (* x (- (* -1/10 (/ y x)) 1/10)))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* -1 (* x (- (* -1/10 (/ y x)) 1/10)))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* 1/10 x)
(*.f64 x #s(literal 1/10 binary64))
(* 1/10 x)
(*.f64 x #s(literal 1/10 binary64))
(* 1/10 x)
(*.f64 x #s(literal 1/10 binary64))
(* 1/10 x)
(*.f64 x #s(literal 1/10 binary64))
(* 1/10 x)
(*.f64 x #s(literal 1/10 binary64))
(* -1 (* x (- (* -1/10 (/ y x)) 1/10)))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* -1 (* x (- (* -1/10 (/ y x)) 1/10)))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* -1 (* x (- (* -1/10 (/ y x)) 1/10)))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* 1/10 x)
(*.f64 x #s(literal 1/10 binary64))
(* -1 (* x (- (* -1/10 (/ y x)) 1/10)))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* -1 (* x (- (* -1/10 (/ y x)) 1/10)))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* -1 (* x (- (* -1/10 (/ y x)) 1/10)))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* 1/10 x)
(*.f64 x #s(literal 1/10 binary64))
(* -1 (* x (- (* -1/10 (/ y x)) 1/10)))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* -1 (* x (- (* -1/10 (/ y x)) 1/10)))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* -1 (* x (- (* -1/10 (/ y x)) 1/10)))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))

rewrite271.0ms (6.4%)

Memory

4.7MiB live, 235.6MiB allocated

Iterations

Useful iterations: 0 (0.0ms)

Iter	Nodes	Cost
0	16	50
0	23	47
1	87	47
2	570	47
3	6340	47
0	8078	47

Stop Event

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

Counts

9 → 1 057

Calls

Call 1

Inputs
(/.f64 #s(literal 1 binary64) (/.f64 #s(literal 10 binary64) (+.f64 y x)))
(/.f64 #s(literal 10 binary64) (+.f64 y x))
(+.f64 y x)
#s(approx (/ (+ x y) 10) (*.f64 x #s(literal 1/10 binary64)))
(*.f64 x #s(literal 1/10 binary64))
#s(approx (/ (+ x y) 10) (*.f64 y #s(literal 1/10 binary64)))
(*.f64 y #s(literal 1/10 binary64))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(fma.f64 y #s(literal 1/10 binary64) (*.f64 x #s(literal 1/10 binary64)))

Outputs
#<batchref>
#<batchref>
#<batchref>
#<batchref>
#<batchref>
#<batchref>
#<batchref>
#<batchref>
#<batchref>
#<batchref>
#<batchref>
#<batchref>
#<batchref>
#<batchref>
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eval904.0ms (21.3%)

Memory: -29.1MiB live, 292.0MiB allocated
Compiler: Compiled 24 689 to 1 814 computations (92.7% saved)

prune32.0ms (0.8%)

Memory

19.6MiB live, 104.0MiB allocated

Pruning

7 alts after pruning (2 fresh and 5 done)

	Pruned	Kept	Total
New	1 409	1	1 410
Fresh	0	1	1
Picked	1	4	5
Done	0	1	1
Total	1 410	7	1 417

Accuracy

100.0%

Counts

1 417 → 7

Alt Table

Click to see full alt table

Status	Accuracy	Program
✓	99.4%	(fma.f64 y #s(literal 1/10 binary64) (*.f64 x #s(literal 1/10 binary64)))
✓	100.0%	(/.f64 (+.f64 x y) #s(literal 10 binary64))
▶	52.8%	(/.f64 #s(literal 1 binary64) #s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y)))
▶	99.0%	(.f64 (+.f64 y x) (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64))))
✓	99.4%	(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
✓	52.6%	#s(approx (/ (+ x y) 10) (*.f64 y #s(literal 1/10 binary64)))
✓	48.6%	#s(approx (/ (+ x y) 10) (*.f64 x #s(literal 1/10 binary64)))

Compiler

Compiled 43 to 40 computations (7% saved)

simplify100.0ms (2.4%)

Memory

-6.2MiB live, 151.4MiB allocated

Algorithm

1×	egg-herbie

Localize:

Found 7 expressions of interest:

New	Metric	Score
cost-diff	0	(/.f64 #s(literal 10 binary64) y)
cost-diff	0	#s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y))
cost-diff	0	(/.f64 #s(literal 1 binary64) #s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y)))
cost-diff	0	(-.f64 x y)
cost-diff	0	(+.f64 y x)
cost-diff	0	(.f64 (+.f64 y x) (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64))))
cost-diff	1408	(/.f64 (-.f64 x y) (*.f64 (-.f64 x y) #s(literal 10 binary64)))

Iterations

Useful iterations: 1 (0.0ms)

Iter	Nodes	Cost
0	14	62
0	21	62
1	35	46
2	89	46
3	171	46
4	457	46
5	2238	46
0	8079	46

Stop Event

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

Calls

Call 1

Inputs
(.f64 (+.f64 y x) (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64))))
(+.f64 y x)
y
x
(/.f64 (-.f64 x y) (*.f64 (-.f64 x y) #s(literal 10 binary64)))
(-.f64 x y)
(*.f64 (-.f64 x y) #s(literal 10 binary64))
#s(literal 10 binary64)
(/.f64 #s(literal 1 binary64) #s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y)))
#s(literal 1 binary64)
#s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y))
(/.f64 #s(literal 10 binary64) y)
#s(literal 10 binary64)
y

Outputs
(.f64 (+.f64 y x) (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64))))
(*.f64 #s(literal 1/10 binary64) (+.f64 x y))
(+.f64 y x)
(+.f64 x y)
y
x
(/.f64 (-.f64 x y) (*.f64 (-.f64 x y) #s(literal 10 binary64)))
#s(literal 1/10 binary64)
(-.f64 x y)
(*.f64 (-.f64 x y) #s(literal 10 binary64))
(*.f64 #s(literal 10 binary64) (-.f64 x y))
#s(literal 10 binary64)
(/.f64 #s(literal 1 binary64) #s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y)))
#s(literal 1 binary64)
#s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y))
(/.f64 #s(literal 10 binary64) y)
#s(literal 10 binary64)
y

localize34.0ms (0.8%)

Memory

13.7MiB live, 52.0MiB allocated

Localize:

Found 7 expressions of interest:

New	Metric	Score
accuracy	0	(/.f64 #s(literal 10 binary64) y)
accuracy	0.26171875	(/.f64 #s(literal 1 binary64) #s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y)))
accuracy	30.12553482433075	#s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y))
accuracy	0	(+.f64 y x)
accuracy	0.109375	(*.f64 (-.f64 x y) #s(literal 10 binary64))
accuracy	0.40625	(.f64 (+.f64 y x) (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64))))
accuracy	0.6445069826684955	(/.f64 (-.f64 x y) (*.f64 (-.f64 x y) #s(literal 10 binary64)))

Samples

21.0ms	232×	0	valid
2.0ms	14×	1	valid
2.0ms	8×	2	valid
1.0ms	2×	3	valid

Compiler

Compiled 108 to 26 computations (75.9% saved)

Precisions

Click to see histograms. Total time spent on operations: 14.0ms

ival-div: 6.0ms (42.8% of total)

ival-mult: 3.0ms (21.4% of total)

ival-sub: 2.0ms (14.3% of total)

adjust: 1.0ms (7.1% of total)

ival-add: 1.0ms (7.1% of total)

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

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

exact: 0.0ms (0% of total)

series12.0ms (0.3%)

Memory

-23.0MiB live, 14.6MiB allocated

Counts

8 → 180

Calls

Call 1

Inputs
#s(alt (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64))) (patch (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64))) #<representation binary64>) () ())
#s(alt (.f64 (+.f64 y x) (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64)))) (patch (.f64 (+.f64 y x) (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64)))) #<representation binary64>) () ())
#s(alt (+.f64 y x) (patch (+.f64 y x) #<representation binary64>) () ())
#s(alt (-.f64 x y) (patch (-.f64 x y) #<representation binary64>) () ())
#s(alt (/.f64 #s(literal 1 binary64) #s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y))) (patch (/.f64 #s(literal 1 binary64) #s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y))) #<representation binary64>) () ())
#s(alt #s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y)) (patch #s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y)) #<representation binary64>) () ())
#s(alt (/.f64 #s(literal 10 binary64) y) (patch (/.f64 #s(literal 10 binary64) y) #<representation binary64>) () ())
#s(alt (.f64 (-.f64 x y) #s(literal 10 binary64)) (patch (.f64 (-.f64 x y) #s(literal 10 binary64)) #<representation binary64>) () ())

