/****************************************************************************
**
-** Copyright (C) 2011 Nokia Corporation and/or its subsidiary(-ies).
-** All rights reserved.
-** Contact: Nokia Corporation (qt-info@nokia.com)
+** Copyright (C) 2012 Nokia Corporation and/or its subsidiary(-ies).
+** Contact: http://www.qt-project.org/
**
** This file is part of the QtDeclarative module of the Qt Toolkit.
**
**
**
**
+**
** $QT_END_LICENSE$
**
****************************************************************************/
-#include "private/qdeclarativecompiler_p.h"
+#include "qdeclarativecompiler_p.h"
-#include "private/qdeclarativeparser_p.h"
-#include "private/qdeclarativescriptparser_p.h"
#include "qdeclarativepropertyvaluesource.h"
#include "qdeclarativecomponent.h"
-#include "private/qmetaobjectbuilder_p.h"
-#include "private/qdeclarativestringconverters_p.h"
-#include "private/qdeclarativeengine_p.h"
+#include <private/qmetaobjectbuilder_p.h>
+#include <private/qfastmetabuilder_p.h>
+#include "qdeclarativestringconverters_p.h"
+#include "qdeclarativeengine_p.h"
#include "qdeclarativeengine.h"
#include "qdeclarativecontext.h"
-#include "private/qdeclarativemetatype_p.h"
-#include "private/qdeclarativecustomparser_p_p.h"
-#include "private/qdeclarativecontext_p.h"
-#include "private/qdeclarativecomponent_p.h"
-#include "parser/qdeclarativejsast_p.h"
-#include "private/qdeclarativevmemetaobject_p.h"
-#include "private/qdeclarativeexpression_p.h"
-#include "private/qdeclarativeproperty_p.h"
-#include "private/qdeclarativerewrite_p.h"
+#include "qdeclarativemetatype_p.h"
+#include "qdeclarativecustomparser_p_p.h"
+#include "qdeclarativecontext_p.h"
+#include "qdeclarativecomponent_p.h"
+#include <private/qdeclarativejsast_p.h>
+#include "qdeclarativevmemetaobject_p.h"
+#include "qdeclarativeexpression_p.h"
+#include "qdeclarativeproperty_p.h"
+#include "qdeclarativerewrite_p.h"
#include "qdeclarativescriptstring.h"
-#include "private/qdeclarativeglobal_p.h"
-#include "private/qdeclarativescriptparser_p.h"
-#include "private/qdeclarativebinding_p.h"
-#include "private/qdeclarativev4compiler_p.h"
+#include "qdeclarativeglobal_p.h"
+#include "qdeclarativebinding_p.h"
+#include <private/qv4compiler_p.h>
#include <QColor>
#include <QDebug>
#include <QtCore/qdebug.h>
#include <QtCore/qdatetime.h>
+Q_DECLARE_METATYPE(QList<int>)
+Q_DECLARE_METATYPE(QList<qreal>)
+Q_DECLARE_METATYPE(QList<bool>)
+Q_DECLARE_METATYPE(QList<QString>)
+Q_DECLARE_METATYPE(QList<QUrl>)
+
QT_BEGIN_NAMESPACE
DEFINE_BOOL_CONFIG_OPTION(compilerDump, QML_COMPILER_DUMP);
DEFINE_BOOL_CONFIG_OPTION(compilerStatDump, QML_COMPILER_STATS);
-using namespace QDeclarativeParser;
+using namespace QDeclarativeJS;
+using namespace QDeclarativeScript;
+using namespace QDeclarativeCompilerTypes;
+
+static QString id_string(QLatin1String("id"));
+static QString on_string(QLatin1String("on"));
+static QString Changed_string(QLatin1String("Changed"));
+static QString Component_string(QLatin1String("Component"));
+static QString Component_import_string(QLatin1String("QML/Component"));
+static QString qsTr_string(QLatin1String("qsTr"));
+static QString qsTrId_string(QLatin1String("qsTrId"));
/*!
Instantiate a new QDeclarativeCompiler.
*/
-QDeclarativeCompiler::QDeclarativeCompiler()
-: output(0), engine(0), unitRoot(0), unit(0)
+QDeclarativeCompiler::QDeclarativeCompiler(QDeclarativePool *pool)
+: pool(pool), output(0), engine(0), unitRoot(0), unit(0), cachedComponentTypeRef(-1),
+ cachedTranslationContextIndex(-1), componentStats(0)
{
+ if (compilerStatDump())
+ componentStats = pool->New<ComponentStats>();
}
/*!
Attached property names are those that start with a capital letter.
