llvm-project/clang/test/CodeGen/builtins-wasm.c

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// RUN: %clang_cc1 -triple wasm32-unknown-unknown -target-feature +unimplemented-simd128 -target-feature +nontrapping-fptoint -target-feature +exception-handling -target-feature +bulk-memory -fno-lax-vector-conversions -O3 -emit-llvm -o - %s | FileCheck %s -check-prefixes WEBASSEMBLY,WEBASSEMBLY32
// RUN: %clang_cc1 -triple wasm64-unknown-unknown -target-feature +unimplemented-simd128 -target-feature +nontrapping-fptoint -target-feature +exception-handling -target-feature +bulk-memory -fno-lax-vector-conversions -O3 -emit-llvm -o - %s | FileCheck %s -check-prefixes WEBASSEMBLY,WEBASSEMBLY64
// RUN: not %clang_cc1 -triple wasm64-unknown-unknown -target-feature +nontrapping-fptoint -target-feature +exception-handling -target-feature +bulk-memory -fno-lax-vector-conversions -O3 -emit-llvm -o - %s 2>&1 | FileCheck %s -check-prefixes MISSING-SIMD
// SIMD convenience types
typedef char i8x16 __attribute((vector_size(16)));
typedef short i16x8 __attribute((vector_size(16)));
typedef int i32x4 __attribute((vector_size(16)));
typedef long long i64x2 __attribute((vector_size(16)));
typedef unsigned char u8x16 __attribute((vector_size(16)));
typedef unsigned short u16x8 __attribute((vector_size(16)));
typedef unsigned int u32x4 __attribute((vector_size(16)));
typedef unsigned long long u64x2 __attribute((vector_size(16)));
typedef float f32x4 __attribute((vector_size(16)));
typedef double f64x2 __attribute((vector_size(16)));
__SIZE_TYPE__ memory_size(void) {
return __builtin_wasm_memory_size(0);
// WEBASSEMBLY32: call {{i.*}} @llvm.wasm.memory.size.i32(i32 0)
// WEBASSEMBLY64: call {{i.*}} @llvm.wasm.memory.size.i64(i32 0)
}
__SIZE_TYPE__ memory_grow(__SIZE_TYPE__ delta) {
return __builtin_wasm_memory_grow(0, delta);
// WEBASSEMBLY32: call i32 @llvm.wasm.memory.grow.i32(i32 0, i32 %{{.*}})
// WEBASSEMBLY64: call i64 @llvm.wasm.memory.grow.i64(i32 0, i64 %{{.*}})
}
void memory_init(void *dest, int offset, int size) {
__builtin_wasm_memory_init(3, 0, dest, offset, size);
// WEBASSEMBLY32: call void @llvm.wasm.memory.init(i32 3, i32 0, i8* %{{.*}}, i32 %{{.*}}, i32 %{{.*}})
// WEBASSEMBLY64: call void @llvm.wasm.memory.init(i32 3, i32 0, i8* %{{.*}}, i32 %{{.*}}, i32 %{{.*}})
}
void data_drop() {
__builtin_wasm_data_drop(3);
// WEBASSEMBLY32: call void @llvm.wasm.data.drop(i32 3)
// WEBASSEMBLY64: call void @llvm.wasm.data.drop(i32 3)
}
void throw(void *obj) {
return __builtin_wasm_throw(0, obj);
// WEBASSEMBLY32: call void @llvm.wasm.throw(i32 0, i8* %{{.*}})
// WEBASSEMBLY64: call void @llvm.wasm.throw(i32 0, i8* %{{.*}})
}
void rethrow_in_catch(void) {
return __builtin_wasm_rethrow_in_catch();
// WEBASSEMBLY32: call void @llvm.wasm.rethrow.in.catch()
// WEBASSEMBLY64: call void @llvm.wasm.rethrow.in.catch()
}
int atomic_wait_i32(int *addr, int expected, long long timeout) {