Outputs
#s(alt 1/10 (taylor 0 y) (#s(alt (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64))) (patch (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64))) #<representation binary64>) () ())) ())
#s(alt 1/10 (taylor 0 y) (#s(alt (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64))) (patch (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64))) #<representation binary64>) () ())) ())
#s(alt 1/10 (taylor 0 y) (#s(alt (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64))) (patch (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64))) #<representation binary64>) () ())) ())
#s(alt 1/10 (taylor 0 y) (#s(alt (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64))) (patch (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64))) #<representation binary64>) () ())) ())
#s(alt (* 1/10 x) (taylor 0 y) (#s(alt (.f64 (+.f64 y x) (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64)))) (patch (.f64 (+.f64 y x) (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64)))) #<representation binary64>) () ())) ())
#s(alt (+ (* 1/10 x) (* 1/10 y)) (taylor 0 y) (#s(alt (.f64 (+.f64 y x) (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64)))) (patch (.f64 (+.f64 y x) (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64)))) #<representation binary64>) () ())) ())
#s(alt (+ (* 1/10 x) (* 1/10 y)) (taylor 0 y) (#s(alt (.f64 (+.f64 y x) (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64)))) (patch (.f64 (+.f64 y x) (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64)))) #<representation binary64>) () ())) ())
#s(alt (+ (* 1/10 x) (* 1/10 y)) (taylor 0 y) (#s(alt (.f64 (+.f64 y x) (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64)))) (patch (.f64 (+.f64 y x) (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64)))) #<representation binary64>) () ())) ())
#s(alt x (taylor 0 y) (#s(alt (+.f64 y x) (patch (+.f64 y x) #<representation binary64>) () ())) ())
#s(alt (+ x y) (taylor 0 y) (#s(alt (+.f64 y x) (patch (+.f64 y x) #<representation binary64>) () ())) ())
#s(alt (+ x y) (taylor 0 y) (#s(alt (+.f64 y x) (patch (+.f64 y x) #<representation binary64>) () ())) ())
#s(alt (+ x y) (taylor 0 y) (#s(alt (+.f64 y x) (patch (+.f64 y x) #<representation binary64>) () ())) ())
#s(alt x (taylor 0 y) (#s(alt (-.f64 x y) (patch (-.f64 x y) #<representation binary64>) () ())) ())
#s(alt (+ x (* -1 y)) (taylor 0 y) (#s(alt (-.f64 x y) (patch (-.f64 x y) #<representation binary64>) () ())) ())
#s(alt (+ x (* -1 y)) (taylor 0 y) (#s(alt (-.f64 x y) (patch (-.f64 x y) #<representation binary64>) () ())) ())
#s(alt (+ x (* -1 y)) (taylor 0 y) (#s(alt (-.f64 x y) (patch (-.f64 x y) #<representation binary64>) () ())) ())
#s(alt (* 1/10 x) (taylor 0 y) (#s(alt (/.f64 #s(literal 1 binary64) #s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y))) (patch (/.f64 #s(literal 1 binary64) #s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y))) #<representation binary64>) () ())) ())
#s(alt (+ (* 1/10 x) (* 1/10 y)) (taylor 0 y) (#s(alt (/.f64 #s(literal 1 binary64) #s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y))) (patch (/.f64 #s(literal 1 binary64) #s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y))) #<representation binary64>) () ())) ())
#s(alt (+ (* 1/10 x) (* 1/10 y)) (taylor 0 y) (#s(alt (/.f64 #s(literal 1 binary64) #s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y))) (patch (/.f64 #s(literal 1 binary64) #s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y))) #<representation binary64>) () ())) ())
#s(alt (+ (* 1/10 x) (* 1/10 y)) (taylor 0 y) (#s(alt (/.f64 #s(literal 1 binary64) #s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y))) (patch (/.f64 #s(literal 1 binary64) #s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y))) #<representation binary64>) () ())) ())
#s(alt (/ 10 x) (taylor 0 y) (#s(alt #s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y)) (patch #s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y)) #<representation binary64>) () ())) ())
#s(alt (+ (* -10 (/ y (pow x 2))) (* 10 (/ 1 x))) (taylor 0 y) (#s(alt #s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y)) (patch #s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y)) #<representation binary64>) () ())) ())
#s(alt (+ (* y (- (* 10 (/ y (pow x 3))) (* 10 (/ 1 (pow x 2))))) (* 10 (/ 1 x))) (taylor 0 y) (#s(alt #s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y)) (patch #s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y)) #<representation binary64>) () ())) ())
#s(alt (+ (* y (- (* y (+ (* -10 (/ y (pow x 4))) (* 10 (/ 1 (pow x 3))))) (* 10 (/ 1 (pow x 2))))) (* 10 (/ 1 x))) (taylor 0 y) (#s(alt #s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y)) (patch #s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y)) #<representation binary64>) () ())) ())
#s(alt (/ 10 y) (taylor 0 y) (#s(alt (/.f64 #s(literal 10 binary64) y) (patch (/.f64 #s(literal 10 binary64) y) #<representation binary64>) () ())) ())
#s(alt (/ 10 y) (taylor 0 y) (#s(alt (/.f64 #s(literal 10 binary64) y) (patch (/.f64 #s(literal 10 binary64) y) #<representation binary64>) () ())) ())
#s(alt (/ 10 y) (taylor 0 y) (#s(alt (/.f64 #s(literal 10 binary64) y) (patch (/.f64 #s(literal 10 binary64) y) #<representation binary64>) () ())) ())
#s(alt (/ 10 y) (taylor 0 y) (#s(alt (/.f64 #s(literal 10 binary64) y) (patch (/.f64 #s(literal 10 binary64) y) #<representation binary64>) () ())) ())
#s(alt (* 10 x) (taylor 0 y) (#s(alt (.f64 (-.f64 x y) #s(literal 10 binary64)) (patch (.f64 (-.f64 x y) #s(literal 10 binary64)) #<representation binary64>) () ())) ())
#s(alt (+ (* -10 y) (* 10 x)) (taylor 0 y) (#s(alt (.f64 (-.f64 x y) #s(literal 10 binary64)) (patch (.f64 (-.f64 x y) #s(literal 10 binary64)) #<representation binary64>) () ())) ())
#s(alt (+ (* -10 y) (* 10 x)) (taylor 0 y) (#s(alt (.f64 (-.f64 x y) #s(literal 10 binary64)) (patch (.f64 (-.f64 x y) #s(literal 10 binary64)) #<representation binary64>) () ())) ())
#s(alt (+ (* -10 y) (* 10 x)) (taylor 0 y) (#s(alt (.f64 (-.f64 x y) #s(literal 10 binary64)) (patch (.f64 (-.f64 x y) #s(literal 10 binary64)) #<representation binary64>) () ())) ())
#s(alt 1/10 (taylor inf y) (#s(alt (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64))) (patch (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64))) #<representation binary64>) () ())) ())
#s(alt 1/10 (taylor inf y) (#s(alt (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64))) (patch (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64))) #<representation binary64>) () ())) ())
#s(alt 1/10 (taylor inf y) (#s(alt (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64))) (patch (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64))) #<representation binary64>) () ())) ())
#s(alt 1/10 (taylor inf y) (#s(alt (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64))) (patch (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64))) #<representation binary64>) () ())) ())
#s(alt (* 1/10 y) (taylor inf y) (#s(alt (.f64 (+.f64 y x) (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64)))) (patch (.f64 (+.f64 y x) (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64)))) #<representation binary64>) () ())) ())
#s(alt (* y (+ 1/10 (* 1/10 (/ x y)))) (taylor inf y) (#s(alt (.f64 (+.f64 y x) (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64)))) (patch (.f64 (+.f64 y x) (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64)))) #<representation binary64>) () ())) ())
#s(alt (* y (+ 1/10 (* 1/10 (/ x y)))) (taylor inf y) (#s(alt (.f64 (+.f64 y x) (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64)))) (patch (.f64 (+.f64 y x) (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64)))) #<representation binary64>) () ())) ())
#s(alt (* y (+ 1/10 (* 1/10 (/ x y)))) (taylor inf y) (#s(alt (.f64 (+.f64 y x) (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64)))) (patch (.f64 (+.f64 y x) (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64)))) #<representation binary64>) () ())) ())
#s(alt y (taylor inf y) (#s(alt (+.f64 y x) (patch (+.f64 y x) #<representation binary64>) () ())) ())
#s(alt (* y (+ 1 (/ x y))) (taylor inf y) (#s(alt (+.f64 y x) (patch (+.f64 y x) #<representation binary64>) () ())) ())
#s(alt (* y (+ 1 (/ x y))) (taylor inf y) (#s(alt (+.f64 y x) (patch (+.f64 y x) #<representation binary64>) () ())) ())
