test/Transforms/InstSimplify/floating-point-arithmetic.ll - llvm - Git at Google

 ; RUN: opt < %s -instsimplify -S | FileCheck %s

 ; fsub 0, (fsub 0, X) ==> X
 ; CHECK-LABEL: @fsub_0_0_x(
 define float @fsub_0_0_x(float %a) {
   %t1 = fsub float -0.0, %a
   %ret = fsub float -0.0, %t1

 ; CHECK: ret float %a
   ret float %ret
 }

 ; fsub X, 0 ==> X
 ; CHECK-LABEL: @fsub_x_0(
 define float @fsub_x_0(float %a) {
   %ret = fsub float %a, 0.0
 ; CHECK: ret float %a
   ret float %ret
 }

 ; fadd X, -0 ==> X
 ; CHECK-LABEL: @fadd_x_n0(
 define float @fadd_x_n0(float %a) {
   %ret = fadd float %a, -0.0
 ; CHECK: ret float %a
   ret float %ret
 }

 ; fmul X, 1.0 ==> X
 ; CHECK-LABEL: @fmul_X_1(
 define double @fmul_X_1(double %a) {
   %b = fmul double 1.000000e+00, %a                ; <double> [#uses=1]
   ; CHECK: ret double %a
   ret double %b
 }

 ; We can't optimize away the fadd in this test because the input
 ; value to the function and subsequently to the fadd may be -0.0.
 ; In that one special case, the result of the fadd should be +0.0
 ; rather than the first parameter of the fadd.

 ; Fragile test warning: We need 6 sqrt calls to trigger the bug
 ; because the internal logic has a magic recursion limit of 6.
 ; This is presented without any explanation or ability to customize.

 declare float @sqrtf(float)

 define float @PR22688(float %x) {
   %1 = call float @sqrtf(float %x)
   %2 = call float @sqrtf(float %1)
   %3 = call float @sqrtf(float %2)
   %4 = call float @sqrtf(float %3)
   %5 = call float @sqrtf(float %4)
   %6 = call float @sqrtf(float %5)
   %7 = fadd float %6, 0.0
   ret float %7

 ; CHECK-LABEL: @PR22688(
 ; CHECK: fadd float %6, 0.0
 }
	; RUN: opt < %s -instsimplify -S \| FileCheck %s

	; fsub 0, (fsub 0, X) ==> X
	; CHECK-LABEL: @fsub_0_0_x(
	define float @fsub_0_0_x(float %a) {
	%t1 = fsub float -0.0, %a
	%ret = fsub float -0.0, %t1

	; CHECK: ret float %a
	ret float %ret
	}

	; fsub X, 0 ==> X
	; CHECK-LABEL: @fsub_x_0(
	define float @fsub_x_0(float %a) {
	%ret = fsub float %a, 0.0
	; CHECK: ret float %a
	ret float %ret
	}

	; fadd X, -0 ==> X
	; CHECK-LABEL: @fadd_x_n0(
	define float @fadd_x_n0(float %a) {
	%ret = fadd float %a, -0.0
	; CHECK: ret float %a
	ret float %ret
	}

	; fmul X, 1.0 ==> X
	; CHECK-LABEL: @fmul_X_1(
	define double @fmul_X_1(double %a) {
	%b = fmul double 1.000000e+00, %a ; <double> [#uses=1]
	; CHECK: ret double %a
	ret double %b
	}

	; We can't optimize away the fadd in this test because the input
	; value to the function and subsequently to the fadd may be -0.0.
	; In that one special case, the result of the fadd should be +0.0
	; rather than the first parameter of the fadd.

	; Fragile test warning: We need 6 sqrt calls to trigger the bug
	; because the internal logic has a magic recursion limit of 6.
	; This is presented without any explanation or ability to customize.

	declare float @sqrtf(float)

	define float @PR22688(float %x) {
	%1 = call float @sqrtf(float %x)
	%2 = call float @sqrtf(float %1)
	%3 = call float @sqrtf(float %2)
	%4 = call float @sqrtf(float %3)
	%5 = call float @sqrtf(float %4)
	%6 = call float @sqrtf(float %5)
	%7 = fadd float %6, 0.0
	ret float %7

	; CHECK-LABEL: @PR22688(
	; CHECK: fadd float %6, 0.0
	}