return __builtin_wasm_atomic_wait_i32(addr, expected, timeout);
// WEBASSEMBLY32: call i32 @llvm.wasm.atomic.wait.i32(i32* %{{.*}}, i32 %{{.*}}, i64 %{{.*}})
// WEBASSEMBLY64: call i32 @llvm.wasm.atomic.wait.i32(i32* %{{.*}}, i32 %{{.*}}, i64 %{{.*}})
}
int atomic_wait_i64(long long *addr, long long expected, long long timeout) {
return __builtin_wasm_atomic_wait_i64(addr, expected, timeout);
// WEBASSEMBLY32: call i32 @llvm.wasm.atomic.wait.i64(i64* %{{.*}}, i64 %{{.*}}, i64 %{{.*}})
// WEBASSEMBLY64: call i32 @llvm.wasm.atomic.wait.i64(i64* %{{.*}}, i64 %{{.*}}, i64 %{{.*}})
}
unsigned int atomic_notify(int *addr, unsigned int count) {
return __builtin_wasm_atomic_notify(addr, count);
// WEBASSEMBLY32: call i32 @llvm.wasm.atomic.notify(i32* %{{.*}}, i32 %{{.*}})
// WEBASSEMBLY64: call i32 @llvm.wasm.atomic.notify(i32* %{{.*}}, i32 %{{.*}})
}
int trunc_saturate_s_i32_f32(float f) {
return __builtin_wasm_trunc_saturate_s_i32_f32(f);
// WEBASSEMBLY: call i32 @llvm.wasm.trunc.saturate.signed.i32.f32(float %f)
// WEBASSEMBLY-NEXT: ret
}
int trunc_saturate_u_i32_f32(float f) {
return __builtin_wasm_trunc_saturate_u_i32_f32(f);
// WEBASSEMBLY: call i32 @llvm.wasm.trunc.saturate.unsigned.i32.f32(float %f)
// WEBASSEMBLY-NEXT: ret
}
int trunc_saturate_s_i32_f64(double f) {
return __builtin_wasm_trunc_saturate_s_i32_f64(f);
// WEBASSEMBLY: call i32 @llvm.wasm.trunc.saturate.signed.i32.f64(double %f)
// WEBASSEMBLY-NEXT: ret
}
int trunc_saturate_u_i32_f64(double f) {
return __builtin_wasm_trunc_saturate_u_i32_f64(f);
// WEBASSEMBLY: call i32 @llvm.wasm.trunc.saturate.unsigned.i32.f64(double %f)
// WEBASSEMBLY-NEXT: ret
}
long long trunc_saturate_s_i64_f32(float f) {
return __builtin_wasm_trunc_saturate_s_i64_f32(f);
// WEBASSEMBLY: call i64 @llvm.wasm.trunc.saturate.signed.i64.f32(float %f)
// WEBASSEMBLY-NEXT: ret
}
long long trunc_saturate_u_i64_f32(float f) {
return __builtin_wasm_trunc_saturate_u_i64_f32(f);
// WEBASSEMBLY: call i64 @llvm.wasm.trunc.saturate.unsigned.i64.f32(float %f)
// WEBASSEMBLY-NEXT: ret
}
long long trunc_saturate_s_i64_f64(double f) {
return __builtin_wasm_trunc_saturate_s_i64_f64(f);
// WEBASSEMBLY: call i64 @llvm.wasm.trunc.saturate.signed.i64.f64(double %f)
// WEBASSEMBLY-NEXT: ret
}
long long trunc_saturate_u_i64_f64(double f) {
return __builtin_wasm_trunc_saturate_u_i64_f64(f);
// WEBASSEMBLY: call i64 @llvm.wasm.trunc.saturate.unsigned.i64.f64(double %f)
// WEBASSEMBLY-NEXT: ret
}
float min_f32(float x, float y) {
return __builtin_wasm_min_f32(x, y);
// WEBASSEMBLY: call float @llvm.minimum.f32(float %x, float %y)
// WEBASSEMBLY-NEXT: ret
}
float max_f32(float x, float y) {
return __builtin_wasm_max_f32(x, y);
// WEBASSEMBLY: call float @llvm.maximum.f32(float %x, float %y)
// WEBASSEMBLY-NEXT: ret
}
double min_f64(double x, double y) {
return __builtin_wasm_min_f64(x, y);