#s(alt (* y (+ 1 (/ x y))) (taylor inf y) (#s(alt (+.f64 y x) (patch (+.f64 y x) #<representation binary64>) () ())) ())
#s(alt (* -1 y) (taylor inf y) (#s(alt (-.f64 x y) (patch (-.f64 x y) #<representation binary64>) () ())) ())
#s(alt (* y (- (/ x y) 1)) (taylor inf y) (#s(alt (-.f64 x y) (patch (-.f64 x y) #<representation binary64>) () ())) ())
#s(alt (* y (- (/ x y) 1)) (taylor inf y) (#s(alt (-.f64 x y) (patch (-.f64 x y) #<representation binary64>) () ())) ())
#s(alt (* y (- (/ x y) 1)) (taylor inf y) (#s(alt (-.f64 x y) (patch (-.f64 x y) #<representation binary64>) () ())) ())
#s(alt (* 1/10 y) (taylor inf y) (#s(alt (/.f64 #s(literal 1 binary64) #s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y))) (patch (/.f64 #s(literal 1 binary64) #s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y))) #<representation binary64>) () ())) ())
#s(alt (* y (+ 1/10 (* 1/10 (/ x y)))) (taylor inf y) (#s(alt (/.f64 #s(literal 1 binary64) #s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y))) (patch (/.f64 #s(literal 1 binary64) #s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y))) #<representation binary64>) () ())) ())
#s(alt (* y (+ 1/10 (* 1/10 (/ x y)))) (taylor inf y) (#s(alt (/.f64 #s(literal 1 binary64) #s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y))) (patch (/.f64 #s(literal 1 binary64) #s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y))) #<representation binary64>) () ())) ())
#s(alt (* y (+ 1/10 (* 1/10 (/ x y)))) (taylor inf y) (#s(alt (/.f64 #s(literal 1 binary64) #s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y))) (patch (/.f64 #s(literal 1 binary64) #s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y))) #<representation binary64>) () ())) ())
#s(alt (/ 10 y) (taylor inf y) (#s(alt #s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y)) (patch #s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y)) #<representation binary64>) () ())) ())
#s(alt (/ (+ 10 (* -10 (/ x y))) y) (taylor inf y) (#s(alt #s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y)) (patch #s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y)) #<representation binary64>) () ())) ())
#s(alt (/ (- (+ 10 (* 10 (/ (pow x 2) (pow y 2)))) (* 10 (/ x y))) y) (taylor inf y) (#s(alt #s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y)) (patch #s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y)) #<representation binary64>) () ())) ())
#s(alt (/ (- (+ 10 (* -10 (/ (pow x 3) (pow y 3)))) (+ (* -10 (/ (pow x 2) (pow y 2))) (* 10 (/ x y)))) y) (taylor inf y) (#s(alt #s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y)) (patch #s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y)) #<representation binary64>) () ())) ())
#s(alt (/ 10 y) (taylor inf y) (#s(alt (/.f64 #s(literal 10 binary64) y) (patch (/.f64 #s(literal 10 binary64) y) #<representation binary64>) () ())) ())
#s(alt (/ 10 y) (taylor inf y) (#s(alt (/.f64 #s(literal 10 binary64) y) (patch (/.f64 #s(literal 10 binary64) y) #<representation binary64>) () ())) ())
#s(alt (/ 10 y) (taylor inf y) (#s(alt (/.f64 #s(literal 10 binary64) y) (patch (/.f64 #s(literal 10 binary64) y) #<representation binary64>) () ())) ())
#s(alt (/ 10 y) (taylor inf y) (#s(alt (/.f64 #s(literal 10 binary64) y) (patch (/.f64 #s(literal 10 binary64) y) #<representation binary64>) () ())) ())
#s(alt (* -10 y) (taylor inf y) (#s(alt (.f64 (-.f64 x y) #s(literal 10 binary64)) (patch (.f64 (-.f64 x y) #s(literal 10 binary64)) #<representation binary64>) () ())) ())
#s(alt (* y (- (* 10 (/ x y)) 10)) (taylor inf y) (#s(alt (.f64 (-.f64 x y) #s(literal 10 binary64)) (patch (.f64 (-.f64 x y) #s(literal 10 binary64)) #<representation binary64>) () ())) ())
#s(alt (* y (- (* 10 (/ x y)) 10)) (taylor inf y) (#s(alt (.f64 (-.f64 x y) #s(literal 10 binary64)) (patch (.f64 (-.f64 x y) #s(literal 10 binary64)) #<representation binary64>) () ())) ())
#s(alt (* y (- (* 10 (/ x y)) 10)) (taylor inf y) (#s(alt (.f64 (-.f64 x y) #s(literal 10 binary64)) (patch (.f64 (-.f64 x y) #s(literal 10 binary64)) #<representation binary64>) () ())) ())
#s(alt 1/10 (taylor -inf y) (#s(alt (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64))) (patch (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64))) #<representation binary64>) () ())) ())
#s(alt 1/10 (taylor -inf y) (#s(alt (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64))) (patch (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64))) #<representation binary64>) () ())) ())
#s(alt 1/10 (taylor -inf y) (#s(alt (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64))) (patch (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64))) #<representation binary64>) () ())) ())
#s(alt 1/10 (taylor -inf y) (#s(alt (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64))) (patch (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64))) #<representation binary64>) () ())) ())
#s(alt (* 1/10 y) (taylor -inf y) (#s(alt (.f64 (+.f64 y x) (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64)))) (patch (.f64 (+.f64 y x) (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64)))) #<representation binary64>) () ())) ())
#s(alt (* -1 (* y (- (* -1/10 (/ x y)) 1/10))) (taylor -inf y) (#s(alt (.f64 (+.f64 y x) (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64)))) (patch (.f64 (+.f64 y x) (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64)))) #<representation binary64>) () ())) ())
#s(alt (* -1 (* y (- (* -1/10 (/ x y)) 1/10))) (taylor -inf y) (#s(alt (.f64 (+.f64 y x) (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64)))) (patch (.f64 (+.f64 y x) (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64)))) #<representation binary64>) () ())) ())
#s(alt (* -1 (* y (- (* -1/10 (/ x y)) 1/10))) (taylor -inf y) (#s(alt (.f64 (+.f64 y x) (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64)))) (patch (.f64 (+.f64 y x) (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64)))) #<representation binary64>) () ())) ())
#s(alt y (taylor -inf y) (#s(alt (+.f64 y x) (patch (+.f64 y x) #<representation binary64>) () ())) ())
#s(alt (* -1 (* y (- (* -1 (/ x y)) 1))) (taylor -inf y) (#s(alt (+.f64 y x) (patch (+.f64 y x) #<representation binary64>) () ())) ())
#s(alt (* -1 (* y (- (* -1 (/ x y)) 1))) (taylor -inf y) (#s(alt (+.f64 y x) (patch (+.f64 y x) #<representation binary64>) () ())) ())
#s(alt (* -1 (* y (- (* -1 (/ x y)) 1))) (taylor -inf y) (#s(alt (+.f64 y x) (patch (+.f64 y x) #<representation binary64>) () ())) ())
#s(alt (* -1 y) (taylor -inf y) (#s(alt (-.f64 x y) (patch (-.f64 x y) #<representation binary64>) () ())) ())
#s(alt (* -1 (* y (+ 1 (* -1 (/ x y))))) (taylor -inf y) (#s(alt (-.f64 x y) (patch (-.f64 x y) #<representation binary64>) () ())) ())
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#s(alt (* -1 (/ (- (* 10 (/ y x)) 10) x)) (taylor -inf x) (#s(alt #s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y)) (patch #s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y)) #<representation binary64>) () ())) ())
#s(alt (* -1 (/ (- (* -1 (/ (- (* 10 (/ (pow y 2) x)) (* 10 y)) x)) 10) x)) (taylor -inf x) (#s(alt #s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y)) (patch #s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y)) #<representation binary64>) () ())) ())
#s(alt (* -1 (/ (- (* -1 (/ (- (* -1 (/ (- (* 10 (/ (pow y 3) x)) (* 10 (pow y 2))) x)) (* 10 y)) x)) 10) x)) (taylor -inf x) (#s(alt #s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y)) (patch #s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y)) #<representation binary64>) () ())) ())
#s(alt (* 10 x) (taylor -inf x) (#s(alt (.f64 (-.f64 x y) #s(literal 10 binary64)) (patch (.f64 (-.f64 x y) #s(literal 10 binary64)) #<representation binary64>) () ())) ())
#s(alt (* -1 (* x (- (* 10 (/ y x)) 10))) (taylor -inf x) (#s(alt (.f64 (-.f64 x y) #s(literal 10 binary64)) (patch (.f64 (-.f64 x y) #s(literal 10 binary64)) #<representation binary64>) () ())) ())
#s(alt (* -1 (* x (- (* 10 (/ y x)) 10))) (taylor -inf x) (#s(alt (.f64 (-.f64 x y) #s(literal 10 binary64)) (patch (.f64 (-.f64 x y) #s(literal 10 binary64)) #<representation binary64>) () ())) ())
#s(alt (* -1 (* x (- (* 10 (/ y x)) 10))) (taylor -inf x) (#s(alt (.f64 (-.f64 x y) #s(literal 10 binary64)) (patch (.f64 (-.f64 x y) #s(literal 10 binary64)) #<representation binary64>) () ())) ())

