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/****************************************************************************
**
** Copyright (C) 2011 Nokia Corporation and/or its subsidiary(-ies).
** All rights reserved.
** Contact: Nokia Corporation (qt-info@nokia.com)
**
** This file is part of the tools applications of the Qt Toolkit.
**
** $QT_BEGIN_LICENSE:LGPL$
** GNU Lesser General Public License Usage
** 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, Nokia gives you certain additional
** rights. These rights are described in the Nokia Qt LGPL Exception
** version 1.1, included in the file LGPL_EXCEPTION.txt in this package.
**
** GNU General Public License Usage
** Alternatively, this file may be used under the terms of the GNU General
** Public License version 3.0 as published by the Free Software Foundation
** and appearing in the file LICENSE.GPL included in the packaging of this
** file. Please review the following information to ensure the GNU General
** Public License version 3.0 requirements will be met:
** http://www.gnu.org/copyleft/gpl.html.
**
** Other Usage
** Alternatively, this file may be used in accordance with the terms and
** conditions contained in a signed written agreement between you and Nokia.
**
**
**
**
**
** $QT_END_LICENSE$
**
****************************************************************************/
#include <QtDeclarative/QtDeclarative>
#include <QtDeclarative/private/qdeclarativemetatype_p.h>
#include <QtDeclarative/private/qdeclarativeopenmetaobject_p.h>
#include <QtDeclarative/QDeclarativeView>
#include <QtGui/QApplication>
#include <QtCore/QSet>
#include <QtCore/QMetaObject>
#include <QtCore/QMetaProperty>
#include <QtCore/QDebug>
#include <QtCore/private/qobject_p.h>
#include <QtCore/private/qmetaobject_p.h>
#include <iostream>
#include "qmlstreamwriter.h"
#ifdef QT_SIMULATOR
#include <QtGui/private/qsimulatorconnection_p.h>
#endif
#ifdef Q_OS_UNIX
#include <signal.h>
#endif
void collectReachableMetaObjects(const QMetaObject *meta, QSet<const QMetaObject *> *metas)
{
if (! meta || metas->contains(meta))
return;
// dynamic meta objects break things badly, so just ignore them
const QMetaObjectPrivate *mop = reinterpret_cast<const QMetaObjectPrivate *>(meta->d.data);
if (!(mop->flags & DynamicMetaObject))
metas->insert(meta);
collectReachableMetaObjects(meta->superClass(), metas);
}
QString currentProperty;
void collectReachableMetaObjects(QObject *object, QSet<const QMetaObject *> *metas)
{
if (! object)
return;
const QMetaObject *meta = object->metaObject();
qDebug() << "Processing object" << meta->className();
collectReachableMetaObjects(meta, metas);
for (int index = 0; index < meta->propertyCount(); ++index) {
QMetaProperty prop = meta->property(index);
if (QDeclarativeMetaType::isQObject(prop.userType())) {
qDebug() << " Processing property" << prop.name();
currentProperty = QString("%1::%2").arg(meta->className(), prop.name());
// if the property was not initialized during construction,
// accessing a member of oo is going to cause a segmentation fault
QObject *oo = QDeclarativeMetaType::toQObject(prop.read(object));
if (oo && !metas->contains(oo->metaObject()))
collectReachableMetaObjects(oo, metas);
currentProperty.clear();
}
}
}
void collectReachableMetaObjects(const QDeclarativeType *ty, QSet<const QMetaObject *> *metas)
{
collectReachableMetaObjects(ty->metaObject(), metas);
if (ty->attachedPropertiesType())
collectReachableMetaObjects(ty->attachedPropertiesType(), metas);
}
/* We want to add the MetaObject for 'Qt' to the list, this is a
simple way to access it.
*/
class FriendlyQObject: public QObject
{
public:
static const QMetaObject *qtMeta() { return &staticQtMetaObject; }
};
/* When we dump a QMetaObject, we want to list all the types it is exported as.
To do this, we need to find the QDeclarativeTypes associated with this
QMetaObject.
