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flightgear/src/GUI/QmlAircraftInfo.cxx

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#include "QmlAircraftInfo.hxx"
#include <QVariant>
#include <QDebug>
#include <simgear/package/Install.hxx>
#include <simgear/package/Root.hxx>
#include <simgear/structure/exception.hxx>
#include <simgear/props/props_io.hxx>
#include <Include/version.h>
#include <Main/globals.hxx>
#include "LocalAircraftCache.hxx"
using namespace simgear::pkg;
const int QmlAircraftInfo::StateTagRole = Qt::UserRole + 1;
const int QmlAircraftInfo::StateDescriptionRole = Qt::UserRole + 2;
const int QmlAircraftInfo::StateExplicitRole = Qt::UserRole + 3;
class QmlAircraftInfo::Delegate : public simgear::pkg::Delegate
{
public:
Delegate(QmlAircraftInfo* info) :
p(info)
{
globals->packageRoot()->addDelegate(this);
}
~Delegate()
{
globals->packageRoot()->removeDelegate(this);
}
protected:
void catalogRefreshed(CatalogRef, StatusCode) override
{
}
void startInstall(InstallRef aInstall) override
{
if (aInstall->package() == p->packageRef()) {
p->setDownloadBytes(0);
}
}
void installProgress(InstallRef aInstall, unsigned int bytes, unsigned int total) override
{
if (aInstall->package() == p->packageRef()) {
p->setDownloadBytes(bytes);
}
}
void finishInstall(InstallRef aInstall, StatusCode aReason) override
{
Q_UNUSED(aReason);
if (aInstall->package() == p->packageRef()) {
p->checkForStates();
p->infoChanged();
}
}
void installStatusChanged(InstallRef aInstall, StatusCode aReason) override
{
Q_UNUSED(aReason);
if (aInstall->package() == p->packageRef()) {
p->downloadChanged();
}
}
void finishUninstall(const PackageRef& pkg) override
{
if (pkg == p->packageRef()) {
p->downloadChanged();
}
}
private:
QmlAircraftInfo* p;
};
////////////////////////////////////////////////////////////////////////////
struct StateInfo
{
std::string tag; // internal XML name
QString name; // human-readable name, or blank if we auto-generate this
QString description; // human-readable description
};
using AircraftStateVec = std::vector<StateInfo>;
static AircraftStateVec readAircraftStates(const SGPath& setXMLPath)
{
SGPropertyNode_ptr root(new SGPropertyNode);
try {
readProperties(setXMLPath, root);
} catch (sg_exception&) {
// malformed include or XML, just bail
return {};
}
if (!root->getNode("sim/state")) {
return {};
}
auto nodes = root->getNode("sim")->getChildren("state");
AircraftStateVec result;
result.reserve(nodes.size());
for (auto cn : nodes) {
result.push_back({cn->getStringValue("name"),
QString::fromStdString(cn->getStringValue("readable-name")),
QString::fromStdString(cn->getStringValue("description"))
});
qInfo() << QString::fromStdString(result.back().tag) << result.back().description;
}
return result;
}
QString humanNameFromStateTag(const std::string& tag)
{
if (tag == "approach") return QObject::tr("On approach");
if (tag == "take-off") return QObject::tr("Ready for Take-off");
if ((tag == "parking") || (tag == "cold-and-dark"))
return QObject::tr("Parked, cold & dark");
if (tag == "auto")
return QObject::tr("Automatic");
if (tag == "cruise")
return QObject::tr("Cruise");
qWarning() << Q_FUNC_INFO << "add for" << QString::fromStdString(tag);
// no mapping, let's use the tag directly
return QString::fromStdString(tag);
}
class StatesModel : public QAbstractListModel
{
Q_OBJECT
public:
StatesModel(const AircraftStateVec& states) :
_data(states)
{
// sort which places 'auto' item at the front if it exists
std::sort(_data.begin(), _data.end(), [](const StateInfo& a, const StateInfo& b) {
if (a.tag == "auto") return true;
if (b.tag == "auto") return false;
return a.tag < b.tag;
});
if (_data.front().tag == "auto") {
// track if the aircraft supplied an 'auto' state, in which case
// we will not run our own selection logic
_explicitAutoState = true;
} else {
// disabling this code for 2018.1, since it needs more testing
#if 0
_data.insert(_data.begin(), {"auto", {}, tr("Select state based on startup position.")});
#else
_data.insert(_data.begin(), {"__default__", tr("Parked"), tr("Default state for the aircraft (usually cold and dark)")});
#endif
}
}
int indexForTag(const std::string &tag) const
{
auto it = std::find_if(_data.begin(), _data.end(), [tag](const StateInfo& i) {
return i.tag == tag;
});
if (it == _data.end())
return -1;
return std::distance(_data.begin(), it);
}
int rowCount(const QModelIndex &parent) const override
{
return _data.size();
}
QVariant data(const QModelIndex &index, int role) const override
{