Calls

6 calls:

Time	Variable		Point	Expression
5.0ms	x	@	-inf	((/ (- x y) (* (- x y) 10)) (* (+ y x) (/ (- x y) (* (- x y) 10))) (+ y x) (- x y) (/ 1 (/ 10 (+ y x))) (/ 10 (+ y x)) (/ 10 y) (* (- x y) 10))
1.0ms	y	@	0	((/ (- x y) (* (- x y) 10)) (* (+ y x) (/ (- x y) (* (- x y) 10))) (+ y x) (- x y) (/ 1 (/ 10 (+ y x))) (/ 10 (+ y x)) (/ 10 y) (* (- x y) 10))
1.0ms	y	@	-inf	((/ (- x y) (* (- x y) 10)) (* (+ y x) (/ (- x y) (* (- x y) 10))) (+ y x) (- x y) (/ 1 (/ 10 (+ y x))) (/ 10 (+ y x)) (/ 10 y) (* (- x y) 10))
1.0ms	y	@	inf	((/ (- x y) (* (- x y) 10)) (* (+ y x) (/ (- x y) (* (- x y) 10))) (+ y x) (- x y) (/ 1 (/ 10 (+ y x))) (/ 10 (+ y x)) (/ 10 y) (* (- x y) 10))
0.0ms	x	@	inf	((/ (- x y) (* (- x y) 10)) (* (+ y x) (/ (- x y) (* (- x y) 10))) (+ y x) (- x y) (/ 1 (/ 10 (+ y x))) (/ 10 (+ y x)) (/ 10 y) (* (- x y) 10))

simplify222.0ms (5.2%)

Memory

3.7MiB live, 93.9MiB allocated

Algorithm

1×	egg-herbie

Iterations

Useful iterations: 0 (0.0ms)

Iter	Nodes	Cost
0	194	905
1	583	893
2	1522	817
3	4907	807
0	8240	789

Stop Event

1×	iter limit
1×	node limit

Counts

180 → 171

Calls

Call 1

Inputs
1/10
1/10
1/10
1/10
(* 1/10 x)
(+ (* 1/10 x) (* 1/10 y))
(+ (* 1/10 x) (* 1/10 y))
(+ (* 1/10 x) (* 1/10 y))
x
(+ x y)
(+ x y)
(+ x y)
x
(+ x (* -1 y))
(+ x (* -1 y))
(+ x (* -1 y))
(* 1/10 x)
(+ (* 1/10 x) (* 1/10 y))
(+ (* 1/10 x) (* 1/10 y))
(+ (* 1/10 x) (* 1/10 y))
(/ 10 x)
(+ (* -10 (/ y (pow x 2))) (* 10 (/ 1 x)))
(+ (* y (- (* 10 (/ y (pow x 3))) (* 10 (/ 1 (pow x 2))))) (* 10 (/ 1 x)))
(+ (* y (- (* y (+ (* -10 (/ y (pow x 4))) (* 10 (/ 1 (pow x 3))))) (* 10 (/ 1 (pow x 2))))) (* 10 (/ 1 x)))
(/ 10 y)
(/ 10 y)
(/ 10 y)
(/ 10 y)
(* 10 x)
(+ (* -10 y) (* 10 x))
(+ (* -10 y) (* 10 x))
(+ (* -10 y) (* 10 x))
1/10
1/10
1/10
1/10
(* 1/10 y)
(* y (+ 1/10 (* 1/10 (/ x y))))
(* y (+ 1/10 (* 1/10 (/ x y))))
(* y (+ 1/10 (* 1/10 (/ x y))))
y
(* y (+ 1 (/ x y)))
(* y (+ 1 (/ x y)))
(* y (+ 1 (/ x y)))
(* -1 y)
(* y (- (/ x y) 1))
(* y (- (/ x y) 1))
(* y (- (/ x y) 1))
(* 1/10 y)
(* y (+ 1/10 (* 1/10 (/ x y))))
(* y (+ 1/10 (* 1/10 (/ x y))))
(* y (+ 1/10 (* 1/10 (/ x y))))
(/ 10 y)
(/ (+ 10 (* -10 (/ x y))) y)
(/ (- (+ 10 (* 10 (/ (pow x 2) (pow y 2)))) (* 10 (/ x y))) y)
(/ (- (+ 10 (* -10 (/ (pow x 3) (pow y 3)))) (+ (* -10 (/ (pow x 2) (pow y 2))) (* 10 (/ x y)))) y)
(/ 10 y)
(/ 10 y)
(/ 10 y)
(/ 10 y)
(* -10 y)
(* y (- (* 10 (/ x y)) 10))
(* y (- (* 10 (/ x y)) 10))
(* y (- (* 10 (/ x y)) 10))
1/10
1/10
1/10
1/10
(* 1/10 y)
(* -1 (* y (- (* -1/10 (/ x y)) 1/10)))
(* -1 (* y (- (* -1/10 (/ x y)) 1/10)))
(* -1 (* y (- (* -1/10 (/ x y)) 1/10)))
y
(* -1 (* y (- (* -1 (/ x y)) 1)))
(* -1 (* y (- (* -1 (/ x y)) 1)))
(* -1 (* y (- (* -1 (/ x y)) 1)))
(* -1 y)
(* -1 (* y (+ 1 (* -1 (/ x y)))))
(* -1 (* y (+ 1 (* -1 (/ x y)))))
(* -1 (* y (+ 1 (* -1 (/ x y)))))
(* 1/10 y)
(* -1 (* y (- (* -1/10 (/ x y)) 1/10)))
(* -1 (* y (- (* -1/10 (/ x y)) 1/10)))
(* -1 (* y (- (* -1/10 (/ x y)) 1/10)))
(/ 10 y)
(* -1 (/ (- (* 10 (/ x y)) 10) y))
(* -1 (/ (- (* -1 (/ (- (* 10 (/ (pow x 2) y)) (* 10 x)) y)) 10) y))
(* -1 (/ (- (* -1 (/ (- (* -1 (/ (- (* 10 (/ (pow x 3) y)) (* 10 (pow x 2))) y)) (* 10 x)) y)) 10) y))
(/ 10 y)
(/ 10 y)
(/ 10 y)
(/ 10 y)
(* -10 y)
(* -1 (* y (+ 10 (* -10 (/ x y)))))
(* -1 (* y (+ 10 (* -10 (/ x y)))))
(* -1 (* y (+ 10 (* -10 (/ x y)))))
1/10
1/10
1/10
1/10
(* 1/10 y)
(+ (* 1/10 x) (* 1/10 y))
(+ (* 1/10 x) (* 1/10 y))
(+ (* 1/10 x) (* 1/10 y))
y
(+ x y)
(+ x y)
(+ x y)
(* -1 y)
(- x y)
(- x y)
(- x y)
(* 1/10 y)
(+ (* 1/10 x) (* 1/10 y))
(+ (* 1/10 x) (* 1/10 y))
(+ (* 1/10 x) (* 1/10 y))
(/ 10 y)
(+ (* -10 (/ x (pow y 2))) (* 10 (/ 1 y)))
(+ (* x (- (* 10 (/ x (pow y 3))) (* 10 (/ 1 (pow y 2))))) (* 10 (/ 1 y)))
(+ (* x (- (* x (+ (* -10 (/ x (pow y 4))) (* 10 (/ 1 (pow y 3))))) (* 10 (/ 1 (pow y 2))))) (* 10 (/ 1 y)))
(* -10 y)
(+ (* -10 y) (* 10 x))
(+ (* -10 y) (* 10 x))
(+ (* -10 y) (* 10 x))
1/10
1/10
1/10
1/10
(* 1/10 x)
(* x (+ 1/10 (* 1/10 (/ y x))))
(* x (+ 1/10 (* 1/10 (/ y x))))
(* x (+ 1/10 (* 1/10 (/ y x))))
x
(* x (+ 1 (/ y x)))
(* x (+ 1 (/ y x)))
(* x (+ 1 (/ y x)))
x
(* x (+ 1 (* -1 (/ y x))))
(* x (+ 1 (* -1 (/ y x))))
(* x (+ 1 (* -1 (/ y x))))
(* 1/10 x)
(* x (+ 1/10 (* 1/10 (/ y x))))
(* x (+ 1/10 (* 1/10 (/ y x))))
(* x (+ 1/10 (* 1/10 (/ y x))))
(/ 10 x)
(/ (+ 10 (* -10 (/ y x))) x)
(/ (- (+ 10 (* 10 (/ (pow y 2) (pow x 2)))) (* 10 (/ y x))) x)
(/ (- (+ 10 (* -10 (/ (pow y 3) (pow x 3)))) (+ (* -10 (/ (pow y 2) (pow x 2))) (* 10 (/ y x)))) x)
(* 10 x)
(* x (+ 10 (* -10 (/ y x))))
(* x (+ 10 (* -10 (/ y x))))
(* x (+ 10 (* -10 (/ y x))))
1/10
1/10
1/10
1/10
(* 1/10 x)
(* -1 (* x (- (* -1/10 (/ y x)) 1/10)))
(* -1 (* x (- (* -1/10 (/ y x)) 1/10)))
(* -1 (* x (- (* -1/10 (/ y x)) 1/10)))
x
(* -1 (* x (- (* -1 (/ y x)) 1)))
(* -1 (* x (- (* -1 (/ y x)) 1)))
(* -1 (* x (- (* -1 (/ y x)) 1)))
x
(* -1 (* x (- (/ y x) 1)))
(* -1 (* x (- (/ y x) 1)))
(* -1 (* x (- (/ y x) 1)))
(* 1/10 x)
(* -1 (* x (- (* -1/10 (/ y x)) 1/10)))
(* -1 (* x (- (* -1/10 (/ y x)) 1/10)))
(* -1 (* x (- (* -1/10 (/ y x)) 1/10)))
(/ 10 x)
(* -1 (/ (- (* 10 (/ y x)) 10) x))
(* -1 (/ (- (* -1 (/ (- (* 10 (/ (pow y 2) x)) (* 10 y)) x)) 10) x))
(* -1 (/ (- (* -1 (/ (- (* -1 (/ (- (* 10 (/ (pow y 3) x)) (* 10 (pow y 2))) x)) (* 10 y)) x)) 10) x))
(* 10 x)
(* -1 (* x (- (* 10 (/ y x)) 10)))
(* -1 (* x (- (* 10 (/ y x)) 10)))
(* -1 (* x (- (* 10 (/ y x)) 10)))