*/
static QHash<QByteArray, QSet<const QDeclarativeType *> > qmlTypesByCppName;
static QHash<QByteArray, QByteArray> cppToId;
/* Takes a C++ type name, such as Qt::LayoutDirection or QString and
maps it to how it should appear in the description file.
These names need to be unique globally, so we don't change the C++ symbol's
name much. It is mostly used to for explicit translations such as
QString->string and translations for extended QML objects.
*/
QByteArray convertToId(const QByteArray &cppName)
{
return cppToId.value(cppName, cppName);
}
QSet<const QMetaObject *> collectReachableMetaObjects(const QString &importCode, QDeclarativeEngine *engine)
{
QSet<const QMetaObject *> metas;
metas.insert(FriendlyQObject::qtMeta());
QHash<QByteArray, QSet<QByteArray> > extensions;
foreach (const QDeclarativeType *ty, QDeclarativeMetaType::qmlTypes()) {
qmlTypesByCppName[ty->metaObject()->className()].insert(ty);
if (ty->isExtendedType()) {
extensions[ty->typeName()].insert(ty->metaObject()->className());
}
collectReachableMetaObjects(ty, &metas);
}
// Adjust ids of extended objects.
// The chain ends up being:
// __extended__.originalname - the base object
// __extension_0_.originalname - first extension
// ..
// __extension_n-2_.originalname - second to last extension
// originalname - last extension
// ### does this actually work for multiple extensions? it seems like the prototypes might be wrong
foreach (const QByteArray &extendedCpp, extensions.keys()) {
cppToId.remove(extendedCpp);
const QByteArray extendedId = convertToId(extendedCpp);
cppToId.insert(extendedCpp, "__extended__." + extendedId);
QSet<QByteArray> extensionCppNames = extensions.value(extendedCpp);
int c = 0;
foreach (const QByteArray &extensionCppName, extensionCppNames) {
if (c != extensionCppNames.size() - 1) {
QByteArray adjustedName = QString("__extension__%1.%2").arg(QString::number(c), QString(extendedId)).toAscii();
cppToId.insert(extensionCppName, adjustedName);
} else {
cppToId.insert(extensionCppName, extendedId);
}
++c;
}
}
// find even more QMetaObjects by instantiating QML types and running
// over the instances
foreach (const QDeclarativeType *ty, QDeclarativeMetaType::qmlTypes()) {
if (ty->isExtendedType())
continue;
QByteArray tyName = ty->qmlTypeName();
tyName = tyName.mid(tyName.lastIndexOf('/') + 1);
QByteArray code = importCode.toUtf8();
code += tyName;
code += " {}\n";
QDeclarativeComponent c(engine);
c.setData(code, QUrl("typeinstance"));
QObject *object = c.create();
if (object)
collectReachableMetaObjects(object, &metas);
else
qDebug() << "Could not create" << tyName << ":" << c.errorString();
}
return metas;
}
class Dumper
{
QmlStreamWriter *qml;
QString relocatableModuleUri;
public:
Dumper(QmlStreamWriter *qml) : qml(qml) {}
void setRelocatableModuleUri(const QString &uri)
{
relocatableModuleUri = uri;
}
void dump(const QMetaObject *meta)
{
qml->writeStartObject("Component");
QByteArray id = convertToId(meta->className());
qml->writeScriptBinding(QLatin1String("name"), enquote(id));
for (int index = meta->classInfoCount() - 1 ; index >= 0 ; --index) {
QMetaClassInfo classInfo = meta->classInfo(index);
if (QLatin1String(classInfo.name()) == QLatin1String("DefaultProperty")) {
qml->writeScriptBinding(QLatin1String("defaultProperty"), enquote(QLatin1String(classInfo.value())));
break;
}
}
if (meta->superClass())
qml->writeScriptBinding(QLatin1String("prototype"), enquote(convertToId(meta->superClass()->className())));
