a027eb4472
Implements https://github.com/llvm/wg-hlsl/blob/main/proposals/0026-symbol-visibility.md. The change is to stop using the `hlsl.export` attribute. Instead, symbols with "program linkage" in HLSL will have export linkage with default visibility, and symbols with "external linkage" in HLSL will have export linkage with hidden visibility.
225 lines
8.2 KiB
HLSL
225 lines
8.2 KiB
HLSL
// RUN: %clang_cc1 -finclude-default-header -x hlsl -triple \
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// RUN: spirv-unknown-vulkan-compute %s -fnative-half-type \
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// RUN: -emit-llvm -disable-llvm-passes -o - | FileCheck %s \
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// RUN: --check-prefixes=CHECK,NATIVE_HALF \
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// RUN: -DFNATTRS="hidden spir_func noundef" -DTARGET=spv
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// RUN: %clang_cc1 -finclude-default-header -x hlsl -triple \
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// RUN: spirv-unknown-vulkan-compute %s -emit-llvm -disable-llvm-passes \
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// RUN: -o - | FileCheck %s --check-prefixes=CHECK \
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// RUN: -DFNATTRS="hidden spir_func noundef" -DTARGET=spv
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// RUN: %clang_cc1 -finclude-default-header -x hlsl -triple \
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// RUN: dxil-pc-shadermodel6.3-library %s -fnative-half-type \
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// RUN: -emit-llvm -disable-llvm-passes -o - | FileCheck %s \
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// RUN: --check-prefixes=CHECK,NATIVE_HALF \
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// RUN: -DFNATTRS="hidden noundef" -DTARGET=dx
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// RUN: %clang_cc1 -finclude-default-header -x hlsl -triple \
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// RUN: dxil-pc-shadermodel6.3-library %s -emit-llvm -disable-llvm-passes \
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// RUN: -o - | FileCheck %s --check-prefixes=CHECK \
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// RUN: -DFNATTRS="hidden noundef" -DTARGET=dx
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#ifdef __HLSL_ENABLE_16_BIT
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// NATIVE_HALF: define [[FNATTRS]] i1 @
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// NATIVE_HALF: %hlsl.any = call i1 @llvm.[[TARGET]].any.i16
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// NATIVE_HALF: ret i1 %hlsl.any
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bool test_any_int16_t(int16_t p0) { return any(p0); }
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// NATIVE_HALF: define [[FNATTRS]] i1 @
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// NATIVE_HALF: %hlsl.any = call i1 @llvm.[[TARGET]].any.v2i16
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// NATIVE_HALF: ret i1 %hlsl.any
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bool test_any_int16_t2(int16_t2 p0) { return any(p0); }
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// NATIVE_HALF: define [[FNATTRS]] i1 @
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// NATIVE_HALF: %hlsl.any = call i1 @llvm.[[TARGET]].any.v3i16
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// NATIVE_HALF: ret i1 %hlsl.any
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bool test_any_int16_t3(int16_t3 p0) { return any(p0); }
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// NATIVE_HALF: define [[FNATTRS]] i1 @
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// NATIVE_HALF: %hlsl.any = call i1 @llvm.[[TARGET]].any.v4i16
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// NATIVE_HALF: ret i1 %hlsl.any
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bool test_any_int16_t4(int16_t4 p0) { return any(p0); }
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// NATIVE_HALF: define [[FNATTRS]] i1 @
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// NATIVE_HALF: %hlsl.any = call i1 @llvm.[[TARGET]].any.i16
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// NATIVE_HALF: ret i1 %hlsl.any
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bool test_any_uint16_t(uint16_t p0) { return any(p0); }
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// NATIVE_HALF: define [[FNATTRS]] i1 @
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// NATIVE_HALF: %hlsl.any = call i1 @llvm.[[TARGET]].any.v2i16
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// NATIVE_HALF: ret i1 %hlsl.any
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bool test_any_uint16_t2(uint16_t2 p0) { return any(p0); }
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// NATIVE_HALF: define [[FNATTRS]] i1 @
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// NATIVE_HALF: %hlsl.any = call i1 @llvm.[[TARGET]].any.v3i16
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// NATIVE_HALF: ret i1 %hlsl.any
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bool test_any_uint16_t3(uint16_t3 p0) { return any(p0); }
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// NATIVE_HALF: define [[FNATTRS]] i1 @
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// NATIVE_HALF: %hlsl.any = call i1 @llvm.[[TARGET]].any.v4i16
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// NATIVE_HALF: ret i1 %hlsl.any
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bool test_any_uint16_t4(uint16_t4 p0) { return any(p0); }
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#endif // __HLSL_ENABLE_16_BIT
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// CHECK: define [[FNATTRS]] i1 @
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// NATIVE_HALF: %hlsl.any = call i1 @llvm.[[TARGET]].any.f16
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// NO_HALF: %hlsl.any = call i1 @llvm.[[TARGET]].any.f32
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// CHECK: ret i1 %hlsl.any
