src/reader/spirv/parser_impl_user_name_test.cc - tint - Git at Google

 // Copyright 2020 The Tint Authors.
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //     http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.

 #include "gmock/gmock.h"
 #include "src/reader/spirv/parser_impl_test_helper.h"
 #include "src/reader/spirv/spirv_tools_helpers_test.h"

 namespace tint {
 namespace reader {
 namespace spirv {
 namespace {

 using ::testing::Eq;

 using SpvParserUserNameTest = SpvParserTest;

 TEST_F(SpvParserUserNameTest, UserName_RespectOpName) {
   auto p = parser(test::Assemble(R"(
      OpName %1 "the_void_type"
      %1 = OpTypeVoid
   )"));
   EXPECT_TRUE(p->BuildAndParseInternalModule());
   EXPECT_THAT(p->namer().GetName(1), Eq("the_void_type"));

   p->DeliberatelyInvalidSpirv();
 }

 TEST_F(SpvParserUserNameTest, UserName_IgnoreEmptyName) {
   auto p = parser(test::Assemble(R"(
      OpName %1 ""
      %1 = OpTypeVoid
   )"));
   EXPECT_TRUE(p->BuildAndParseInternalModule());
   EXPECT_FALSE(p->namer().HasName(1));

   p->DeliberatelyInvalidSpirv();
 }

 TEST_F(SpvParserUserNameTest, UserName_DistinguishDuplicateSuggestion) {
   auto p = parser(test::Assemble(R"(
      OpName %1 "vanilla"
      OpName %2 "vanilla"
      %1 = OpTypeVoid
      %2 = OpTypeInt 32 0
   )"));
   EXPECT_TRUE(p->BuildAndParseInternalModule());
   EXPECT_THAT(p->namer().GetName(1), Eq("vanilla"));
   EXPECT_THAT(p->namer().GetName(2), Eq("vanilla_1"));

   p->DeliberatelyInvalidSpirv();
 }

 TEST_F(SpvParserUserNameTest, UserName_RespectOpMemberName) {
   auto p = parser(test::Assemble(R"(
      OpMemberName %3 0 "strawberry"
      OpMemberName %3 1 "vanilla"
      OpMemberName %3 2 "chocolate"
      %2 = OpTypeInt 32 0
      %3 = OpTypeStruct %2 %2 %2
   )"));
   EXPECT_TRUE(p->BuildAndParseInternalModule());
   EXPECT_THAT(p->namer().GetMemberName(3, 0), Eq("strawberry"));
   EXPECT_THAT(p->namer().GetMemberName(3, 1), Eq("vanilla"));
   EXPECT_THAT(p->namer().GetMemberName(3, 2), Eq("chocolate"));

   p->DeliberatelyInvalidSpirv();
 }

 TEST_F(SpvParserUserNameTest, UserName_IgnoreEmptyMemberName) {
   auto p = parser(test::Assemble(R"(
      OpMemberName %3 0 ""
      %2 = OpTypeInt 32 0
      %3 = OpTypeStruct %2
   )"));
   EXPECT_TRUE(p->BuildAndParseInternalModule());
   EXPECT_THAT(p->namer().GetMemberName(3, 0), Eq("field0"));

   p->DeliberatelyInvalidSpirv();
 }

 TEST_F(SpvParserUserNameTest, UserName_SynthesizeMemberNames) {
   auto p = parser(test::Assemble(R"(
      %2 = OpTypeInt 32 0
      %3 = OpTypeStruct %2 %2 %2
   )"));
   EXPECT_TRUE(p->BuildAndParseInternalModule());
   EXPECT_THAT(p->namer().GetMemberName(3, 0), Eq("field0"));
   EXPECT_THAT(p->namer().GetMemberName(3, 1), Eq("field1"));
   EXPECT_THAT(p->namer().GetMemberName(3, 2), Eq("field2"));

   p->DeliberatelyInvalidSpirv();
 }

 TEST_F(SpvParserUserNameTest, UserName_MemberNamesMixUserAndSynthesized) {
   auto p = parser(test::Assemble(R"(
      OpMemberName %3 1 "vanilla"
      %2 = OpTypeInt 32 0
      %3 = OpTypeStruct %2 %2 %2
   )"));
   EXPECT_TRUE(p->BuildAndParseInternalModule());
   EXPECT_THAT(p->namer().GetMemberName(3, 0), Eq("field0"));
   EXPECT_THAT(p->namer().GetMemberName(3, 1), Eq("vanilla"));
   EXPECT_THAT(p->namer().GetMemberName(3, 2), Eq("field2"));

   p->DeliberatelyInvalidSpirv();
 }

 TEST_F(SpvParserUserNameTest, EntryPointNames_AlwaysTakePrecedence) {
   const std::string assembly = R"(
    OpCapability Shader
    OpMemoryModel Logical Simple
    OpEntryPoint Vertex %100 "main"
    OpEntryPoint Fragment %100 "main_1"
    OpExecutionMode %100 OriginUpperLeft