*/
-bool QDeclarativeCompiler::isAttachedPropertyName(const QByteArray &name)
+bool QDeclarativeCompiler::isAttachedPropertyName(const QString &name)
{
- return !name.isEmpty() && name.at(0) >= 'A' && name.at(0) <= 'Z';
+ return isAttachedPropertyName(QHashedStringRef(&name));
+}
+
+bool QDeclarativeCompiler::isAttachedPropertyName(const QHashedStringRef &name)
+{
+ return !name.isEmpty() && name.at(0).isUpper();
}
/*!
character codes in property names, for simplicity and performance reasons
QML only supports letters, numbers and underscores.
*/
-bool QDeclarativeCompiler::isSignalPropertyName(const QByteArray &name)
+bool QDeclarativeCompiler::isSignalPropertyName(const QString &name)
+{
+ return isSignalPropertyName(QStringRef(&name));
+}
+
+bool QDeclarativeCompiler::isSignalPropertyName(const QHashedStringRef &name)
{
if (name.length() < 3) return false;
- if (!name.startsWith("on")) return false;
- int ns = name.size();
+ if (!name.startsWith(on_string)) return false;
+ int ns = name.length();
for (int i = 2; i < ns; ++i) {
- char curr = name.at(i);
- if (curr == '_') continue;
- if (curr >= 'A' && curr <= 'Z') return true;
+ const QChar curr = name.at(i);
+ if (curr.unicode() == '_') continue;
+ if (curr.isUpper()) return true;
return false;
}
return false; // consists solely of underscores - invalid.
For example:
\code
- COMPILE_EXCEPTION(property, tr("Error for property \"%1\"").arg(QString::fromUtf8(property->name)));
+ COMPILE_EXCEPTION(property, tr("Error for property \"%1\"").arg(property->name));
\endcode
*/
-#define COMPILE_EXCEPTION(token, desc) \
+#define COMPILE_EXCEPTION_LOCATION(line, column, desc) \
{ \
- QString exceptionDescription; \
QDeclarativeError error; \
error.setUrl(output->url); \
- error.setLine((token)->location.start.line); \
- error.setColumn((token)->location.start.column); \
+ error.setLine(line); \
+ error.setColumn(column); \
error.setDescription(desc.trimmed()); \
exceptions << error; \
return false; \
}
+#define COMPILE_EXCEPTION(token, desc) \
+ COMPILE_EXCEPTION_LOCATION((token)->location.start.line, (token)->location.start.column, desc)
+
/*!
\macro COMPILE_CHECK
\internal
This test corresponds to action taken by genLiteralAssignment(). Any change
made here, must have a corresponding action in genLiteralAssigment().
*/
-bool QDeclarativeCompiler::testLiteralAssignment(const QMetaProperty &prop,
- QDeclarativeParser::Value *v)
+bool QDeclarativeCompiler::testLiteralAssignment(QDeclarativeScript::Property *prop,
+ QDeclarativeScript::Value *v)
{
- QString string = v->value.asString();
+ const QDeclarativeScript::Variant &value = v->value;
- if (!prop.isWritable())
- COMPILE_EXCEPTION(v, tr("Invalid property assignment: \"%1\" is a read-only property").arg(QString::fromUtf8(prop.name())));
+ if (!prop->core.isWritable() && !prop->isReadOnlyDeclaration)
+ COMPILE_EXCEPTION(v, tr("Invalid property assignment: \"%1\" is a read-only property").arg(prop->name().toString()));
- if (prop.isEnumType()) {
- int value;
- if (prop.isFlagType()) {
- value = prop.enumerator().keysToValue(string.toUtf8().constData());
+ if (prop->core.isEnum()) {
+ QMetaProperty p = prop->parent->metaObject()->property(prop->index);
+ int enumValue;
+ bool ok;
+ if (p.isFlagType()) {
+ enumValue = p.enumerator().keysToValue(value.asString().toUtf8().constData(), &ok);
} else
- value = prop.enumerator().keyToValue(string.toUtf8().constData());
- if (value == -1)
+ enumValue = p.enumerator().keyToValue(value.asString().toUtf8().constData(), &ok);
+
+ if (!ok)
COMPILE_EXCEPTION(v, tr("Invalid property assignment: unknown enumeration"));
+
+ v->value = QDeclarativeScript::Variant((double)enumValue);
return true;
}
- int type = prop.userType();
+
+ int type = prop->type;
+
switch(type) {
- case -1:
+ case QMetaType::QVariant:
break;
case QVariant::String:
if (!v->value.isString()) COMPILE_EXCEPTION(v, tr("Invalid property assignment: string expected"));
break;
+ case QVariant::StringList: // we expect a string literal. A string list is not a literal assignment.