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bool test_any_half(half p0) { return any(p0); }
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// CHECK: define [[FNATTRS]] i1 @
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// NATIVE_HALF: %hlsl.any = call i1 @llvm.[[TARGET]].any.v2f16
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// NO_HALF: %hlsl.any = call i1 @llvm.[[TARGET]].any.v2f32
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// CHECK: ret i1 %hlsl.any
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bool test_any_half2(half2 p0) { return any(p0); }
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// CHECK: define [[FNATTRS]] i1 @
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// NATIVE_HALF: %hlsl.any = call i1 @llvm.[[TARGET]].any.v3f16
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// NO_HALF: %hlsl.any = call i1 @llvm.[[TARGET]].any.v3f32
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// CHECK: ret i1 %hlsl.any
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bool test_any_half3(half3 p0) { return any(p0); }
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// CHECK: define [[FNATTRS]] i1 @
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// NATIVE_HALF: %hlsl.any = call i1 @llvm.[[TARGET]].any.v4f16
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// NO_HALF: %hlsl.any = call i1 @llvm.[[TARGET]].any.v4f32
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// CHECK: ret i1 %hlsl.any
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bool test_any_half4(half4 p0) { return any(p0); }
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// CHECK: define [[FNATTRS]] i1 @
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// CHECK: %hlsl.any = call i1 @llvm.[[TARGET]].any.f32
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// CHECK: ret i1 %hlsl.any
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bool test_any_float(float p0) { return any(p0); }
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// CHECK: define [[FNATTRS]] i1 @
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// CHECK: %hlsl.any = call i1 @llvm.[[TARGET]].any.v2f32
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// CHECK: ret i1 %hlsl.any
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bool test_any_float2(float2 p0) { return any(p0); }
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// CHECK: define [[FNATTRS]] i1 @
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// CHECK: %hlsl.any = call i1 @llvm.[[TARGET]].any.v3f32
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// CHECK: ret i1 %hlsl.any
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bool test_any_float3(float3 p0) { return any(p0); }
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// CHECK: define [[FNATTRS]] i1 @
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// CHECK: %hlsl.any = call i1 @llvm.[[TARGET]].any.v4f32
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// CHECK: ret i1 %hlsl.any
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bool test_any_float4(float4 p0) { return any(p0); }
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// CHECK: define [[FNATTRS]] i1 @
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// CHECK: %hlsl.any = call i1 @llvm.[[TARGET]].any.f64
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// CHECK: ret i1 %hlsl.any
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bool test_any_double(double p0) { return any(p0); }
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// CHECK: define [[FNATTRS]] i1 @
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// CHECK: %hlsl.any = call i1 @llvm.[[TARGET]].any.v2f64
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// CHECK: ret i1 %hlsl.any
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bool test_any_double2(double2 p0) { return any(p0); }
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// CHECK: define [[FNATTRS]] i1 @
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// CHECK: %hlsl.any = call i1 @llvm.[[TARGET]].any.v3f64
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// CHECK: ret i1 %hlsl.any
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bool test_any_double3(double3 p0) { return any(p0); }
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// CHECK: define [[FNATTRS]] i1 @
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// CHECK: %hlsl.any = call i1 @llvm.[[TARGET]].any.v4f64
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// CHECK: ret i1 %hlsl.any
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bool test_any_double4(double4 p0) { return any(p0); }
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// CHECK: define [[FNATTRS]] i1 @
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// CHECK: %hlsl.any = call i1 @llvm.[[TARGET]].any.i32
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// CHECK: ret i1 %hlsl.any
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bool test_any_int(int p0) { return any(p0); }
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// CHECK: define [[FNATTRS]] i1 @
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// CHECK: %hlsl.any = call i1 @llvm.[[TARGET]].any.v2i32
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// CHECK: ret i1 %hlsl.any
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bool test_any_int2(int2 p0) { return any(p0); }
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// CHECK: define [[FNATTRS]] i1 @
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// CHECK: %hlsl.any = call i1 @llvm.[[TARGET]].any.v3i32
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// CHECK: ret i1 %hlsl.any
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bool test_any_int3(int3 p0) { return any(p0); }
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// CHECK: define [[FNATTRS]] i1 @
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// CHECK: %hlsl.any = call i1 @llvm.[[TARGET]].any.v4i32
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// CHECK: ret i1 %hlsl.any
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bool test_any_int4(int4 p0) { return any(p0); }
