test/CodeGen/WebAssembly/i128.ll - llvm - Git at Google

 ; RUN: llc < %s -asm-verbose=false -disable-wasm-fallthrough-return-opt -wasm-keep-registers | FileCheck %s

 ; Test that basic 128-bit integer operations assemble as expected.

 target datalayout = "e-m:e-p:32:32-i64:64-n32:64-S128"
 target triple = "wasm32-unknown-unknown"

 declare i128 @llvm.ctlz.i128(i128, i1)
 declare i128 @llvm.cttz.i128(i128, i1)
 declare i128 @llvm.ctpop.i128(i128)

 ; CHECK-LABEL: add128:
 ; CHECK-NEXT: .functype add128 (i32, i64, i64, i64, i64) -> (){{$}}
 ; CHECK-NOT:  .result
 ; CHECK:      i64.add
 ; CHECK:      i64.store
 ; CHECK:      i64.add
 ; CHECK:      i64.store
 ; CHECK-NEXT: return{{$}}
 define i128 @add128(i128 %x, i128 %y) {
   %a = add i128 %x, %y
   ret i128 %a
 }

 ; CHECK-LABEL: sub128:
 ; CHECK-NEXT: .functype sub128 (i32, i64, i64, i64, i64) -> (){{$}}
 ; CHECK:      i64.sub
 ; CHECK:      i64.store
 ; CHECK:      i64.sub
 ; CHECK:      i64.store
 ; CHECK-NEXT: return{{$}}
 define i128 @sub128(i128 %x, i128 %y) {
   %a = sub i128 %x, %y
   ret i128 %a
 }

 ; CHECK-LABEL: mul128:
 ; CHECK-NEXT: .functype mul128 (i32, i64, i64, i64, i64) -> (){{$}}
 ; CHECK: call __multi3@FUNCTION, ${{.+}}, ${{.+}}, ${{.+}}, ${{.+}}, ${{.+}}{{$}}
 ; CHECK: return{{$}}
 define i128 @mul128(i128 %x, i128 %y) {
   %a = mul i128 %x, %y
   ret i128 %a
 }

 ; CHECK-LABEL: sdiv128:
 ; CHECK-NEXT: .functype sdiv128 (i32, i64, i64, i64, i64) -> (){{$}}
 ; CHECK: call __divti3@FUNCTION, ${{.+}}, ${{.+}}, ${{.+}}, ${{.+}}, ${{.+}}{{$}}
 ; CHECK: return{{$}}
 define i128 @sdiv128(i128 %x, i128 %y) {
   %a = sdiv i128 %x, %y
   ret i128 %a
 }

 ; CHECK-LABEL: udiv128:
 ; CHECK-NEXT: .functype udiv128 (i32, i64, i64, i64, i64) -> (){{$}}
 ; CHECK: call __udivti3@FUNCTION, ${{.+}}, ${{.+}}, ${{.+}}, ${{.+}}, ${{.+}}{{$}}
 ; CHECK: return{{$}}
 define i128 @udiv128(i128 %x, i128 %y) {
   %a = udiv i128 %x, %y
   ret i128 %a
 }

 ; CHECK-LABEL: srem128:
 ; CHECK-NEXT: .functype srem128 (i32, i64, i64, i64, i64) -> (){{$}}
 ; CHECK: call __modti3@FUNCTION, ${{.+}}, ${{.+}}, ${{.+}}, ${{.+}}, ${{.+}}{{$}}
 ; CHECK: return{{$}}
 define i128 @srem128(i128 %x, i128 %y) {
   %a = srem i128 %x, %y
   ret i128 %a
 }

 ; CHECK-LABEL: urem128:
 ; CHECK-NEXT: .functype urem128 (i32, i64, i64, i64, i64) -> (){{$}}
 ; CHECK: call __umodti3@FUNCTION, ${{.+}}, ${{.+}}, ${{.+}}, ${{.+}}, ${{.+}}{{$}}
 ; CHECK: return{{$}}
 define i128 @urem128(i128 %x, i128 %y) {
   %a = urem i128 %x, %y
   ret i128 %a
 }

