llvm/test/Transforms/InstCombine/AddOverFlow.ll - llvm-project - Git at Google

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

 target datalayout = "e-m:e-i64:64-f80:128-n8:16:32:64-S128"

 ; CHECK-LABEL: @oppositesign
 ; CHECK: add nsw i16 %a, %b
 define i16 @oppositesign(i16 %x, i16 %y) {
 ; %a is negative, %b is positive
   %a = or i16 %x, 32768
   %b = and i16 %y, 32767
   %c = add i16 %a, %b
   ret i16 %c
 }

 define i16 @zero_sign_bit(i16 %a) {
 ; CHECK-LABEL: @zero_sign_bit(
 ; CHECK-NEXT: and
 ; CHECK-NEXT: add nuw
 ; CHECK-NEXT: ret
   %1 = and i16 %a, 32767
   %2 = add i16 %1, 512
   ret i16 %2
 }

 define i16 @zero_sign_bit2(i16 %a, i16 %b) {
 ; CHECK-LABEL: @zero_sign_bit2(
 ; CHECK-NEXT: and
 ; CHECK-NEXT: and
 ; CHECK-NEXT: add nuw
 ; CHECK-NEXT: ret
   %1 = and i16 %a, 32767
   %2 = and i16 %b, 32767
   %3 = add i16 %1, %2
   ret i16 %3
 }

 declare i16 @bounded(i16 %input);
 declare i32 @__gxx_personality_v0(...);
 !0 = !{i16 0, i16 32768} ; [0, 32767]
 !1 = !{i16 0, i16 32769} ; [0, 32768]

 define i16 @add_bounded_values(i16 %a, i16 %b) personality i8* bitcast (i32 (...)* @__gxx_personality_v0 to i8*) {
 ; CHECK-LABEL: @add_bounded_values(
 entry:
   %c = call i16 @bounded(i16 %a), !range !0
   %d = invoke i16 @bounded(i16 %b) to label %cont unwind label %lpad, !range !0
 cont:
 ; %c and %d are in [0, 32767]. Therefore, %c + %d doesn't unsigned overflow.
   %e = add i16 %c, %d
 ; CHECK: add nuw i16 %c, %d
   ret i16 %e
 lpad:
   %0 = landingpad { i8*, i32 }
           filter [0 x i8*] zeroinitializer
   ret i16 42
 }

 define i16 @add_bounded_values_2(i16 %a, i16 %b) personality i8* bitcast (i32 (...)* @__gxx_personality_v0 to i8*) {
 ; CHECK-LABEL: @add_bounded_values_2(
 entry:
   %c = call i16 @bounded(i16 %a), !range !1
   %d = invoke i16 @bounded(i16 %b) to label %cont unwind label %lpad, !range !1
 cont:
 ; Similar to add_bounded_values, but %c and %d are in [0, 32768]. Therefore,
 ; %c + %d may unsigned overflow and we cannot add NUW.
   %e = add i16 %c, %d
 ; CHECK: add i16 %c, %d
   ret i16 %e
 lpad:
   %0 = landingpad { i8*, i32 }
           filter [0 x i8*] zeroinitializer
   ret i16 42
 }

 ; CHECK-LABEL: @ripple_nsw1
 ; CHECK: add nsw i16 %a, %b
 define i16 @ripple_nsw1(i16 %x, i16 %y) {
 ; %a has at most one bit set
   %a = and i16 %y, 1

 ; %b has a 0 bit other than the sign bit
   %b = and i16 %x, 49151

   %c = add i16 %a, %b
   ret i16 %c
 }

 ; Like the previous test, but flip %a and %b
 ; CHECK-LABEL: @ripple_nsw2
 ; CHECK: add nsw i16 %b, %a
 define i16 @ripple_nsw2(i16 %x, i16 %y) {
   %a = and i16 %y, 1
   %b = and i16 %x, 49151
   %c = add i16 %b, %a
   ret i16 %c
 }

 ; CHECK-LABEL: @ripple_nsw3
 ; CHECK: add nsw i16 %a, %b
 define i16 @ripple_nsw3(i16 %x, i16 %y) {
   %a = and i16 %y, 43691
   %b = and i16 %x, 21843
   %c = add i16 %a, %b
   ret i16 %c
 }

 ; Like the previous test, but flip %a and %b
 ; CHECK-LABEL: @ripple_nsw4
 ; CHECK: add nsw i16 %b, %a
 define i16 @ripple_nsw4(i16 %x, i16 %y) {
   %a = and i16 %y, 43691
   %b = and i16 %x, 21843
   %c = add i16 %b, %a
   ret i16 %c
 }

 ; CHECK-LABEL: @ripple_nsw5
 ; CHECK: add nsw i16 %a, %b
 define i16 @ripple_nsw5(i16 %x, i16 %y) {
   %a = or i16 %y, 43691
   %b = or i16 %x, 54613
   %c = add i16 %a, %b
   ret i16 %c
 }