const StateInfo& s = _data.at(index.row());
// qInfo() << index.row() << s.name << QString::fromStdString(s.tag);
if (role == Qt::DisplayRole) {
if (s.name.isEmpty()) {
return humanNameFromStateTag(s.tag);
}
return s.name;
} else if (role == QmlAircraftInfo::StateTagRole) {
return QString::fromStdString(s.tag);
} else if (role == QmlAircraftInfo::StateDescriptionRole) {
return s.description;
} else if (role == QmlAircraftInfo::StateExplicitRole) {
if (s.tag == "auto")
return _explicitAutoState;
return true;
}
return {};
}
QHash<int, QByteArray> roleNames() const override
{
auto result = QAbstractListModel::roleNames();
result[Qt::DisplayRole] = "name";
result[QmlAircraftInfo::StateTagRole] = "tag";
result[QmlAircraftInfo::StateDescriptionRole] = "description";
return result;
}
private:
AircraftStateVec _data;
bool _explicitAutoState = false;
};
////////////////////////////////////////////////////////////////////////////
QmlAircraftInfo::QmlAircraftInfo(QObject *parent)
: QObject(parent)
, _delegate(new Delegate(this))
{
}
QmlAircraftInfo::~QmlAircraftInfo()
{
}
QUrl QmlAircraftInfo::uri() const
{
if (_item) {
return QUrl::fromLocalFile(resolveItem()->path);
} else if (_package) {
return QUrl("package:" + QString::fromStdString(_package->qualifiedVariantId(_variant)));
}
return {};
}
int QmlAircraftInfo::numVariants() const
{
if (_item) {
// for on-disk, we don't count the primary item
return _item->variants.size() + 1;
} else if (_package) {
// whereas for packaged aircraft we do
return _package->variants().size();
}
return 0;
}
QString QmlAircraftInfo::name() const
{
if (_item) {
return resolveItem()->description;
} else if (_package) {
return QString::fromStdString(_package->nameForVariant(_variant));
}
return {};
}
QString QmlAircraftInfo::description() const
{
if (_item) {
return resolveItem()->longDescription;
} else if (_package) {
std::string longDesc = _package->getLocalisedProp("description", _variant);
return QString::fromStdString(longDesc).simplified();
}
return {};
}
QString QmlAircraftInfo::authors() const
{
if (_item) {
return resolveItem()->authors;
} else if (_package) {
std::string authors = _package->getLocalisedProp("author", _variant);
return QString::fromStdString(authors);
}
return {};
}
QVariantList QmlAircraftInfo::ratings() const
{
if (_item) {
QVariantList result;
auto actualItem = resolveItem();
for (int i=0; i<4; ++i) {
result << actualItem->ratings[i];
}
return result;
} else if (_package) {
SGPropertyNode* ratings = _package->properties()->getChild("rating");
if (!ratings) {
return {};
}
QVariantList result;
for (int i=0; i<4; ++i) {
result << ratings->getChild(i)->getIntValue();
}
return result;
}
return {};
}
QVariantList QmlAircraftInfo::previews() const
{
if (_item) {
QVariantList result;
Q_FOREACH(QUrl u, _item->previews) {
result.append(u);
}
return result;
}
if (_package) {
const auto& previews = _package->previewsForVariant(_variant);
if (previews.empty()) {
return {};
}
QVariantList result;
// if we have an install, return file URLs, not remote (http) ones
auto ex = _package->existingInstall();
if (ex.valid()) {
for (auto p : previews) {
SGPath localPreviewPath = ex->path() / p.path;
if (!localPreviewPath.exists()) {
qWarning() << "missing local preview" << QString::fromStdString(localPreviewPath.utf8Str());
continue;
}
result.append(QUrl::fromLocalFile(QString::fromStdString(localPreviewPath.utf8Str())));
}
return result;
}
// return remote urls
for (auto p : previews) {
result.append(QUrl(QString::fromStdString(p.url)));
}
return result;
}
return {};
}
QUrl QmlAircraftInfo::thumbnail() const
{
if (_item) {
return QUrl::fromLocalFile(resolveItem()->thumbnailPath);
} else if (_package) {
auto t = _package->thumbnailForVariant(_variant);
if (QFileInfo::exists(QString::fromStdString(t.path))) {
return QUrl::fromLocalFile(QString::fromStdString(t.path));
}
return QUrl(QString::fromStdString(t.url));
}
return {};
}
QString QmlAircraftInfo::pathOnDisk() const
{
if (_item) {
return resolveItem()->path;
} else if (_package) {
auto install = _package->existingInstall();
if (install.valid()) {
return QString::fromStdString(install->primarySetPath().utf8Str());
}
}
return {};
}
QString QmlAircraftInfo::packageId() const
{
if (_package) {
return QString::fromStdString(_package->variants()[_variant]);
}
return {};
}
int QmlAircraftInfo::packageSize() const
{
if (_package) {
return _package->fileSizeBytes();
}
return 0;
}
int QmlAircraftInfo::downloadedBytes() const
{
return _downloadBytes;
}
QVariant QmlAircraftInfo::status() const
