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

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

 ; Test that globals assemble as expected.

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

 ; CHECK-NOT: llvm.used
 ; CHECK-NOT: llvm.metadata
 @llvm.used = appending global [1 x i32*] [i32* @g], section "llvm.metadata"

 ; CHECK: foo:
 ; CHECK: i32.const $push0=, 0{{$}}
 ; CHECK-NEXT: i32.load $push1=, answer($pop0){{$}}
 ; CHECK-NEXT: return $pop1{{$}}
 define i32 @foo() {
   %a = load i32, i32* @answer
   ret i32 %a
 }

 ; CHECK-LABEL: call_memcpy:
 ; CHECK-NEXT: .functype call_memcpy (i32, i32, i32) -> (i32){{$}}
 ; CHECK-NEXT: i32.call        $push0=, memcpy@FUNCTION, $0, $1, $2{{$}}
 ; CHECK-NEXT: return          $pop0{{$}}
 declare void @llvm.memcpy.p0i8.p0i8.i32(i8* nocapture, i8* nocapture readonly, i32, i1)
 define i8* @call_memcpy(i8* %p, i8* nocapture readonly %q, i32 %n) {
   tail call void @llvm.memcpy.p0i8.p0i8.i32(i8* %p, i8* %q, i32 %n, i1 false)
   ret i8* %p
 }

 ; CHECK: .type   .Lg,@object
 ; CHECK: .p2align  2{{$}}
 ; CHECK-NEXT: .Lg:
 ; CHECK-NEXT: .int32 1337{{$}}
 ; CHECK-NEXT: .size .Lg, 4{{$}}
 @g = private global i32 1337

 ; CHECK-LABEL: ud:
 ; CHECK-NEXT: .skip 4{{$}}
 ; CHECK-NEXT: .size ud, 4{{$}}
 @ud = internal global i32 undef

 ; CHECK: .type nil,@object
 ; CHECK: .p2align 2
 ; CHECK: nil:
 ; CHECK: .int32 0
 ; CHECK: .size nil, 4
 @nil = internal global i32 zeroinitializer

 ; CHECK: .type z,@object
 ; CHECK: .p2align 2
 ; CHECK: z:
 ; CHECK: .int32 0
 ; CHECK: .size z, 4
 @z = internal global i32 0

 ; CHECK: .type one,@object
 ; CHECK: .p2align 2{{$}}
 ; CHECK-NEXT: one:
 ; CHECK-NEXT: .int32 1{{$}}
 ; CHECK-NEXT: .size one, 4{{$}}
 @one = internal global i32 1

 ; CHECK: .type answer,@object
 ; CHECK: .p2align 2{{$}}
 ; CHECK-NEXT: answer:
 ; CHECK-NEXT: .int32 42{{$}}
 ; CHECK-NEXT: .size answer, 4{{$}}
 @answer = internal global i32 42

 ; CHECK: .type u32max,@object
 ; CHECK: .p2align 2{{$}}
 ; CHECK-NEXT: u32max:
 ; CHECK-NEXT: .int32 4294967295{{$}}
 ; CHECK-NEXT: .size u32max, 4{{$}}
 @u32max = internal global i32 -1

 ; CHECK: .type ud64,@object
 ; CHECK: .p2align 3{{$}}
 ; CHECK-NEXT: ud64:
 ; CHECK-NEXT: .skip 8{{$}}
 ; CHECK-NEXT: .size ud64, 8{{$}}
 @ud64 = internal global i64 undef

 ; CHECK: .type nil64,@object
 ; CHECK: .p2align 3{{$}}
 ; CHECK-NEXT: nil64:
 ; CHECK-NEXT: .int64 0{{$}}
 ; CHECK-NEXT: .size nil64, 8{{$}}
 @nil64 = internal global i64 zeroinitializer