 ; CHECK-LABEL: and128:
 ; CHECK-NEXT: .functype and128 (i32, i64, i64, i64, i64) -> (){{$}}
 ; CHECK-NOT:  .result
 ; CHECK:      i64.and
 ; CHECK:      i64.store
 ; CHECK:      i64.and
 ; CHECK:      i64.store
 ; CHECK-NEXT: return{{$}}
 define i128 @and128(i128 %x, i128 %y) {
   %a = and i128 %x, %y
   ret i128 %a
 }

 ; CHECK-LABEL: or128:
 ; CHECK-NEXT: .functype or128 (i32, i64, i64, i64, i64) -> (){{$}}
 ; CHECK:      i64.or
 ; CHECK:      i64.store
 ; CHECK:      i64.or
 ; CHECK:      i64.store
 ; CHECK-NEXT: return{{$}}
 define i128 @or128(i128 %x, i128 %y) {
   %a = or i128 %x, %y
   ret i128 %a
 }

 ; CHECK-LABEL: xor128:
 ; CHECK-NEXT: .functype xor128 (i32, i64, i64, i64, i64) -> (){{$}}
 ; CHECK:      i64.xor
 ; CHECK:      i64.store
 ; CHECK:      i64.xor
 ; CHECK:      i64.store
 ; CHECK-NEXT: return{{$}}
 define i128 @xor128(i128 %x, i128 %y) {
   %a = xor i128 %x, %y
   ret i128 %a
 }

 ; CHECK-LABEL: shl128:
 ; CHECK-NEXT: .functype shl128 (i32, i64, i64, i64, i64) -> (){{$}}
 ; CHECK: call __ashlti3@FUNCTION, ${{.+}}, ${{.+}}, ${{.+}}, ${{.+}}{{$}}
 ; CHECK: return{{$}}
 define i128 @shl128(i128 %x, i128 %y) {
   %a = shl i128 %x, %y
   ret i128 %a
 }

 ; CHECK-LABEL: shr128:
 ; CHECK-NEXT: .functype shr128 (i32, i64, i64, i64, i64) -> (){{$}}
 ; CHECK: call __lshrti3@FUNCTION, ${{.+}}, ${{.+}}, ${{.+}}, ${{.+}}{{$}}
 ; CHECK: return{{$}}
 define i128 @shr128(i128 %x, i128 %y) {
   %a = lshr i128 %x, %y
   ret i128 %a
 }

 ; CHECK-LABEL: sar128:
 ; CHECK-NEXT: .functype sar128 (i32, i64, i64, i64, i64) -> (){{$}}
 ; CHECK: call __ashrti3@FUNCTION, ${{.+}}, ${{.+}}, ${{.+}}, ${{.+}}{{$}}
 ; CHECK: return{{$}}
 define i128 @sar128(i128 %x, i128 %y) {
   %a = ashr i128 %x, %y
   ret i128 %a
 }

 ; CHECK-LABEL: clz128:
 ; CHECK-NEXT: .functype clz128 (i32, i64, i64) -> (){{$}}
 ; CHECK-NOT:  .result
 ; CHECK:      i64.clz
 ; CHECK:      i64.clz
 ; CHECK:      return{{$}}
 define i128 @clz128(i128 %x) {
   %a = call i128 @llvm.ctlz.i128(i128 %x, i1 false)
   ret i128 %a
 }

 ; CHECK-LABEL: clz128_zero_undef:
 ; CHECK-NEXT: .functype clz128_zero_undef (i32, i64, i64) -> (){{$}}
 ; CHECK:      i64.clz
 ; CHECK:      i64.clz
 ; CHECK:      return{{$}}
 define i128 @clz128_zero_undef(i128 %x) {
   %a = call i128 @llvm.ctlz.i128(i128 %x, i1 true)
   ret i128 %a
 }

 ; CHECK-LABEL: ctz128:
 ; CHECK-NEXT: .functype ctz128 (i32, i64, i64) -> (){{$}}
 ; CHECK:      i64.ctz
 ; CHECK:      i64.ctz
 ; CHECK:      return{{$}}
 define i128 @ctz128(i128 %x) {
   %a = call i128 @llvm.cttz.i128(i128 %x, i1 false)
   ret i128 %a
 }