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// CHECK: define [[FNATTRS]] i1 @
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// CHECK: %hlsl.any = call i1 @llvm.[[TARGET]].any.i32
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// CHECK: ret i1 %hlsl.any
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bool test_any_uint(uint p0) { return any(p0); }
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// CHECK: define [[FNATTRS]] i1 @
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// CHECK: %hlsl.any = call i1 @llvm.[[TARGET]].any.v2i32
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// CHECK: ret i1 %hlsl.any
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bool test_any_uint2(uint2 p0) { return any(p0); }
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// CHECK: define [[FNATTRS]] i1 @
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// CHECK: %hlsl.any = call i1 @llvm.[[TARGET]].any.v3i32
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// CHECK: ret i1 %hlsl.any
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bool test_any_uint3(uint3 p0) { return any(p0); }
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// CHECK: define [[FNATTRS]] i1 @
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// CHECK: %hlsl.any = call i1 @llvm.[[TARGET]].any.v4i32
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// CHECK: ret i1 %hlsl.any
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bool test_any_uint4(uint4 p0) { return any(p0); }
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// CHECK: define [[FNATTRS]] i1 @
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// CHECK: %hlsl.any = call i1 @llvm.[[TARGET]].any.i64
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// CHECK: ret i1 %hlsl.any
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bool test_any_int64_t(int64_t p0) { return any(p0); }
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// CHECK: define [[FNATTRS]] i1 @
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// CHECK: %hlsl.any = call i1 @llvm.[[TARGET]].any.v2i64
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// CHECK: ret i1 %hlsl.any
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bool test_any_int64_t2(int64_t2 p0) { return any(p0); }
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// CHECK: define [[FNATTRS]] i1 @
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// CHECK: %hlsl.any = call i1 @llvm.[[TARGET]].any.v3i64
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// CHECK: ret i1 %hlsl.any
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bool test_any_int64_t3(int64_t3 p0) { return any(p0); }
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// CHECK: define [[FNATTRS]] i1 @
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// CHECK: %hlsl.any = call i1 @llvm.[[TARGET]].any.v4i64
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// CHECK: ret i1 %hlsl.any
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bool test_any_int64_t4(int64_t4 p0) { return any(p0); }
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// CHECK: define [[FNATTRS]] i1 @
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// CHECK: %hlsl.any = call i1 @llvm.[[TARGET]].any.i64
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// CHECK: ret i1 %hlsl.any
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bool test_any_uint64_t(uint64_t p0) { return any(p0); }
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// CHECK: define [[FNATTRS]] i1 @
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// CHECK: %hlsl.any = call i1 @llvm.[[TARGET]].any.v2i64
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// CHECK: ret i1 %hlsl.any
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bool test_any_uint64_t2(uint64_t2 p0) { return any(p0); }
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// CHECK: define [[FNATTRS]] i1 @
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// CHECK: %hlsl.any = call i1 @llvm.[[TARGET]].any.v3i64
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// CHECK: ret i1 %hlsl.any
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bool test_any_uint64_t3(uint64_t3 p0) { return any(p0); }
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// CHECK: define [[FNATTRS]] i1 @
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// CHECK: %hlsl.any = call i1 @llvm.[[TARGET]].any.v4i64
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// CHECK: ret i1 %hlsl.any
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bool test_any_uint64_t4(uint64_t4 p0) { return any(p0); }
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// CHECK: define [[FNATTRS]] i1 @
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// CHECK: %hlsl.any = call i1 @llvm.[[TARGET]].any.i1
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// CHECK: ret i1 %hlsl.any
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bool test_any_bool(bool p0) { return any(p0); }
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// CHECK: define [[FNATTRS]] i1 @
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// CHECK: %hlsl.any = call i1 @llvm.[[TARGET]].any.v2i1
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// CHECK: ret i1 %hlsl.any
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bool test_any_bool2(bool2 p0) { return any(p0); }
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// CHECK: define [[FNATTRS]] i1 @
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// CHECK: %hlsl.any = call i1 @llvm.[[TARGET]].any.v3i1
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// CHECK: ret i1 %hlsl.any
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bool test_any_bool3(bool3 p0) { return any(p0); }
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// CHECK: define [[FNATTRS]] i1 @
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// CHECK: %hlsl.any = call i1 @llvm.[[TARGET]].any.v4i1
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// CHECK: ret i1 %hlsl.any
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bool test_any_bool4(bool4 p0) { return any(p0); }
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