mirror of
https://github.com/KhronosGroup/SPIRV-Tools
synced 2024-11-25 13:00:04 +00:00
d835d664bd
This CL changes the id/name output from the validator to always use a consistent id[%name] style. This removes the need for getIdOrName. The name lookup is changed to use the NameMapper so the output is consistent with what the disassembler will produce. Fixes #2137
329 lines
11 KiB
C++
329 lines
11 KiB
C++
// Copyright (c) 2016 Google Inc.
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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 <utility>
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#include <vector>
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#include "gmock/gmock.h"
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#include "gtest/gtest.h"
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#include "spirv-tools/optimizer.hpp"
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#include "spirv/1.1/spirv.h"
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namespace spvtools {
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namespace {
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using ::testing::ContainerEq;
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using ::testing::HasSubstr;
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// Return a string that contains the minimum instructions needed to form
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// a valid module. Other instructions can be appended to this string.
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std::string Header() {
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return R"(OpCapability Shader
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OpCapability Linkage
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OpMemoryModel Logical GLSL450
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)";
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}
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// When we assemble with a target environment of SPIR-V 1.1, we expect
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// the following in the module header version word.
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const uint32_t kExpectedSpvVersion = 0x10100;
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TEST(CppInterface, SuccessfulRoundTrip) {
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const std::string input_text = "%2 = OpSizeOf %1 %3\n";
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SpirvTools t(SPV_ENV_UNIVERSAL_1_1);
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std::vector<uint32_t> binary;
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EXPECT_TRUE(t.Assemble(input_text, &binary));
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EXPECT_TRUE(binary.size() > 5u);
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EXPECT_EQ(SpvMagicNumber, binary[0]);
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EXPECT_EQ(kExpectedSpvVersion, binary[1]);
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// This cannot pass validation since %1 is not defined.
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t.SetMessageConsumer([](spv_message_level_t level, const char* source,
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const spv_position_t& position, const char* message) {
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EXPECT_EQ(SPV_MSG_ERROR, level);
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EXPECT_STREQ("input", source);
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EXPECT_EQ(0u, position.line);
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EXPECT_EQ(0u, position.column);
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EXPECT_EQ(1u, position.index);
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EXPECT_STREQ("ID 1[%1] has not been defined\n %2 = OpSizeOf %1 %3\n",
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message);
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});
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EXPECT_FALSE(t.Validate(binary));
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std::string output_text;
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EXPECT_TRUE(t.Disassemble(binary, &output_text));
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EXPECT_EQ(input_text, output_text);
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}
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TEST(CppInterface, AssembleEmptyModule) {
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std::vector<uint32_t> binary(10, 42);
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SpirvTools t(SPV_ENV_UNIVERSAL_1_1);
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EXPECT_TRUE(t.Assemble("", &binary));
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// We only have the header.
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EXPECT_EQ(5u, binary.size());
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EXPECT_EQ(SpvMagicNumber, binary[0]);
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EXPECT_EQ(kExpectedSpvVersion, binary[1]);
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}
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TEST(CppInterface, AssembleOverloads) {
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const std::string input_text = "%2 = OpSizeOf %1 %3\n";
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SpirvTools t(SPV_ENV_UNIVERSAL_1_1);
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{
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std::vector<uint32_t> binary;
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EXPECT_TRUE(t.Assemble(input_text, &binary));
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EXPECT_TRUE(binary.size() > 5u);
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EXPECT_EQ(SpvMagicNumber, binary[0]);
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EXPECT_EQ(kExpectedSpvVersion, binary[1]);
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}
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{
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std::vector<uint32_t> binary;
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EXPECT_TRUE(t.Assemble(input_text.data(), input_text.size(), &binary));
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EXPECT_TRUE(binary.size() > 5u);
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EXPECT_EQ(SpvMagicNumber, binary[0]);
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EXPECT_EQ(kExpectedSpvVersion, binary[1]);
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}
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{ // Ignore the last newline.
