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https://github.com/KhronosGroup/SPIRV-Tools
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70404a96ab
Generally, a test fixture in a method that can generate a binary should release any previously cached binary. Similarly for diagnostics.
199 lines
6.5 KiB
C++
199 lines
6.5 KiB
C++
// Copyright (c) 2015-2016 The Khronos Group 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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#ifndef TEST_TEST_FIXTURE_H_
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#define TEST_TEST_FIXTURE_H_
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#include <string>
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#include <vector>
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#include "test/unit_spirv.h"
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namespace spvtest {
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// RAII for spv_context.
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struct ScopedContext {
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ScopedContext(spv_target_env env = SPV_ENV_UNIVERSAL_1_0)
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: context(spvContextCreate(env)) {}
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~ScopedContext() { spvContextDestroy(context); }
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spv_context context;
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};
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// Common setup for TextToBinary tests. SetText() should be called to populate
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// the actual test text.
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template <typename T>
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class TextToBinaryTestBase : public T {
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public:
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// Shorthand for SPIR-V compilation result.
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using SpirvVector = std::vector<uint32_t>;
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// Offset into a SpirvVector at which the first instruction starts.
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static const SpirvVector::size_type kFirstInstruction = 5;
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TextToBinaryTestBase() : diagnostic(nullptr), text(), binary(nullptr) {
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char textStr[] = "substitute the text member variable with your test";
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text = {textStr, strlen(textStr)};
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}
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virtual ~TextToBinaryTestBase() {
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DestroyBinary();
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if (diagnostic) spvDiagnosticDestroy(diagnostic);
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}
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// Returns subvector v[from:end).
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SpirvVector Subvector(const SpirvVector& v, SpirvVector::size_type from) {
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assert(from <= v.size());
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return SpirvVector(v.begin() + from, v.end());
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}
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// Compiles SPIR-V text in the given assembly syntax format, asserting
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// compilation success. Returns the compiled code.
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SpirvVector CompileSuccessfully(const std::string& txt,
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spv_target_env env = SPV_ENV_UNIVERSAL_1_0) {
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DestroyBinary();
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DestroyDiagnostic();
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spv_result_t status =
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spvTextToBinary(ScopedContext(env).context, txt.c_str(), txt.size(),
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&binary, &diagnostic);
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EXPECT_EQ(SPV_SUCCESS, status) << txt;
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SpirvVector code_copy;
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if (status == SPV_SUCCESS) {
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code_copy = SpirvVector(binary->code, binary->code + binary->wordCount);
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DestroyBinary();
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} else {
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spvDiagnosticPrint(diagnostic);
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}
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return code_copy;
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}
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// Compiles SPIR-V text with the given format, asserting compilation failure.
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// Returns the error message(s).
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std::string CompileFailure(const std::string& txt,
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spv_target_env env = SPV_ENV_UNIVERSAL_1_0) {
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DestroyBinary();
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DestroyDiagnostic();
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EXPECT_NE(SPV_SUCCESS,
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spvTextToBinary(ScopedContext(env).context, txt.c_str(),
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txt.size(), &binary, &diagnostic))
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<< txt;
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DestroyBinary();
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return diagnostic->error;
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}
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// Encodes SPIR-V text into binary and then decodes the binary using
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// given options. Returns the decoded text.
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std::string EncodeAndDecodeSuccessfully(
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const std::string& txt,
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uint32_t disassemble_options = SPV_BINARY_TO_TEXT_OPTION_NONE,
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spv_target_env env = SPV_ENV_UNIVERSAL_1_0) {
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DestroyBinary();
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DestroyDiagnostic();
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ScopedContext context(env);
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disassemble_options |= SPV_BINARY_TO_TEXT_OPTION_NO_HEADER;
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spv_result_t error = spvTextToBinary(context.context, txt.c_str(),
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txt.size(), &binary, &diagnostic);
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if (error) {
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spvDiagnosticPrint(diagnostic);
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spvDiagnosticDestroy(diagnostic);
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}
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EXPECT_EQ(SPV_SUCCESS, error);
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if (!binary) return "";
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spv_text decoded_text;
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error = spvBinaryToText(context.context, binary->code, binary->wordCount,
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disassemble_options, &decoded_text, &diagnostic);
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if (error) {
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spvDiagnosticPrint(diagnostic);
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spvDiagnosticDestroy(diagnostic);
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}
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EXPECT_EQ(SPV_SUCCESS, error) << txt;
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const std::string decoded_string = decoded_text->str;
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spvTextDestroy(decoded_text);
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return decoded_string;
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}
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// Encodes SPIR-V text into binary. This is expected to succeed.
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// The given words are then appended to the binary, and the result
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// is then decoded. This is expected to fail.
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// Returns the error message.
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std::string EncodeSuccessfullyDecodeFailed(
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const std::string& txt, const SpirvVector& words_to_append) {
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DestroyBinary();
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DestroyDiagnostic();
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SpirvVector code =
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spvtest::Concatenate({CompileSuccessfully(txt), words_to_append});
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spv_text decoded_text;
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EXPECT_NE(SPV_SUCCESS,
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spvBinaryToText(ScopedContext().context, code.data(), code.size(),
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SPV_BINARY_TO_TEXT_OPTION_NONE, &decoded_text,
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&diagnostic));
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if (diagnostic) {
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std::string error_message = diagnostic->error;
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spvDiagnosticDestroy(diagnostic);
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diagnostic = nullptr;
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return error_message;
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}
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return "";
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}
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// Compiles SPIR-V text, asserts success, and returns the words representing
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// the instructions. In particular, skip the words in the SPIR-V header.
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SpirvVector CompiledInstructions(const std::string& txt,
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spv_target_env env = SPV_ENV_UNIVERSAL_1_0) {
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const SpirvVector code = CompileSuccessfully(txt, env);
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SpirvVector result;
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// Extract just the instructions.
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// If the code fails to compile, then return the empty vector.
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// In any case, don't crash or invoke undefined behaviour.
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if (code.size() >= kFirstInstruction)
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result = Subvector(code, kFirstInstruction);
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return result;
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}
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void SetText(const std::string& code) {
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textString = code;
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text.str = textString.c_str();
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text.length = textString.size();
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}
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// Destroys the binary, if it exists.
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void DestroyBinary() {
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spvBinaryDestroy(binary);
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binary = nullptr;
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}
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// Destroys the diagnostic, if it exists.
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void DestroyDiagnostic() {
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spvDiagnosticDestroy(diagnostic);
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diagnostic = nullptr;
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}
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spv_diagnostic diagnostic;
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std::string textString;
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spv_text_t text;
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spv_binary binary;
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};
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using TextToBinaryTest = TextToBinaryTestBase<::testing::Test>;
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} // namespace spvtest
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using RoundTripTest =
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spvtest::TextToBinaryTestBase<::testing::TestWithParam<std::string>>;
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#endif // TEST_TEST_FIXTURE_H_
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