// WEBASSEMBLY: call double @llvm.minimum.f64(double %x, double %y)
// WEBASSEMBLY-NEXT: ret
}
double max_f64(double x, double y) {
return __builtin_wasm_max_f64(x, y);
// WEBASSEMBLY: call double @llvm.maximum.f64(double %x, double %y)
// WEBASSEMBLY-NEXT: ret
}
int extract_lane_s_i8x16(i8x16 v) {
return __builtin_wasm_extract_lane_s_i8x16(v, 13);
// MISSING-SIMD: error: '__builtin_wasm_extract_lane_s_i8x16' needs target feature simd128
// WEBASSEMBLY: extractelement <16 x i8> %v, i32 13
// WEBASSEMBLY-NEXT: sext
// WEBASSEMBLY-NEXT: ret
}
int extract_lane_u_i8x16(i8x16 v) {
return __builtin_wasm_extract_lane_u_i8x16(v, 13);
// WEBASSEMBLY: extractelement <16 x i8> %v, i32 13
// WEBASSEMBLY-NEXT: zext
// WEBASSEMBLY-NEXT: ret
}
int extract_lane_s_i16x8(i16x8 v) {
return __builtin_wasm_extract_lane_s_i16x8(v, 7);
// WEBASSEMBLY: extractelement <8 x i16> %v, i32 7
// WEBASSEMBLY-NEXT: sext
// WEBASSEMBLY-NEXT: ret
}
int extract_lane_u_i16x8(i16x8 v) {
return __builtin_wasm_extract_lane_u_i16x8(v, 7);
// WEBASSEMBLY: extractelement <8 x i16> %v, i32 7
// WEBASSEMBLY-NEXT: zext
// WEBASSEMBLY-NEXT: ret
}
int extract_lane_i32x4(i32x4 v) {
return __builtin_wasm_extract_lane_i32x4(v, 3);
// WEBASSEMBLY: extractelement <4 x i32> %v, i32 3
// WEBASSEMBLY-NEXT: ret
}
long long extract_lane_i64x2(i64x2 v) {
return __builtin_wasm_extract_lane_i64x2(v, 1);
// WEBASSEMBLY: extractelement <2 x i64> %v, i32 1
// WEBASSEMBLY-NEXT: ret
}
float extract_lane_f32x4(f32x4 v) {
return __builtin_wasm_extract_lane_f32x4(v, 3);
// WEBASSEMBLY: extractelement <4 x float> %v, i32 3
// WEBASSEMBLY-NEXT: ret
}
double extract_lane_f64x2(f64x2 v) {
return __builtin_wasm_extract_lane_f64x2(v, 1);
// WEBASSEMBLY: extractelement <2 x double> %v, i32 1
// WEBASSEMBLY-NEXT: ret
}
i8x16 replace_lane_i8x16(i8x16 v, int x) {
return __builtin_wasm_replace_lane_i8x16(v, 13, x);
// WEBASSEMBLY: trunc i32 %x to i8
// WEBASSEMBLY-NEXT: insertelement <16 x i8> %v, i8 %{{.*}}, i32 13
// WEBASSEMBLY-NEXT: ret
}
i16x8 replace_lane_i16x8(i16x8 v, int x) {
return __builtin_wasm_replace_lane_i16x8(v, 7, x);
// WEBASSEMBLY: trunc i32 %x to i16
// WEBASSEMBLY-NEXT: insertelement <8 x i16> %v, i16 %{{.*}}, i32 7
// WEBASSEMBLY-NEXT: ret
}
i32x4 replace_lane_i32x4(i32x4 v, int x) {
return __builtin_wasm_replace_lane_i32x4(v, 3, x);
// WEBASSEMBLY: insertelement <4 x i32> %v, i32 %x, i32 3
// WEBASSEMBLY-NEXT: ret
}
i64x2 replace_lane_i64x2(i64x2 v, long long x) {
return __builtin_wasm_replace_lane_i64x2(v, 1, x);
// WEBASSEMBLY: insertelement <2 x i64> %v, i64 %x, i32 1
// WEBASSEMBLY-NEXT: ret
}
f32x4 replace_lane_f32x4(f32x4 v, float x) {
return __builtin_wasm_replace_lane_f32x4(v, 3, x);
// WEBASSEMBLY: insertelement <4 x float> %v, float %x, i32 3
// WEBASSEMBLY-NEXT: ret
}
f64x2 replace_lane_f64x2(f64x2 v, double x) {
return __builtin_wasm_replace_lane_f64x2(v, 1, x);