    ; attempt to grab the "main_1" that would be the derived name
    ; for the second entry point.
    OpName %1 "main_1"

    %void = OpTypeVoid
    %voidfn = OpTypeFunction %void
    %uint = OpTypeInt 32 0
    %uint_0 = OpConstant %uint 0

    %100 = OpFunction %void None %voidfn
    %100_entry = OpLabel
    %1 = OpCopyObject %uint %uint_0
    OpReturn
    OpFunctionEnd
 )";
   auto p = parser(test::Assemble(assembly));
   EXPECT_TRUE(p->BuildAndParseInternalModule());
   // The first entry point grabs the best name, "main"
   EXPECT_THAT(p->namer().Name(100), Eq("main"));
   // The OpName on %1 is overriden because the second entry point
   // has grabbed "main_1" first.
   EXPECT_THAT(p->namer().Name(1), Eq("main_1_1"));

   const auto& ep_info = p->GetEntryPointInfo(100);
   ASSERT_EQ(2u, ep_info.size());
   EXPECT_EQ(ep_info[0].name, "main");
   EXPECT_EQ(ep_info[1].name, "main_1");

   // This test checks two entry point with the same implementation function.
   // But for the shader stages supported by WGSL, the SPIR-V rules require
   // conflicting execution modes be applied to them.
   // I still want to test the name disambiguation behaviour, but the cases
   // are rejected by SPIR-V validation. This is true at least for the current
   // WGSL feature set.
   p->DeliberatelyInvalidSpirv();
 }

 TEST_F(SpvParserUserNameTest, EntryPointNames_DistinctFromInnerNames) {
   const std::string assembly = R"(
    OpCapability Shader
    OpMemoryModel Logical Simple
    OpEntryPoint Vertex %100 "main"
    OpEntryPoint Fragment %100 "main_1"
    OpExecutionMode %100 OriginUpperLeft

    ; attempt to grab the "main_1" that would be the derived name
    ; for the second entry point.
    OpName %1 "main_1"

    %void = OpTypeVoid
    %voidfn = OpTypeFunction %void
    %uint = OpTypeInt 32 0
    %uint_0 = OpConstant %uint 0

    %100 = OpFunction %void None %voidfn
    %100_entry = OpLabel
    %1 = OpCopyObject %uint %uint_0
    OpReturn
    OpFunctionEnd
 )";
   auto p = parser(test::Assemble(assembly));

   EXPECT_TRUE(p->BuildAndParseInternalModule());
   // The first entry point grabs the best name, "main"
   EXPECT_THAT(p->namer().Name(100), Eq("main"));
   EXPECT_THAT(p->namer().Name(1), Eq("main_1_1"));

   const auto ep_info = p->GetEntryPointInfo(100);
   ASSERT_EQ(2u, ep_info.size());
   EXPECT_EQ(ep_info[0].name, "main");
   EXPECT_EQ(ep_info[0].inner_name, "main_2");
   // The second entry point retains its name...
   EXPECT_EQ(ep_info[1].name, "main_1");
   // ...but will use the same implementation function.
   EXPECT_EQ(ep_info[1].inner_name, "main_2");

   // This test checks two entry point with the same implementation function.
   // But for the shader stages supported by WGSL, the SPIR-V rules require
   // conflicting execution modes be applied to them.
   // I still want to test the name disambiguation behaviour, but the cases
   // are rejected by SPIR-V validation. This is true at least for the current
   // WGSL feature set.
   p->DeliberatelyInvalidSpirv();
 }

 }  // namespace
 }  // namespace spirv
 }  // namespace reader
 }  // namespace tint
	// Copyright 2020 The Tint Authors.
	//
	// Licensed under the Apache License, Version 2.0 (the "License");
	// you may not use this file except in compliance with the License.
	// You may obtain a copy of the License at
	//
	// http://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing, software
	// distributed under the License is distributed on an "AS IS" BASIS,
	// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	// See the License for the specific language governing permissions and
	// limitations under the License.

