void AbiWidget::setCustomAbi(const Abi ¤t)
{
bool blocked = blockSignals(true);
d->m_architectureComboBox->setCurrentIndex(static_cast<int>(current.architecture()));
d->m_osComboBox->setCurrentIndex(static_cast<int>(current.os()));
osChanged();
for (int i = 0; i < d->m_osFlavorComboBox->count(); ++i) {
if (d->m_osFlavorComboBox->itemData(i).toInt() == current.osFlavor()) {
d->m_osFlavorComboBox->setCurrentIndex(i);
break;
}
}
d->m_binaryFormatComboBox->setCurrentIndex(static_cast<int>(current.binaryFormat()));
for (int i = 0; i < d->m_wordWidthComboBox->count(); ++i) {
if (d->m_wordWidthComboBox->itemData(i).toInt() == current.wordWidth()) {
d->m_wordWidthComboBox->setCurrentIndex(i);
break;
}
}
if (d->isCustom())
d->m_abi->setItemData(0, current.toString());
blockSignals(blocked);
emit abiChanged();
}
bool Abi::isCompatibleWith(const Abi &other) const
{
bool isCompat = (architecture() == other.architecture() || other.architecture() == Abi::UnknownArchitecture)
&& (os() == other.os() || other.os() == Abi::UnknownOS)
&& (osFlavor() == other.osFlavor() || other.osFlavor() == Abi::UnknownFlavor)
&& (binaryFormat() == other.binaryFormat() || other.binaryFormat() == Abi::UnknownFormat)
&& ((wordWidth() == other.wordWidth() && wordWidth() != 0) || other.wordWidth() == 0);
// *-linux-generic-* is compatible with *-linux-* (both ways): This is for the benefit of
// people building Qt themselves using e.g. a meego toolchain.
//
// We leave it to the specific targets to catch filter out the tool chains that do not
// work for them.
if (!isCompat && (architecture() == other.architecture() || other.architecture() == Abi::UnknownArchitecture)
&& ((os() == other.os()) && (os() == LinuxOS))
&& (osFlavor() == GenericLinuxFlavor || other.osFlavor() == GenericLinuxFlavor)
&& (binaryFormat() == other.binaryFormat() || other.binaryFormat() == Abi::UnknownFormat)
&& ((wordWidth() == other.wordWidth() && wordWidth() != 0) || other.wordWidth() == 0))
isCompat = true;
return isCompat;
}
void AbiWidget::setCustomAbi(const Abi ¤t)
{
d->m_architectureComboBox->setCurrentIndex(static_cast<int>(current.architecture()));
d->m_osComboBox->setCurrentIndex(static_cast<int>(current.os()));
osChanged();
for (int i = 0; i < d->m_osFlavorComboBox->count(); ++i) {
if (d->m_osFlavorComboBox->itemData(i).toInt() == current.osFlavor()) {
d->m_osFlavorComboBox->setCurrentIndex(i);
break;
}
}
d->m_binaryFormatComboBox->setCurrentIndex(static_cast<int>(current.binaryFormat()));
for (int i = 0; i < d->m_wordWidthComboBox->count(); ++i) {
if (d->m_wordWidthComboBox->itemData(i).toInt() == current.wordWidth()) {
d->m_wordWidthComboBox->setCurrentIndex(i);
break;
}
}
}
MsvcToolChain::MsvcToolChain(const QString &name, const Abi &abi,
const QString &varsBat, const QString &varsBatArg, bool autodetect) :
ToolChain(QLatin1String(Constants::MSVC_TOOLCHAIN_ID), autodetect),
m_varsBat(varsBat),
m_varsBatArg(varsBatArg),
m_lastEnvironment(Utils::Environment::systemEnvironment()),
m_abi(abi)
{
Q_ASSERT(!name.isEmpty());
Q_ASSERT(!m_varsBat.isEmpty());
Q_ASSERT(QFileInfo(m_varsBat).exists());
Q_ASSERT(abi.os() == Abi::WindowsOS);
Q_ASSERT(abi.binaryFormat() == Abi::PEFormat);
Q_ASSERT(abi.osFlavor() != Abi::WindowsMSysFlavor);
setId(QString::fromLatin1("%1:%2.%3.%4").arg(Constants::MSVC_TOOLCHAIN_ID).arg(m_varsBat)
.arg(m_varsBatArg).arg(m_debuggerCommand));
setDisplayName(name);
}