/**************************************************************************** ** ** 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 "cmakebuildstep.h" #include "cmakebuildconfiguration.h" #include "cmakekitinformation.h" #include "cmakeparser.h" #include "cmakeprojectconstants.h" #include "cmakeproject.h" #include "cmakerunconfiguration.h" #include "cmaketool.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include using namespace CMakeProjectManager; using namespace CMakeProjectManager::Internal; using namespace ProjectExplorer; namespace { const char MS_ID[] = "CMakeProjectManager.MakeStep"; const char CLEAN_KEY[] = "CMakeProjectManager.MakeStep.Clean"; // Obsolete since QtC 3.7 const char BUILD_TARGETS_KEY[] = "CMakeProjectManager.MakeStep.BuildTargets"; const char TOOL_ARGUMENTS_KEY[] = "CMakeProjectManager.MakeStep.AdditionalArguments"; const char ADD_RUNCONFIGURATION_ARGUMENT_KEY[] = "CMakeProjectManager.MakeStep.AddRunConfigurationArgument"; const char ADD_RUNCONFIGURATION_TEXT[] = "Current executable"; } static bool isCurrentExecutableTarget(const QString &target) { return target == QLatin1String(ADD_RUNCONFIGURATION_TEXT); } CMakeBuildStep::CMakeBuildStep(BuildStepList *bsl) : AbstractProcessStep(bsl, Core::Id(MS_ID)) { ctor(bsl); } CMakeBuildStep::CMakeBuildStep(BuildStepList *bsl, Core::Id id) : AbstractProcessStep(bsl, id) { ctor(bsl); } CMakeBuildStep::CMakeBuildStep(BuildStepList *bsl, CMakeBuildStep *bs) : AbstractProcessStep(bsl, bs), m_buildTarget(bs->m_buildTarget), m_toolArguments(bs->m_toolArguments) { ctor(bsl); } void CMakeBuildStep::ctor(BuildStepList *bsl) { m_percentProgress = QRegExp(QLatin1String("^\\[\\s*(\\d*)%\\]")); m_ninjaProgress = QRegExp(QLatin1String("^\\[\\s*(\\d*)/\\s*(\\d*)")); m_ninjaProgressString = QLatin1String("[%f/%t "); // ninja: [33/100 //: Default display name for the cmake make step. setDefaultDisplayName(tr("Make")); auto bc = qobject_cast(bsl->parent()); if (!bc) { auto t = qobject_cast(bsl->parent()->parent()); QTC_ASSERT(t, return); bc = qobject_cast(t->activeBuildConfiguration()); } connect(target(), &Target::kitChanged, this, &CMakeBuildStep::cmakeCommandChanged); connect(bc, &CMakeBuildConfiguration::dataAvailable, this, &CMakeBuildStep::handleBuildTargetChanges); } CMakeBuildConfiguration *CMakeBuildStep::cmakeBuildConfiguration() const { return static_cast(buildConfiguration()); } CMakeBuildConfiguration *CMakeBuildStep::targetsActiveBuildConfiguration() const { return static_cast(target()->activeBuildConfiguration()); } CMakeRunConfiguration *CMakeBuildStep::targetsActiveRunConfiguration() const { return qobject_cast(target()->activeRunConfiguration()); } void CMakeBuildStep::handleBuildTargetChanges() { if (isCurrentExecutableTarget(m_buildTarget)) return; // Do not change just because a different set of build targets is there... if (!static_cast(project())->buildTargetTitles().contains(m_buildTarget)) setBuildTarget(CMakeBuildStep::allTarget()); emit buildTargetsChanged(); } QVariantMap CMakeBuildStep::toMap() const { QVariantMap map(AbstractProcessStep::toMap()); // Use QStringList for compatibility with old files map.insert(QLatin1String(BUILD_TARGETS_KEY), QStringList(m_buildTarget)); map.insert(QLatin1String(TOOL_ARGUMENTS_KEY), m_toolArguments); return map; } bool CMakeBuildStep::fromMap(const QVariantMap &map) { if (map.value(QLatin1String(CLEAN_KEY), false).toBool()) { m_buildTarget = CMakeBuildStep::cleanTarget(); } else { const QStringList targetList = map.value(QLatin1String(BUILD_TARGETS_KEY)).toStringList(); if (!targetList.isEmpty()) m_buildTarget = targetList.last(); m_toolArguments = map.value(QLatin1String(TOOL_ARGUMENTS_KEY)).toString(); } if (map.value(QLatin1String(ADD_RUNCONFIGURATION_ARGUMENT_KEY), false).toBool()) m_buildTarget = QLatin1String(ADD_RUNCONFIGURATION_TEXT); return BuildStep::fromMap(map); } bool CMakeBuildStep::init(QList &earlierSteps) { bool canInit = true; CMakeBuildConfiguration *bc = cmakeBuildConfiguration(); if (!bc) bc = targetsActiveBuildConfiguration(); if (!bc) { emit addTask(Task::buildConfigurationMissingTask()); canInit = false; } CMakeTool *tool = CMakeKitInformation::cmakeTool(target()->kit()); if (!tool || !tool->isValid()) { emit addTask(Task(Task::Error, QCoreApplication::translate("CMakeProjectManager::CMakeBuildStep", "Qt Creator needs a CMake Tool set up to build. " "Configure a CMake Tool in the kit options."), Utils::FileName(), -1, ProjectExplorer::Constants::TASK_CATEGORY_BUILDSYSTEM)); canInit = false; } CMakeRunConfiguration *rc = targetsActiveRunConfiguration(); if (isCurrentExecutableTarget(m_buildTarget) && (!rc || rc->title().isEmpty())) { emit addTask(Task(Task::Error, QCoreApplication::translate("ProjectExplorer::Task", "You asked to build the current Run Configuration's build target only, " "but it is not associated with a build target. " "Update the Make Step in your build settings."), Utils::FileName(), -1, ProjectExplorer::Constants::TASK_CATEGORY_BUILDSYSTEM)); canInit = false; } if (!canInit) { emitFaultyConfigurationMessage(); return false; } QString arguments = allArguments(rc); setIgnoreReturnValue(m_buildTarget == CMakeBuildStep::cleanTarget()); ProcessParameters *pp = processParameters(); pp->setMacroExpander(bc->macroExpander()); Utils::Environment env = bc->environment(); Utils::Environment::setupEnglishOutput(&env); if (!env.value(QLatin1String("NINJA_STATUS")).startsWith(m_ninjaProgressString)) env.set(QLatin1String("NINJA_STATUS"), m_ninjaProgressString + QLatin1String("%o/sec] ")); pp->setEnvironment(env); pp->setWorkingDirectory(bc->buildDirectory().toString()); pp->setCommand(cmakeCommand()); pp->setArguments(arguments); pp->resolveAll(); setOutputParser(new CMakeParser); appendOutputParser(new GnuMakeParser); IOutputParser *parser = target()->kit()->createOutputParser(); if (parser) appendOutputParser(parser); outputParser()->setWorkingDirectory(pp->effectiveWorkingDirectory()); return AbstractProcessStep::init(earlierSteps); } void CMakeBuildStep::run(QFutureInterface &fi) { // Make sure CMake state was written to disk before trying to build: CMakeBuildConfiguration *bc = cmakeBuildConfiguration(); if (!bc) bc = qobject_cast(target()->activeBuildConfiguration()); QTC_ASSERT(bc, return); if (bc->persistCMakeState()) { emit addOutput(tr("Persisting CMake state..."), BuildStep::MessageOutput); m_runTrigger = connect(bc, &CMakeBuildConfiguration::dataAvailable, this, [this, &fi]() { runImpl(fi); }); m_errorTrigger = connect(bc, &CMakeBuildConfiguration::errorOccured, this, [this, &fi]() { reportRunResult(fi, false); }); } else { runImpl(fi); } } void CMakeBuildStep::runImpl(QFutureInterface &fi) { // Do the actual build: disconnect(m_runTrigger); disconnect(m_errorTrigger); AbstractProcessStep::run(fi); } BuildStepConfigWidget *CMakeBuildStep::createConfigWidget() { return new CMakeBuildStepConfigWidget(this); } bool CMakeBuildStep::immutable() const { return false; } void CMakeBuildStep::stdOutput(const QString &line) { if (m_percentProgress.indexIn(line) != -1) { AbstractProcessStep::stdOutput(line); bool ok = false; int percent = m_percentProgress.cap(1).toInt(&ok); if (ok) futureInterface()->setProgressValue(percent); return; } else if (m_ninjaProgress.indexIn(line) != -1) { AbstractProcessStep::stdOutput(line); m_useNinja = true; bool ok = false; int done = m_ninjaProgress.cap(1).toInt(&ok); if (ok) { int all = m_ninjaProgress.cap(2).toInt(&ok); if (ok && all != 0) { int percent = 100.0 * done/all; futureInterface()->setProgressValue(percent); } } return; } if (m_useNinja) AbstractProcessStep::stdError(line); else AbstractProcessStep::stdOutput(line); } QString CMakeBuildStep::buildTarget() const { return m_buildTarget; } bool CMakeBuildStep::buildsBuildTarget(const QString &target) const { return target == m_buildTarget; } void CMakeBuildStep::setBuildTarget(const QString &buildTarget) { if (m_buildTarget == buildTarget) return; m_buildTarget = buildTarget; emit targetToBuildChanged(); } void CMakeBuildStep::clearBuildTargets() { m_buildTarget.clear(); } QString CMakeBuildStep::toolArguments() const { return m_toolArguments; } void CMakeBuildStep::setToolArguments(const QString &list) { m_toolArguments = list; } QString CMakeBuildStep::allArguments(const CMakeRunConfiguration *rc) const { QString arguments; Utils::QtcProcess::addArg(&arguments, QLatin1String("--build")); Utils::QtcProcess::addArg(&arguments, QLatin1String(".")); QString target; if (isCurrentExecutableTarget(m_buildTarget)) { if (rc) target = rc->title(); else target = QLatin1String("<") + tr(ADD_RUNCONFIGURATION_TEXT) + QLatin1String(">"); } else { target = m_buildTarget; } Utils::QtcProcess::addArg(&arguments, QLatin1String("--target")); Utils::QtcProcess::addArg(&arguments, target); if (!m_toolArguments.isEmpty()) { Utils::QtcProcess::addArg(&arguments, QLatin1String("--")); arguments += QLatin1Char(' ') + m_toolArguments; } return arguments; } QString CMakeBuildStep::cmakeCommand() const { CMakeTool *tool = CMakeKitInformation::cmakeTool(target()->kit()); return tool ? tool->cmakeExecutable().toString() : QString(); } QString CMakeBuildStep::cleanTarget() { return QLatin1String("clean"); } QString CMakeBuildStep::allTarget() { return QLatin1String("all"); } // // CMakeBuildStepConfigWidget // CMakeBuildStepConfigWidget::CMakeBuildStepConfigWidget(CMakeBuildStep *buildStep) : m_buildStep(buildStep), m_toolArguments(new QLineEdit), m_buildTargetsList(new QListWidget) { auto fl = new QFormLayout(this); fl->setMargin(0); fl->setFieldGrowthPolicy(QFormLayout::ExpandingFieldsGrow); setLayout(fl); fl->addRow(tr("Tool arguments:"), m_toolArguments); m_toolArguments->setText(m_buildStep->toolArguments()); m_buildTargetsList->setFrameStyle(QFrame::NoFrame); m_buildTargetsList->setMinimumHeight(200); auto frame = new QFrame(this); frame->setFrameStyle(QFrame::StyledPanel); auto frameLayout = new QVBoxLayout(frame); frameLayout->setMargin(0); frameLayout->addWidget(Core::ItemViewFind::createSearchableWrapper(m_buildTargetsList, Core::ItemViewFind::LightColored)); fl->addRow(tr("Targets:"), frame); buildTargetsChanged(); updateDetails(); connect(m_toolArguments, &QLineEdit::textEdited, this, &CMakeBuildStepConfigWidget::toolArgumentsEdited); connect(m_buildTargetsList, &QListWidget::itemChanged, this, &CMakeBuildStepConfigWidget::itemChanged); connect(ProjectExplorerPlugin::instance(), &ProjectExplorerPlugin::settingsChanged, this, &CMakeBuildStepConfigWidget::updateDetails); connect(m_buildStep, &CMakeBuildStep::buildTargetsChanged, this, &CMakeBuildStepConfigWidget::buildTargetsChanged); connect(m_buildStep, &CMakeBuildStep::targetToBuildChanged, this, &CMakeBuildStepConfigWidget::selectedBuildTargetsChanged); connect(static_cast(m_buildStep->project()), &CMakeProject::environmentChanged, this, &CMakeBuildStepConfigWidget::updateDetails); } void CMakeBuildStepConfigWidget::toolArgumentsEdited() { m_buildStep->setToolArguments(m_toolArguments->text()); updateDetails(); } void