 ; Like the previous test, but flip %a and %b
 ; CHECK-LABEL: @ripple_nsw6
 ; CHECK: add nsw i16 %b, %a
 define i16 @ripple_nsw6(i16 %x, i16 %y) {
   %a = or i16 %y, 43691
   %b = or i16 %x, 54613
   %c = add i16 %b, %a
   ret i16 %c
 }

 ; CHECK-LABEL: @ripple_no_nsw1
 ; CHECK: add i32 %a, %x
 define i32 @ripple_no_nsw1(i32 %x, i32 %y) {
 ; We know nothing about %x
   %a = and i32 %y, 1
   %b = add i32 %a, %x
   ret i32 %b
 }

 ; CHECK-LABEL: @ripple_no_nsw2
 ; CHECK: add nuw i16 %a, %b
 define i16 @ripple_no_nsw2(i16 %x, i16 %y) {
 ; %a has at most one bit set
   %a = and i16 %y, 1

 ; %b has a 0 bit, but it is the sign bit
   %b = and i16 %x, 32767

   %c = add i16 %a, %b
   ret i16 %c
 }

 ; CHECK-LABEL: @ripple_no_nsw3
 ; CHECK: add i16 %a, %b
 define i16 @ripple_no_nsw3(i16 %x, i16 %y) {
   %a = and i16 %y, 43691
   %b = and i16 %x, 21845
   %c = add i16 %a, %b
   ret i16 %c
 }

 ; Like the previous test, but flip %a and %b
 ; CHECK-LABEL: @ripple_no_nsw4
 ; CHECK: add i16 %b, %a
 define i16 @ripple_no_nsw4(i16 %x, i16 %y) {
   %a = and i16 %y, 43691
   %b = and i16 %x, 21845
   %c = add i16 %b, %a
   ret i16 %c
 }

 ; CHECK-LABEL: @ripple_no_nsw5
 ; CHECK: add i16 %a, %b
 define i16 @ripple_no_nsw5(i16 %x, i16 %y) {
   %a = or i16 %y, 43689
   %b = or i16 %x, 54613
   %c = add i16 %a, %b
   ret i16 %c
 }

 ; Like the previous test, but flip %a and %b
 ; CHECK-LABEL: @ripple_no_nsw6
 ; CHECK: add i16 %b, %a
 define i16 @ripple_no_nsw6(i16 %x, i16 %y) {
   %a = or i16 %y, 43689
   %b = or i16 %x, 54613
   %c = add i16 %b, %a
   ret i16 %c
 }
	; RUN: opt < %s -instcombine -S \| FileCheck %s

	target datalayout = "e-m:e-i64:64-f80:128-n8:16:32:64-S128"

	; CHECK-LABEL: @oppositesign
	; CHECK: add nsw i16 %a, %b
	define i16 @oppositesign(i16 %x, i16 %y) {
	; %a is negative, %b is positive
	%a = or i16 %x, 32768
	%b = and i16 %y, 32767
	%c = add i16 %a, %b
	ret i16 %c
	}

	define i16 @zero_sign_bit(i16 %a) {
	; CHECK-LABEL: @zero_sign_bit(
	; CHECK-NEXT: and
	; CHECK-NEXT: add nuw
	; CHECK-NEXT: ret
	%1 = and i16 %a, 32767
	%2 = add i16 %1, 512
	ret i16 %2
	}

	define i16 @zero_sign_bit2(i16 %a, i16 %b) {
	; CHECK-LABEL: @zero_sign_bit2(
	; CHECK-NEXT: and
	; CHECK-NEXT: and
	; CHECK-NEXT: add nuw
	; CHECK-NEXT: ret
	%1 = and i16 %a, 32767
	%2 = and i16 %b, 32767
	%3 = add i16 %1, %2
	ret i16 %3
	}

	declare i16 @bounded(i16 %input);
	declare i32 @__gxx_personality_v0(...);
	!0 = !{i16 0, i16 32768} ; [0, 32767]
	!1 = !{i16 0, i16 32769} ; [0, 32768]

	define i16 @add_bounded_values(i16 %a, i16 %b) personality i8* bitcast (i32 (...)* @__gxx_personality_v0 to i8*) {
	; CHECK-LABEL: @add_bounded_values(
	entry:
	%c = call i16 @bounded(i16 %a), !range !0
	%d = invoke i16 @bounded(i16 %b) to label %cont unwind label %lpad, !range !0
	cont:
	; %c and %d are in [0, 32767]. Therefore, %c + %d doesn't unsigned overflow.
	%e = add i16 %c, %d
	; CHECK: add nuw i16 %c, %d
	ret i16 %e
	lpad:
	%0 = landingpad { i8*, i32 }
	filter [0 x i8*] zeroinitializer
	ret i16 42
	}

	define i16 @add_bounded_values_2(i16 %a, i16 %b) personality i8* bitcast (i32 (...)* @__gxx_personality_v0 to i8*) {
	; CHECK-LABEL: @add_bounded_values_2(
	entry:
	%c = call i16 @bounded(i16 %a), !range !1
	%d = invoke i16 @bounded(i16 %b) to label %cont unwind label %lpad, !range !1
	cont:
	; Similar to add_bounded_values, but %c and %d are in [0, 32768]. Therefore,
	; %c + %d may unsigned overflow and we cannot add NUW.
	%e = add i16 %c, %d
	; CHECK: add i16 %c, %d
	ret i16 %e
	lpad:
	%0 = landingpad { i8*, i32 }
	filter [0 x i8*] zeroinitializer
	ret i16 42
	}