// WEBASSEMBLY: insertelement <2 x double> %v, double %x, i32 1
// WEBASSEMBLY-NEXT: ret
}
i8x16 add_saturate_s_i8x16(i8x16 x, i8x16 y) {
return __builtin_wasm_add_saturate_s_i8x16(x, y);
// WEBASSEMBLY: call <16 x i8> @llvm.sadd.sat.v16i8(
// WEBASSEMBLY-SAME: <16 x i8> %x, <16 x i8> %y)
// WEBASSEMBLY-NEXT: ret
}
i8x16 add_saturate_u_i8x16(i8x16 x, i8x16 y) {
return __builtin_wasm_add_saturate_u_i8x16(x, y);
// WEBASSEMBLY: call <16 x i8> @llvm.uadd.sat.v16i8(
// WEBASSEMBLY-SAME: <16 x i8> %x, <16 x i8> %y)
// WEBASSEMBLY-NEXT: ret
}
i16x8 add_saturate_s_i16x8(i16x8 x, i16x8 y) {
return __builtin_wasm_add_saturate_s_i16x8(x, y);
// WEBASSEMBLY: call <8 x i16> @llvm.sadd.sat.v8i16(
// WEBASSEMBLY-SAME: <8 x i16> %x, <8 x i16> %y)
// WEBASSEMBLY-NEXT: ret
}
i16x8 add_saturate_u_i16x8(i16x8 x, i16x8 y) {
return __builtin_wasm_add_saturate_u_i16x8(x, y);
// WEBASSEMBLY: call <8 x i16> @llvm.uadd.sat.v8i16(
// WEBASSEMBLY-SAME: <8 x i16> %x, <8 x i16> %y)
// WEBASSEMBLY-NEXT: ret
}
i8x16 sub_saturate_s_i8x16(i8x16 x, i8x16 y) {
return __builtin_wasm_sub_saturate_s_i8x16(x, y);
// WEBASSEMBLY: call <16 x i8> @llvm.wasm.sub.saturate.signed.v16i8(
// WEBASSEMBLY-SAME: <16 x i8> %x, <16 x i8> %y)
// WEBASSEMBLY-NEXT: ret
}
i8x16 sub_saturate_u_i8x16(i8x16 x, i8x16 y) {
return __builtin_wasm_sub_saturate_u_i8x16(x, y);
// WEBASSEMBLY: call <16 x i8> @llvm.wasm.sub.saturate.unsigned.v16i8(
// WEBASSEMBLY-SAME: <16 x i8> %x, <16 x i8> %y)
// WEBASSEMBLY-NEXT: ret
}
i16x8 sub_saturate_s_i16x8(i16x8 x, i16x8 y) {
return __builtin_wasm_sub_saturate_s_i16x8(x, y);
// WEBASSEMBLY: call <8 x i16> @llvm.wasm.sub.saturate.signed.v8i16(
// WEBASSEMBLY-SAME: <8 x i16> %x, <8 x i16> %y)
// WEBASSEMBLY-NEXT: ret
}
i16x8 sub_saturate_u_i16x8(i16x8 x, i16x8 y) {
return __builtin_wasm_sub_saturate_u_i16x8(x, y);
// WEBASSEMBLY: call <8 x i16> @llvm.wasm.sub.saturate.unsigned.v8i16(
// WEBASSEMBLY-SAME: <8 x i16> %x, <8 x i16> %y)
// WEBASSEMBLY-NEXT: ret
}
i32x4 bitselect(i32x4 x, i32x4 y, i32x4 c) {
return __builtin_wasm_bitselect(x, y, c);
// WEBASSEMBLY: call <4 x i32> @llvm.wasm.bitselect.v4i32(
// WEBASSEMBLY-SAME: <4 x i32> %x, <4 x i32> %y, <4 x i32> %c)
// WEBASSEMBLY-NEXT: ret
}
int any_true_i8x16(i8x16 x) {
return __builtin_wasm_any_true_i8x16(x);
// WEBASSEMBLY: call i32 @llvm.wasm.anytrue.v16i8(<16 x i8> %x)
// WEBASSEMBLY: ret
}
int any_true_i16x8(i16x8 x) {
return __builtin_wasm_any_true_i16x8(x);
// WEBASSEMBLY: call i32 @llvm.wasm.anytrue.v8i16(<8 x i16> %x)
// WEBASSEMBLY: ret
}
int any_true_i32x4(i32x4 x) {
return __builtin_wasm_any_true_i32x4(x);
// WEBASSEMBLY: call i32 @llvm.wasm.anytrue.v4i32(<4 x i32> %x)
// WEBASSEMBLY: ret
}
int any_true_i64x2(i64x2 x) {
return __builtin_wasm_any_true_i64x2(x);
// WEBASSEMBLY: call i32 @llvm.wasm.anytrue.v2i64(<2 x i64> %x)
// WEBASSEMBLY: ret
}
int all_true_i8x16(i8x16 x) {
return __builtin_wasm_all_true_i8x16(x);