+ if (!v->value.isString()) COMPILE_EXCEPTION(v, tr("Invalid property assignment: string or string list expected"));
+ break;
case QVariant::ByteArray:
if (!v->value.isString()) COMPILE_EXCEPTION(v, tr("Invalid property assignment: byte array expected"));
break;
case QVariant::Url:
if (!v->value.isString()) COMPILE_EXCEPTION(v, tr("Invalid property assignment: url expected"));
break;
+ case QVariant::RegExp:
+ COMPILE_EXCEPTION(v, tr("Invalid property assignment: regular expression expected; use /pattern/ syntax"));
+ break;
case QVariant::UInt:
{
bool ok = v->value.isNumber();
case QVariant::Color:
{
bool ok;
- QDeclarativeStringConverters::colorFromString(string, &ok);
+ QDeclarativeStringConverters::colorFromString(value.asString(), &ok);
if (!ok) COMPILE_EXCEPTION(v, tr("Invalid property assignment: color expected"));
}
break;
case QVariant::Date:
{
bool ok;
- QDeclarativeStringConverters::dateFromString(string, &ok);
+ QDeclarativeStringConverters::dateFromString(value.asString(), &ok);
if (!ok) COMPILE_EXCEPTION(v, tr("Invalid property assignment: date expected"));
}
break;
case QVariant::Time:
{
bool ok;
- QDeclarativeStringConverters::timeFromString(string, &ok);
+ QDeclarativeStringConverters::timeFromString(value.asString(), &ok);
if (!ok) COMPILE_EXCEPTION(v, tr("Invalid property assignment: time expected"));
}
break;
case QVariant::DateTime:
{
bool ok;
- QDeclarativeStringConverters::dateTimeFromString(string, &ok);
+ QDeclarativeStringConverters::dateTimeFromString(value.asString(), &ok);
if (!ok) COMPILE_EXCEPTION(v, tr("Invalid property assignment: datetime expected"));
}
break;
case QVariant::PointF:
{
bool ok;
- QPointF point = QDeclarativeStringConverters::pointFFromString(string, &ok);
+ QDeclarativeStringConverters::pointFFromString(value.asString(), &ok);
if (!ok) COMPILE_EXCEPTION(v, tr("Invalid property assignment: point expected"));
}
break;
case QVariant::SizeF:
{
bool ok;
- QSizeF size = QDeclarativeStringConverters::sizeFFromString(string, &ok);
+ QDeclarativeStringConverters::sizeFFromString(value.asString(), &ok);
if (!ok) COMPILE_EXCEPTION(v, tr("Invalid property assignment: size expected"));
}
break;
case QVariant::RectF:
{
bool ok;
- QRectF rect = QDeclarativeStringConverters::rectFFromString(string, &ok);
+ QDeclarativeStringConverters::rectFFromString(value.asString(), &ok);
if (!ok) COMPILE_EXCEPTION(v, tr("Invalid property assignment: rect expected"));
}
break;
case QVariant::Vector3D:
{
bool ok;
- QDeclarativeStringConverters::vector3DFromString(string, &ok);
+ QDeclarativeStringConverters::vector3DFromString(value.asString(), &ok);
if (!ok) COMPILE_EXCEPTION(v, tr("Invalid property assignment: 3D vector expected"));
}
break;
+ case QVariant::Vector4D:
+ {
+ bool ok;
+ QDeclarativeStringConverters::vector4DFromString(value.asString(), &ok);
+ if (!ok) COMPILE_EXCEPTION(v, tr("Invalid property assignment: 4D vector expected"));
+ }
+ break;
default:
{
- int t = prop.userType();
- QDeclarativeMetaType::StringConverter converter =
- QDeclarativeMetaType::customStringConverter(t);
+ // check if assigning a literal value to a list property.
+ // in each case, check the singular, since an Array of the specified type
+ // will not go via this literal assignment codepath.
+ if (type == qMetaTypeId<QList<qreal> >()) {
+ if (!v->value.isNumber()) {
+ COMPILE_EXCEPTION(v, tr("Invalid property assignment: real or array of reals expected"));
+ }
+ break;
+ } else if (type == qMetaTypeId<QList<int> >()) {
+ bool ok = v->value.isNumber();
+ if (ok) {
+ double n = v->value.asNumber();
+ if (double(int(n)) != n)
+ ok = false;
+ }
+ if (!ok) COMPILE_EXCEPTION(v, tr("Invalid property assignment: int or array of ints expected"));
+ break;
+ } else if (type == qMetaTypeId<QList<bool> >()) {
+ if (!v->value.isBoolean()) {
+ COMPILE_EXCEPTION(v, tr("Invalid property assignment: bool or array of bools expected"));
+ }
+ break;
+ } else if (type == qMetaTypeId<QList<QString> >()) { // we expect a string literal. A string list is not a literal assignment.