 ; CHECK: .type z64,@object
 ; CHECK: .p2align 3{{$}}
 ; CHECK-NEXT: z64:
 ; CHECK-NEXT: .int64 0{{$}}
 ; CHECK-NEXT: .size z64, 8{{$}}
 @z64 = internal global i64 0

 ; CHECK: .type twoP32,@object
 ; CHECK: .p2align 3{{$}}
 ; CHECK-NEXT: twoP32:
 ; CHECK-NEXT: .int64 4294967296{{$}}
 ; CHECK-NEXT: .size twoP32, 8{{$}}
 @twoP32 = internal global i64 4294967296

 ; CHECK: .type u64max,@object
 ; CHECK: .p2align 3{{$}}
 ; CHECK-NEXT: u64max:
 ; CHECK-NEXT: .int64 -1{{$}}
 ; CHECK-NEXT: .size u64max, 8{{$}}
 @u64max = internal global i64 -1

 ; CHECK: .type f32ud,@object
 ; CHECK: .p2align 2{{$}}
 ; CHECK-NEXT: f32ud:
 ; CHECK-NEXT: .skip 4{{$}}
 ; CHECK-NEXT: .size f32ud, 4{{$}}
 @f32ud = internal global float undef

 ; CHECK: .type f32nil,@object
 ; CHECK: .p2align 2{{$}}
 ; CHECK-NEXT: f32nil:
 ; CHECK-NEXT: .int32 0{{$}}
 ; CHECK-NEXT: .size f32nil, 4{{$}}
 @f32nil = internal global float zeroinitializer

 ; CHECK: .type f32z,@object
 ; CHECK: .p2align 2{{$}}
 ; CHECK-NEXT: f32z:
 ; CHECK-NEXT: .int32 0{{$}}
 ; CHECK-NEXT: .size f32z, 4{{$}}
 @f32z = internal global float 0.0

 ; CHECK: .type f32nz,@object
 ; CHECK: .p2align 2{{$}}
 ; CHECK: f32nz:
 ; CHECK: .int32 2147483648{{$}}
 ; CHECK: .size f32nz, 4{{$}}
 @f32nz = internal global float -0.0

 ; CHECK: .type f32two,@object
 ; CHECK: .p2align 2{{$}}
 ; CHECK-NEXT: f32two:
 ; CHECK-NEXT: .int32 1073741824{{$}}
 ; CHECK-NEXT: .size f32two, 4{{$}}
 @f32two = internal global float 2.0

 ; CHECK: .type f64ud,@object
 ; CHECK: .p2align 3{{$}}
 ; CHECK-NEXT: f64ud:
 ; CHECK-NEXT: .skip 8{{$}}
 ; CHECK-NEXT: .size f64ud, 8{{$}}
 @f64ud = internal global double undef

 ; CHECK: .type f64nil,@object
 ; CHECK: .p2align 3{{$}}
 ; CHECK-NEXT: f64nil:
 ; CHECK-NEXT: .int64 0{{$}}
 ; CHECK-NEXT: .size f64nil, 8{{$}}
 @f64nil = internal global double zeroinitializer

 ; CHECK: .type f64z,@object
 ; CHECK: .p2align 3{{$}}
 ; CHECK-NEXT: f64z:
 ; CHECK-NEXT: .int64 0{{$}}
 ; CHECK-NEXT: .size f64z, 8{{$}}
 @f64z = internal global double 0.0

 ; CHECK: .type f64nz,@object
 ; CHECK: .p2align 3{{$}}
 ; CHECK-NEXT: f64nz:
 ; CHECK-NEXT: .int64 -9223372036854775808{{$}}
 ; CHECK-NEXT: .size f64nz, 8{{$}}
 @f64nz = internal global double -0.0

 ; CHECK: .type f64two,@object
 ; CHECK: .p2align 3{{$}}
 ; CHECK-NEXT: f64two:
 ; CHECK-NEXT: .int64 4611686018427387904{{$}}
 ; CHECK-NEXT: .size f64two, 8{{$}}
 @f64two = internal global double 2.0