Outputs
1/10
#s(literal 1/10 binary64)
1/10
#s(literal 1/10 binary64)
1/10
#s(literal 1/10 binary64)
1/10
#s(literal 1/10 binary64)
(* 1/10 x)
(*.f64 x #s(literal 1/10 binary64))
(+ (* 1/10 x) (* 1/10 y))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(+ (* 1/10 x) (* 1/10 y))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(+ (* 1/10 x) (* 1/10 y))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
x
(+ x y)
(+.f64 y x)
(+ x y)
(+.f64 y x)
(+ x y)
(+.f64 y x)
x
(+ x (* -1 y))
(-.f64 x y)
(+ x (* -1 y))
(-.f64 x y)
(+ x (* -1 y))
(-.f64 x y)
(* 1/10 x)
(*.f64 x #s(literal 1/10 binary64))
(+ (* 1/10 x) (* 1/10 y))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(+ (* 1/10 x) (* 1/10 y))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(+ (* 1/10 x) (* 1/10 y))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(/ 10 x)
(/.f64 #s(literal 10 binary64) x)
(+ (* -10 (/ y (pow x 2))) (* 10 (/ 1 x)))
(/.f64 (fma.f64 (/.f64 y x) #s(literal -10 binary64) #s(literal 10 binary64)) x)
(+ (* y (- (* 10 (/ y (pow x 3))) (* 10 (/ 1 (pow x 2))))) (* 10 (/ 1 x)))
(/.f64 (fma.f64 (*.f64 y (-.f64 #s(literal 1 binary64) (/.f64 y x))) (/.f64 #s(literal -10 binary64) x) #s(literal 10 binary64)) x)
(+ (* y (- (* y (+ (* -10 (/ y (pow x 4))) (* 10 (/ 1 (pow x 3))))) (* 10 (/ 1 (pow x 2))))) (* 10 (/ 1 x)))
(fma.f64 (*.f64 y y) (fma.f64 (/.f64 y (pow.f64 x #s(literal 4 binary64))) #s(literal -10 binary64) (/.f64 #s(literal 10 binary64) (pow.f64 x #s(literal 3 binary64)))) (/.f64 (fma.f64 (/.f64 y x) #s(literal -10 binary64) #s(literal 10 binary64)) x))
(/ 10 y)
(/.f64 #s(literal 10 binary64) y)
(/ 10 y)
(/.f64 #s(literal 10 binary64) y)
(/ 10 y)
(/.f64 #s(literal 10 binary64) y)
(/ 10 y)
(/.f64 #s(literal 10 binary64) y)
(* 10 x)
(*.f64 #s(literal 10 binary64) x)
(+ (* -10 y) (* 10 x))
(*.f64 #s(literal 10 binary64) (-.f64 x y))
(+ (* -10 y) (* 10 x))
(*.f64 #s(literal 10 binary64) (-.f64 x y))
(+ (* -10 y) (* 10 x))
(*.f64 #s(literal 10 binary64) (-.f64 x y))
1/10
#s(literal 1/10 binary64)
1/10
#s(literal 1/10 binary64)
1/10
#s(literal 1/10 binary64)
1/10
#s(literal 1/10 binary64)
(* 1/10 y)
(*.f64 y #s(literal 1/10 binary64))
(* y (+ 1/10 (* 1/10 (/ x y))))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* y (+ 1/10 (* 1/10 (/ x y))))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* y (+ 1/10 (* 1/10 (/ x y))))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
y
(* y (+ 1 (/ x y)))
(+.f64 y x)
(* y (+ 1 (/ x y)))
(+.f64 y x)
(* y (+ 1 (/ x y)))
(+.f64 y x)
(* -1 y)
(neg.f64 y)
(* y (- (/ x y) 1))
(-.f64 x y)
(* y (- (/ x y) 1))
(-.f64 x y)
(* y (- (/ x y) 1))
(-.f64 x y)
(* 1/10 y)
(*.f64 y #s(literal 1/10 binary64))
(* y (+ 1/10 (* 1/10 (/ x y))))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* y (+ 1/10 (* 1/10 (/ x y))))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* y (+ 1/10 (* 1/10 (/ x y))))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(/ 10 y)
(/.f64 #s(literal 10 binary64) y)
(/ (+ 10 (* -10 (/ x y))) y)
(/.f64 (fma.f64 (/.f64 x y) #s(literal -10 binary64) #s(literal 10 binary64)) y)
(/ (- (+ 10 (* 10 (/ (pow x 2) (pow y 2)))) (* 10 (/ x y))) y)
(/.f64 (fma.f64 (*.f64 x (-.f64 #s(literal 1 binary64) (/.f64 x y))) (/.f64 #s(literal -10 binary64) y) #s(literal 10 binary64)) y)
(/ (- (+ 10 (* -10 (/ (pow x 3) (pow y 3)))) (+ (* -10 (/ (pow x 2) (pow y 2))) (* 10 (/ x y)))) y)
(/.f64 (fma.f64 (*.f64 x (-.f64 #s(literal 1 binary64) (/.f64 x y))) (/.f64 #s(literal -10 binary64) y) (fma.f64 (pow.f64 (/.f64 x y) #s(literal 3 binary64)) #s(literal -10 binary64) #s(literal 10 binary64))) y)
(/ 10 y)
(/.f64 #s(literal 10 binary64) y)
(/ 10 y)
(/.f64 #s(literal 10 binary64) y)
(/ 10 y)
(/.f64 #s(literal 10 binary64) y)
(/ 10 y)
(/.f64 #s(literal 10 binary64) y)
(* -10 y)
(*.f64 #s(literal -10 binary64) y)
(* y (- (* 10 (/ x y)) 10))
(*.f64 #s(literal 10 binary64) (-.f64 x y))
(* y (- (* 10 (/ x y)) 10))
(*.f64 #s(literal 10 binary64) (-.f64 x y))
(* y (- (* 10 (/ x y)) 10))
(*.f64 #s(literal 10 binary64) (-.f64 x y))
1/10
#s(literal 1/10 binary64)
1/10
#s(literal 1/10 binary64)
1/10
#s(literal 1/10 binary64)
1/10
#s(literal 1/10 binary64)
(* 1/10 y)
(*.f64 y #s(literal 1/10 binary64))
(* -1 (* y (- (* -1/10 (/ x y)) 1/10)))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* -1 (* y (- (* -1/10 (/ x y)) 1/10)))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* -1 (* y (- (* -1/10 (/ x y)) 1/10)))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
y
(* -1 (* y (- (* -1 (/ x y)) 1)))
(+.f64 y x)
(* -1 (* y (- (* -1 (/ x y)) 1)))
(+.f64 y x)
(* -1 (* y (- (* -1 (/ x y)) 1)))
(+.f64 y x)
(* -1 y)
(neg.f64 y)
(* -1 (* y (+ 1 (* -1 (/ x y)))))
(-.f64 x y)
(* -1 (* y (+ 1 (* -1 (/ x y)))))
(-.f64 x y)
(* -1 (* y (+ 1 (* -1 (/ x y)))))
(-.f64 x y)
(* 1/10 y)
(*.f64 y #s(literal 1/10 binary64))
(* -1 (* y (- (* -1/10 (/ x y)) 1/10)))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* -1 (* y (- (* -1/10 (/ x y)) 1/10)))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* -1 (* y (- (* -1/10 (/ x y)) 1/10)))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(/ 10 y)
(/.f64 #s(literal 10 binary64) y)
(* -1 (/ (- (* 10 (/ x y)) 10) y))
(/.f64 (fma.f64 (/.f64 x y) #s(literal -10 binary64) #s(literal 10 binary64)) y)
(* -1 (/ (- (* -1 (/ (- (* 10 (/ (pow x 2) y)) (* 10 x)) y)) 10) y))
(/.f64 (fma.f64 (*.f64 x (-.f64 #s(literal 1 binary64) (/.f64 x y))) (/.f64 #s(literal -10 binary64) y) #s(literal 10 binary64)) y)
(* -1 (/ (- (* -1 (/ (- (* -1 (/ (- (* 10 (/ (pow x 3) y)) (* 10 (pow x 2))) y)) (* 10 x)) y)) 10) y))
(/.f64 (fma.f64 (*.f64 x (-.f64 #s(literal 1 binary64) (/.f64 x y))) (/.f64 #s(literal -10 binary64) y) (fma.f64 (pow.f64 (/.f64 x y) #s(literal 3 binary64)) #s(literal -10 binary64) #s(literal 10 binary64))) y)
(/ 10 y)
(/.f64 #s(literal 10 binary64) y)
(/ 10 y)
(/.f64 #s(literal 10 binary64) y)
(/ 10 y)
(/.f64 #s(literal 10 binary64) y)
(/ 10 y)
(/.f64 #s(literal 10 binary64) y)