+ if (!v->value.isString()) {
+ COMPILE_EXCEPTION(v, tr("Invalid property assignment: string or array of strings expected"));
+ }
+ break;
+ } else if (type == qMetaTypeId<QList<QUrl> >()) {
+ if (!v->value.isString()) {
+ COMPILE_EXCEPTION(v, tr("Invalid property assignment: url or array of urls expected"));
+ }
+ break;
+ }
+
+ // otherwise, check for existence of string converter to custom type
+ QDeclarativeMetaType::StringConverter converter = QDeclarativeMetaType::customStringConverter(type);
if (!converter)
- COMPILE_EXCEPTION(v, tr("Invalid property assignment: unsupported type \"%1\"").arg(QString::fromLatin1(QVariant::typeToName(prop.type()))));
+ COMPILE_EXCEPTION(v, tr("Invalid property assignment: unsupported type \"%1\"").arg(QString::fromLatin1(QVariant::typeToName((QVariant::Type)type))));
}
break;
}
return true;
}
+static QUrl urlFromUserString(const QString &data)
+{
+ QUrl u;
+ // Preserve any valid percent-encoded octets supplied by the source
+ u.setEncodedUrl(data.toUtf8(), QUrl::TolerantMode);
+ return u;
+}
+
/*!
Generate a store instruction for assigning literal \a v to property \a prop.
Any literal assignment that is approved in testLiteralAssignment() must have
a corresponding action in this method.
*/
-void QDeclarativeCompiler::genLiteralAssignment(const QMetaProperty &prop,
- QDeclarativeParser::Value *v)
-{
- QDeclarativeInstruction instr;
- if (prop.isEnumType()) {
- int value;
- if (v->value.isNumber()) {
- // Preresolved enum
- value = (int)v->value.asNumber();
- } else {
- // Must be a string
- if (prop.isFlagType()) {
- value = prop.enumerator().keysToValue(v->value.asString().toUtf8().constData());
- } else
- value = prop.enumerator().keyToValue(v->value.asString().toUtf8().constData());
- }
-
- instr.setType(QDeclarativeInstruction::StoreInteger);
- instr.storeInteger.propertyIndex = prop.propertyIndex();
- instr.storeInteger.value = value;
+void QDeclarativeCompiler::genLiteralAssignment(QDeclarativeScript::Property *prop,
+ QDeclarativeScript::Value *v)
+{
+ if (prop->core.isEnum()) {
+ Q_ASSERT(v->value.isNumber());
+ // Preresolved value
+ int value = (int)v->value.asNumber();
+
+ Instruction::StoreInteger instr;
+ instr.propertyIndex = prop->index;
+ instr.value = value;
output->addInstruction(instr);
return;
}
- QString string = v->value.asString();
-
- int type = prop.userType();
+ int type = prop->type;
switch(type) {
- case -1:
+ case QMetaType::QVariant:
{
if (v->value.isNumber()) {
double n = v->value.asNumber();
if (double(int(n)) == n) {
- instr.setType(QDeclarativeInstruction::StoreVariantInteger);
- instr.storeInteger.propertyIndex = prop.propertyIndex();
- instr.storeInteger.value = int(n);
+ if (prop->core.isVMEProperty()) {
+ Instruction::StoreVarInteger instr;
+ instr.propertyIndex = prop->index;
+ instr.value = int(n);
+ output->addInstruction(instr);
+ } else {
+ Instruction::StoreVariantInteger instr;
+ instr.propertyIndex = prop->index;
+ instr.value = int(n);
+ output->addInstruction(instr);
+ }
+ } else {
+ if (prop->core.isVMEProperty()) {
+ Instruction::StoreVarDouble instr;
+ instr.propertyIndex = prop->index;
+ instr.value = n;
+ output->addInstruction(instr);
+ } else {
+ Instruction::StoreVariantDouble instr;
+ instr.propertyIndex = prop->index;
+ instr.value = n;
+ output->addInstruction(instr);
+ }
+ }
+ } else if (v->value.isBoolean()) {
+ if (prop->core.isVMEProperty()) {
+ Instruction::StoreVarBool instr;
+ instr.propertyIndex = prop->index;
+ instr.value = v->value.asBoolean();
+ output->addInstruction(instr);
} else {
- instr.setType(QDeclarativeInstruction::StoreVariantDouble);
- instr.storeDouble.propertyIndex = prop.propertyIndex();
- instr.storeDouble.value = n;
+ Instruction::StoreVariantBool instr;
+ instr.propertyIndex = prop->index;
+ instr.value = v->value.asBoolean();
+ output->addInstruction(instr);
}
- } else if(v->value.isBoolean()) {
- instr.setType(QDeclarativeInstruction::StoreVariantBool);
- instr.storeBool.propertyIndex = prop.propertyIndex();
- instr.storeBool.value = v->value.asBoolean();
} else {
- instr.setType(QDeclarativeInstruction::StoreVariant);
- instr.storeString.propertyIndex = prop.propertyIndex();
- instr.storeString.value = output->indexForString(string);