 ; CHECK-LABEL: ctz128_zero_undef:
 ; CHECK-NEXT: .functype ctz128_zero_undef (i32, i64, i64) -> (){{$}}
 ; CHECK:      i64.ctz
 ; CHECK:      i64.ctz
 ; CHECK:      return{{$}}
 define i128 @ctz128_zero_undef(i128 %x) {
   %a = call i128 @llvm.cttz.i128(i128 %x, i1 true)
   ret i128 %a
 }

 ; CHECK-LABEL: popcnt128:
 ; CHECK-NEXT: .functype popcnt128 (i32, i64, i64) -> (){{$}}
 ; CHECK:      i64.popcnt
 ; CHECK:      i64.popcnt
 ; CHECK:      return{{$}}
 define i128 @popcnt128(i128 %x) {
   %a = call i128 @llvm.ctpop.i128(i128 %x)
   ret i128 %a
 }

 ; CHECK-LABEL: eqz128:
 ; CHECK-NEXT: .functype eqz128 (i64, i64) -> (i32){{$}}
 ; CHECK:     i64.or
 ; CHECK:     i64.eqz
 ; CHECK:     return $
 define i32 @eqz128(i128 %x) {
   %a = icmp eq i128 %x, 0
   %b = zext i1 %a to i32
   ret i32 %b
 }

 ; CHECK-LABEL: rotl:
 ; CHECK-NEXT: .functype rotl (i32, i64, i64, i64, i64) -> (){{$}}
 ; CHECK: call __ashlti3@FUNCTION, ${{.+}}, ${{.+}}, ${{.+}}, ${{.+}}{{$}}
 ; CHECK: call __lshrti3@FUNCTION, ${{.+}}, ${{.+}}, ${{.+}}, ${{.+}}{{$}}
 ; CHECK: return{{$}}
 define i128 @rotl(i128 %x, i128 %y) {
   %z = sub i128 128, %y
   %b = shl i128 %x, %y
   %c = lshr i128 %x, %z
   %d = or i128 %b, %c
   ret i128 %d
 }

 ; CHECK-LABEL: masked_rotl:
 ; CHECK-NEXT: .functype masked_rotl (i32, i64, i64, i64, i64) -> (){{$}}
 ; CHECK: call __ashlti3@FUNCTION, ${{.+}}, ${{.+}}, ${{.+}}, ${{.+}}{{$}}
 ; CHECK: call __lshrti3@FUNCTION, ${{.+}}, ${{.+}}, ${{.+}}, ${{.+}}{{$}}
 ; CHECK: return{{$}}
 define i128 @masked_rotl(i128 %x, i128 %y) {
   %a = and i128 %y, 127
   %z = sub i128 128, %a
   %b = shl i128 %x, %a
   %c = lshr i128 %x, %z
   %d = or i128 %b, %c
   ret i128 %d
 }

 ; CHECK-LABEL: rotr:
 ; CHECK-NEXT: .functype rotr (i32, i64, i64, i64, i64) -> (){{$}}
 ; CHECK: call __lshrti3@FUNCTION, ${{.+}}, ${{.+}}, ${{.+}}, ${{.+}}{{$}}
 ; CHECK: call __ashlti3@FUNCTION, ${{.+}}, ${{.+}}, ${{.+}}, ${{.+}}{{$}}
 ; CHECK: return{{$}}
 define i128 @rotr(i128 %x, i128 %y) {
   %z = sub i128 128, %y
   %b = lshr i128 %x, %y
   %c = shl i128 %x, %z
   %d = or i128 %b, %c
   ret i128 %d
 }

 ; CHECK-LABEL: masked_rotr:
 ; CHECK-NEXT: .functype masked_rotr (i32, i64, i64, i64, i64) -> (){{$}}
 ; CHECK: call __lshrti3@FUNCTION, ${{.+}}, ${{.+}}, ${{.+}}, ${{.+}}{{$}}
 ; CHECK: call __ashlti3@FUNCTION, ${{.+}}, ${{.+}}, ${{.+}}, ${{.+}}{{$}}
 ; CHECK: return{{$}}
 define i128 @masked_rotr(i128 %x, i128 %y) {
   %a = and i128 %y, 127
   %z = sub i128 128, %a
   %b = lshr i128 %x, %a
   %c = shl i128 %x, %z
   %d = or i128 %b, %c
   ret i128 %d
 }
	; RUN: llc < %s -asm-verbose=false -disable-wasm-fallthrough-return-opt -wasm-keep-registers \| FileCheck %s

