/**************************************************************************** ** ** Copyright (C) 2014 Digia Plc and/or its subsidiary(-ies). ** Contact: http://www.qt-project.org/legal ** ** 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 Digia. For licensing terms and ** conditions see http://qt.digia.com/licensing. For further information ** use the contact form at http://qt.digia.com/contact-us. ** ** GNU Lesser General Public License Usage ** Alternatively, this file may be used under the terms of the GNU Lesser ** General Public License version 2.1 as published by the Free Software ** Foundation and appearing in the file LICENSE.LGPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU Lesser General Public License version 2.1 requirements ** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** In addition, as a special exception, Digia gives you certain additional ** rights. These rights are described in the Digia Qt LGPL Exception ** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. ** ****************************************************************************/ #include "gcctoolchain.h" #include "clangparser.h" #include "gcctoolchainfactories.h" #include "gccparser.h" #include "linuxiccparser.h" #include "projectexplorerconstants.h" #include "toolchainmanager.h" #include #include #include #include #include #include #include #include #include #include #include #include #include using namespace Utils; namespace ProjectExplorer { using namespace Internal; // -------------------------------------------------------------------------- // Helpers: // -------------------------------------------------------------------------- static const char compilerCommandKeyC[] = "ProjectExplorer.GccToolChain.Path"; static const char compilerPlatformCodeGenFlagsKeyC[] = "ProjectExplorer.GccToolChain.PlatformCodeGenFlags"; static const char compilerPlatformLinkerFlagsKeyC[] = "ProjectExplorer.GccToolChain.PlatformLinkerFlags"; static const char targetAbiKeyC[] = "ProjectExplorer.GccToolChain.TargetAbi"; static const char supportedAbisKeyC[] = "ProjectExplorer.GccToolChain.SupportedAbis"; static QByteArray runGcc(const FileName &gcc, const QStringList &arguments, const QStringList &env) { if (gcc.isEmpty() || !gcc.toFileInfo().isExecutable()) return QByteArray(); QProcess cpp; // Force locale: This function is used only to detect settings inside the tool chain, so this is save. QStringList environment(env); environment.append(QLatin1String("LC_ALL=C")); cpp.setEnvironment(environment); cpp.start(gcc.toString(), arguments); if (!cpp.waitForStarted()) { qWarning("%s: Cannot start '%s': %s", Q_FUNC_INFO, qPrintable(gcc.toUserOutput()), qPrintable(cpp.errorString())); return QByteArray(); } cpp.closeWriteChannel(); if (!cpp.waitForFinished(10000)) { SynchronousProcess::stopProcess(cpp); qWarning("%s: Timeout running '%s'.", Q_FUNC_INFO, qPrintable(gcc.toUserOutput())); return QByteArray(); } if (cpp.exitStatus() != QProcess::NormalExit) { qWarning("%s: '%s' crashed.", Q_FUNC_INFO, qPrintable(gcc.toUserOutput())); return QByteArray(); } const QByteArray stdErr = cpp.readAllStandardError(); if (cpp.exitCode() != 0) { qWarning().nospace() << Q_FUNC_INFO << ": " << gcc.toUserOutput() << ' ' << arguments.join(QLatin1String(" ")) << " returned exit code " << cpp.exitCode() << ": " << stdErr; return QByteArray(); } QByteArray data = cpp.readAllStandardOutput(); if (!data.isEmpty() && !data.endsWith('\n')) data.append('\n'); data.append(stdErr); return data; } static const QStringList gccPredefinedMacrosOptions() { return QStringList() << QLatin1String("-xc++") << QLatin1String("-E") << QLatin1String("-dM"); } static QByteArray gccPredefinedMacros(const FileName &gcc, const QStringList &args, const QStringList &env) { QStringList arguments = args; arguments << QLatin1String("-"); QByteArray predefinedMacros = runGcc(gcc, arguments, env); // Sanity check in case we get an error message instead of real output: QTC_CHECK(predefinedMacros.isNull() || predefinedMacros.startsWith("#define ")); if (Utils::HostOsInfo::isMacHost()) { // Turn off flag indicating Apple's blocks support const QByteArray blocksDefine("#define __BLOCKS__ 1"); const QByteArray blocksUndefine("#undef __BLOCKS__"); const int idx = predefinedMacros.indexOf(blocksDefine); if (idx != -1) predefinedMacros.replace(idx, blocksDefine.length(), blocksUndefine); // Define __strong and __weak (used for Apple's GC extension of C) to be empty predefinedMacros.append("#define __strong\n"); predefinedMacros.append("#define __weak\n"); } return predefinedMacros; } const int GccToolChain::PREDEFINED_MACROS_CACHE_SIZE = 16; QList GccToolChain::gccHeaderPaths(const FileName &gcc, const QStringList &arguments, const QStringList &env) { QList systemHeaderPaths; QByteArray line; QByteArray data = runGcc(gcc, arguments, env); QBuffer cpp(&data); cpp.open(QIODevice::ReadOnly); while (cpp.canReadLine()) { line = cpp.readLine(); if (line.startsWith("#include")) break; } if (!line.isEmpty() && line.startsWith("#include")) { HeaderPath::Kind kind = HeaderPath::UserHeaderPath; while (cpp.canReadLine()) { line = cpp.readLine(); if (line.startsWith("#include")) { kind = HeaderPath::GlobalHeaderPath; } else if (! line.isEmpty() && QChar(QLatin1Char(line.at(0))).isSpace()) { HeaderPath::Kind thisHeaderKind = kind; line = line.trimmed(); const int index = line.indexOf(" (framework directory)"); if (index != -1) { line.truncate(index); thisHeaderKind = HeaderPath::FrameworkHeaderPath; } systemHeaderPaths.append(HeaderPath(QFile::decodeName(line), thisHeaderKind)); } else if (line.startsWith("End of search list.")) { break; } else { qWarning("%s: Ignoring line: %s", __FUNCTION__, line.constData()); } } } return systemHeaderPaths; } static QList guessGccAbi(const QString &m, const QByteArray ¯os) { QList abiList; Abi guessed = Abi::abiFromTargetTriplet(m); if (guessed.isNull()) return abiList; Abi::Architecture arch = guessed.architecture(); Abi::OS os = guessed.os(); Abi::OSFlavor flavor = guessed.osFlavor(); Abi::BinaryFormat format = guessed.binaryFormat(); int width = guessed.wordWidth(); if (macros.contains("#define __SIZEOF_SIZE_T__ 8")) width = 64; else if (macros.contains("#define __SIZEOF_SIZE_T__ 4")) width = 32; if (os == Abi::MacOS) { // Apple does PPC and x86! abiList << Abi(arch, os, flavor, format, width); abiList << Abi(arch, os, flavor, format, width == 64 ? 