{
if (_item) {
return _item->status(_variant);
} else if (_package) {
return packageAircraftStatus(_package);
}
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return LocalAircraftCache::AircraftOk;
}
QString QmlAircraftInfo::minimumFGVersion() const
{
if (_item) {
return resolveItem()->minFGVersion;
} else if (_package) {
const std::string v = _package->properties()->getStringValue("minimum-fg-version");
if (!v.empty()) {
return QString::fromStdString(v);
}
}
return {};
}
AircraftItemPtr QmlAircraftInfo::resolveItem() const
{
if (_variant > 0) {
return _item->variants.at(_variant - 1);
}
return _item;
}
void QmlAircraftInfo::checkForStates()
{
QString path = pathOnDisk();
if (path.isEmpty()) {
_statesModel.reset();
emit infoChanged();
return;
}
auto states = readAircraftStates(SGPath::fromUtf8(path.toUtf8().toStdString()));
if (states.empty()) {
_statesModel.reset();
emit infoChanged();
return;
}
_statesModel.reset(new StatesModel(states));
emit infoChanged();
}
void QmlAircraftInfo::setUri(QUrl u)
{
if (uri() == u)
return;
_item.clear();
_package.clear();
_statesModel.reset();
if (u.isLocalFile()) {
_item = LocalAircraftCache::instance()->findItemWithUri(u);
if (!_item) {
// scan still active or aircraft not found, let's bail out
// and rely on caller to try again
return;
}
int vindex = _item->indexOfVariant(u);
// we need to offset the variant index to allow for the different
// indexing schemes here (primary included) and in the cache (primary
// is not counted)
_variant = (vindex >= 0) ? vindex + 1 : 0;
} else if (u.scheme() == "package") {
auto ident = u.path().toStdString();
try {
_package = globals->packageRoot()->getPackageById(ident);
_variant = _package->indexOfVariant(ident);
} catch (sg_exception&) {
qWarning() << "couldn't find package/variant for " << u;
}
}
checkForStates();
emit uriChanged();
emit infoChanged();
emit downloadChanged();
}
void QmlAircraftInfo::setVariant(int variant)
{
if (!_item && !_package)
return;
if ((variant < 0) || (variant >= numVariants())) {
qWarning() << Q_FUNC_INFO << uri() << "variant index out of range:" << variant;
return;
}
if (_variant == variant)
return;
_variant = variant;
checkForStates();
emit infoChanged();
emit variantChanged(_variant);
}
void QmlAircraftInfo::requestInstallUpdate()
{
}
void QmlAircraftInfo::requestUninstall()
{
}
void QmlAircraftInfo::requestInstallCancel()
{
}
QVariant QmlAircraftInfo::packageAircraftStatus(simgear::pkg::PackageRef p)
{
if (p->hasTag("needs-maintenance")) {
return LocalAircraftCache::AircraftUnmaintained;
}
if (!p->properties()->hasChild("minimum-fg-version")) {
return LocalAircraftCache::AircraftOk;
}
const std::string minFGVersion = p->properties()->getStringValue("minimum-fg-version");
const int c = simgear::strutils::compare_versions(FLIGHTGEAR_VERSION, minFGVersion, 2);
return (c < 0) ? LocalAircraftCache::AircraftNeedsNewerSimulator :
LocalAircraftCache::AircraftOk;
}
QVariant QmlAircraftInfo::installStatus() const
{
if (_item) {
return LocalAircraftCache::PackageInstalled;
}
if (_package) {
auto i = _package->existingInstall();
if (i.valid()) {
if (i->isDownloading()) {
return LocalAircraftCache::PackageDownloading;
}
if (i->isQueued()) {
return LocalAircraftCache::PackageQueued;
}
if (i->hasUpdate()) {
return LocalAircraftCache::PackageUpdateAvailable;
}
return LocalAircraftCache::PackageInstalled;
} else {
return LocalAircraftCache::PackageNotInstalled;
}
}
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return LocalAircraftCache::NotPackaged;
}
PackageRef QmlAircraftInfo::packageRef() const
{
return _package;
}
void QmlAircraftInfo::setDownloadBytes(int bytes)
{
_downloadBytes = bytes;
emit downloadChanged();
}
QStringList QmlAircraftInfo::variantNames() const
{
QStringList result;
if (_item) {
result.append(_item->description);
Q_FOREACH(auto v, _item->variants) {
if (v->description.isEmpty()) {
qWarning() << Q_FUNC_INFO << "missing description for " << v->path;
}
result.append(v->description);
}
} else if (_package) {
for (int vindex = 0; vindex < _package->variants().size(); ++vindex) {
if (_package->nameForVariant(vindex).empty()) {
qWarning() << Q_FUNC_INFO << "missing description for variant" << vindex;
}
result.append(QString::fromStdString(_package->nameForVariant(vindex)));
}
}
return result;
}
bool QmlAircraftInfo::isPackaged() const
{
return _package != PackageRef();
}
QAbstractListModel *QmlAircraftInfo::statesModel()
{
if (!hasStates())
return nullptr;
return _statesModel.data();
}
#include "QmlAircraftInfo.moc"