QSet<const QDeclarativeType *> qmlTypes = qmlTypesByCppName.value(meta->className());
if (!qmlTypes.isEmpty()) {
QStringList exports;
foreach (const QDeclarativeType *qmlTy, qmlTypes) {
QString qmlTyName = qmlTy->qmlTypeName();
// some qmltype names are missing the actual names, ignore that import
if (qmlTyName.endsWith('/'))
continue;
if (qmlTyName.startsWith(relocatableModuleUri + QLatin1Char('/'))) {
qmlTyName.remove(0, relocatableModuleUri.size() + 1);
}
exports += enquote(QString("%1 %2.%3").arg(
qmlTyName,
QString::number(qmlTy->majorVersion()),
QString::number(qmlTy->minorVersion())));
}
// ensure exports are sorted and don't change order when the plugin is dumped again
exports.removeDuplicates();
qSort(exports);
qml->writeArrayBinding(QLatin1String("exports"), exports);
if (const QMetaObject *attachedType = (*qmlTypes.begin())->attachedPropertiesType()) {
qml->writeScriptBinding(QLatin1String("attachedType"), enquote(
convertToId(attachedType->className())));
}
}
for (int index = meta->enumeratorOffset(); index < meta->enumeratorCount(); ++index)
dump(meta->enumerator(index));
for (int index = meta->propertyOffset(); index < meta->propertyCount(); ++index)
dump(meta->property(index));
for (int index = meta->methodOffset(); index < meta->methodCount(); ++index)
dump(meta->method(index));
qml->writeEndObject();
}
void writeEasingCurve()
{
qml->writeStartObject("Component");
qml->writeScriptBinding(QLatin1String("name"), enquote(QLatin1String("QEasingCurve")));
qml->writeScriptBinding(QLatin1String("prototype"), enquote(QLatin1String("QDeclarativeEasingValueType")));
qml->writeEndObject();
}
private:
static QString enquote(const QString &string)
{
return QString("\"%1\"").arg(string);
}
/* Removes pointer and list annotations from a type name, returning
what was removed in isList and isPointer
*/
static void removePointerAndList(QByteArray *typeName, bool *isList, bool *isPointer)
{
static QByteArray declListPrefix = "QDeclarativeListProperty<";
if (typeName->endsWith('*')) {
*isPointer = true;
typeName->truncate(typeName->length() - 1);
removePointerAndList(typeName, isList, isPointer);
} else if (typeName->startsWith(declListPrefix)) {
*isList = true;
typeName->truncate(typeName->length() - 1); // get rid of the suffix '>'
*typeName = typeName->mid(declListPrefix.size());
removePointerAndList(typeName, isList, isPointer);
}
*typeName = convertToId(*typeName);
}
void writeTypeProperties(QByteArray typeName, bool isWritable)
{
bool isList = false, isPointer = false;
removePointerAndList(&typeName, &isList, &isPointer);
qml->writeScriptBinding(QLatin1String("type"), enquote(typeName));
if (isList)
qml->writeScriptBinding(QLatin1String("isList"), QLatin1String("true"));
if (!isWritable)
qml->writeScriptBinding(QLatin1String("isReadonly"), QLatin1String("true"));
if (isPointer)
qml->writeScriptBinding(QLatin1String("isPointer"), QLatin1String("true"));
}
void dump(const QMetaProperty &prop)
{
qml->writeStartObject("Property");
qml->writeScriptBinding(QLatin1String("name"), enquote(QString::fromUtf8(prop.name())));
writeTypeProperties(prop.typeName(), prop.isWritable());
qml->writeEndObject();
}
void dump(const QMetaMethod &meth)
{
if (meth.methodType() == QMetaMethod::Signal) {
if (meth.access() != QMetaMethod::Protected)
return; // nothing to do.
} else if (meth.access() != QMetaMethod::Public) {
return; // nothing to do.