	; Test that basic 128-bit integer operations assemble as expected.

	target datalayout = "e-m:e-p:32:32-i64:64-n32:64-S128"
	target triple = "wasm32-unknown-unknown"

	declare i128 @llvm.ctlz.i128(i128, i1)
	declare i128 @llvm.cttz.i128(i128, i1)
	declare i128 @llvm.ctpop.i128(i128)

	; CHECK-LABEL: add128:
	; CHECK-NEXT: .functype add128 (i32, i64, i64, i64, i64) -> (){{$}}
	; CHECK-NOT: .result
	; CHECK: i64.add
	; CHECK: i64.store
	; CHECK: i64.add
	; CHECK: i64.store
	; CHECK-NEXT: return{{$}}
	define i128 @add128(i128 %x, i128 %y) {
	%a = add i128 %x, %y
	ret i128 %a
	}

	; CHECK-LABEL: sub128:
	; CHECK-NEXT: .functype sub128 (i32, i64, i64, i64, i64) -> (){{$}}
	; CHECK: i64.sub
	; CHECK: i64.store
	; CHECK: i64.sub
	; CHECK: i64.store
	; CHECK-NEXT: return{{$}}
	define i128 @sub128(i128 %x, i128 %y) {
	%a = sub i128 %x, %y
	ret i128 %a
	}

	; CHECK-LABEL: mul128:
	; CHECK-NEXT: .functype mul128 (i32, i64, i64, i64, i64) -> (){{$}}
	; CHECK: call __multi3@FUNCTION, ${{.+}}, ${{.+}}, ${{.+}}, ${{.+}}, ${{.+}}{{$}}
	; CHECK: return{{$}}
	define i128 @mul128(i128 %x, i128 %y) {
	%a = mul i128 %x, %y
	ret i128 %a
	}

	; CHECK-LABEL: sdiv128:
	; CHECK-NEXT: .functype sdiv128 (i32, i64, i64, i64, i64) -> (){{$}}
	; CHECK: call __divti3@FUNCTION, ${{.+}}, ${{.+}}, ${{.+}}, ${{.+}}, ${{.+}}{{$}}
	; CHECK: return{{$}}
	define i128 @sdiv128(i128 %x, i128 %y) {
	%a = sdiv i128 %x, %y
	ret i128 %a
	}

	; CHECK-LABEL: udiv128:
	; CHECK-NEXT: .functype udiv128 (i32, i64, i64, i64, i64) -> (){{$}}
	; CHECK: call __udivti3@FUNCTION, ${{.+}}, ${{.+}}, ${{.+}}, ${{.+}}, ${{.+}}{{$}}
	; CHECK: return{{$}}
	define i128 @udiv128(i128 %x, i128 %y) {
	%a = udiv i128 %x, %y
	ret i128 %a
	}

	; CHECK-LABEL: srem128:
	; CHECK-NEXT: .functype srem128 (i32, i64, i64, i64, i64) -> (){{$}}
	; CHECK: call __modti3@FUNCTION, ${{.+}}, ${{.+}}, ${{.+}}, ${{.+}}, ${{.+}}{{$}}
	; CHECK: return{{$}}
	define i128 @srem128(i128 %x, i128 %y) {
	%a = srem i128 %x, %y
	ret i128 %a
	}

	; CHECK-LABEL: urem128:
	; CHECK-NEXT: .functype urem128 (i32, i64, i64, i64, i64) -> (){{$}}
	; CHECK: call __umodti3@FUNCTION, ${{.+}}, ${{.+}}, ${{.+}}, ${{.+}}, ${{.+}}{{$}}
	; CHECK: return{{$}}
	define i128 @urem128(i128 %x, i128 %y) {
	%a = urem i128 %x, %y
	ret i128 %a
	}