	; CHECK-LABEL: @ripple_nsw1
	; CHECK: add nsw i16 %a, %b
	define i16 @ripple_nsw1(i16 %x, i16 %y) {
	; %a has at most one bit set
	%a = and i16 %y, 1

	; %b has a 0 bit other than the sign bit
	%b = and i16 %x, 49151

	%c = add i16 %a, %b
	ret i16 %c
	}

	; Like the previous test, but flip %a and %b
	; CHECK-LABEL: @ripple_nsw2
	; CHECK: add nsw i16 %b, %a
	define i16 @ripple_nsw2(i16 %x, i16 %y) {
	%a = and i16 %y, 1
	%b = and i16 %x, 49151
	%c = add i16 %b, %a
	ret i16 %c
	}

	; CHECK-LABEL: @ripple_nsw3
	; CHECK: add nsw i16 %a, %b
	define i16 @ripple_nsw3(i16 %x, i16 %y) {
	%a = and i16 %y, 43691
	%b = and i16 %x, 21843
	%c = add i16 %a, %b
	ret i16 %c
	}

	; Like the previous test, but flip %a and %b
	; CHECK-LABEL: @ripple_nsw4
	; CHECK: add nsw i16 %b, %a
	define i16 @ripple_nsw4(i16 %x, i16 %y) {
	%a = and i16 %y, 43691
	%b = and i16 %x, 21843
	%c = add i16 %b, %a
	ret i16 %c
	}

	; CHECK-LABEL: @ripple_nsw5
	; CHECK: add nsw i16 %a, %b
	define i16 @ripple_nsw5(i16 %x, i16 %y) {
	%a = or i16 %y, 43691
	%b = or i16 %x, 54613
	%c = add i16 %a, %b
	ret i16 %c
	}

	; Like the previous test, but flip %a and %b
	; CHECK-LABEL: @ripple_nsw6
	; CHECK: add nsw i16 %b, %a
	define i16 @ripple_nsw6(i16 %x, i16 %y) {
	%a = or i16 %y, 43691
	%b = or i16 %x, 54613
	%c = add i16 %b, %a
	ret i16 %c
	}

	; CHECK-LABEL: @ripple_no_nsw1
	; CHECK: add i32 %a, %x
	define i32 @ripple_no_nsw1(i32 %x, i32 %y) {
	; We know nothing about %x
	%a = and i32 %y, 1
	%b = add i32 %a, %x
	ret i32 %b
	}

	; CHECK-LABEL: @ripple_no_nsw2
	; CHECK: add nuw i16 %a, %b
	define i16 @ripple_no_nsw2(i16 %x, i16 %y) {
	; %a has at most one bit set
	%a = and i16 %y, 1

	; %b has a 0 bit, but it is the sign bit
	%b = and i16 %x, 32767

	%c = add i16 %a, %b
	ret i16 %c
	}

	; CHECK-LABEL: @ripple_no_nsw3
	; CHECK: add i16 %a, %b
	define i16 @ripple_no_nsw3(i16 %x, i16 %y) {
	%a = and i16 %y, 43691
	%b = and i16 %x, 21845
	%c = add i16 %a, %b
	ret i16 %c
	}

	; Like the previous test, but flip %a and %b
	; CHECK-LABEL: @ripple_no_nsw4
	; CHECK: add i16 %b, %a
	define i16 @ripple_no_nsw4(i16 %x, i16 %y) {
	%a = and i16 %y, 43691
	%b = and i16 %x, 21845
	%c = add i16 %b, %a
	ret i16 %c
	}

	; CHECK-LABEL: @ripple_no_nsw5
	; CHECK: add i16 %a, %b
	define i16 @ripple_no_nsw5(i16 %x, i16 %y) {
	%a = or i16 %y, 43689
	%b = or i16 %x, 54613
	%c = add i16 %a, %b
	ret i16 %c
	}

	; Like the previous test, but flip %a and %b
	; CHECK-LABEL: @ripple_no_nsw6
	; CHECK: add i16 %b, %a
	define i16 @ripple_no_nsw6(i16 %x, i16 %y) {
	%a = or i16 %y, 43689
	%b = or i16 %x, 54613
	%c = add i16 %b, %a
	ret i16 %c
	}