+ if (prop->core.isVMEProperty()) {
+ Instruction::StoreVar instr;
+ instr.propertyIndex = prop->index;
+ instr.value = output->indexForString(v->value.asString());
+ output->addInstruction(instr);
+ } else {
+ Instruction::StoreVariant instr;
+ instr.propertyIndex = prop->index;
+ instr.value = output->indexForString(v->value.asString());
+ output->addInstruction(instr);
+ }
}
}
break;
case QVariant::String:
{
- instr.setType(QDeclarativeInstruction::StoreString);
- instr.storeString.propertyIndex = prop.propertyIndex();
- instr.storeString.value = output->indexForString(string);
+ Instruction::StoreString instr;
+ instr.propertyIndex = prop->index;
+ instr.value = output->indexForString(v->value.asString());
+ output->addInstruction(instr);
+ }
+ break;
+ case QVariant::StringList:
+ {
+ Instruction::StoreStringList instr;
+ instr.propertyIndex = prop->index;
+ instr.value = output->indexForString(v->value.asString());
+ output->addInstruction(instr);
}
break;
case QVariant::ByteArray:
{
- instr.setType(QDeclarativeInstruction::StoreByteArray);
- instr.storeByteArray.propertyIndex = prop.propertyIndex();
- instr.storeByteArray.value = output->indexForByteArray(string.toLatin1());
+ Instruction::StoreByteArray instr;
+ instr.propertyIndex = prop->index;
+ instr.value = output->indexForByteArray(v->value.asString().toLatin1());
+ output->addInstruction(instr);
}
break;
case QVariant::Url:
{
- instr.setType(QDeclarativeInstruction::StoreUrl);
- QUrl u = string.isEmpty() ? QUrl() : output->url.resolved(QUrl(string));
- instr.storeUrl.propertyIndex = prop.propertyIndex();
- instr.storeUrl.value = output->indexForUrl(u);
+ Instruction::StoreUrl instr;
+ QString string = v->value.asString();
+ QUrl u = string.isEmpty() ? QUrl() : output->url.resolved(urlFromUserString(string));
+ instr.propertyIndex = prop->index;
+ instr.value = output->indexForUrl(u);
+ output->addInstruction(instr);
}
break;
case QVariant::UInt:
{
- instr.setType(QDeclarativeInstruction::StoreInteger);
- instr.storeInteger.propertyIndex = prop.propertyIndex();
- instr.storeInteger.value = uint(v->value.asNumber());
+ Instruction::StoreInteger instr;
+ instr.propertyIndex = prop->index;
+ instr.value = uint(v->value.asNumber());
+ output->addInstruction(instr);
}
break;
case QVariant::Int:
{
- instr.setType(QDeclarativeInstruction::StoreInteger);
- instr.storeInteger.propertyIndex = prop.propertyIndex();
- instr.storeInteger.value = int(v->value.asNumber());
+ Instruction::StoreInteger instr;
+ instr.propertyIndex = prop->index;
+ instr.value = int(v->value.asNumber());
+ output->addInstruction(instr);
}
break;
case QMetaType::Float:
{
- instr.setType(QDeclarativeInstruction::StoreFloat);
- instr.storeFloat.propertyIndex = prop.propertyIndex();
- instr.storeFloat.value = float(v->value.asNumber());
+ Instruction::StoreFloat instr;
+ instr.propertyIndex = prop->index;
+ instr.value = float(v->value.asNumber());
+ output->addInstruction(instr);
}
break;
case QVariant::Double:
{
- instr.setType(QDeclarativeInstruction::StoreDouble);
- instr.storeDouble.propertyIndex = prop.propertyIndex();
- instr.storeDouble.value = v->value.asNumber();
+ Instruction::StoreDouble instr;
+ instr.propertyIndex = prop->index;
+ instr.value = v->value.asNumber();
+ output->addInstruction(instr);
}
break;
case QVariant::Color:
{
- QColor c = QDeclarativeStringConverters::colorFromString(string);
- instr.setType(QDeclarativeInstruction::StoreColor);
- instr.storeColor.propertyIndex = prop.propertyIndex();
- instr.storeColor.value = c.rgba();
+ Instruction::StoreColor instr;
+ QColor c = QDeclarativeStringConverters::colorFromString(v->value.asString());
+ instr.propertyIndex = prop->index;
+ instr.value = c.rgba();
+ output->addInstruction(instr);
}
break;
#ifndef QT_NO_DATESTRING
case QVariant::Date:
{
- QDate d = QDeclarativeStringConverters::dateFromString(string);
- instr.setType(QDeclarativeInstruction::StoreDate);
- instr.storeDate.propertyIndex = prop.propertyIndex();
- instr.storeDate.value = d.toJulianDay();
+ Instruction::StoreDate instr;
+ QDate d = QDeclarativeStringConverters::dateFromString(v->value.asString());
+ instr.propertyIndex = prop->index;