}
QByteArray name = meth.signature();
int lparenIndex = name.indexOf('(');
if (lparenIndex == -1) {
return; // invalid signature
}
name = name.left(lparenIndex);
if (meth.methodType() == QMetaMethod::Signal)
qml->writeStartObject(QLatin1String("Signal"));
else
qml->writeStartObject(QLatin1String("Method"));
qml->writeScriptBinding(QLatin1String("name"), enquote(name));
const QString typeName = convertToId(meth.typeName());
if (! typeName.isEmpty())
qml->writeScriptBinding(QLatin1String("type"), enquote(typeName));
for (int i = 0; i < meth.parameterTypes().size(); ++i) {
QByteArray argName = meth.parameterNames().at(i);
qml->writeStartObject(QLatin1String("Parameter"));
if (! argName.isEmpty())
qml->writeScriptBinding(QLatin1String("name"), enquote(argName));
writeTypeProperties(meth.parameterTypes().at(i), true);
qml->writeEndObject();
}
qml->writeEndObject();
}
void dump(const QMetaEnum &e)
{
qml->writeStartObject(QLatin1String("Enum"));
qml->writeScriptBinding(QLatin1String("name"), enquote(QString::fromUtf8(e.name())));
QList<QPair<QString, QString> > namesValues;
for (int index = 0; index < e.keyCount(); ++index) {
namesValues.append(qMakePair(enquote(QString::fromUtf8(e.key(index))), QString::number(e.value(index))));
}
qml->writeScriptObjectLiteralBinding(QLatin1String("values"), namesValues);
qml->writeEndObject();
}
};
enum ExitCode {
EXIT_INVALIDARGUMENTS = 1,
EXIT_SEGV = 2,
EXIT_IMPORTERROR = 3
};
#ifdef Q_OS_UNIX
void sigSegvHandler(int) {
fprintf(stderr, "Error: SEGV\n");
if (!currentProperty.isEmpty())
fprintf(stderr, "While processing the property '%s', which probably has uninitialized data.\n", currentProperty.toLatin1().constData());
exit(EXIT_SEGV);
}
#endif
void printUsage(const QString &appName)
{
qWarning() << qPrintable(QString(
"Usage: %1 [-notrelocatable] module.uri version [module/import/path]\n"
" %1 -path path/to/qmldir/directory [version]\n"
" %1 -builtins\n"
"Example: %1 Qt.labs.particles 4.7 /home/user/dev/qt-install/imports").arg(
appName));
}
int main(int argc, char *argv[])
{
#ifdef Q_OS_UNIX
// qmldump may crash, but we don't want any crash handlers to pop up
// therefore we intercept the segfault and just exit() ourselves
struct sigaction action;
sigemptyset(&action.sa_mask);
action.sa_handler = &sigSegvHandler;
action.sa_flags = 0;
sigaction(SIGSEGV, &action, 0);
#endif
#ifdef QT_SIMULATOR
// Running this application would bring up the Qt Simulator (since it links QtGui), avoid that!
QtSimulatorPrivate::SimulatorConnection::createStubInstance();
#endif
QApplication app(argc, argv);
const QStringList args = app.arguments();
const QString appName = QFileInfo(app.applicationFilePath()).baseName();
if (!(args.size() >= 3
|| (args.size() == 2
&& (args.at(1) == QLatin1String("--builtins")
|| args.at(1) == QLatin1String("-builtins"))))) {
printUsage(appName);
return EXIT_INVALIDARGUMENTS;
}
QString pluginImportUri;
QString pluginImportVersion;
QString pluginImportPath;
bool relocatable = true;
bool pathImport = false;
if (args.size() >= 3) {
QStringList positionalArgs;
foreach (const QString &arg, args) {
if (!arg.startsWith(QLatin1Char('-'))) {
positionalArgs.append(arg);
continue;
}
if (arg == QLatin1String("--notrelocatable")
|| arg == QLatin1String("-notrelocatable")) {
relocatable = false;
} else if (arg == QLatin1String("--path")
|| arg == QLatin1String("-path")) {
pathImport = true;
} else {
qWarning() << "Invalid argument: " << arg;
return EXIT_INVALIDARGUMENTS;
}
}
if (!pathImport) {
if (positionalArgs.size() != 3 && positionalArgs.size() != 4) {
qWarning() << "Incorrect number of positional arguments";
return EXIT_INVALIDARGUMENTS;
