/**************************************************************************** ** ** Copyright (C) 2016 The Qt Company Ltd. ** Contact: https://www.qt.io/licensing/ ** ** This file is part of Qt Creator. ** ** Commercial License Usage ** Licensees holding valid commercial Qt licenses may use this file in ** accordance with the commercial license agreement provided with the ** Software or, alternatively, in accordance with the terms contained in ** a written agreement between you and The Qt Company. For licensing terms ** and conditions see https://www.qt.io/terms-conditions. For further ** information use the contact form at https://www.qt.io/contact-us. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU ** General Public License version 3 as published by the Free Software ** Foundation with exceptions as appearing in the file LICENSE.GPL3-EXCEPT ** included in the packaging of this file. Please review the following ** information to ensure the GNU General Public License requirements will ** be met: https://www.gnu.org/licenses/gpl-3.0.html. ** ****************************************************************************/ #include "googletest.h" #include "fakeprocess.h" #include "testenvironment.h" #include "mockpchgeneratornotifier.h" #include namespace { using testing::_; using testing::Contains; using testing::Eq; using testing::NiceMock; using testing::Not; using testing::PrintToString; using ClangBackEnd::TaskFinishStatus; MATCHER_P(ContainsProcess, process, std::string(negation ? "isn't" : "is") + " process " + PrintToString(process)) { auto found = std::find_if(arg.begin(), arg.end(), [&] (const std::unique_ptr &processOwner) { return processOwner.get() == process; }); return found != arg.end(); } class PchGenerator : public testing::Test { protected: TestEnvironment environment; NiceMock mockNotifier; ClangBackEnd::PchGenerator generator{environment, &mockNotifier}; Utils::SmallStringVector compilerArguments = {"-DXXXX", "-Ifoo"}; ClangBackEnd::ProjectPartPch projectPartPch{"projectPartId", "/path/to/pch"}; }; TEST_F(PchGenerator, ProcessFinished) { EXPECT_CALL(mockNotifier, taskFinished(TaskFinishStatus::Successfully, std::move(projectPartPch))); generator.startTask(compilerArguments.clone(), projectPartPch.clone()); } TEST_F(PchGenerator, ProcessFinishedForDeferredProcess) { auto process = generator.addTask(compilerArguments.clone(), projectPartPch.clone()); generator.startTask(compilerArguments.clone(), projectPartPch.clone()); EXPECT_CALL(mockNotifier, taskFinished(TaskFinishStatus::Successfully, std::move(projectPartPch))) .Times(3); generator.startTask(compilerArguments.clone(), projectPartPch.clone()); process->finish(); } TEST_F(PchGenerator, ProcessSuccessfullyFinished) { EXPECT_CALL(mockNotifier, taskFinished(TaskFinishStatus::Unsuccessfully, std::move(projectPartPch))); auto process = generator.addTask(compilerArguments.clone(), projectPartPch.clone()); process->finishUnsuccessfully(); } TEST_F(PchGenerator, ProcessSuccessfullyFinishedByWrongExitCode) { EXPECT_CALL(mockNotifier, taskFinished(TaskFinishStatus::Unsuccessfully, std::move(projectPartPch))); auto process = generator.addTask(compilerArguments.clone(), projectPartPch.clone()); process->finishUnsuccessfully(); } TEST_F(PchGenerator, AddTaskAddsProcessToProcesses) { auto process = generator.addTask(compilerArguments.clone(), projectPartPch.clone()); ASSERT_THAT(generator.runningProcesses(), ContainsProcess(process)); } TEST_F(PchGenerator, RemoveProcessAfterFinishingProcess) { auto process = generator.addTask(compilerArguments.clone(), projectPartPch.clone()); process->finish(); ASSERT_THAT(generator.runningProcesses(), Not(ContainsProcess(process))); } TEST_F(PchGenerator, ProcessSuccessfullyFinishedByCrash) { EXPECT_CALL(mockNotifier, taskFinished(TaskFinishStatus::Unsuccessfully, std::move(projectPartPch))); auto process = generator.addTask(compilerArguments.clone(), projectPartPch.clone()); process->finishByCrash(); } TEST_F(PchGenerator, CreateProcess) { auto process = generator.addTask(compilerArguments.clone(), projectPartPch.clone()); ASSERT_THAT(generator.runningProcesses(), ContainsProcess(process)); } TEST_F(PchGenerator, DeleteProcess) { auto process = generator.addTask(compilerArguments.clone(), projectPartPch.clone()); generator.deleteProcess(process); ASSERT_THAT(generator.runningProcesses(), Not(ContainsProcess(process))); } TEST_F(PchGenerator, StartProcessApplicationPath) { auto process = generator.addTask(compilerArguments.clone(), projectPartPch.clone()); ASSERT_THAT(process->applicationPath(), environment.clangCompilerPath()); } TEST_F(PchGenerator, SetCompilerArguments) { auto process = generator.addTask(compilerArguments.clone(), projectPartPch.clone()); ASSERT_THAT(process->arguments(), compilerArguments); } TEST_F(PchGenerator, ProcessIsStartedAfterAddingTask) { auto process = generator.addTask(compilerArguments.clone(), projectPartPch.clone()); ASSERT_TRUE(process->isStarted()); } TEST_F(PchGenerator, DeferProcess) { generator.addTask(compilerArguments.clone(), projectPartPch.clone()); generator.addTask(compilerArguments.clone(), projectPartPch.clone()); auto deferProcess = generator.deferProcess(); ASSERT_TRUE(deferProcess); } TEST_F(PchGenerator, ThirdTaskIsDeferred) { generator.addTask(compilerArguments.clone(), projectPartPch.clone()); generator.addTask(compilerArguments.clone(), projectPartPch.clone()); auto process = generator.addTask(compilerArguments.clone(), projectPartPch.clone()); ASSERT_THAT(process, generator.deferredProcesses().back().get()); } TEST_F(PchGenerator, ThirdTaskIsNotRunning) { generator.addTask(compilerArguments.clone(), projectPartPch.clone()); generator.addTask(compilerArguments.clone(), projectPartPch.clone()); auto process = generator.addTask(compilerArguments.clone(), projectPartPch.clone()); ASSERT_THAT(generator.runningProcesses(), Not(ContainsProcess(process))); } TEST_F(PchGenerator, DoNotDeferProcess) { generator.addTask(compilerArguments.clone(), projectPartPch.clone()); auto deferProcess = generator.deferProcess(); ASSERT_FALSE(deferProcess); } TEST_F(PchGenerator, DoNotActivateIfNothingIsDeferred) { generator.activateNextDeferredProcess(); } TEST_F(PchGenerator, AfterActivationProcessIsRunning) { generator.addTask(compilerArguments.clone(), projectPartPch.clone()); generator.addTask(compilerArguments.clone(), projectPartPch.clone()); auto process = generator.addTask(compilerArguments.clone(), projectPartPch.clone()); generator.activateNextDeferredProcess(); ASSERT_THAT(generator.runningProcesses(), ContainsProcess(process)); } }