	#include "gmock/gmock.h"
	#include "src/reader/spirv/parser_impl_test_helper.h"
	#include "src/reader/spirv/spirv_tools_helpers_test.h"

	namespace tint {
	namespace reader {
	namespace spirv {
	namespace {

	using ::testing::Eq;

	using SpvParserUserNameTest = SpvParserTest;

	TEST_F(SpvParserUserNameTest, UserName_RespectOpName) {
	auto p = parser(test::Assemble(R"(
	OpName %1 "the_void_type"
	%1 = OpTypeVoid
	)"));
	EXPECT_TRUE(p->BuildAndParseInternalModule());
	EXPECT_THAT(p->namer().GetName(1), Eq("the_void_type"));

	p->DeliberatelyInvalidSpirv();
	}

	TEST_F(SpvParserUserNameTest, UserName_IgnoreEmptyName) {
	auto p = parser(test::Assemble(R"(
	OpName %1 ""
	%1 = OpTypeVoid
	)"));
	EXPECT_TRUE(p->BuildAndParseInternalModule());
	EXPECT_FALSE(p->namer().HasName(1));

	p->DeliberatelyInvalidSpirv();
	}

	TEST_F(SpvParserUserNameTest, UserName_DistinguishDuplicateSuggestion) {
	auto p = parser(test::Assemble(R"(
	OpName %1 "vanilla"
	OpName %2 "vanilla"
	%1 = OpTypeVoid
	%2 = OpTypeInt 32 0
	)"));
	EXPECT_TRUE(p->BuildAndParseInternalModule());
	EXPECT_THAT(p->namer().GetName(1), Eq("vanilla"));
	EXPECT_THAT(p->namer().GetName(2), Eq("vanilla_1"));

	p->DeliberatelyInvalidSpirv();
	}

	TEST_F(SpvParserUserNameTest, UserName_RespectOpMemberName) {
	auto p = parser(test::Assemble(R"(
	OpMemberName %3 0 "strawberry"
	OpMemberName %3 1 "vanilla"
	OpMemberName %3 2 "chocolate"
	%2 = OpTypeInt 32 0
	%3 = OpTypeStruct %2 %2 %2
	)"));
	EXPECT_TRUE(p->BuildAndParseInternalModule());
	EXPECT_THAT(p->namer().GetMemberName(3, 0), Eq("strawberry"));
	EXPECT_THAT(p->namer().GetMemberName(3, 1), Eq("vanilla"));
	EXPECT_THAT(p->namer().GetMemberName(3, 2), Eq("chocolate"));

	p->DeliberatelyInvalidSpirv();
	}

	TEST_F(SpvParserUserNameTest, UserName_IgnoreEmptyMemberName) {
	auto p = parser(test::Assemble(R"(
	OpMemberName %3 0 ""
	%2 = OpTypeInt 32 0
	%3 = OpTypeStruct %2
	)"));
	EXPECT_TRUE(p->BuildAndParseInternalModule());
	EXPECT_THAT(p->namer().GetMemberName(3, 0), Eq("field0"));

	p->DeliberatelyInvalidSpirv();
	}

	TEST_F(SpvParserUserNameTest, UserName_SynthesizeMemberNames) {
	auto p = parser(test::Assemble(R"(
	%2 = OpTypeInt 32 0
	%3 = OpTypeStruct %2 %2 %2
	)"));
	EXPECT_TRUE(p->BuildAndParseInternalModule());
	EXPECT_THAT(p->namer().GetMemberName(3, 0), Eq("field0"));
	EXPECT_THAT(p->namer().GetMemberName(3, 1), Eq("field1"));
	EXPECT_THAT(p->namer().GetMemberName(3, 2), Eq("field2"));

	p->DeliberatelyInvalidSpirv();
	}

	TEST_F(SpvParserUserNameTest, UserName_MemberNamesMixUserAndSynthesized) {
	auto p = parser(test::Assemble(R"(
	OpMemberName %3 1 "vanilla"
	%2 = OpTypeInt 32 0
	%3 = OpTypeStruct %2 %2 %2
	)"));
	EXPECT_TRUE(p->BuildAndParseInternalModule());
	EXPECT_THAT(p->namer().GetMemberName(3, 0), Eq("field0"));
	EXPECT_THAT(p->namer().GetMemberName(3, 1), Eq("vanilla"));
	EXPECT_THAT(p->namer().GetMemberName(3, 2), Eq("field2"));