}
pluginImportUri = positionalArgs[1];
pluginImportVersion = positionalArgs[2];
if (positionalArgs.size() >= 4)
pluginImportPath = positionalArgs[3];
} else {
if (positionalArgs.size() != 2 && positionalArgs.size() != 3) {
qWarning() << "Incorrect number of positional arguments";
return EXIT_INVALIDARGUMENTS;
}
pluginImportPath = positionalArgs[1];
if (positionalArgs.size() == 3)
pluginImportVersion = positionalArgs[2];
}
}
QDeclarativeView view;
QDeclarativeEngine *engine = view.engine();
if (!pluginImportPath.isEmpty())
engine->addImportPath(pluginImportPath);
// find all QMetaObjects reachable from the builtin module
QByteArray importCode("import QtQuick 1.0\n");
QSet<const QMetaObject *> defaultReachable = collectReachableMetaObjects(importCode, engine);
// this will hold the meta objects we want to dump information of
QSet<const QMetaObject *> metas;
if (pluginImportUri.isEmpty() && !pathImport) {
metas = defaultReachable;
} else {
// find all QMetaObjects reachable when the specified module is imported
if (!pathImport) {
importCode += QString("import %0 %1\n").arg(pluginImportUri, pluginImportVersion).toAscii();
} else {
// pluginImportVersion can be empty
importCode += QString("import \"%1\" %2\n").arg(pluginImportPath, pluginImportVersion).toAscii();
}
// create a component with these imports to make sure the imports are valid
// and to populate the declarative meta type system
{
QByteArray code = importCode;
code += "QtObject {}";
QDeclarativeComponent c(engine);
c.setData(code, QUrl("typelist"));
c.create();
if (!c.errors().isEmpty()) {
foreach (const QDeclarativeError &error, c.errors())
qWarning() << error.toString();
return EXIT_IMPORTERROR;
}
}
QSet<const QMetaObject *> candidates = collectReachableMetaObjects(importCode, engine);
candidates.subtract(defaultReachable);
// Also eliminate meta objects with the same classname.
// This is required because extended objects seem not to share
// a single meta object instance.
QSet<QByteArray> defaultReachableNames;
foreach (const QMetaObject *mo, defaultReachable)
defaultReachableNames.insert(QByteArray(mo->className()));
foreach (const QMetaObject *mo, candidates) {
if (!defaultReachableNames.contains(mo->className()))
metas.insert(mo);
}
}
// setup static rewrites of type names
cppToId.insert("QString", "string");
cppToId.insert("QDeclarativeEasingValueType::Type", "Type");
// start dumping data
QByteArray bytes;
QmlStreamWriter qml(&bytes);
qml.writeStartDocument();
qml.writeLibraryImport(QLatin1String("QtQuick.tooling"), 1, 0);
qml.write("\n"
"// This file describes the plugin-supplied types contained in the library.\n"
"// It is used for QML tooling purposes only.\n"
"\n");
qml.writeStartObject("Module");
// put the metaobjects into a map so they are always dumped in the same order
QMap<QString, const QMetaObject *> nameToMeta;
foreach (const QMetaObject *meta, metas)
nameToMeta.insert(convertToId(meta->className()), meta);
Dumper dumper(&qml);
if (relocatable)
dumper.setRelocatableModuleUri(pluginImportUri);
foreach (const QMetaObject *meta, nameToMeta) {
dumper.dump(meta);
}
// define QEasingCurve as an extension of QDeclarativeEasingValueType, this way
// properties using the QEasingCurve type get useful type information.
if (pluginImportUri.isEmpty())
dumper.writeEasingCurve();
qml.writeEndObject();
qml.writeEndDocument();
std::cout << bytes.constData();
// workaround to avoid crashes on exit
QTimer timer;
timer.setSingleShot(true);
timer.setInterval(0);
QObject::connect(&timer, SIGNAL(timeout()), &app, SLOT(quit()));
timer.start();
return app.exec();
}
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