32 : 64); } else if (arch == Abi::X86Architecture && (width == 0 || width == 64)) { abiList << Abi(arch, os, flavor, format, 64); abiList << Abi(arch, os, flavor, format, 32); } else { abiList << Abi(arch, os, flavor, format, width); } return abiList; } static QList guessGccAbi(const FileName &path, const QStringList &env, const QByteArray ¯os, const QStringList &extraArgs = QStringList()) { if (path.isEmpty()) return QList(); QStringList arguments = extraArgs; arguments << QLatin1String("-dumpmachine"); QString machine = QString::fromLocal8Bit(runGcc(path, arguments, env)).trimmed(); if (machine.isEmpty()) return QList(); // no need to continue if running failed once... return guessGccAbi(machine, macros); } static QString gccVersion(const FileName &path, const QStringList &env) { QStringList arguments(QLatin1String("-dumpversion")); return QString::fromLocal8Bit(runGcc(path, arguments, env)).trimmed(); } // -------------------------------------------------------------------------- // GccToolChain // -------------------------------------------------------------------------- GccToolChain::GccToolChain(Detection d) : ToolChain(QLatin1String(Constants::GCC_TOOLCHAIN_ID), d) { } GccToolChain::GccToolChain(const QString &id, Detection d) : ToolChain(id, d) { } GccToolChain::GccToolChain(const GccToolChain &tc) : ToolChain(tc), m_predefinedMacros(tc.m_predefinedMacros), m_compilerCommand(tc.compilerCommand()), m_targetAbi(tc.m_targetAbi), m_supportedAbis(tc.m_supportedAbis), m_headerPaths(tc.m_headerPaths), m_version(tc.m_version) { } void GccToolChain::setMacroCache(const QStringList &allCxxflags, const QByteArray ¯os) const { if (macros.isNull()) return; CacheItem runResults; QByteArray data = macros; runResults.first = allCxxflags; if (macros.isNull()) data = QByteArray(""); runResults.second = data; m_predefinedMacros.push_back(runResults); if (m_predefinedMacros.size() > PREDEFINED_MACROS_CACHE_SIZE) m_predefinedMacros.pop_front(); } QByteArray GccToolChain::macroCache(const QStringList &allCxxflags) const { for (GccCache::iterator it = m_predefinedMacros.begin(); it != m_predefinedMacros.end(); ++it) { if (it->first == allCxxflags) { // Increase cached item priority CacheItem pair = *it; m_predefinedMacros.erase(it); m_predefinedMacros.push_back(pair); return pair.second; } } return QByteArray(); } QString GccToolChain::defaultDisplayName() const { if (!m_targetAbi.isValid()) return typeDisplayName(); return QCoreApplication::translate("ProjectExplorer::GccToolChain", "%1 (%2 %3 in %4)").arg(typeDisplayName(), Abi::toString(m_targetAbi.architecture()), Abi::toString(m_targetAbi.wordWidth()), compilerCommand().parentDir().toUserOutput()); } ToolChain::CompilerFlags GccToolChain::defaultCompilerFlags() const { return CompilerFlags(GnuExtensions); } QString GccToolChain::type() const { return QLatin1String("gcc"); } QString GccToolChain::typeDisplayName() const { return GccToolChainFactory::tr("GCC"); } Abi GccToolChain::targetAbi() const { return m_targetAbi; } QString GccToolChain::version() const { if (m_version.isEmpty()) m_version = detectVersion(); return m_version; } void GccToolChain::setTargetAbi(const Abi &abi) { if (abi == m_targetAbi) return; m_targetAbi = abi; toolChainUpdated(); } QList GccToolChain::supportedAbis() const { return m_supportedAbis; } bool GccToolChain::isValid() const { if (m_compilerCommand.isNull()) return false; QFileInfo fi = compilerCommand().toFileInfo(); return fi.isExecutable(); } /** * @brief Asks compiler for set of predefined macros * @param cxxflags - compiler flags collected from project settings * @return defines list, one per line, e.g. "#define __GXX_WEAK__ 1" * * @note changing compiler flags sometimes changes macros set, e.g. -fopenmp * adds _OPENMP macro, for full list of macro search by word "when" on this page: * http://gcc.gnu.org/onlinedocs/cpp/Common-Predefined-Macros.html */ QByteArray GccToolChain::predefinedMacros(const QStringList &cxxflags) const { QStringList allCxxflags = m_platformCodeGenFlags + cxxflags; // add only cxxflags is empty? QByteArray macros = macroCache(allCxxflags); if (!macros.isNull()) return macros; // Using a clean environment breaks ccache/distcc/etc. Environment env = Environment::systemEnvironment(); addToEnvironment(env); QStringList arguments = gccPredefinedMacrosOptions(); for (int iArg = 0; iArg < allCxxflags.length(); ++iArg) { const QString &a = allCxxflags.at(iArg); if (a == QLatin1String("-arch") || a == QLatin1String("-sysroot") || a == QLatin1String("-isysroot")) { if (++iArg < allCxxflags.length()) arguments << a << allCxxflags.at(iArg); } else if (a == QLatin1String("-m128bit-long-double") || a == QLatin1String("-m32") || a == QLatin1String("-m3dnow") || a == QLatin1String("-m3dnowa") || a == QLatin1String("-m64") || a == QLatin1String("-m96bit-long-double") || a == QLatin1String("-mabm") || a == QLatin1String("-maes") || a.startsWith(QLatin1String("-march=")) || a == QLatin1String("-mavx") || a.startsWith(QLatin1String("-masm=")) || a == QLatin1String("-mcx16") || a == QLatin1String("-mfma") || a == QLatin1String("-mfma4") || a == QLatin1String("-mlwp") || a == QLatin1String("-mpclmul") || a == QLatin1String("-mpopcnt") || a == QLatin1String("-msse") || a == QLatin1String("-msse2") || a == QLatin1String("-msse2avx") || a == QLatin1String("-msse3") || a == QLatin1String("-msse4") || a == QLatin1String("-msse4.1") || a == QLatin1String("-msse4.2") || a == QLatin1String("-msse4a") || a == QLatin1String("-mssse3") || a.startsWith(QLatin1String("-mtune=")) || a == QLatin1String("-mxop") || a == QLatin1String("-Os") || a == QLatin1String("-O0") || a == QLatin1String("-O1") || a == QLatin1String("-O2") || a == QLatin1String("-O3") || a == QLatin1String("-ffinite-math-only") || a == QLatin1String("-fshort-double") || a == QLatin1String("-fshort-wchar") || a == QLatin1String("-fsignaling-nans") || a == QLatin1String("-fno-inline") || a == QLatin1String("-fno-exceptions") || a == QLatin1String("-fstack-protector") || a == QLatin1String("-fstack-protector-all") || a == QLatin1String("-fsanitize=address") || a == QLatin1String("-fno-rtti") || a.startsWith(QLatin1String("-std=")) || a.startsWith(QLatin1String("-stdlib=")) || a.startsWith(QLatin1String("-specs=")) || a == QLatin1String("-ansi") || a == QLatin1String("-undef") || a.startsWith(QLatin1String("-D")) || a.startsWith(QLatin1String("-U")) || a == QLatin1String("-fopenmp") || a == QLatin1String("-Wno-deprecated") || a == QLatin1String("-fPIC") || a == QLatin1String("-fpic") || a == QLatin1String("-fPIE") || a == QLatin1String("-fpie")) arguments << a; } macros = gccPredefinedMacros(m_compilerCommand, reinterpretOptions(arguments), env.toStringList()); setMacroCache(allCxxflags, macros); return macros; } /** * @brief Parses gcc flags -std=*, -fopenmp, -fms-extensions, -ansi. * @see http://gcc.gnu.org/onlinedocs/gcc/C-Dialect-Options.html */ ToolChain::CompilerFlags GccToolChain::compilerFlags(const QStringList &cxxflags) const { CompilerFlags flags = defaultCompilerFlags(); const QStringList allCxxflags = m_platformCodeGenFlags + cxxflags; // add only cxxflags is empty? foreach (const QString &flag, allCxxflags) { if (flag.startsWith(QLatin1String("-std="))) { const QByteArray std = flag.mid(5).toAscii(); if (std == "c++98" || std == "c++03") { flags &= ~CompilerFlags(StandardCxx11 | GnuExtensions); } else if (std == "gnu++98" || std == "gnu++03") { flags &= ~StandardCxx11; flags |= GnuExtensions; } else if (std == "c++0x" || std == "c++11" || std== "c++1y") { flags |= StandardCxx11; flags &= ~GnuExtensions; } else if (std == "gnu++0x" || std == "gnu++11" || std== "gnu++1y") { flags |= CompilerFlags(StandardCxx11 | GnuExtensions); } else if (std == "c89" || std == "c90" || std == "iso9899:1990" || std == "iso9899:199409") { flags &= ~CompilerFlags(StandardC99 | StandardC11); } else if (std == "gnu89" || std == "gnu90") { flags &= ~CompilerFlags(StandardC99 | StandardC11); flags |= GnuExtensions; } else if (std == "c99" || std == "c9x" || std == "iso9899:1999" || std == "iso9899:199x") { flags |= StandardC99; flags &= ~StandardC11; } else if (std == "gnu99" || std == "gnu9x") { flags |= CompilerFlags(StandardC99 | GnuExtensions); flags &= ~StandardC11; } else if (std == "c11" || std == "c1x" || std == "iso9899:2011") { flags |= CompilerFlags(StandardC99 | StandardC11); } else if (std == "gnu11" || std == "gnu1x") { flags |= CompilerFlags(StandardC99 | StandardC11 | GnuExtensions); } } else if (flag == QLatin1String("-fopenmp")) { flags |= OpenMP; } else if (flag == QLatin1String("-fms-extensions")) { flags |= MicrosoftExtensions; } else if (flag == QLatin1String("-ansi")) { flags &= ~CompilerFlags(StandardCxx11 | GnuExtensions | StandardC99 | StandardC11); } } return flags; } GccToolChain::WarningFlags GccToolChain::warningFlags(const QStringList &cflags) const { // based on 'LC_ALL="en" gcc -Q --help=warnings | grep enabled' WarningFlags flags(WarnDeprecated | WarnIgnoredQualfiers | WarnSignedComparison | WarnUninitializedVars); WarningFlags groupWall(WarningsAll | WarnUnknownPragma |WarnUnusedFunctions | WarnUnusedLocals | WarnUnusedResult | WarnUnusedValue | WarnSignedComparison | WarnUninitializedVars); WarningFlags groupWextra(WarningsExtra | WarnIgnoredQualfiers | WarnUnusedParams); foreach (const QString &flag, cflags) { if (flag == QLatin1String("--all-warnings")) flags |= groupWall; else if (flag == QLatin1String("--extra-warnings")) flags |= groupWextra; WarningFlagAdder add(flag, flags); if (add.triggered()) continue; // supported by clang too add("error", WarningsAsErrors); add("all", groupWall); add("extra", groupWextra); add("deprecated", WarnDeprecated); add("effc++", WarnEffectiveCxx); add("ignored-qualifiers", WarnIgnoredQualfiers); add("non-virtual-dtor", WarnNonVirtualDestructor); add("overloaded-virtual", WarnOverloadedVirtual); add("shadow", WarnHiddenLocals); add("sign-compare", WarnSignedComparison); add("unknown-pragmas", WarnUnknownPragma); add("unused", ToolChain::WarningFlag( WarnUnusedFunctions | WarnUnusedLocals | WarnUnusedParams | WarnUnusedResult | WarnUnusedValue)); add("unused-function", WarnUnusedFunctions); add("unused-variable", WarnUnusedLocals); add("unused-parameter", WarnUnusedParams); add("unused-result", WarnUnusedResult); add("unused-value", WarnUnusedValue); add("uninitialized", WarnUninitializedVars); } return flags; } QList GccToolChain::systemHeaderPaths(const QStringList &cxxflags, const Utils::FileName &sysRoot) const { if (m_headerPaths.isEmpty()) { // Using a clean environment breaks ccache/distcc/etc. Environment env = Environment::systemEnvironment(); addToEnvironment(env); // Prepare arguments QStringList arguments; if (!sysRoot.isEmpty()) arguments.append(QString::fromLatin1("--sysroot=%1").arg(sysRoot.toString())); QStringList flags; flags << m_platformCodeGenFlags << cxxflags; foreach (const QString &a, flags) { if (a.startsWith(QLatin1String("-stdlib="))) arguments << a; } arguments << QLatin1String("-xc++") << QLatin1String("-E") << QLatin1String("-v") << QLatin1String("-"); m_headerPaths = gccHeaderPaths(m_compilerCommand, reinterpretOptions(arguments), env.toStringList()); } return m_headerPaths; } void GccToolChain::addCommandPathToEnvironment(const FileName &command, Environment &env) { if (!command.isEmpty()) env.prependOrSetPath(command.parentDir().toString()); } void GccToolChain::addToEnvironment(Environment &env) const { addCommandPathToEnvironment(m_compilerCommand, env); } QList GccToolChain::suggestedMkspecList() const { Abi abi = targetAbi(); Abi host = Abi::hostAbi(); // Cross compile: Leave the mkspec alone! if (abi.architecture() != host.architecture() || abi.os() != host.os() || abi.osFlavor() != host.osFlavor()) // Note: This can fail:-( return QList(); if (abi.os() == Abi::MacOS) { QString v = version(); // prefer versioned g++ on mac. This is required to enable building for older Mac OS versions if (v.startsWith(QLatin1String("4.0")) && m_compilerCommand.endsWith(QLatin1String("-4.0"))) return QList() << FileName::fromString(QLatin1String("macx-g++40")); if (v.startsWith(QLatin1String("4.2")) && m_compilerCommand.endsWith(QLatin1String("-4.2"))) return QList() << FileName::fromString(QLatin1String("macx-g++42")); return QList() << FileName::fromString(QLatin1String("macx-g++")); } if (abi.os() == Abi::LinuxOS) { if (abi.osFlavor() != Abi::GenericLinuxFlavor) return QList(); // most likely not a desktop, so leave the mkspec alone. if (abi.wordWidth() == host.wordWidth()) { // no need to explicitly set the word width, but provide that mkspec anyway to make sure // that the correct compiler is picked if a mkspec with a wordwidth is given. return QList() << FileName::fromString(QLatin1String("linux-g++")) << FileName::fromString(QLatin1String("linux-g++-") + QString::number(m_targetAbi.wordWidth())); } return QList() << FileName::fromString(QLatin1String("linux-g++-") + QString::number(m_targetAbi.wordWidth())); } if (abi.os() == Abi::BsdOS && abi.osFlavor() == Abi::FreeBsdFlavor) return QList() << FileName::fromString(QLatin1String("freebsd-g++")); return QList(); } QString GccToolChain::makeCommand(const Utils::Environment &environment) const { QString make = QLatin1String("make"); QString tmp = environment.searchInPath(make); return tmp.isEmpty() ? make : tmp; } IOutputParser *GccToolChain::outputParser() const { return new GccParser; } void GccToolChain::setCompilerCommand(const FileName &path) { if (path == m_compilerCommand) return; bool resetDisplayName = displayName() == defaultDisplayName(); m_compilerCommand = path; Abi currentAbi = m_targetAbi; m_supportedAbis = detectSupportedAbis(); m_targetAbi = Abi(); if (!m_supportedAbis.isEmpty()) { if (m_supportedAbis.contains(currentAbi)) m_targetAbi = currentAbi; else m_targetAbi = m_supportedAbis.at(0); } if (resetDisplayName) setDisplayName(defaultDisplayName()); // calls toolChainUpdated()! else toolChainUpdated(); } FileName GccToolChain::compilerCommand() const { return m_compilerCommand; } void GccToolChain::setPlatformCodeGenFlags(const QStringList &flags) { if (flags != m_platformCodeGenFlags) { m_platformCodeGenFlags = flags; toolChainUpdated(); } } /*! Code gen flags that have to be passed to the compiler. */ QStringList GccToolChain::platformCodeGenFlags() const { return m_platformCodeGenFlags; } void GccToolChain::setPlatformLinkerFlags(const QStringList &flags) { if (flags != m_platformLinkerFlags) { m_platformLinkerFlags = flags; toolChainUpdated(); } } /*! Flags that have to be passed to the linker. For example: \c{-arch armv7} */ QStringList GccToolChain::platformLinkerFlags() const { return m_platformLinkerFlags; } ToolChain *GccToolChain::clone() const { return new GccToolChain(*this); } QVariantMap GccToolChain::toMap() const { QVariantMap data = ToolChain::toMap(); data.insert(QLatin1String(compilerCommandKeyC), m_compilerCommand.toString()); data.insert(QLatin1String(compilerPlatformCodeGenFlagsKeyC), m_platformCodeGenFlags); data.insert(QLatin1String(compilerPlatformLinkerFlagsKeyC), m_platformLinkerFlags); data.insert(QLatin1String(targetAbiKeyC), m_targetAbi.toString()); QStringList abiList; foreach (const Abi &a, m_supportedAbis) abiList.append(a.toString()); data.insert(QLatin1String(supportedAbisKeyC), abiList); return data; } bool GccToolChain::fromMap(const QVariantMap &data) { if (!ToolChain::fromMap(data)) return false; m_compilerCommand = FileName::fromString(data.value(QLatin1String(compilerCommandKeyC)).toString()); m_platformCodeGenFlags = data.value(QLatin1String(compilerPlatformCodeGenFlagsKeyC)).toStringList(); m_platformLinkerFlags = data.value(QLatin1String(compilerPlatformLinkerFlagsKeyC)).toStringList(); m_targetAbi = Abi(data.value(QLatin1String(targetAbiKeyC)).toString()); QStringList abiList = data.value(QLatin1String(supportedAbisKeyC)).toStringList(); m_supportedAbis.clear(); foreach (const QString &a, abiList) { Abi abi(a); if (!abi.isValid()) continue; m_supportedAbis.append(abi); } return true; } bool GccToolChain::operator ==(const ToolChain &other) const { if (!ToolChain::operator ==(other)) return false; const GccToolChain *gccTc = static_cast(&other); return m_compilerCommand == gccTc->m_compilerCommand && m_targetAbi == gccTc->m_targetAbi && m_platformCodeGenFlags == gccTc->m_platformCodeGenFlags && m_platformLinkerFlags == gccTc->m_platformLinkerFlags; } ToolChainConfigWidget *GccToolChain::configurationWidget() { return new GccToolChainConfigWidget(this); } void GccToolChain::updateSupportedAbis() const { if (m_supportedAbis.isEmpty()) m_supportedAbis = detectSupportedAbis(); } QList GccToolChain::detectSupportedAbis() const { Environment env = Environment::systemEnvironment(); addToEnvironment(env); QByteArray macros = predefinedMacros(QStringList()); return guessGccAbi(m_compilerCommand, env.toStringList(), macros, platformCodeGenFlags()); } QString GccToolChain::detectVersion() const { Environment env = Environment::systemEnvironment(); addToEnvironment(env); return gccVersion(m_compilerCommand, env.toStringList()); } // -------------------------------------------------------------------------- // GccToolChainFactory // -------------------------------------------------------------------------- GccToolChainFactory::GccToolChainFactory() { setId(Constants::GCC_TOOLCHAIN_ID); setDisplayName(tr("GCC")); } bool GccToolChainFactory::canCreate() { return true; } ToolChain *GccToolChainFactory::create() { return createToolChain(false); } QList GccToolChainFactory::autoDetect() { QList tcs; if (Utils::HostOsInfo::isMacHost()) { // Old mac compilers needed to support macx-gccXY mkspecs: tcs.append(autoDetectToolchains(QLatin1String("g++-4.0"), Abi::hostAbi())); tcs.append(autoDetectToolchains(QLatin1String("g++-4.2"), Abi::hostAbi())); } tcs.append(autoDetectToolchains(QLatin1String("g++"), Abi::hostAbi())); return tcs; } // Used by the ToolChainManager to restore user-generated tool chains bool GccToolChainFactory::canRestore(const QVariantMap &data) { const QString id = idFromMap(data); return id.startsWith(QLatin1String(Constants::GCC_TOOLCHAIN_ID) + QLatin1Char(':')); } ToolChain *GccToolChainFactory::restore(const QVariantMap &data) { GccToolChain *tc = new GccToolChain(ToolChain::ManualDetection); // Updating from 2.5: QVariantMap updated = data; QString id = idFromMap(updated); if (tc->fromMap(updated)) return tc; delete tc; return 0; } GccToolChain *GccToolChainFactory::createToolChain(bool autoDetect) { return new GccToolChain(autoDetect ? ToolChain::AutoDetection : ToolChain::ManualDetection); } QList GccToolChainFactory::autoDetectToolchains(const QString &compiler, const Abi &requiredAbi) { QList result; Environment systemEnvironment = Environment::systemEnvironment(); const FileName compilerPath = FileName::fromString(systemEnvironment.searchInPath(compiler)); if (compilerPath.isEmpty()) return result; GccToolChain::addCommandPathToEnvironment(compilerPath, systemEnvironment); QByteArray macros = gccPredefinedMacros(compilerPath, gccPredefinedMacrosOptions(), systemEnvironment.toStringList()); QList abiList = guessGccAbi(compilerPath, systemEnvironment.toStringList(), macros); if (!abiList.contains(requiredAbi)) { if (requiredAbi.wordWidth() != 64 || !abiList.contains(Abi(requiredAbi.architecture(), requiredAbi.os(), requiredAbi.osFlavor(), requiredAbi.binaryFormat(), 32))) return result; } foreach (const Abi &abi, abiList) { QScopedPointer tc(createToolChain(true)); tc->setMacroCache(QStringList(), macros); if (tc.isNull()) return result; tc->setCompilerCommand(compilerPath); tc->setTargetAbi(abi); tc->setDisplayName(tc->defaultDisplayName()); // reset displayname result.append(tc.take()); } return result; } // -------------------------------------------------------------------------- // GccToolChainConfigWidget // -------------------------------------------------------------------------- GccToolChainConfigWidget::GccToolChainConfigWidget(GccToolChain *tc) : ToolChainConfigWidget(tc), m_compilerCommand(new PathChooser), m_abiWidget(new AbiWidget), m_isReadOnly(false) { Q_ASSERT(tc); const QStringList gnuVersionArgs = QStringList(QLatin1String("--version")); m_compilerCommand->setExpectedKind(PathChooser::ExistingCommand); m_compilerCommand->setCommandVersionArguments(gnuVersionArgs); m_compilerCommand->setHistoryCompleter(QLatin1String("PE.Gcc.Command.History")); m_mainLayout->addRow(tr("&Compiler path:"), m_compilerCommand); m_platformCodeGenFlagsLineEdit = new QLineEdit(this); m_platformCodeGenFlagsLineEdit->setText(QtcProcess::joinArgs(tc->platformCodeGenFlags())); m_mainLayout->addRow(tr("Platform codegen flags:"), m_platformCodeGenFlagsLineEdit); m_platformLinkerFlagsLineEdit = new QLineEdit(this); m_platformLinkerFlagsLineEdit->setText(QtcProcess::joinArgs(tc->platformLinkerFlags())); m_mainLayout->addRow(tr("Platform linker flags:"), m_platformLinkerFlagsLineEdit); m_mainLayout->addRow(tr("&ABI:"), m_abiWidget); m_abiWidget->setEnabled(false); addErrorLabel(); setFromToolchain(); handleCompilerCommandChange(); connect(m_compilerCommand, SIGNAL(changed(QString)), this, SLOT(handleCompilerCommandChange())); connect(m_platformCodeGenFlagsLineEdit, SIGNAL(editingFinished()), this, SLOT(handlePlatformCodeGenFlagsChange())); connect(m_platformLinkerFlagsLineEdit, SIGNAL(editingFinished()), this, SLOT(handlePlatformLinkerFlagsChange())); connect(m_abiWidget, SIGNAL(abiChanged()), this, SIGNAL(dirty())); } void GccToolChainConfigWidget::applyImpl() { if (toolChain()->isAutoDetected()) return; GccToolChain *tc = static_cast(toolChain()); Q_ASSERT(tc); QString displayName = tc->displayName(); tc->setCompilerCommand(m_compilerCommand->fileName()); tc->setTargetAbi(m_abiWidget->currentAbi()); tc->setDisplayName(displayName); // reset display name tc->setPlatformCodeGenFlags(splitString(m_platformCodeGenFlagsLineEdit->text())); tc->setPlatformLinkerFlags(splitString(m_platformLinkerFlagsLineEdit->text())); tc->setMacroCache(tc->platformCodeGenFlags(), m_macros); } void GccToolChainConfigWidget::setFromToolchain() { // subwidgets are not yet connected! bool blocked = blockSignals(true); GccToolChain *tc = static_cast(toolChain()); m_compilerCommand->setFileName(tc->compilerCommand()); m_platformCodeGenFlagsLineEdit->setText(QtcProcess::joinArgs(tc->platformCodeGenFlags())); m_platformLinkerFlagsLineEdit->setText(QtcProcess::joinArgs(tc->platformLinkerFlags())); m_abiWidget->setAbis(tc->supportedAbis(), tc->targetAbi()); if (!m_isReadOnly && !m_compilerCommand->path().isEmpty()) m_abiWidget->setEnabled(true); blockSignals(blocked); } bool GccToolChainConfigWidget::isDirtyImpl() const { GccToolChain *tc = static_cast(toolChain()); Q_ASSERT(tc); return m_compilerCommand->fileName() != tc->compilerCommand() || m_platformCodeGenFlagsLineEdit->text() != QtcProcess::joinArgs(tc->platformCodeGenFlags()) || m_platformLinkerFlagsLineEdit->text() != QtcProcess::joinArgs(tc->platformLinkerFlags()) || m_abiWidget->currentAbi() != tc->targetAbi(); } void GccToolChainConfigWidget::makeReadOnlyImpl() { m_compilerCommand->setEnabled(false); m_abiWidget->setEnabled(false); m_platformCodeGenFlagsLineEdit->setEnabled(false); m_platformLinkerFlagsLineEdit->setEnabled(false); m_isReadOnly = true; } QStringList GccToolChainConfigWidget::splitString(const QString &s) { QtcProcess::SplitError splitError; QStringList res = QtcProcess::splitArgs(s, false, &splitError); if (splitError != QtcProcess::SplitOk){ res = QtcProcess::splitArgs(s + QLatin1Char('\\'), false, &splitError); if (splitError != QtcProcess::SplitOk){ res = QtcProcess::splitArgs(s + QLatin1Char('"'), false, &splitError); if (splitError != QtcProcess::SplitOk) res = QtcProcess::splitArgs(s + QLatin1Char('\''), false, &splitError); } } return res; } void GccToolChainConfigWidget::handleCompilerCommandChange() { bool haveCompiler = false; Abi currentAbi = m_abiWidget->currentAbi(); bool customAbi = m_abiWidget->isCustomAbi(); FileName path = m_compilerCommand->fileName(); QList abiList; if (!path.isEmpty()) { QFileInfo fi(path.toFileInfo()); haveCompiler = fi.isExecutable() && fi.isFile(); } if (haveCompiler) { Environment env = Environment::systemEnvironment(); GccToolChain::addCommandPathToEnvironment(path, env); QStringList