// WEBASSEMBLY: call i32 @llvm.wasm.alltrue.v16i8(<16 x i8> %x)
// WEBASSEMBLY: ret
}
int all_true_i16x8(i16x8 x) {
return __builtin_wasm_all_true_i16x8(x);
// WEBASSEMBLY: call i32 @llvm.wasm.alltrue.v8i16(<8 x i16> %x)
// WEBASSEMBLY: ret
}
int all_true_i32x4(i32x4 x) {
return __builtin_wasm_all_true_i32x4(x);
// WEBASSEMBLY: call i32 @llvm.wasm.alltrue.v4i32(<4 x i32> %x)
// WEBASSEMBLY: ret
}
int all_true_i64x2(i64x2 x) {
return __builtin_wasm_all_true_i64x2(x);
// WEBASSEMBLY: call i32 @llvm.wasm.alltrue.v2i64(<2 x i64> %x)
// WEBASSEMBLY: ret
}
f32x4 abs_f32x4(f32x4 x) {
return __builtin_wasm_abs_f32x4(x);
// WEBASSEMBLY: call <4 x float> @llvm.fabs.v4f32(<4 x float> %x)
// WEBASSEMBLY: ret
}
f64x2 abs_f64x2(f64x2 x) {
return __builtin_wasm_abs_f64x2(x);
// WEBASSEMBLY: call <2 x double> @llvm.fabs.v2f64(<2 x double> %x)
// WEBASSEMBLY: ret
}
f32x4 min_f32x4(f32x4 x, f32x4 y) {
return __builtin_wasm_min_f32x4(x, y);
// WEBASSEMBLY: call <4 x float> @llvm.minimum.v4f32(
// WEBASSEMBLY-SAME: <4 x float> %x, <4 x float> %y)
// WEBASSEMBLY-NEXT: ret
}
f32x4 max_f32x4(f32x4 x, f32x4 y) {
return __builtin_wasm_max_f32x4(x, y);
// WEBASSEMBLY: call <4 x float> @llvm.maximum.v4f32(
// WEBASSEMBLY-SAME: <4 x float> %x, <4 x float> %y)
// WEBASSEMBLY-NEXT: ret
}
f64x2 min_f64x2(f64x2 x, f64x2 y) {
return __builtin_wasm_min_f64x2(x, y);
// WEBASSEMBLY: call <2 x double> @llvm.minimum.v2f64(
// WEBASSEMBLY-SAME: <2 x double> %x, <2 x double> %y)
// WEBASSEMBLY-NEXT: ret
}
f64x2 max_f64x2(f64x2 x, f64x2 y) {
return __builtin_wasm_max_f64x2(x, y);
// WEBASSEMBLY: call <2 x double> @llvm.maximum.v2f64(
// WEBASSEMBLY-SAME: <2 x double> %x, <2 x double> %y)
// WEBASSEMBLY-NEXT: ret
}
f32x4 sqrt_f32x4(f32x4 x) {
return __builtin_wasm_sqrt_f32x4(x);
// WEBASSEMBLY: call <4 x float> @llvm.sqrt.v4f32(<4 x float> %x)
// WEBASSEMBLY: ret
}
f64x2 sqrt_f64x2(f64x2 x) {
return __builtin_wasm_sqrt_f64x2(x);
// WEBASSEMBLY: call <2 x double> @llvm.sqrt.v2f64(<2 x double> %x)
// WEBASSEMBLY: ret
}
i32x4 trunc_saturate_s_i32x4_f32x4(f32x4 f) {
return __builtin_wasm_trunc_saturate_s_i32x4_f32x4(f);
// WEBASSEMBLY: call <4 x i32> @llvm.wasm.trunc.saturate.signed.v4i32.v4f32(<4 x float> %f)
// WEBASSEMBLY-NEXT: ret
}
i32x4 trunc_saturate_u_i32x4_f32x4(f32x4 f) {
return __builtin_wasm_trunc_saturate_u_i32x4_f32x4(f);
// WEBASSEMBLY: call <4 x i32> @llvm.wasm.trunc.saturate.unsigned.v4i32.v4f32(<4 x float> %f)
// WEBASSEMBLY-NEXT: ret
}
i64x2 trunc_saturate_s_i64x2_f64x2(f64x2 f) {
return __builtin_wasm_trunc_saturate_s_i64x2_f64x2(f);
// WEBASSEMBLY: call <2 x i64> @llvm.wasm.trunc.saturate.signed.v2i64.v2f64(<2 x double> %f)
// WEBASSEMBLY-NEXT: ret
}
i64x2 trunc_saturate_u_i64x2_f64x2(f64x2 f) {
return __builtin_wasm_trunc_saturate_u_i64x2_f64x2(f);
// WEBASSEMBLY: call <2 x i64> @llvm.wasm.trunc.saturate.unsigned.v2i64.v2f64(<2 x double> %f)
// WEBASSEMBLY-NEXT: ret
}