(* -10 y)
(*.f64 #s(literal -10 binary64) y)
(* -1 (* y (+ 10 (* -10 (/ x y)))))
(*.f64 #s(literal 10 binary64) (-.f64 x y))
(* -1 (* y (+ 10 (* -10 (/ x y)))))
(*.f64 #s(literal 10 binary64) (-.f64 x y))
(* -1 (* y (+ 10 (* -10 (/ x y)))))
(*.f64 #s(literal 10 binary64) (-.f64 x y))
1/10
#s(literal 1/10 binary64)
1/10
#s(literal 1/10 binary64)
1/10
#s(literal 1/10 binary64)
1/10
#s(literal 1/10 binary64)
(* 1/10 y)
(*.f64 y #s(literal 1/10 binary64))
(+ (* 1/10 x) (* 1/10 y))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(+ (* 1/10 x) (* 1/10 y))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(+ (* 1/10 x) (* 1/10 y))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
y
(+ x y)
(+.f64 y x)
(+ x y)
(+.f64 y x)
(+ x y)
(+.f64 y x)
(* -1 y)
(neg.f64 y)
(- x y)
(-.f64 x y)
(- x y)
(-.f64 x y)
(- x y)
(-.f64 x y)
(* 1/10 y)
(*.f64 y #s(literal 1/10 binary64))
(+ (* 1/10 x) (* 1/10 y))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(+ (* 1/10 x) (* 1/10 y))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(+ (* 1/10 x) (* 1/10 y))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(/ 10 y)
(/.f64 #s(literal 10 binary64) y)
(+ (* -10 (/ x (pow y 2))) (* 10 (/ 1 y)))
(/.f64 (fma.f64 (/.f64 x y) #s(literal -10 binary64) #s(literal 10 binary64)) y)
(+ (* x (- (* 10 (/ x (pow y 3))) (* 10 (/ 1 (pow y 2))))) (* 10 (/ 1 y)))
(/.f64 (fma.f64 (*.f64 x (-.f64 #s(literal 1 binary64) (/.f64 x y))) (/.f64 #s(literal -10 binary64) y) #s(literal 10 binary64)) y)
(+ (* x (- (* x (+ (* -10 (/ x (pow y 4))) (* 10 (/ 1 (pow y 3))))) (* 10 (/ 1 (pow y 2))))) (* 10 (/ 1 y)))
(fma.f64 (*.f64 (fma.f64 (/.f64 x (pow.f64 y #s(literal 4 binary64))) #s(literal -10 binary64) (/.f64 #s(literal 10 binary64) (pow.f64 y #s(literal 3 binary64)))) x) x (/.f64 (fma.f64 (/.f64 x y) #s(literal -10 binary64) #s(literal 10 binary64)) y))
(* -10 y)
(*.f64 #s(literal -10 binary64) y)
(+ (* -10 y) (* 10 x))
(*.f64 #s(literal 10 binary64) (-.f64 x y))
(+ (* -10 y) (* 10 x))
(*.f64 #s(literal 10 binary64) (-.f64 x y))
(+ (* -10 y) (* 10 x))
(*.f64 #s(literal 10 binary64) (-.f64 x y))
1/10
#s(literal 1/10 binary64)
1/10
#s(literal 1/10 binary64)
1/10
#s(literal 1/10 binary64)
1/10
#s(literal 1/10 binary64)
(* 1/10 x)
(*.f64 x #s(literal 1/10 binary64))
(* x (+ 1/10 (* 1/10 (/ y x))))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* x (+ 1/10 (* 1/10 (/ y x))))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* x (+ 1/10 (* 1/10 (/ y x))))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
x
(* x (+ 1 (/ y x)))
(+.f64 y x)
(* x (+ 1 (/ y x)))
(+.f64 y x)
(* x (+ 1 (/ y x)))
(+.f64 y x)
x
(* x (+ 1 (* -1 (/ y x))))
(-.f64 x y)
(* x (+ 1 (* -1 (/ y x))))
(-.f64 x y)
(* x (+ 1 (* -1 (/ y x))))
(-.f64 x y)
(* 1/10 x)
(*.f64 x #s(literal 1/10 binary64))
(* x (+ 1/10 (* 1/10 (/ y x))))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* x (+ 1/10 (* 1/10 (/ y x))))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* x (+ 1/10 (* 1/10 (/ y x))))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(/ 10 x)
(/.f64 #s(literal 10 binary64) x)
(/ (+ 10 (* -10 (/ y x))) x)
(/.f64 (fma.f64 (/.f64 y x) #s(literal -10 binary64) #s(literal 10 binary64)) x)
(/ (- (+ 10 (* 10 (/ (pow y 2) (pow x 2)))) (* 10 (/ y x))) x)
(/.f64 (fma.f64 (*.f64 y (-.f64 #s(literal 1 binary64) (/.f64 y x))) (/.f64 #s(literal -10 binary64) x) #s(literal 10 binary64)) x)
(/ (- (+ 10 (* -10 (/ (pow y 3) (pow x 3)))) (+ (* -10 (/ (pow y 2) (pow x 2))) (* 10 (/ y x)))) x)
(/.f64 (fma.f64 (*.f64 y (-.f64 #s(literal 1 binary64) (/.f64 y x))) (/.f64 #s(literal -10 binary64) x) (fma.f64 (pow.f64 (/.f64 y x) #s(literal 3 binary64)) #s(literal -10 binary64) #s(literal 10 binary64))) x)
(* 10 x)
(*.f64 #s(literal 10 binary64) x)
(* x (+ 10 (* -10 (/ y x))))
(*.f64 #s(literal 10 binary64) (-.f64 x y))
(* x (+ 10 (* -10 (/ y x))))
(*.f64 #s(literal 10 binary64) (-.f64 x y))
(* x (+ 10 (* -10 (/ y x))))
(*.f64 #s(literal 10 binary64) (-.f64 x y))
1/10
#s(literal 1/10 binary64)
1/10
#s(literal 1/10 binary64)
1/10
#s(literal 1/10 binary64)
1/10
#s(literal 1/10 binary64)
(* 1/10 x)
(*.f64 x #s(literal 1/10 binary64))
(* -1 (* x (- (* -1/10 (/ y x)) 1/10)))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* -1 (* x (- (* -1/10 (/ y x)) 1/10)))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* -1 (* x (- (* -1/10 (/ y x)) 1/10)))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
x
(* -1 (* x (- (* -1 (/ y x)) 1)))
(+.f64 y x)
(* -1 (* x (- (* -1 (/ y x)) 1)))
(+.f64 y x)
(* -1 (* x (- (* -1 (/ y x)) 1)))
(+.f64 y x)
x
(* -1 (* x (- (/ y x) 1)))
(-.f64 x y)
(* -1 (* x (- (/ y x) 1)))
(-.f64 x y)
(* -1 (* x (- (/ y x) 1)))
(-.f64 x y)
(* 1/10 x)
(*.f64 x #s(literal 1/10 binary64))
(* -1 (* x (- (* -1/10 (/ y x)) 1/10)))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* -1 (* x (- (* -1/10 (/ y x)) 1/10)))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(* -1 (* x (- (* -1/10 (/ y x)) 1/10)))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(/ 10 x)
(/.f64 #s(literal 10 binary64) x)
(* -1 (/ (- (* 10 (/ y x)) 10) x))
(/.f64 (fma.f64 (/.f64 y x) #s(literal -10 binary64) #s(literal 10 binary64)) x)
(* -1 (/ (- (* -1 (/ (- (* 10 (/ (pow y 2) x)) (* 10 y)) x)) 10) x))
(/.f64 (fma.f64 (*.f64 y (-.f64 #s(literal 1 binary64) (/.f64 y x))) (/.f64 #s(literal -10 binary64) x) #s(literal 10 binary64)) x)
(* -1 (/ (- (* -1 (/ (- (* -1 (/ (- (* 10 (/ (pow y 3) x)) (* 10 (pow y 2))) x)) (* 10 y)) x)) 10) x))
(/.f64 (fma.f64 (*.f64 y (-.f64 #s(literal 1 binary64) (/.f64 y x))) (/.f64 #s(literal -10 binary64) x) (fma.f64 (pow.f64 (/.f64 y x) #s(literal 3 binary64)) #s(literal -10 binary64) #s(literal 10 binary64))) x)
(* 10 x)
(*.f64 #s(literal 10 binary64) x)
(* -1 (* x (- (* 10 (/ y x)) 10)))
(*.f64 #s(literal 10 binary64) (-.f64 x y))
(* -1 (* x (- (* 10 (/ y x)) 10)))
(*.f64 #s(literal 10 binary64) (-.f64 x y))
(* -1 (* x (- (* 10 (/ y x)) 10)))
(*.f64 #s(literal 10 binary64) (-.f64 x y))