 ; Indexing into a global array produces a relocation.
 ; CHECK:      .type arr,@object
 ; CHECK:      .type ptr,@object
 ; CHECK:      ptr:
 ; CHECK-NEXT: .int32 arr+80
 ; CHECK-NEXT: .size ptr, 4
 @arr = global [128 x i32] zeroinitializer, align 16
 @ptr = global i32* getelementptr inbounds ([128 x i32], [128 x i32]* @arr, i32 0, i32 20), align 4

 ; Constant global.
 ; CHECK: .type    rom,@object{{$}}
 ; CHECK: .section .rodata.rom,
 ; CHECK: .globl   rom{{$}}
 ; CHECK: .p2align   4{{$}}
 ; CHECK: rom:
 ; CHECK: .skip    512{{$}}
 ; CHECK: .size    rom, 512{{$}}
 @rom = constant [128 x i32] zeroinitializer, align 16

 ; CHECK: .type       array,@object
 ; CHECK: array:
 ; CHECK-NEXT: .skip       8
 ; CHECK-NEXT: .size       array, 8
 ; CHECK: .type       pointer_to_array,@object
 ; CHECK-NEXT: .section    .rodata.pointer_to_array,
 ; CHECK-NEXT: .globl      pointer_to_array
 ; CHECK-NEXT: .p2align      2
 ; CHECK-NEXT: pointer_to_array:
 ; CHECK-NEXT: .int32      array+4
 ; CHECK-NEXT: .size       pointer_to_array, 4
 @array = internal constant [8 x i8] zeroinitializer, align 1
 @pointer_to_array = constant i8* getelementptr inbounds ([8 x i8], [8 x i8]* @array, i32 0, i32 4), align 4

 ; Handle external objects with opaque type.
 %struct.ASTRUCT = type opaque
 @g_struct = external global %struct.ASTRUCT, align 1
 define i32 @address_of_opaque()  {
   ret i32 ptrtoint (%struct.ASTRUCT* @g_struct to i32)
 }
	; RUN: llc < %s -asm-verbose=false -disable-wasm-fallthrough-return-opt -wasm-disable-explicit-locals -wasm-keep-registers \| FileCheck %s

	; Test that globals assemble as expected.

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

	; CHECK-NOT: llvm.used
	; CHECK-NOT: llvm.metadata
	@llvm.used = appending global [1 x i32] [i32 @g], section "llvm.metadata"

	; CHECK: foo:
	; CHECK: i32.const $push0=, 0{{$}}
	; CHECK-NEXT: i32.load $push1=, answer($pop0){{$}}
	; CHECK-NEXT: return $pop1{{$}}
	define i32 @foo() {
	%a = load i32, i32* @answer
	ret i32 %a
	}

	; CHECK-LABEL: call_memcpy:
	; CHECK-NEXT: .functype call_memcpy (i32, i32, i32) -> (i32){{$}}
	; CHECK-NEXT: i32.call $push0=, memcpy@FUNCTION, $0, $1, $2{{$}}
	; CHECK-NEXT: return $pop0{{$}}
	declare void @llvm.memcpy.p0i8.p0i8.i32(i8* nocapture, i8* nocapture readonly, i32, i1)
	define i8* @call_memcpy(i8* %p, i8* nocapture readonly %q, i32 %n) {
	tail call void @llvm.memcpy.p0i8.p0i8.i32(i8* %p, i8* %q, i32 %n, i1 false)
	ret i8* %p
	}

	; CHECK: .type .Lg,@object
	; CHECK: .p2align 2{{$}}
	; CHECK-NEXT: .Lg:
	; CHECK-NEXT: .int32 1337{{$}}
	; CHECK-NEXT: .size .Lg, 4{{$}}
	@g = private global i32 1337