CMakeBuildStepConfigWidget::itemChanged(QListWidgetItem *item) { const QString target = (item->checkState() == Qt::Checked) ? item->data(Qt::UserRole).toString() : CMakeBuildStep::allTarget(); m_buildStep->setBuildTarget(target); updateDetails(); } QString CMakeBuildStepConfigWidget::displayName() const { return tr("Build", "CMakeProjectManager::CMakeBuildStepConfigWidget display name."); } void CMakeBuildStepConfigWidget::buildTargetsChanged() { const bool wasBlocked = m_buildTargetsList->blockSignals(true); m_buildTargetsList->clear(); auto item = new QListWidgetItem(tr(ADD_RUNCONFIGURATION_TEXT), m_buildTargetsList); item->setData(Qt::UserRole, QString::fromLatin1(ADD_RUNCONFIGURATION_TEXT)); QFont f; f.setItalic(true); item->setFont(f); CMakeProject *pro = static_cast(m_buildStep->project()); QStringList targetList = pro->buildTargetTitles(); targetList.sort(); foreach (const QString &buildTarget, targetList) { auto item = new QListWidgetItem(buildTarget, m_buildTargetsList); item->setData(Qt::UserRole, buildTarget); } for (int i = 0; i < m_buildTargetsList->count(); ++i) { QListWidgetItem *item = m_buildTargetsList->item(i); item->setFlags(item->flags() | Qt::ItemIsUserCheckable); item->setCheckState(m_buildStep->buildsBuildTarget(item->data(Qt::UserRole).toString()) ? Qt::Checked : Qt::Unchecked); } m_buildTargetsList->blockSignals(wasBlocked); updateSummary(); } void CMakeBuildStepConfigWidget::selectedBuildTargetsChanged() { const bool wasBlocked = m_buildTargetsList->blockSignals(true); for (int y = 0; y < m_buildTargetsList->count(); ++y) { QListWidgetItem *item = m_buildTargetsList->item(y); item->setCheckState(m_buildStep->buildsBuildTarget(item->data(Qt::UserRole).toString()) ? Qt::Checked : Qt::Unchecked); } m_buildTargetsList->blockSignals(wasBlocked); updateSummary(); } void CMakeBuildStepConfigWidget::updateDetails() { BuildConfiguration *bc = m_buildStep->buildConfiguration(); if (!bc) bc = m_buildStep->targetsActiveBuildConfiguration(); if (!bc) { m_summaryText = tr("No build configuration found on this kit."); updateSummary(); return; } ProcessParameters param; param.setMacroExpander(bc->macroExpander()); param.setEnvironment(bc->environment()); param.setWorkingDirectory(bc->buildDirectory().toString()); param.setCommand(m_buildStep->cmakeCommand()); param.setArguments(m_buildStep->allArguments(0)); m_summaryText = param.summary(displayName()); emit updateSummary(); } QString CMakeBuildStepConfigWidget::summaryText() const { return m_summaryText; } // // CMakeBuildStepFactory // CMakeBuildStepFactory::CMakeBuildStepFactory(QObject *parent) : IBuildStepFactory(parent) { } QList CMakeBuildStepFactory::availableSteps(BuildStepList *parent) const { if (parent->target()->project()->id() != Constants::CMAKEPROJECT_ID) return {}; return {{ MS_ID, tr("Build", "Display name for CMakeProjectManager::CMakeBuildStep id.") }}; } BuildStep *CMakeBuildStepFactory::create(BuildStepList *parent, Core::Id id) { Q_UNUSED(id); auto step = new CMakeBuildStep(parent); if (parent->id() == ProjectExplorer::Constants::BUILDSTEPS_CLEAN) step->setBuildTarget(CMakeBuildStep::cleanTarget()); return step; } BuildStep *CMakeBuildStepFactory::clone(BuildStepList *parent, BuildStep *source) { return new CMakeBuildStep(parent, static_cast(source)); } void CMakeBuildStep::processStarted() { m_useNinja = false; futureInterface()->setProgressRange(0, 100); AbstractProcessStep::processStarted(); } void CMakeBuildStep::processFinished(int exitCode, QProcess::ExitStatus status) { AbstractProcessStep::processFinished(exitCode, status); futureInterface()->setProgressValue(100); }