rewrite181.0ms (4.3%)

Memory

-8.7MiB live, 103.8MiB allocated

Iterations

Useful iterations: 1 (0.0ms)

Iter	Nodes	Cost
0	14	56
0	21	56
1	84	40
2	627	40
0	8811	40

Stop Event

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

Counts

8 → 664

Calls

Call 1

Inputs
(/.f64 (-.f64 x y) (*.f64 (-.f64 x y) #s(literal 10 binary64)))
(.f64 (+.f64 y x) (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64))))
(+.f64 y x)
(-.f64 x y)
(/.f64 #s(literal 1 binary64) #s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y)))
#s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y))
(/.f64 #s(literal 10 binary64) y)
(*.f64 (-.f64 x y) #s(literal 10 binary64))

Outputs
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eval127.0ms (3%)

Memory: 36.2MiB live, 271.8MiB allocated
Compiler: Compiled 23 158 to 2 480 computations (89.3% saved)

prune20.0ms (0.5%)

Memory

-10.0MiB live, 67.0MiB allocated

Pruning

7 alts after pruning (0 fresh and 7 done)

	Pruned	Kept	Total
New	1 005	0	1 005
Fresh	0	0	0
Picked	0	2	2
Done	0	5	5
Total	1 005	7	1 012

Accuracy

100.0%

Counts

1 012 → 7

Alt Table

Click to see full alt table

Status	Accuracy	Program
✓	99.4%	(fma.f64 y #s(literal 1/10 binary64) (*.f64 x #s(literal 1/10 binary64)))
✓	100.0%	(/.f64 (+.f64 x y) #s(literal 10 binary64))
✓	52.8%	(/.f64 #s(literal 1 binary64) #s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y)))
✓	99.0%	(.f64 (+.f64 y x) (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64))))
✓	99.4%	(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
✓	52.6%	#s(approx (/ (+ x y) 10) (*.f64 y #s(literal 1/10 binary64)))
✓	48.6%	#s(approx (/ (+ x y) 10) (*.f64 x #s(literal 1/10 binary64)))

Compiler

Compiled 93 to 63 computations (32.3% saved)

regimes15.0ms (0.3%)

Memory

-15.4MiB live, 31.3MiB allocated

Counts

8 → 1

Calls

Call 1

Inputs
#s(approx (/ (+ x y) 10) (*.f64 x #s(literal 1/10 binary64)))
#s(approx (/ (+ x y) 10) (*.f64 y #s(literal 1/10 binary64)))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(fma.f64 y #s(literal 1/10 binary64) (*.f64 x #s(literal 1/10 binary64)))
(/.f64 (+.f64 x y) #s(literal 10 binary64))
(/.f64 #s(literal 1 binary64) #s(approx (/ 10 (+ y x)) (/.f64 #s(literal 10 binary64) y)))
(/.f64 #s(literal 1 binary64) (/.f64 #s(literal 10 binary64) (+.f64 y x)))
(.f64 (+.f64 y x) (/.f64 (-.f64 x y) (.f64 (-.f64 x y) #s(literal 10 binary64))))

Outputs
(/.f64 (+.f64 x y) #s(literal 10 binary64))

Calls

4 calls:

5.0ms	y
3.0ms	(+.f64 x y)
3.0ms	(/.f64 (+.f64 x y) #s(literal 10 binary64))
3.0ms	x