	; CHECK-LABEL: ud:
	; CHECK-NEXT: .skip 4{{$}}
	; CHECK-NEXT: .size ud, 4{{$}}
	@ud = internal global i32 undef

	; CHECK: .type nil,@object
	; CHECK: .p2align 2
	; CHECK: nil:
	; CHECK: .int32 0
	; CHECK: .size nil, 4
	@nil = internal global i32 zeroinitializer

	; CHECK: .type z,@object
	; CHECK: .p2align 2
	; CHECK: z:
	; CHECK: .int32 0
	; CHECK: .size z, 4
	@z = internal global i32 0

	; CHECK: .type one,@object
	; CHECK: .p2align 2{{$}}
	; CHECK-NEXT: one:
	; CHECK-NEXT: .int32 1{{$}}
	; CHECK-NEXT: .size one, 4{{$}}
	@one = internal global i32 1

	; CHECK: .type answer,@object
	; CHECK: .p2align 2{{$}}
	; CHECK-NEXT: answer:
	; CHECK-NEXT: .int32 42{{$}}
	; CHECK-NEXT: .size answer, 4{{$}}
	@answer = internal global i32 42

	; CHECK: .type u32max,@object
	; CHECK: .p2align 2{{$}}
	; CHECK-NEXT: u32max:
	; CHECK-NEXT: .int32 4294967295{{$}}
	; CHECK-NEXT: .size u32max, 4{{$}}
	@u32max = internal global i32 -1

	; CHECK: .type ud64,@object
	; CHECK: .p2align 3{{$}}
	; CHECK-NEXT: ud64:
	; CHECK-NEXT: .skip 8{{$}}
	; CHECK-NEXT: .size ud64, 8{{$}}
	@ud64 = internal global i64 undef

	; CHECK: .type nil64,@object
	; CHECK: .p2align 3{{$}}
	; CHECK-NEXT: nil64:
	; CHECK-NEXT: .int64 0{{$}}
	; CHECK-NEXT: .size nil64, 8{{$}}
	@nil64 = internal global i64 zeroinitializer

	; CHECK: .type z64,@object
	; CHECK: .p2align 3{{$}}
	; CHECK-NEXT: z64:
	; CHECK-NEXT: .int64 0{{$}}
	; CHECK-NEXT: .size z64, 8{{$}}
	@z64 = internal global i64 0

	; CHECK: .type twoP32,@object
	; CHECK: .p2align 3{{$}}
	; CHECK-NEXT: twoP32:
	; CHECK-NEXT: .int64 4294967296{{$}}
	; CHECK-NEXT: .size twoP32, 8{{$}}
	@twoP32 = internal global i64 4294967296

	; CHECK: .type u64max,@object
	; CHECK: .p2align 3{{$}}
	; CHECK-NEXT: u64max:
	; CHECK-NEXT: .int64 -1{{$}}
	; CHECK-NEXT: .size u64max, 8{{$}}
	@u64max = internal global i64 -1

	; CHECK: .type f32ud,@object
	; CHECK: .p2align 2{{$}}
	; CHECK-NEXT: f32ud:
	; CHECK-NEXT: .skip 4{{$}}
	; CHECK-NEXT: .size f32ud, 4{{$}}
	@f32ud = internal global float undef

	; CHECK: .type f32nil,@object
	; CHECK: .p2align 2{{$}}
	; CHECK-NEXT: f32nil:
	; CHECK-NEXT: .int32 0{{$}}
	; CHECK-NEXT: .size f32nil, 4{{$}}
	@f32nil = internal global float zeroinitializer

	; CHECK: .type f32z,@object
	; CHECK: .p2align 2{{$}}
	; CHECK-NEXT: f32z:
	; CHECK-NEXT: .int32 0{{$}}
	; CHECK-NEXT: .size f32z, 4{{$}}
	@f32z = internal global float 0.0

