mirror of
https://github.com/KhronosGroup/SPIRV-Tools
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b4c4da3e76
* No longer blindly add global non-semantic info instructions to global types and values * functions now have a list of non-semantic instructions that succeed them in the global scope * global non-semantic instructions go in global types and values if they appear before any function, otherwise they are attached to the immediate function predecessor in the module * changed ADCE to use the function removal utility * Modified EliminateFunction to have special handling for non-semantic instructions in the global scope * non-semantic instructions are moved to an earlier function (or full global set) if the function they are attached to is eliminated * Added IRContext::KillNonSemanticInfo to remove the tree of non-semantic instructions that use an instruction * this is used in function elimination * There is still significant work in the optimizer to handle non-semantic instructions fully in the optimizer
232 lines
6.8 KiB
C++
232 lines
6.8 KiB
C++
// Copyright (c) 2018 Google LLC
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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#include <string>
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#include "gmock/gmock.h"
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#include "spirv-tools/optimizer.hpp"
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#include "test/opt/pass_fixture.h"
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#include "test/opt/pass_utils.h"
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namespace spvtools {
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namespace opt {
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namespace {
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using StripLineReflectInfoTest = PassTest<::testing::Test>;
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using StripNonSemanticInfoTest = PassTest<::testing::Test>;
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// This test acts as an end-to-end code example on how to strip
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// reflection info from a SPIR-V module. Use this code pattern
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// when you have compiled HLSL code with Glslang or DXC using
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// option -fhlsl_functionality1 to insert reflection information,
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// but then want to filter out the extra instructions before sending
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// it to a driver that does not implement VK_GOOGLE_hlsl_functionality1.
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TEST_F(StripLineReflectInfoTest, StripReflectEnd2EndExample) {
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// This is a non-sensical example, but exercises the instructions.
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std::string before = R"(OpCapability Shader
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OpCapability Linkage
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OpExtension "SPV_GOOGLE_decorate_string"
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OpExtension "SPV_GOOGLE_hlsl_functionality1"
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OpMemoryModel Logical Simple
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OpDecorateStringGOOGLE %float HlslSemanticGOOGLE "foobar"
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OpDecorateStringGOOGLE %void HlslSemanticGOOGLE "my goodness"
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%void = OpTypeVoid
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%float = OpTypeFloat 32
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)";
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SpirvTools tools(SPV_ENV_UNIVERSAL_1_1);
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std::vector<uint32_t> binary_in;
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tools.Assemble(before, &binary_in);
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// Instantiate the optimizer, and run the strip-reflection-info
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// pass over the |binary_in| module, and place the modified module
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// into |binary_out|.
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spvtools::Optimizer optimizer(SPV_ENV_UNIVERSAL_1_1);
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optimizer.RegisterPass(spvtools::CreateStripReflectInfoPass());
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std::vector<uint32_t> binary_out;
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optimizer.Run(binary_in.data(), binary_in.size(), &binary_out);
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// Check results
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std::string disassembly;
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tools.Disassemble(binary_out.data(), binary_out.size(), &disassembly);
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std::string after = R"(OpCapability Shader
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OpCapability Linkage
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OpMemoryModel Logical Simple
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%void = OpTypeVoid
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%float = OpTypeFloat 32
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)";
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EXPECT_THAT(disassembly, testing::Eq(after));
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}
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// This test is functionally the same as the end-to-end test above,
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// but uses the test SinglePassRunAndCheck test fixture instead.
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TEST_F(StripLineReflectInfoTest, StripHlslSemantic) {
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// This is a non-sensical example, but exercises the instructions.
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std::string before = R"(OpCapability Shader
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OpCapability Linkage
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OpExtension "SPV_GOOGLE_decorate_string"
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OpExtension "SPV_GOOGLE_hlsl_functionality1"
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OpMemoryModel Logical Simple
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OpDecorateStringGOOGLE %float HlslSemanticGOOGLE "foobar"
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OpDecorateStringGOOGLE %void HlslSemanticGOOGLE "my goodness"
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%void = OpTypeVoid
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%float = OpTypeFloat 32
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)";
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std::string after = R"(OpCapability Shader
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OpCapability Linkage
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OpMemoryModel Logical Simple
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%void = OpTypeVoid
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%float = OpTypeFloat 32
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)";
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SinglePassRunAndCheck<StripReflectInfoPass>(before, after, false);
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}
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TEST_F(StripLineReflectInfoTest, StripHlslCounterBuffer) {
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std::string before = R"(OpCapability Shader
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OpCapability Linkage
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OpExtension "SPV_GOOGLE_hlsl_functionality1"
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OpMemoryModel Logical Simple
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OpDecorateId %void HlslCounterBufferGOOGLE %float
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%void = OpTypeVoid
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%float = OpTypeFloat 32
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)";
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std::string after = R"(OpCapability Shader
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OpCapability Linkage
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OpMemoryModel Logical Simple
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%void = OpTypeVoid
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%float = OpTypeFloat 32
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)";
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SinglePassRunAndCheck<StripReflectInfoPass>(before, after, false);
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}
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TEST_F(StripLineReflectInfoTest, StripHlslSemanticOnMember) {
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// This is a non-sensical example, but exercises the instructions.