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std::vector<uint32_t> binary;
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EXPECT_TRUE(t.Assemble(input_text.data(), input_text.size() - 1, &binary));
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EXPECT_TRUE(binary.size() > 5u);
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EXPECT_EQ(SpvMagicNumber, binary[0]);
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EXPECT_EQ(kExpectedSpvVersion, binary[1]);
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}
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}
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TEST(CppInterface, DisassembleEmptyModule) {
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std::string text(10, 'x');
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SpirvTools t(SPV_ENV_UNIVERSAL_1_1);
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int invocation_count = 0;
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t.SetMessageConsumer(
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[&invocation_count](spv_message_level_t level, const char* source,
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const spv_position_t& position, const char* message) {
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++invocation_count;
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EXPECT_EQ(SPV_MSG_ERROR, level);
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EXPECT_STREQ("input", source);
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EXPECT_EQ(0u, position.line);
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EXPECT_EQ(0u, position.column);
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EXPECT_EQ(0u, position.index);
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EXPECT_STREQ("Missing module.", message);
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});
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EXPECT_FALSE(t.Disassemble({}, &text));
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EXPECT_EQ("xxxxxxxxxx", text); // The original string is unmodified.
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EXPECT_EQ(1, invocation_count);
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}
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TEST(CppInterface, DisassembleOverloads) {
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const std::string input_text = "%2 = OpSizeOf %1 %3\n";
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SpirvTools t(SPV_ENV_UNIVERSAL_1_1);
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std::vector<uint32_t> binary;
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EXPECT_TRUE(t.Assemble(input_text, &binary));
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{
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std::string output_text;
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EXPECT_TRUE(t.Disassemble(binary, &output_text));
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EXPECT_EQ(input_text, output_text);
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}
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{
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std::string output_text;
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EXPECT_TRUE(t.Disassemble(binary.data(), binary.size(), &output_text));
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EXPECT_EQ(input_text, output_text);
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}
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}
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TEST(CppInterface, SuccessfulValidation) {
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SpirvTools t(SPV_ENV_UNIVERSAL_1_1);
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int invocation_count = 0;
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t.SetMessageConsumer([&invocation_count](spv_message_level_t, const char*,
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const spv_position_t&, const char*) {
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++invocation_count;
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});
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std::vector<uint32_t> binary;
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EXPECT_TRUE(t.Assemble(Header(), &binary));
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EXPECT_TRUE(t.Validate(binary));
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EXPECT_EQ(0, invocation_count);
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}
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TEST(CppInterface, ValidateOverloads) {
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SpirvTools t(SPV_ENV_UNIVERSAL_1_1);
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std::vector<uint32_t> binary;
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EXPECT_TRUE(t.Assemble(Header(), &binary));
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{ EXPECT_TRUE(t.Validate(binary)); }
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{ EXPECT_TRUE(t.Validate(binary.data(), binary.size())); }
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}
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TEST(CppInterface, ValidateEmptyModule) {
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SpirvTools t(SPV_ENV_UNIVERSAL_1_1);
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int invocation_count = 0;
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t.SetMessageConsumer(
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[&invocation_count](spv_message_level_t level, const char* source,
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const spv_position_t& position, const char* message) {
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++invocation_count;
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EXPECT_EQ(SPV_MSG_ERROR, level);
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EXPECT_STREQ("input", source);
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EXPECT_EQ(0u, position.line);
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EXPECT_EQ(0u, position.column);
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EXPECT_EQ(0u, position.index);
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EXPECT_STREQ("Invalid SPIR-V magic number.", message);
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});
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EXPECT_FALSE(t.Validate({}));
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EXPECT_EQ(1, invocation_count);
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}
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// Returns the assembly for a SPIR-V module with a struct declaration
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// with the given number of members.
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std::string MakeModuleHavingStruct(int num_members) {
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std::stringstream os;
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os << Header();
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os << R"(%1 = OpTypeInt 32 0
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%2 = OpTypeStruct)";
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for (int i = 0; i < num_members; i++) os << " %1";
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return os.str();
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}
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TEST(CppInterface, ValidateWithOptionsPass) {
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SpirvTools t(SPV_ENV_UNIVERSAL_1_1);
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std::vector<uint32_t> binary;
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EXPECT_TRUE(t.Assemble(MakeModuleHavingStruct(10), &binary));
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const ValidatorOptions opts;
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EXPECT_TRUE(t.Validate(binary.data(), binary.size(), opts));
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}
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TEST(CppInterface, ValidateWithOptionsFail) {
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SpirvTools t(SPV_ENV_UNIVERSAL_1_1);
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std::vector<uint32_t> binary;
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EXPECT_TRUE(t.Assemble(MakeModuleHavingStruct(10), &binary));
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ValidatorOptions opts;
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opts.SetUniversalLimit(spv_validator_limit_max_struct_members, 9);
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std::stringstream os;
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t.SetMessageConsumer([&os](spv_message_level_t, const char*,
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const spv_position_t&,
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const char* message) { os << message; });
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EXPECT_FALSE(t.Validate(binary.data(), binary.size(), opts));
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EXPECT_THAT(
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os.str(),
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HasSubstr(
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"Number of OpTypeStruct members (10) has exceeded the limit (9)"));
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}
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// Checks that after running the given optimizer |opt| on the given |original|
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// source code, we can get the given |optimized| source code.