	p->DeliberatelyInvalidSpirv();
	}

	TEST_F(SpvParserUserNameTest, EntryPointNames_AlwaysTakePrecedence) {
	const std::string assembly = R"(
	OpCapability Shader
	OpMemoryModel Logical Simple
	OpEntryPoint Vertex %100 "main"
	OpEntryPoint Fragment %100 "main_1"
	OpExecutionMode %100 OriginUpperLeft

	; attempt to grab the "main_1" that would be the derived name
	; for the second entry point.
	OpName %1 "main_1"

	%void = OpTypeVoid
	%voidfn = OpTypeFunction %void
	%uint = OpTypeInt 32 0
	%uint_0 = OpConstant %uint 0

	%100 = OpFunction %void None %voidfn
	%100_entry = OpLabel
	%1 = OpCopyObject %uint %uint_0
	OpReturn
	OpFunctionEnd
	)";
	auto p = parser(test::Assemble(assembly));
	EXPECT_TRUE(p->BuildAndParseInternalModule());
	// The first entry point grabs the best name, "main"
	EXPECT_THAT(p->namer().Name(100), Eq("main"));
	// The OpName on %1 is overriden because the second entry point
	// has grabbed "main_1" first.
	EXPECT_THAT(p->namer().Name(1), Eq("main_1_1"));

	const auto& ep_info = p->GetEntryPointInfo(100);
	ASSERT_EQ(2u, ep_info.size());
	EXPECT_EQ(ep_info[0].name, "main");
	EXPECT_EQ(ep_info[1].name, "main_1");

	// This test checks two entry point with the same implementation function.
	// But for the shader stages supported by WGSL, the SPIR-V rules require
	// conflicting execution modes be applied to them.
	// I still want to test the name disambiguation behaviour, but the cases
	// are rejected by SPIR-V validation. This is true at least for the current
	// WGSL feature set.
	p->DeliberatelyInvalidSpirv();
	}

	TEST_F(SpvParserUserNameTest, EntryPointNames_DistinctFromInnerNames) {
	const std::string assembly = R"(
	OpCapability Shader
	OpMemoryModel Logical Simple
	OpEntryPoint Vertex %100 "main"
	OpEntryPoint Fragment %100 "main_1"
	OpExecutionMode %100 OriginUpperLeft

	; attempt to grab the "main_1" that would be the derived name
	; for the second entry point.
	OpName %1 "main_1"

	%void = OpTypeVoid
	%voidfn = OpTypeFunction %void
	%uint = OpTypeInt 32 0
	%uint_0 = OpConstant %uint 0

	%100 = OpFunction %void None %voidfn
	%100_entry = OpLabel
	%1 = OpCopyObject %uint %uint_0
	OpReturn
	OpFunctionEnd
	)";
	auto p = parser(test::Assemble(assembly));

	EXPECT_TRUE(p->BuildAndParseInternalModule());
	// The first entry point grabs the best name, "main"
	EXPECT_THAT(p->namer().Name(100), Eq("main"));
	EXPECT_THAT(p->namer().Name(1), Eq("main_1_1"));

	const auto ep_info = p->GetEntryPointInfo(100);
	ASSERT_EQ(2u, ep_info.size());
	EXPECT_EQ(ep_info[0].name, "main");
	EXPECT_EQ(ep_info[0].inner_name, "main_2");
	// The second entry point retains its name...
	EXPECT_EQ(ep_info[1].name, "main_1");
	// ...but will use the same implementation function.
	EXPECT_EQ(ep_info[1].inner_name, "main_2");

	// This test checks two entry point with the same implementation function.
	// But for the shader stages supported by WGSL, the SPIR-V rules require
	// conflicting execution modes be applied to them.
	// I still want to test the name disambiguation behaviour, but the cases
	// are rejected by SPIR-V validation. This is true at least for the current
	// WGSL feature set.
	p->DeliberatelyInvalidSpirv();
	}

	} // namespace
	} // namespace spirv
	} // namespace reader
	} // namespace tint