args = gccPredefinedMacrosOptions() + splitString(m_platformCodeGenFlagsLineEdit->text()); m_macros = gccPredefinedMacros(path, args, env.toStringList()); abiList = guessGccAbi(path, env.toStringList(), m_macros, splitString(m_platformCodeGenFlagsLineEdit->text())); } m_abiWidget->setEnabled(haveCompiler); // Find a good ABI for the new compiler: Abi newAbi; if (customAbi) newAbi = currentAbi; else if (abiList.contains(currentAbi)) newAbi = currentAbi; m_abiWidget->setAbis(abiList, newAbi); emit dirty(); } void GccToolChainConfigWidget::handlePlatformCodeGenFlagsChange() { QString str1 = m_platformCodeGenFlagsLineEdit->text(); QString str2 = QtcProcess::joinArgs(splitString(str1)); if (str1 != str2) m_platformCodeGenFlagsLineEdit->setText(str2); else handleCompilerCommandChange(); } void GccToolChainConfigWidget::handlePlatformLinkerFlagsChange() { QString str1 = m_platformLinkerFlagsLineEdit->text(); QString str2 = QtcProcess::joinArgs(splitString(str1)); if (str1 != str2) m_platformLinkerFlagsLineEdit->setText(str2); else emit dirty(); } // -------------------------------------------------------------------------- // ClangToolChain // -------------------------------------------------------------------------- ClangToolChain::ClangToolChain(Detection d) : GccToolChain(QLatin1String(Constants::CLANG_TOOLCHAIN_ID), d) { } QString ClangToolChain::type() const { return QLatin1String("clang"); } QString ClangToolChain::typeDisplayName() const { return ClangToolChainFactory::tr("Clang"); } QString ClangToolChain::makeCommand(const Utils::Environment &environment) const { QStringList makes; if (Utils::HostOsInfo::isWindowsHost()) { makes << QLatin1String("mingw32-make.exe"); makes << QLatin1String("make.exe"); } else { makes << QLatin1String("make"); } QString tmp; foreach (const QString &make, makes) { tmp = environment.searchInPath(make); if (!tmp.isEmpty()) return tmp; } return makes.first(); } /** * @brief Similar to \a GccToolchain::compilerFlags, but recognizes * "-fborland-extensions". */ ToolChain::CompilerFlags ClangToolChain::compilerFlags(const QStringList &cxxflags) const { CompilerFlags flags = GccToolChain::compilerFlags(cxxflags); if (cxxflags.contains(QLatin1String("-fborland-extensions"))) flags |= BorlandExtensions; return flags; } ToolChain::WarningFlags ClangToolChain::warningFlags(const QStringList &cflags) const { WarningFlags flags = GccToolChain::warningFlags(cflags); foreach (const QString &flag, cflags) { if (flag == QLatin1String("-Wdocumentation")) flags |= WarnDocumentation; if (flag == QLatin1String("-Wno-documentation")) flags &= ~WarnDocumentation; } return flags; } QList ClangToolChain::suggestedMkspecList() const { Abi abi = targetAbi(); if (abi.os() == Abi::MacOS) return QList() << FileName::fromString(QLatin1String("macx-clang")) << FileName::fromString(QLatin1String("macx-clang-32")) << FileName::fromString(QLatin1String("unsupported/macx-clang")) << FileName::fromString(QLatin1String("macx-ios-clang")); else if (abi.os() == Abi::LinuxOS) return QList() << FileName::fromString(QLatin1String("linux-clang")) << FileName::fromString(QLatin1String("unsupported/linux-clang")); return QList(); // Note: Not supported by Qt yet, so default to the mkspec the Qt was build with } void ClangToolChain::addToEnvironment(Environment &env) const { GccToolChain::addToEnvironment(env); // Clang takes PWD as basis for debug info, if set. // When running Qt Creator from a shell, PWD is initially set to an "arbitrary" value. // Since the tools are not called through a shell, PWD is never changed to the actual cwd, // so we better make sure PWD is empty to begin with env.unset(QLatin1String("PWD")); } ToolChain::CompilerFlags ClangToolChain::defaultCompilerFlags() const { return CompilerFlags(GnuExtensions | StandardC99 | StandardCxx11); } IOutputParser *ClangToolChain::outputParser() const { return new ClangParser; } ToolChain *ClangToolChain::clone() const { return new ClangToolChain(*this); } // -------------------------------------------------------------------------- // ClangToolChainFactory // -------------------------------------------------------------------------- ClangToolChainFactory::ClangToolChainFactory() { setDisplayName(tr("Clang")); setId(Constants::CLANG_TOOLCHAIN_ID); } QList ClangToolChainFactory::autoDetect() { Abi ha = Abi::hostAbi(); return autoDetectToolchains(QLatin1String("clang++"), ha); } bool ClangToolChainFactory::canCreate() { return true; } ToolChain *ClangToolChainFactory::create() { return createToolChain(false); } bool ClangToolChainFactory::canRestore(const QVariantMap &data) { return idFromMap(data).startsWith(QLatin1String(Constants::CLANG_TOOLCHAIN_ID) + QLatin1Char(':')); } ToolChain *ClangToolChainFactory::restore(const QVariantMap &data) { ClangToolChain *tc = new ClangToolChain(ToolChain::ManualDetection); if (tc->fromMap(data)) return tc; delete tc; return 0; } GccToolChain *ClangToolChainFactory::createToolChain(bool autoDetect) { return new ClangToolChain(autoDetect ? ToolChain::AutoDetection : ToolChain::ManualDetection); } // -------------------------------------------------------------------------- // MingwToolChain // -------------------------------------------------------------------------- MingwToolChain::MingwToolChain(Detection d) : GccToolChain(QLatin1String(Constants::MINGW_TOOLCHAIN_ID), d) { } QString MingwToolChain::type() const { return QLatin1String("mingw"); } QString MingwToolChain::typeDisplayName() const { return MingwToolChainFactory::tr("MinGW"); } QList MingwToolChain::suggestedMkspecList() const { if (Utils::HostOsInfo::isWindowsHost()) return QList() << FileName::fromString(QLatin1String("win32-g++")); if (Utils::HostOsInfo::isLinuxHost()) { if (version().startsWith(QLatin1String("4.6."))) return QList() << FileName::fromString(QLatin1String("win32-g++-4.6-cross")) << FileName::fromString(QLatin1String("unsupported/win32-g++-4.6-cross")); else return QList() << FileName::fromString(QLatin1String("win32-g++-cross")) << FileName::fromString(QLatin1String("unsupported/win32-g++-cross")); } return QList(); } QString MingwToolChain::makeCommand(const