+ instr.value = d.toJulianDay();
+ output->addInstruction(instr);
}
break;
case QVariant::Time:
{
- QTime time = QDeclarativeStringConverters::timeFromString(string);
- instr.setType(QDeclarativeInstruction::StoreTime);
- instr.storeTime.propertyIndex = prop.propertyIndex();
- instr.storeTime.time = *(QDeclarativeInstruction::instr_storeTime::QTime *)&time;
+ Instruction::StoreTime instr;
+ QTime time = QDeclarativeStringConverters::timeFromString(v->value.asString());
+ instr.propertyIndex = prop->index;
+ Q_ASSERT(sizeof(instr.time) == sizeof(QTime));
+ ::memcpy(&instr.time, &time, sizeof(QTime));
+ output->addInstruction(instr);
}
break;
case QVariant::DateTime:
{
- QDateTime dateTime = QDeclarativeStringConverters::dateTimeFromString(string);
+ Instruction::StoreDateTime instr;
+ QDateTime dateTime = QDeclarativeStringConverters::dateTimeFromString(v->value.asString());
QTime time = dateTime.time();
- instr.setType(QDeclarativeInstruction::StoreDateTime);
- instr.storeDateTime.propertyIndex = prop.propertyIndex();
- instr.storeDateTime.date = dateTime.date().toJulianDay();
- instr.storeDateTime.time = *(QDeclarativeInstruction::instr_storeTime::QTime *)&time;
+ instr.propertyIndex = prop->index;
+ instr.date = dateTime.date().toJulianDay();
+ Q_ASSERT(sizeof(instr.time) == sizeof(QTime));
+ ::memcpy(&instr.time, &time, sizeof(QTime));
+ output->addInstruction(instr);
}
break;
#endif // QT_NO_DATESTRING
case QVariant::Point:
{
+ Instruction::StorePoint instr;
bool ok;
- QPoint point = QDeclarativeStringConverters::pointFFromString(string, &ok).toPoint();
- instr.setType(QDeclarativeInstruction::StorePoint);
- instr.storePoint.propertyIndex = prop.propertyIndex();
- instr.storePoint.point.xp = point.x();
- instr.storePoint.point.yp = point.y();
+ QPoint point = QDeclarativeStringConverters::pointFFromString(v->value.asString(), &ok).toPoint();
+ instr.propertyIndex = prop->index;
+ instr.point.xp = point.x();
+ instr.point.yp = point.y();
+ output->addInstruction(instr);
}
break;
case QVariant::PointF:
{
+ Instruction::StorePointF instr;
bool ok;
- QPointF point = QDeclarativeStringConverters::pointFFromString(string, &ok);
- instr.setType(QDeclarativeInstruction::StorePointF);
- instr.storePointF.propertyIndex = prop.propertyIndex();
- instr.storePointF.point.xp = point.x();
- instr.storePointF.point.yp = point.y();
+ QPointF point = QDeclarativeStringConverters::pointFFromString(v->value.asString(), &ok);
+ instr.propertyIndex = prop->index;
+ instr.point.xp = point.x();
+ instr.point.yp = point.y();
+ output->addInstruction(instr);
}
break;
case QVariant::Size:
{
+ Instruction::StoreSize instr;
bool ok;
- QSize size = QDeclarativeStringConverters::sizeFFromString(string, &ok).toSize();
- instr.setType(QDeclarativeInstruction::StoreSize);
- instr.storeSize.propertyIndex = prop.propertyIndex();
- instr.storeSize.size.wd = size.width();
- instr.storeSize.size.ht = size.height();
+ QSize size = QDeclarativeStringConverters::sizeFFromString(v->value.asString(), &ok).toSize();
+ instr.propertyIndex = prop->index;
+ instr.size.wd = size.width();
+ instr.size.ht = size.height();
+ output->addInstruction(instr);
}
break;
case QVariant::SizeF:
{
+ Instruction::StoreSizeF instr;
bool ok;
- QSizeF size = QDeclarativeStringConverters::sizeFFromString(string, &ok);
- instr.setType(QDeclarativeInstruction::StoreSizeF);
- instr.storeSizeF.propertyIndex = prop.propertyIndex();
- instr.storeSizeF.size.wd = size.width();
- instr.storeSizeF.size.ht = size.height();
+ QSizeF size = QDeclarativeStringConverters::sizeFFromString(v->value.asString(), &ok);
+ instr.propertyIndex = prop->index;
+ instr.size.wd = size.width();
+ instr.size.ht = size.height();
+ output->addInstruction(instr);
}
break;
case QVariant::Rect:
{
+ Instruction::StoreRect instr;
bool ok;
- QRect rect = QDeclarativeStringConverters::rectFFromString(string, &ok).toRect();
- instr.setType(QDeclarativeInstruction::StoreRect);
- instr.storeRect.propertyIndex = prop.propertyIndex();
- instr.storeRect.rect.x1 = rect.left();
- instr.storeRect.rect.y1 = rect.top();
- instr.storeRect.rect.x2 = rect.right();
- instr.storeRect.rect.y2 = rect.bottom();