	; CHECK-LABEL: and128:
	; CHECK-NEXT: .functype and128 (i32, i64, i64, i64, i64) -> (){{$}}
	; CHECK-NOT: .result
	; CHECK: i64.and
	; CHECK: i64.store
	; CHECK: i64.and
	; CHECK: i64.store
	; CHECK-NEXT: return{{$}}
	define i128 @and128(i128 %x, i128 %y) {
	%a = and i128 %x, %y
	ret i128 %a
	}

	; CHECK-LABEL: or128:
	; CHECK-NEXT: .functype or128 (i32, i64, i64, i64, i64) -> (){{$}}
	; CHECK: i64.or
	; CHECK: i64.store
	; CHECK: i64.or
	; CHECK: i64.store
	; CHECK-NEXT: return{{$}}
	define i128 @or128(i128 %x, i128 %y) {
	%a = or i128 %x, %y
	ret i128 %a
	}

	; CHECK-LABEL: xor128:
	; CHECK-NEXT: .functype xor128 (i32, i64, i64, i64, i64) -> (){{$}}
	; CHECK: i64.xor
	; CHECK: i64.store
	; CHECK: i64.xor
	; CHECK: i64.store
	; CHECK-NEXT: return{{$}}
	define i128 @xor128(i128 %x, i128 %y) {
	%a = xor i128 %x, %y
	ret i128 %a
	}

	; CHECK-LABEL: shl128:
	; CHECK-NEXT: .functype shl128 (i32, i64, i64, i64, i64) -> (){{$}}
	; CHECK: call __ashlti3@FUNCTION, ${{.+}}, ${{.+}}, ${{.+}}, ${{.+}}{{$}}
	; CHECK: return{{$}}
	define i128 @shl128(i128 %x, i128 %y) {
	%a = shl i128 %x, %y
	ret i128 %a
	}

	; CHECK-LABEL: shr128:
	; CHECK-NEXT: .functype shr128 (i32, i64, i64, i64, i64) -> (){{$}}
	; CHECK: call __lshrti3@FUNCTION, ${{.+}}, ${{.+}}, ${{.+}}, ${{.+}}{{$}}
	; CHECK: return{{$}}
	define i128 @shr128(i128 %x, i128 %y) {
	%a = lshr i128 %x, %y
	ret i128 %a
	}

	; CHECK-LABEL: sar128:
	; CHECK-NEXT: .functype sar128 (i32, i64, i64, i64, i64) -> (){{$}}
	; CHECK: call __ashrti3@FUNCTION, ${{.+}}, ${{.+}}, ${{.+}}, ${{.+}}{{$}}
	; CHECK: return{{$}}
	define i128 @sar128(i128 %x, i128 %y) {
	%a = ashr i128 %x, %y
	ret i128 %a
	}

	; CHECK-LABEL: clz128:
	; CHECK-NEXT: .functype clz128 (i32, i64, i64) -> (){{$}}
	; CHECK-NOT: .result
	; CHECK: i64.clz
	; CHECK: i64.clz
	; CHECK: return{{$}}
	define i128 @clz128(i128 %x) {
	%a = call i128 @llvm.ctlz.i128(i128 %x, i1 false)
	ret i128 %a
	}

	; CHECK-LABEL: clz128_zero_undef:
	; CHECK-NEXT: .functype clz128_zero_undef (i32, i64, i64) -> (){{$}}
	; CHECK: i64.clz
	; CHECK: i64.clz
	; CHECK: return{{$}}
	define i128 @clz128_zero_undef(i128 %x) {
	%a = call i128 @llvm.ctlz.i128(i128 %x, i1 true)
	ret i128 %a
	}

	; CHECK-LABEL: ctz128:
	; CHECK-NEXT: .functype ctz128 (i32, i64, i64) -> (){{$}}
	; CHECK: i64.ctz
	; CHECK: i64.ctz
	; CHECK: return{{$}}
	define i128 @ctz128(i128 %x) {
	%a = call i128 @llvm.cttz.i128(i128 %x, i1 false)
	ret i128 %a
	}

