//===- unittests/Frontend/FrontendActionTest.cpp FrontendAction tests-----===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// #include "flang/Frontend/CompilerInstance.h" #include "flang/Frontend/CompilerInvocation.h" #include "flang/Frontend/FrontendOptions.h" #include "flang/FrontendTool/Utils.h" #include "llvm/Support/FileSystem.h" #include "llvm/Support/raw_ostream.h" #include "gtest/gtest.h" using namespace Fortran::frontend; namespace { class FrontendActionTest : public ::testing::Test { protected: // AllSources (which is used to manage files inside every compiler // instance), works with paths. So we need a filename and a path for the // input file. // TODO: We could use `-` for inputFilePath_, but then we'd need a way to // write to stdin that's then read by AllSources. Ideally, AllSources should // be capable of reading from any stream. std::string inputFileName_; std::string inputFilePath_; // The output stream for the input file. Use this to populate the input. std::unique_ptr inputFileOs_; std::error_code ec_; CompilerInstance compInst_; std::shared_ptr invocation_; void SetUp() override { // Generate a unique test file name. const testing::TestInfo *const test_info = testing::UnitTest::GetInstance()->current_test_info(); inputFileName_ = std::string(test_info->name()) + "_test-file.f90"; // Create the input file stream. Note that this stream is populated // separately in every test (i.e. the input is test specific). inputFileOs_ = std::make_unique( inputFileName_, ec_, llvm::sys::fs::OF_None); if (ec_) FAIL() << "Failed to create the input file"; // Get the path of the input file. llvm::SmallString<256> cwd; if (std::error_code ec_ = llvm::sys::fs::current_path(cwd)) FAIL() << "Failed to obtain the current working directory"; inputFilePath_ = cwd.c_str(); inputFilePath_ += "/" + inputFileName_; // Prepare the compiler (CompilerInvocation + CompilerInstance) compInst_.CreateDiagnostics(); invocation_ = std::make_shared(); compInst_.set_invocation(std::move(invocation_)); compInst_.frontendOpts().inputs.push_back( FrontendInputFile(inputFilePath_, Language::Fortran)); } void TearDown() override { // Clear the input file. llvm::sys::fs::remove(inputFileName_); // Clear the output files. // Note that these tests use an output buffer (as opposed to an output // file), hence there are no physical output files to delete and // `EraseFiles` is set to `false`. Also, some actions (e.g. // `ParseSyntaxOnly`) don't generated output. In such cases there's no // output to clear and `ClearOutputFile` returns immediately. compInst_.ClearOutputFiles(/*EraseFiles=*/false); } }; TEST_F(FrontendActionTest, TestInputOutput) { // Populate the input file with the pre-defined input and flush it. *(inputFileOs_) << "End Program arithmetic"; inputFileOs_.reset(); // Set-up the action kind. compInst_.invocation().frontendOpts().programAction = InputOutputTest; // Set-up the output stream. Using output buffer wrapped as an output // stream, as opposed to an actual file (or a file descriptor). llvm::SmallVector outputFileBuffer; std::unique_ptr outputFileStream( new llvm::raw_svector_ostream(outputFileBuffer)); compInst_.set_outputStream(std::move(outputFileStream)); // Execute the action. bool success = ExecuteCompilerInvocation(&compInst_); // Validate the expected output. EXPECT_TRUE(success); EXPECT_TRUE(!outputFileBuffer.empty()); EXPECT_TRUE(llvm::StringRef(outputFileBuffer.data()) .startswith("End Program arithmetic")); } TEST_F(FrontendActionTest, PrintPreprocessedInput) { // Populate the input file with the pre-defined input and flush it. *(inputFileOs_) << "#ifdef NEW\n" << " Program A \n" << "#else\n" << " Program B\n" << "#endif"; inputFileOs_.reset(); // Set-up the action kind. compInst_.invocation().frontendOpts().programAction = PrintPreprocessedInput; compInst_.invocation().preprocessorOpts().noReformat = true; // Set-up the output stream. We are using output buffer wrapped as an output // stream, as opposed to an actual file (or a file descriptor). llvm::SmallVector outputFileBuffer; std::unique_ptr outputFileStream( new llvm::raw_svector_ostream(outputFileBuffer)); compInst_.set_outputStream(std::move(outputFileStream)); // Execute the action. bool success = ExecuteCompilerInvocation(&compInst_); // Validate the expected output. EXPECT_TRUE(success); EXPECT_TRUE(!outputFileBuffer.empty()); EXPECT_TRUE( llvm::StringRef(outputFileBuffer.data()).startswith("program b\n")); } TEST_F(FrontendActionTest, ParseSyntaxOnly) { // Populate the input file with the pre-defined input and flush it. *(inputFileOs_) << "IF (A > 0.0) IF (B < 0.0) A = LOG (A)\n" << "END"; inputFileOs_.reset(); // Set-up the action kind. compInst_.invocation().frontendOpts().programAction = ParseSyntaxOnly; // Set-up the output stream for the semantic diagnostics. llvm::SmallVector outputDiagBuffer; std::unique_ptr outputStream( new llvm::raw_svector_ostream(outputDiagBuffer)); compInst_.set_semaOutputStream(std::move(outputStream)); // Execute the action. bool success = ExecuteCompilerInvocation(&compInst_); // Validate the expected output. EXPECT_FALSE(success); EXPECT_TRUE(!outputDiagBuffer.empty()); EXPECT_TRUE( llvm::StringRef(outputDiagBuffer.data()) .contains( ":1:14: error: IF statement is not allowed in IF statement\n")); } } // namespace