+ QRect rect = QDeclarativeStringConverters::rectFFromString(v->value.asString(), &ok).toRect();
+ instr.propertyIndex = prop->index;
+ instr.rect.x1 = rect.left();
+ instr.rect.y1 = rect.top();
+ instr.rect.x2 = rect.right();
+ instr.rect.y2 = rect.bottom();
+ output->addInstruction(instr);
}
break;
case QVariant::RectF:
{
+ Instruction::StoreRectF instr;
bool ok;
- QRectF rect = QDeclarativeStringConverters::rectFFromString(string, &ok);
- instr.setType(QDeclarativeInstruction::StoreRectF);
- instr.storeRectF.propertyIndex = prop.propertyIndex();
- instr.storeRectF.rect.xp = rect.left();
- instr.storeRectF.rect.yp = rect.top();
- instr.storeRectF.rect.w = rect.width();
- instr.storeRectF.rect.h = rect.height();
+ QRectF rect = QDeclarativeStringConverters::rectFFromString(v->value.asString(), &ok);
+ instr.propertyIndex = prop->index;
+ instr.rect.xp = rect.left();
+ instr.rect.yp = rect.top();
+ instr.rect.w = rect.width();
+ instr.rect.h = rect.height();
+ output->addInstruction(instr);
}
break;
case QVariant::Bool:
{
+ Instruction::StoreBool instr;
bool b = v->value.asBoolean();
- instr.setType(QDeclarativeInstruction::StoreBool);
- instr.storeBool.propertyIndex = prop.propertyIndex();
- instr.storeBool.value = b;
+ instr.propertyIndex = prop->index;
+ instr.value = b;
+ output->addInstruction(instr);
}
break;
case QVariant::Vector3D:
{
+ Instruction::StoreVector3D instr;
+ bool ok;
+ QVector3D vector = QDeclarativeStringConverters::vector3DFromString(v->value.asString(), &ok);
+ instr.propertyIndex = prop->index;
+ instr.vector.xp = vector.x();
+ instr.vector.yp = vector.y();
+ instr.vector.zp = vector.z();
+ output->addInstruction(instr);
+ }
+ break;
+ case QVariant::Vector4D:
+ {
+ Instruction::StoreVector4D instr;
bool ok;
- QVector3D vector = QDeclarativeStringConverters::vector3DFromString(string, &ok);
- instr.setType(QDeclarativeInstruction::StoreVector3D);
- instr.storeVector3D.propertyIndex = prop.propertyIndex();
- instr.storeVector3D.vector.xp = vector.x();
- instr.storeVector3D.vector.yp = vector.y();
- instr.storeVector3D.vector.zp = vector.z();
+ QVector4D vector = QDeclarativeStringConverters::vector4DFromString(v->value.asString(), &ok);
+ instr.propertyIndex = prop->index;
+ instr.vector.xp = vector.x();
+ instr.vector.yp = vector.y();
+ instr.vector.zp = vector.z();
+ instr.vector.wp = vector.w();
+ output->addInstruction(instr);
}
break;
default:
{
- int t = prop.userType();
- instr.setType(QDeclarativeInstruction::AssignCustomType);
- instr.assignCustomType.propertyIndex = prop.propertyIndex();
- instr.assignCustomType.primitive = output->indexForString(string);
- instr.assignCustomType.type = t;
+ // generate single literal value assignment to a list property if required
+ if (type == qMetaTypeId<QList<qreal> >()) {
+ Instruction::StoreDoubleQList instr;
+ instr.propertyIndex = prop->index;
+ instr.value = v->value.asNumber();
+ output->addInstruction(instr);
+ break;
+ } else if (type == qMetaTypeId<QList<int> >()) {
+ Instruction::StoreIntegerQList instr;
+ instr.propertyIndex = prop->index;
+ instr.value = int(v->value.asNumber());
+ output->addInstruction(instr);
+ break;
+ } else if (type == qMetaTypeId<QList<bool> >()) {
+ Instruction::StoreBoolQList instr;
+ bool b = v->value.asBoolean();
+ instr.propertyIndex = prop->index;
+ instr.value = b;
+ output->addInstruction(instr);
+ break;
+ } else if (type == qMetaTypeId<QList<QUrl> >()) {
+ Instruction::StoreUrlQList instr;
+ QString string = v->value.asString();
+ QUrl u = string.isEmpty() ? QUrl() : output->url.resolved(urlFromUserString(string));
+ instr.propertyIndex = prop->index;
+ instr.value = output->indexForUrl(u);
+ output->addInstruction(instr);
+ break;
+ } else if (type == qMetaTypeId<QList<QString> >()) {
+ Instruction::StoreStringQList instr;
+ instr.propertyIndex = prop->index;
+ instr.value = output->indexForString(v->value.asString());
+ output->addInstruction(instr);
+ break;
+ }
+
+ // otherwise, generate custom type literal assignment
+ Instruction::AssignCustomType instr;
+ instr.propertyIndex = prop->index;
+ instr.primitive = output->indexForString(v->value.asString());
+ instr.type = type;
+ output->addInstruction(instr);
}
break;
}
- output->addInstruction(instr);
}
/*!