Results

Accuracy	Segments	Branch
100.0%	1	`x`
100.0%	1	`y`
100.0%	1	`(/.f64 (+.f64 x y) #s(literal 10 binary64))`
100.0%	1	`(+.f64 x y)`

Compiler

Compiled 10 to 12 computations (-20% saved)

regimes9.0ms (0.2%)

Memory

23.6MiB live, 23.6MiB allocated

Counts

4 → 1

Calls

Call 1

Inputs
#s(approx (/ (+ x y) 10) (*.f64 x #s(literal 1/10 binary64)))
#s(approx (/ (+ x y) 10) (*.f64 y #s(literal 1/10 binary64)))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(fma.f64 y #s(literal 1/10 binary64) (*.f64 x #s(literal 1/10 binary64)))

Outputs
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))

Calls

4 calls:

2.0ms	(/.f64 (+.f64 x y) #s(literal 10 binary64))
2.0ms	x
2.0ms	(+.f64 x y)
2.0ms	y

Results

Accuracy	Segments	Branch
99.4%	1	`x`
99.4%	1	`y`
99.4%	1	`(/.f64 (+.f64 x y) #s(literal 10 binary64))`
99.4%	1	`(+.f64 x y)`

Compiler

Compiled 10 to 12 computations (-20% saved)

regimes8.0ms (0.2%)

Memory

-20.5MiB live, 18.6MiB allocated

Counts

2 → 2

Calls

Call 1

Inputs
#s(approx (/ (+ x y) 10) (*.f64 x #s(literal 1/10 binary64)))
#s(approx (/ (+ x y) 10) (*.f64 y #s(literal 1/10 binary64)))

Outputs
#s(approx (/ (+ x y) 10) (*.f64 x #s(literal 1/10 binary64)))
#s(approx (/ (+ x y) 10) (*.f64 y #s(literal 1/10 binary64)))

Calls

4 calls:

2.0ms	(+.f64 x y)
2.0ms	(/.f64 (+.f64 x y) #s(literal 10 binary64))
2.0ms	x
2.0ms	y

Results

Accuracy	Segments	Branch
80.8%	2	`x`
82.1%	2	`y`
97.8%	2	`(/.f64 (+.f64 x y) #s(literal 10 binary64))`
97.8%	2	`(+.f64 x y)`

Compiler

Compiled 10 to 12 computations (-20% saved)

regimes6.0ms (0.1%)

Memory

15.5MiB live, 15.5MiB allocated

Accuracy

Total -0.0b remaining (-0%)

Threshold costs -0b (-0%)

Counts

1 → 1

Calls

Call 1

Inputs
#s(approx (/ (+ x y) 10) (*.f64 x #s(literal 1/10 binary64)))

Outputs
#s(approx (/ (+ x y) 10) (*.f64 x #s(literal 1/10 binary64)))

Calls

4 calls:

1.0ms	(/.f64 (+.f64 x y) #s(literal 10 binary64))
1.0ms	y
1.0ms	x
1.0ms	(+.f64 x y)

Results

Accuracy	Segments	Branch
48.6%	1	`x`
48.6%	1	`y`
48.6%	1	`(/.f64 (+.f64 x y) #s(literal 10 binary64))`
48.6%	1	`(+.f64 x y)`

Compiler

Compiled 10 to 12 computations (-20% saved)

bsearch0.0ms (0%)

Memory

1.1MiB live, 1.1MiB allocated

Algorithm

1×	left-value

Steps

Time	Left	Right
0.0ms	-7.318118284782924e-265	4.6036892320964e-248

Compiler

Compiled 8 to 10 computations (-25% saved)

simplify23.0ms (0.5%)

Memory

-21.9MiB live, 56.8MiB allocated

Algorithm

1×	egg-herbie

Iterations

Useful iterations: 0 (0.0ms)

Iter	Nodes	Cost
0	17	43
1	21	43

Stop Event

1×

saturated

Calls

Call 1

Inputs
(/.f64 (+.f64 x y) #s(literal 10 binary64))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(if (<=.f64 (+.f64 x y) #s(literal -283625966735417/567251933470833993071770667324028228809837418235547813055332893110634100784456014078204465673887768016738404766156377048665842149942362101665813667717893457711399398974403333260607303556174368618102720559063506014277553065062667880308951927318061097340410272771508755807405604864 binary64)) #s(approx (/ (+ x y) 10) (.f64 x #s(literal 1/10 binary64))) #s(approx (/ (+ x y) 10) (.f64 y #s(literal 1/10 binary64))))
#s(approx (/ (+ x y) 10) (*.f64 x #s(literal 1/10 binary64)))

Outputs
(/.f64 (+.f64 x y) #s(literal 10 binary64))
(/.f64 (+.f64 y x) #s(literal 10 binary64))
(*.f64 (+.f64 y x) #s(literal 1/10 binary64))
(*.f64 #s(literal 1/10 binary64) (+.f64 y x))
(if (<=.f64 (+.f64 x y) #s(literal -283625966735417/567251933470833993071770667324028228809837418235547813055332893110634100784456014078204465673887768016738404766156377048665842149942362101665813667717893457711399398974403333260607303556174368618102720559063506014277553065062667880308951927318061097340410272771508755807405604864 binary64)) #s(approx (/ (+ x y) 10) (.f64 x #s(literal 1/10 binary64))) #s(approx (/ (+ x y) 10) (.f64 y #s(literal 1/10 binary64))))
(if (<=.f64 (+.f64 y x) #s(literal -283625966735417/567251933470833993071770667324028228809837418235547813055332893110634100784456014078204465673887768016738404766156377048665842149942362101665813667717893457711399398974403333260607303556174368618102720559063506014277553065062667880308951927318061097340410272771508755807405604864 binary64)) #s(approx (/ (+ x y) 10) (.f64 #s(literal 1/10 binary64) x)) #s(approx (/ (+ x y) 10) (.f64 #s(literal 1/10 binary64) y)))
#s(approx (/ (+ x y) 10) (*.f64 x #s(literal 1/10 binary64)))
#s(approx (/ (+ x y) 10) (*.f64 #s(literal 1/10 binary64) x))

soundness602.0ms (14.2%)

Memory

14.5MiB live, 172.0MiB allocated

Iterations

Useful iterations: 0 (0.0ms)

Iter	Nodes	Cost
0	38	168
1	115	168
2	264	168
3	783	168
4	1814	168
5	2648	168
6	3320	168
7	3621	168
8	3783	168
9	3819	168
10	6057	168
0	8007	168
0	5	8
0	7	8
1	31	8
2	183	8
3	1735	8
0	8213	8

Stop Event

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

Compiler

Compiled 47 to 34 computations (27.7% saved)

preprocess62.0ms (1.5%)

Memory: -12.3MiB live, 107.2MiB allocated
Remove: (sort x y)
Compiler: Compiled 106 to 78 computations (26.4% saved)

end0.0ms (0%)

Memory: 0.0MiB live, 0.0MiB allocated

start0.0ms (0%)

analyze0.0ms (0%)

sample537.0ms (12.7%)

explain67.0ms (1.6%)

preprocess36.0ms (0.8%)

eval0.0ms (0%)

prune0.0ms (0%)

simplify3.0ms (0.1%)

localize14.0ms (0.3%)

series7.0ms (0.2%)

simplify298.0ms (7%)

rewrite221.0ms (5.2%)

eval194.0ms (4.6%)

prune12.0ms (0.3%)

simplify3.0ms (0.1%)

localize55.0ms (1.3%)

series10.0ms (0.2%)

simplify154.0ms (3.6%)

rewrite271.0ms (6.4%)

eval904.0ms (21.3%)

prune32.0ms (0.8%)

simplify100.0ms (2.4%)

localize34.0ms (0.8%)

series12.0ms (0.3%)

simplify222.0ms (5.2%)

rewrite181.0ms (4.3%)

eval127.0ms (3%)

prune20.0ms (0.5%)

regimes15.0ms (0.3%)

regimes9.0ms (0.2%)

regimes8.0ms (0.2%)

regimes6.0ms (0.1%)

bsearch0.0ms (0%)

simplify23.0ms (0.5%)

soundness602.0ms (14.2%)

preprocess62.0ms (1.5%)

end0.0ms (0%)

Profiling