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void CheckOptimization(const std::string& original,
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const std::string& optimized, const Optimizer& opt) {
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SpirvTools t(SPV_ENV_UNIVERSAL_1_1);
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std::vector<uint32_t> original_binary;
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ASSERT_TRUE(t.Assemble(original, &original_binary));
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std::vector<uint32_t> optimized_binary;
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EXPECT_TRUE(opt.Run(original_binary.data(), original_binary.size(),
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&optimized_binary));
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std::string optimized_text;
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EXPECT_TRUE(t.Disassemble(optimized_binary, &optimized_text));
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EXPECT_EQ(optimized, optimized_text);
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}
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TEST(CppInterface, OptimizeEmptyModule) {
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SpirvTools t(SPV_ENV_UNIVERSAL_1_1);
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std::vector<uint32_t> binary;
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EXPECT_TRUE(t.Assemble("", &binary));
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Optimizer o(SPV_ENV_UNIVERSAL_1_1);
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o.RegisterPass(CreateStripDebugInfoPass());
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// Fails to validate.
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EXPECT_FALSE(o.Run(binary.data(), binary.size(), &binary));
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}
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TEST(CppInterface, OptimizeModifiedModule) {
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Optimizer o(SPV_ENV_UNIVERSAL_1_1);
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o.RegisterPass(CreateStripDebugInfoPass());
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CheckOptimization(Header() + "OpSource GLSL 450", Header(), o);
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}
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TEST(CppInterface, OptimizeMulitplePasses) {
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std::string original_text = Header() +
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"OpSource GLSL 450 "
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"OpDecorate %true SpecId 1 "
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"%bool = OpTypeBool "
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"%true = OpSpecConstantTrue %bool";
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Optimizer o(SPV_ENV_UNIVERSAL_1_1);
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o.RegisterPass(CreateStripDebugInfoPass())
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.RegisterPass(CreateFreezeSpecConstantValuePass());
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std::string expected_text = Header() +
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"%bool = OpTypeBool\n"
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"%true = OpConstantTrue %bool\n";
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CheckOptimization(original_text, expected_text, o);
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}
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TEST(CppInterface, OptimizeDoNothingWithPassToken) {
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CreateFreezeSpecConstantValuePass();
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auto token = CreateUnifyConstantPass();
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}
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TEST(CppInterface, OptimizeReassignPassToken) {
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auto token = CreateNullPass();
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token = CreateStripDebugInfoPass();
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CheckOptimization(
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Header() + "OpSource GLSL 450", Header(),
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Optimizer(SPV_ENV_UNIVERSAL_1_1).RegisterPass(std::move(token)));
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}
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TEST(CppInterface, OptimizeMoveConstructPassToken) {
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auto token1 = CreateStripDebugInfoPass();
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Optimizer::PassToken token2(std::move(token1));
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CheckOptimization(
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Header() + "OpSource GLSL 450", Header(),
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Optimizer(SPV_ENV_UNIVERSAL_1_1).RegisterPass(std::move(token2)));
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}
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TEST(CppInterface, OptimizeMoveAssignPassToken) {
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auto token1 = CreateStripDebugInfoPass();
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auto token2 = CreateNullPass();
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token2 = std::move(token1);
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CheckOptimization(
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Header() + "OpSource GLSL 450", Header(),
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Optimizer(SPV_ENV_UNIVERSAL_1_1).RegisterPass(std::move(token2)));
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}
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TEST(CppInterface, OptimizeSameAddressForOriginalOptimizedBinary) {
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SpirvTools t(SPV_ENV_UNIVERSAL_1_1);
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std::vector<uint32_t> binary;
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ASSERT_TRUE(t.Assemble(Header() + "OpSource GLSL 450", &binary));
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EXPECT_TRUE(Optimizer(SPV_ENV_UNIVERSAL_1_1)
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.RegisterPass(CreateStripDebugInfoPass())
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.Run(binary.data(), binary.size(), &binary));
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std::string optimized_text;
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EXPECT_TRUE(t.Disassemble(binary, &optimized_text));
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EXPECT_EQ(Header(), optimized_text);
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}
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// TODO(antiagainst): tests for SetMessageConsumer().
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} // namespace
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} // namespace spvtools
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