	; CHECK-LABEL: ctz128_zero_undef:
	; CHECK-NEXT: .functype ctz128_zero_undef (i32, i64, i64) -> (){{$}}
	; CHECK: i64.ctz
	; CHECK: i64.ctz
	; CHECK: return{{$}}
	define i128 @ctz128_zero_undef(i128 %x) {
	%a = call i128 @llvm.cttz.i128(i128 %x, i1 true)
	ret i128 %a
	}

	; CHECK-LABEL: popcnt128:
	; CHECK-NEXT: .functype popcnt128 (i32, i64, i64) -> (){{$}}
	; CHECK: i64.popcnt
	; CHECK: i64.popcnt
	; CHECK: return{{$}}
	define i128 @popcnt128(i128 %x) {
	%a = call i128 @llvm.ctpop.i128(i128 %x)
	ret i128 %a
	}

	; CHECK-LABEL: eqz128:
	; CHECK-NEXT: .functype eqz128 (i64, i64) -> (i32){{$}}
	; CHECK: i64.or
	; CHECK: i64.eqz
	; CHECK: return $
	define i32 @eqz128(i128 %x) {
	%a = icmp eq i128 %x, 0
	%b = zext i1 %a to i32
	ret i32 %b
	}

	; CHECK-LABEL: rotl:
	; CHECK-NEXT: .functype rotl (i32, i64, i64, i64, i64) -> (){{$}}
	; CHECK: call __ashlti3@FUNCTION, ${{.+}}, ${{.+}}, ${{.+}}, ${{.+}}{{$}}
	; CHECK: call __lshrti3@FUNCTION, ${{.+}}, ${{.+}}, ${{.+}}, ${{.+}}{{$}}
	; CHECK: return{{$}}
	define i128 @rotl(i128 %x, i128 %y) {
	%z = sub i128 128, %y
	%b = shl i128 %x, %y
	%c = lshr i128 %x, %z
	%d = or i128 %b, %c
	ret i128 %d
	}

	; CHECK-LABEL: masked_rotl:
	; CHECK-NEXT: .functype masked_rotl (i32, i64, i64, i64, i64) -> (){{$}}
	; CHECK: call __ashlti3@FUNCTION, ${{.+}}, ${{.+}}, ${{.+}}, ${{.+}}{{$}}
	; CHECK: call __lshrti3@FUNCTION, ${{.+}}, ${{.+}}, ${{.+}}, ${{.+}}{{$}}
	; CHECK: return{{$}}
	define i128 @masked_rotl(i128 %x, i128 %y) {
	%a = and i128 %y, 127
	%z = sub i128 128, %a
	%b = shl i128 %x, %a
	%c = lshr i128 %x, %z
	%d = or i128 %b, %c
	ret i128 %d
	}

	; CHECK-LABEL: rotr:
	; CHECK-NEXT: .functype rotr (i32, i64, i64, i64, i64) -> (){{$}}
	; CHECK: call __lshrti3@FUNCTION, ${{.+}}, ${{.+}}, ${{.+}}, ${{.+}}{{$}}
	; CHECK: call __ashlti3@FUNCTION, ${{.+}}, ${{.+}}, ${{.+}}, ${{.+}}{{$}}
	; CHECK: return{{$}}
	define i128 @rotr(i128 %x, i128 %y) {
	%z = sub i128 128, %y
	%b = lshr i128 %x, %y
	%c = shl i128 %x, %z
	%d = or i128 %b, %c
	ret i128 %d
	}

	; CHECK-LABEL: masked_rotr:
	; CHECK-NEXT: .functype masked_rotr (i32, i64, i64, i64, i64) -> (){{$}}
	; CHECK: call __lshrti3@FUNCTION, ${{.+}}, ${{.+}}, ${{.+}}, ${{.+}}{{$}}
	; CHECK: call __ashlti3@FUNCTION, ${{.+}}, ${{.+}}, ${{.+}}, ${{.+}}{{$}}
	; CHECK: return{{$}}
	define i128 @masked_rotr(i128 %x, i128 %y) {
	%a = and i128 %y, 127
	%z = sub i128 128, %a
	%b = lshr i128 %x, %a
	%c = shl i128 %x, %z
	%d = or i128 %b, %c
	ret i128 %d
	}