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std::string before = R"(OpCapability Shader
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OpCapability Linkage
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OpExtension "SPV_GOOGLE_decorate_string"
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OpExtension "SPV_GOOGLE_hlsl_functionality1"
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OpMemoryModel Logical Simple
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OpMemberDecorateStringGOOGLE %struct 0 HlslSemanticGOOGLE "foobar"
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%float = OpTypeFloat 32
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%_struct_3 = OpTypeStruct %float
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)";
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std::string after = R"(OpCapability Shader
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OpCapability Linkage
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OpMemoryModel Logical Simple
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%float = OpTypeFloat 32
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%_struct_3 = OpTypeStruct %float
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)";
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SinglePassRunAndCheck<StripReflectInfoPass>(before, after, false);
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}
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TEST_F(StripNonSemanticInfoTest, StripNonSemanticImport) {
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std::string text = R"(
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; CHECK-NOT: OpExtension "SPV_KHR_non_semantic_info"
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; CHECK-NOT: OpExtInstImport
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OpCapability Shader
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OpCapability Linkage
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OpExtension "SPV_KHR_non_semantic_info"
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%ext = OpExtInstImport "NonSemantic.Test"
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OpMemoryModel Logical GLSL450
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)";
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SinglePassRunAndMatch<StripReflectInfoPass>(text, true);
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}
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TEST_F(StripNonSemanticInfoTest, StripNonSemanticGlobal) {
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std::string text = R"(
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; CHECK-NOT: OpExtInst
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OpCapability Shader
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OpCapability Linkage
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OpExtension "SPV_KHR_non_semantic_info"
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%ext = OpExtInstImport "NonSemantic.Test"
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OpMemoryModel Logical GLSL450
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%void = OpTypeVoid
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%1 = OpExtInst %void %ext 1
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)";
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SinglePassRunAndMatch<StripReflectInfoPass>(text, true);
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}
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TEST_F(StripNonSemanticInfoTest, StripNonSemanticInFunction) {
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std::string text = R"(
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; CHECK-NOT: OpExtInst
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OpCapability Shader
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OpCapability Linkage
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OpExtension "SPV_KHR_non_semantic_info"
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%ext = OpExtInstImport "NonSemantic.Test"
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OpMemoryModel Logical GLSL450
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%void = OpTypeVoid
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%void_fn = OpTypeFunction %void
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%foo = OpFunction %void None %void_fn
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%entry = OpLabel
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%1 = OpExtInst %void %ext 1 %foo
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OpReturn
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OpFunctionEnd
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)";
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SinglePassRunAndMatch<StripReflectInfoPass>(text, true);
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}
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TEST_F(StripNonSemanticInfoTest, StripNonSemanticAfterFunction) {
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std::string text = R"(
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; CHECK-NOT: OpExtInst
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OpCapability Shader
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OpCapability Linkage
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OpExtension "SPV_KHR_non_semantic_info"
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%ext = OpExtInstImport "NonSemantic.Test"
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OpMemoryModel Logical GLSL450
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%void = OpTypeVoid
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%void_fn = OpTypeFunction %void
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%foo = OpFunction %void None %void_fn
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%entry = OpLabel
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OpReturn
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OpFunctionEnd
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%1 = OpExtInst %void %ext 1 %foo
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)";
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SinglePassRunAndMatch<StripReflectInfoPass>(text, true);
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}
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TEST_F(StripNonSemanticInfoTest, StripNonSemanticBetweenFunctions) {
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std::string text = R"(
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; CHECK-NOT: OpExtInst
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OpCapability Shader
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OpCapability Linkage
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OpExtension "SPV_KHR_non_semantic_info"
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%ext = OpExtInstImport "NonSemantic.Test"
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OpMemoryModel Logical GLSL450
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%void = OpTypeVoid
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%void_fn = OpTypeFunction %void
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%foo = OpFunction %void None %void_fn
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%entry = OpLabel
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OpReturn
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OpFunctionEnd
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%1 = OpExtInst %void %ext 1 %foo
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%bar = OpFunction %void None %void_fn
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%bar_entry = OpLabel
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OpReturn
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OpFunctionEnd
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)";
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SinglePassRunAndMatch<StripReflectInfoPass>(text, true);
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}
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} // namespace
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} // namespace opt
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} // namespace spvtools
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