	; CHECK: .type f32nz,@object
	; CHECK: .p2align 2{{$}}
	; CHECK: f32nz:
	; CHECK: .int32 2147483648{{$}}
	; CHECK: .size f32nz, 4{{$}}
	@f32nz = internal global float -0.0

	; CHECK: .type f32two,@object
	; CHECK: .p2align 2{{$}}
	; CHECK-NEXT: f32two:
	; CHECK-NEXT: .int32 1073741824{{$}}
	; CHECK-NEXT: .size f32two, 4{{$}}
	@f32two = internal global float 2.0

	; CHECK: .type f64ud,@object
	; CHECK: .p2align 3{{$}}
	; CHECK-NEXT: f64ud:
	; CHECK-NEXT: .skip 8{{$}}
	; CHECK-NEXT: .size f64ud, 8{{$}}
	@f64ud = internal global double undef

	; CHECK: .type f64nil,@object
	; CHECK: .p2align 3{{$}}
	; CHECK-NEXT: f64nil:
	; CHECK-NEXT: .int64 0{{$}}
	; CHECK-NEXT: .size f64nil, 8{{$}}
	@f64nil = internal global double zeroinitializer

	; CHECK: .type f64z,@object
	; CHECK: .p2align 3{{$}}
	; CHECK-NEXT: f64z:
	; CHECK-NEXT: .int64 0{{$}}
	; CHECK-NEXT: .size f64z, 8{{$}}
	@f64z = internal global double 0.0

	; CHECK: .type f64nz,@object
	; CHECK: .p2align 3{{$}}
	; CHECK-NEXT: f64nz:
	; CHECK-NEXT: .int64 -9223372036854775808{{$}}
	; CHECK-NEXT: .size f64nz, 8{{$}}
	@f64nz = internal global double -0.0

	; CHECK: .type f64two,@object
	; CHECK: .p2align 3{{$}}
	; CHECK-NEXT: f64two:
	; CHECK-NEXT: .int64 4611686018427387904{{$}}
	; CHECK-NEXT: .size f64two, 8{{$}}
	@f64two = internal global double 2.0

	; Indexing into a global array produces a relocation.
	; CHECK: .type arr,@object
	; CHECK: .type ptr,@object
	; CHECK: ptr:
	; CHECK-NEXT: .int32 arr+80
	; CHECK-NEXT: .size ptr, 4
	@arr = global [128 x i32] zeroinitializer, align 16
	@ptr = global i32* getelementptr inbounds ([128 x i32], [128 x i32]* @arr, i32 0, i32 20), align 4

	; Constant global.
	; CHECK: .type rom,@object{{$}}
	; CHECK: .section .rodata.rom,
	; CHECK: .globl rom{{$}}
	; CHECK: .p2align 4{{$}}
	; CHECK: rom:
	; CHECK: .skip 512{{$}}
	; CHECK: .size rom, 512{{$}}
	@rom = constant [128 x i32] zeroinitializer, align 16

	; CHECK: .type array,@object
	; CHECK: array:
	; CHECK-NEXT: .skip 8
	; CHECK-NEXT: .size array, 8
	; CHECK: .type pointer_to_array,@object
	; CHECK-NEXT: .section .rodata.pointer_to_array,
	; CHECK-NEXT: .globl pointer_to_array
	; CHECK-NEXT: .p2align 2
	; CHECK-NEXT: pointer_to_array:
	; CHECK-NEXT: .int32 array+4
	; CHECK-NEXT: .size pointer_to_array, 4
	@array = internal constant [8 x i8] zeroinitializer, align 1
	@pointer_to_array = constant i8* getelementptr inbounds ([8 x i8], [8 x i8]* @array, i32 0, i32 4), align 4

	; Handle external objects with opaque type.
	%struct.ASTRUCT = type opaque
	@g_struct = external global %struct.ASTRUCT, align 1
	define i32 @address_of_opaque() {
	ret i32 ptrtoint (%struct.ASTRUCT* @g_struct to i32)
	}