Utils::Environment &environment) const { QStringList makes; if (Utils::HostOsInfo::isWindowsHost()) { makes << QLatin1String("mingw32-make.exe"); makes << QLatin1String("make.exe"); } else { makes << QLatin1String("make"); } QString tmp; foreach (const QString &make, makes) { tmp = environment.searchInPath(make); if (!tmp.isEmpty()) return tmp; } return makes.first(); } ToolChain *MingwToolChain::clone() const { return new MingwToolChain(*this); } // -------------------------------------------------------------------------- // MingwToolChainFactory // -------------------------------------------------------------------------- MingwToolChainFactory::MingwToolChainFactory() { setId(Constants::MINGW_TOOLCHAIN_ID); setDisplayName(tr("MinGW")); } QList MingwToolChainFactory::autoDetect() { Abi ha = Abi::hostAbi(); return autoDetectToolchains(QLatin1String("g++"), Abi(ha.architecture(), Abi::WindowsOS, Abi::WindowsMSysFlavor, Abi::PEFormat, ha.wordWidth())); } bool MingwToolChainFactory::canCreate() { return true; } ToolChain *MingwToolChainFactory::create() { return createToolChain(false); } bool MingwToolChainFactory::canRestore(const QVariantMap &data) { return idFromMap(data).startsWith(QLatin1String(Constants::MINGW_TOOLCHAIN_ID) + QLatin1Char(':')); } ToolChain *MingwToolChainFactory::restore(const QVariantMap &data) { MingwToolChain *tc = new MingwToolChain(ToolChain::ManualDetection); if (tc->fromMap(data)) return tc; delete tc; return 0; } GccToolChain *MingwToolChainFactory::createToolChain(bool autoDetect) { return new MingwToolChain(autoDetect ? ToolChain::AutoDetection : ToolChain::ManualDetection); } // -------------------------------------------------------------------------- // LinuxIccToolChain // -------------------------------------------------------------------------- LinuxIccToolChain::LinuxIccToolChain(Detection d) : GccToolChain(QLatin1String(Constants::LINUXICC_TOOLCHAIN_ID), d) { } QString LinuxIccToolChain::type() const { return QLatin1String("icc"); } QString LinuxIccToolChain::typeDisplayName() const { return LinuxIccToolChainFactory::tr("Linux ICC"); } /** * Similar to \a GccToolchain::compilerFlags, but uses "-openmp" instead of * "-fopenmp" and "-fms-dialect[=ver]" instead of "-fms-extensions". * @see UNIX manual for "icc" */ ToolChain::CompilerFlags LinuxIccToolChain::compilerFlags(const QStringList &cxxflags) const { QStringList copy = cxxflags; copy.removeAll(QLatin1String("-fopenmp")); copy.removeAll(QLatin1String("-fms-extensions")); CompilerFlags flags = GccToolChain::compilerFlags(cxxflags); if (cxxflags.contains(QLatin1String("-openmp"))) flags |= OpenMP; if (cxxflags.contains(QLatin1String("-fms-dialect")) || cxxflags.contains(QLatin1String("-fms-dialect=8")) || cxxflags.contains(QLatin1String("-fms-dialect=9")) || cxxflags.contains(QLatin1String("-fms-dialect=10"))) flags |= MicrosoftExtensions; return flags; } IOutputParser *LinuxIccToolChain::outputParser() const { return new LinuxIccParser; } QList LinuxIccToolChain::suggestedMkspecList() const { return QList() << FileName::fromString(QLatin1String("linux-icc-") + QString::number(targetAbi().wordWidth())); } ToolChain *LinuxIccToolChain::clone() const { return new LinuxIccToolChain(*this); } // -------------------------------------------------------------------------- // LinuxIccToolChainFactory // -------------------------------------------------------------------------- LinuxIccToolChainFactory::LinuxIccToolChainFactory() { setDisplayName(tr("Linux ICC")); setId(Constants::LINUXICC_TOOLCHAIN_ID); } QList LinuxIccToolChainFactory::autoDetect() { return autoDetectToolchains(QLatin1String("icpc"), Abi::hostAbi()); } ToolChain *LinuxIccToolChainFactory::create() { return createToolChain(false); } bool LinuxIccToolChainFactory::canRestore(const QVariantMap &data) { return idFromMap(data).startsWith(QLatin1String(Constants::LINUXICC_TOOLCHAIN_ID) + QLatin1Char(':')); } ToolChain *LinuxIccToolChainFactory::restore(const QVariantMap &data) { LinuxIccToolChain *tc = new LinuxIccToolChain(ToolChain::ManualDetection); if (tc->fromMap(data)) return tc; delete tc; return 0; } GccToolChain *LinuxIccToolChainFactory::createToolChain(bool autoDetect) { return new LinuxIccToolChain(autoDetect ? ToolChain::AutoDetection : ToolChain::ManualDetection); } GccToolChain::WarningFlagAdder::WarningFlagAdder(const QString &flag, ToolChain::WarningFlags &flags) : m_flags(flags), m_triggered(false) { if (!flag.startsWith(QLatin1String("-W"))) { m_triggered = true; return; } m_doesEnable = !flag.startsWith(QLatin1String("-Wno-")); if (m_doesEnable) m_flagUtf8 = flag.mid(2).toUtf8(); else m_flagUtf8 = flag.mid(5).toUtf8(); } void GccToolChain::WarningFlagAdder::operator ()(const char name[], ToolChain::WarningFlags flagsSet) { if (m_triggered) return; if (0 == strcmp(m_flagUtf8.data(), name)) { m_triggered = true; if (m_doesEnable) m_flags |= flagsSet; else m_flags &= ~flagsSet; } } void GccToolChain::WarningFlagAdder::operator ()(const char name[], ToolChain::WarningFlag flag) { (*this)(name, WarningFlags(flag)); } bool GccToolChain::WarningFlagAdder::triggered() const { return m_triggered; } } // namespace ProjectExplorer // Unit tests: #ifdef WITH_TESTS # include "projectexplorer.h" # include # include namespace ProjectExplorer { void ProjectExplorerPlugin::testGccAbiGuessing_data() { QTest::addColumn("input"); QTest::addColumn("macros"); QTest::addColumn("abiList"); QTest::newRow("invalid input") << QString::fromLatin1("Some text") << QByteArray("") << (QStringList()); QTest::newRow("empty input") << QString::fromLatin1("") << QByteArray("") << (QStringList()); QTest::newRow("empty input (with macros)") << QString::fromLatin1("") << QByteArray("#define __SIZEOF_SIZE_T__ 8\n#define __Something\n") << (QStringList()); QTest::newRow("broken input -- 64bit") << QString::fromLatin1("arm-none-foo-gnueabi") << QByteArray("#define __SIZEOF_SIZE_T__ 8\n#define __Something\n") << (QStringList() << QLatin1String("arm-unknown-unknown-unknown-64bit")); QTest::newRow("broken input -- 32bit") << QString::fromLatin1("arm-none-foo-gnueabi") << QByteArray("#define __SIZEOF_SIZE_T__ 4\n#define __Something\n") << (QStringList() << QLatin1String("arm-unknown-unknown-unknown-32bit")); QTest::newRow("totally broken input -- 32bit") << QString::fromLatin1("foo-bar-foo") << QByteArray("#define __SIZEOF_SIZE_T__ 4\n#define __Something\n") << (QStringList()); QTest::newRow("Linux 1 (32bit intel)") << QString::fromLatin1("i686-linux-gnu") << QByteArray("#define __SIZEOF_SIZE_T__ 4\n") << (QStringList() << QLatin1String("x86-linux-generic-elf-32bit")); QTest::newRow("Linux 2 (32bit intel)") << QString::fromLatin1("i486-linux-gnu") << QByteArray("#define __SIZEOF_SIZE_T__ 4\n") << (QStringList() << QLatin1String("x86-linux-generic-elf-32bit")); QTest::newRow("Linux 3 (64bit intel)") << QString::fromLatin1("x86_64-linux-gnu") << QByteArray("#define __SIZEOF_SIZE_T__ 8\n") << (QStringList() << QLatin1String("x86-linux-generic-elf-64bit") << QLatin1String("x86-linux-generic-elf-32bit")); QTest::newRow("Linux 3 (64bit intel -- non 64bit)") << QString::fromLatin1("x86_64-linux-gnu") << QByteArray("#define __SIZEOF_SIZE_T__ 4\n") << (QStringList() << QLatin1String("x86-linux-generic-elf-32bit")); QTest::newRow("Linux 4 (32bit mips)") << QString::fromLatin1("mipsel-linux-uclibc") << QByteArray("#define __SIZEOF_SIZE_T__ 4") << (QStringList() << QLatin1String("mips-linux-generic-elf-32bit")); QTest::newRow("Linux 5 (QTCREATORBUG-4690)") // from QTCREATORBUG-4690 << QString::fromLatin1("x86_64-redhat-linux6E") << QByteArray("#define __SIZEOF_SIZE_T__ 8\n") << (QStringList() << QLatin1String("x86-linux-generic-elf-64bit") << QLatin1String("x86-linux-generic-elf-32bit")); QTest::newRow("Linux 6 (QTCREATORBUG-4690)") // from QTCREATORBUG-4690 << QString::fromLatin1("x86_64-redhat-linux") << QByteArray("#define __SIZEOF_SIZE_T__ 8\n") << (QStringList() << QLatin1String("x86-linux-generic-elf-64bit") << QLatin1String("x86-linux-generic-elf-32bit")); QTest::newRow("Linux 7 (arm)") << QString::fromLatin1("armv5tl-montavista-linux-gnueabi") << QByteArray("#define __SIZEOF_SIZE_T__ 4\n") << (QStringList() << QLatin1String("arm-linux-generic-elf-32bit")); QTest::newRow("Linux 8 (arm)") << QString::fromLatin1("arm-angstrom-linux-gnueabi") << QByteArray("#define __SIZEOF_SIZE_T__ 4\n") << (QStringList() << QLatin1String("arm-linux-generic-elf-32bit")); QTest::newRow("Linux 9 (ppc)") << QString::fromLatin1("powerpc-nsg-linux") << QByteArray("#define __SIZEOF_SIZE_T__ 4\n") << (QStringList() << QLatin1String("ppc-linux-generic-elf-32bit")); QTest::newRow("Linux 10 (ppc 64bit)") << QString::fromLatin1("powerpc64-suse-linux") << QByteArray("#define __SIZEOF_SIZE_T__ 8\n") << (QStringList() << QLatin1String("ppc-linux-generic-elf-64bit")); QTest::newRow("Mingw 1 (32bit)") << QString::fromLatin1("i686-w64-mingw32") << QByteArray("#define __SIZEOF_SIZE_T__ 4\r\n") << (QStringList() << QLatin1String("x86-windows-msys-pe-32bit")); QTest::newRow("Mingw 2 (64bit)") << QString::fromLatin1("i686-w64-mingw32") << QByteArray("#define __SIZEOF_SIZE_T__ 8\r\n") << (QStringList() << QLatin1String("x86-windows-msys-pe-64bit") << QLatin1String("x86-windows-msys-pe-32bit")); QTest::newRow("Mingw 3 (32 bit)") << QString::fromLatin1("mingw32") << QByteArray("#define __SIZEOF_SIZE_T__ 4\r\n") << (QStringList() << QLatin1String("x86-windows-msys-pe-32bit")); QTest::newRow("Cross Mingw 1 (64bit)") << QString::fromLatin1("amd64-mingw32msvc") << QByteArray("#define __SIZEOF_SIZE_T__ 8\r\n") << (QStringList() << QLatin1String("x86-windows-msys-pe-64bit") << QLatin1String("x86-windows-msys-pe-32bit")); QTest::newRow("Cross Mingw 2 (32bit)") << QString::fromLatin1("i586-mingw32msvc") << QByteArray("#define __SIZEOF_SIZE_T__ 4\r\n") << (QStringList() << QLatin1String("x86-windows-msys-pe-32bit")); QTest::newRow("Clang 1: windows") << QString::fromLatin1("x86_64-pc-win32") << QByteArray("#define __SIZEOF_SIZE_T__ 8\r\n") << (QStringList() << QLatin1String("x86-windows-msys-pe-64bit") << QLatin1String("x86-windows-msys-pe-32bit")); QTest::newRow("Clang 1: linux") << QString::fromLatin1("x86_64-unknown-linux-gnu") << QByteArray("#define __SIZEOF_SIZE_T__ 8\n") << (QStringList() << QLatin1String("x86-linux-generic-elf-64bit") << QLatin1String("x86-linux-generic-elf-32bit")); QTest::newRow("Mac 1") << QString::fromLatin1("i686-apple-darwin10") << QByteArray("#define __SIZEOF_SIZE_T__ 8\n") << (QStringList() << QLatin1String("x86-macos-generic-mach_o-64bit") << QLatin1String("x86-macos-generic-mach_o-32bit")); QTest::newRow("Mac 2") << QString::fromLatin1("powerpc-apple-darwin10") << QByteArray("#define __SIZEOF_SIZE_T__ 8\n") << (QStringList() << QLatin1String("ppc-macos-generic-mach_o-64bit") << QLatin1String("ppc-macos-generic-mach_o-32bit")); QTest::newRow("Mac 3") << QString::fromLatin1("i686-apple-darwin9") << QByteArray("#define __SIZEOF_SIZE_T__ 4\n") << (QStringList() << QLatin1String("x86-macos-generic-mach_o-32bit") << QLatin1String("x86-macos-generic-mach_o-64bit")); QTest::newRow("Mac IOS") << QString::fromLatin1("arm-apple-darwin9") << QByteArray("#define __SIZEOF_SIZE_T__ 4\n") << (QStringList() << QLatin1String("arm-macos-generic-mach_o-32bit") << QLatin1String("arm-macos-generic-mach_o-64bit")); QTest::newRow("Intel 1") << QString::fromLatin1("86_64 x86_64 GNU/Linux") << QByteArray("#define __SIZEOF_SIZE_T__ 8\n") << (QStringList() << QLatin1String("x86-linux-generic-elf-64bit") << QLatin1String("x86-linux-generic-elf-32bit")); QTest::newRow("FreeBSD 1") << QString::fromLatin1("i386-portbld-freebsd9.0") << QByteArray("#define __SIZEOF_SIZE_T__ 4\n") << (QStringList() << QLatin1String("x86-bsd-freebsd-elf-32bit")); QTest::newRow("FreeBSD 2") << QString::fromLatin1("i386-undermydesk-freebsd") << QByteArray("#define __SIZEOF_SIZE_T__ 4\n") << (QStringList() << QLatin1String("x86-bsd-freebsd-elf-32bit")); } void ProjectExplorerPlugin::testGccAbiGuessing() { QFETCH(QString, input); QFETCH(QByteArray, macros); QFETCH(QStringList, abiList); QList al = guessGccAbi(input, macros); QCOMPARE(al.count(), abiList.count()); for (int i = 0; i < al.count(); ++i) QCOMPARE(al.at(i).toString(), abiList.at(i)); } } // namespace ProjectExplorer #endif