data->types.clear();
data->primitives.clear();
data->datas.clear();
- data->bytecode.clear();
+ data->bytecode.resize(0);
}
/*!
Q_ASSERT(out);
reset(out);
- output = out;
+ QDeclarativeScript::Object *root = unit->parser().tree();
+ Q_ASSERT(root);
+
+ this->engine = engine;
+ this->enginePrivate = QDeclarativeEnginePrivate::get(engine);
+ this->unit = unit;
+ this->unitRoot = root;
+ this->output = out;
// Compile types
const QList<QDeclarativeTypeData::TypeReference> &resolvedTypes = unit->resolvedTypes();
- QList<QDeclarativeScriptParser::TypeReference *> referencedTypes = unit->parser().referencedTypes();
+ QList<QDeclarativeScript::TypeReference *> referencedTypes = unit->parser().referencedTypes();
for (int ii = 0; ii < resolvedTypes.count(); ++ii) {
QDeclarativeCompiledData::TypeReference ref;
const QDeclarativeTypeData::TypeReference &tref = resolvedTypes.at(ii);
- QDeclarativeScriptParser::TypeReference *parserRef = referencedTypes.at(ii);
+ QDeclarativeScript::TypeReference *parserRef = referencedTypes.at(ii);
if (tref.type) {
ref.type = tref.type;
if (ref.type->containsRevisionedAttributes()) {
QDeclarativeError cacheError;
- ref.typePropertyCache =
- QDeclarativeEnginePrivate::get(engine)->cache(ref.type, resolvedTypes.at(ii).minorVersion, cacheError);
-
- if (!ref.typePropertyCache) {
+ ref.typePropertyCache = enginePrivate->cache(ref.type, resolvedTypes.at(ii).minorVersion,
+ cacheError);
+ if (!ref.typePropertyCache)
COMPILE_EXCEPTION(parserRef->refObjects.first(), cacheError.description());
- }
ref.typePropertyCache->addref();
}
} else if (tref.typeData) {
ref.component = tref.typeData->compiledData();
}
- ref.className = parserRef->name.toUtf8();
+ ref.className = parserRef->name;
out->types << ref;
}
- QDeclarativeParser::Object *root = unit->parser().tree();
- Q_ASSERT(root);
-
- this->engine = engine;
- this->enginePrivate = QDeclarativeEnginePrivate::get(engine);
- this->unit = unit;
- this->unitRoot = root;
compileTree(root);
if (!isError()) {
if (compilerDump())
out->dumpInstructions();
- if (compilerStatDump())
+ if (componentStats)
dumpStats();
Q_ASSERT(out->rootPropertyCache);
} else {
reset(out);
}
- compileState = ComponentCompileState();
- savedCompileStates.clear();
+ compileState = 0;
output = 0;
this->engine = 0;
this->enginePrivate = 0;
this->unit = 0;
+ this->cachedComponentTypeRef = -1;
+ this->cachedTranslationContextIndex = -1;
this->unitRoot = 0;
return !isError();
}
-void QDeclarativeCompiler::compileTree(QDeclarativeParser::Object *tree)
+void QDeclarativeCompiler::compileTree(QDeclarativeScript::Object *tree)
{
- compileState.root = tree;
- componentStat.lineNumber = tree->location.start.line;
+ compileState = pool->New<ComponentCompileState>();
+
+ compileState->root = tree;
+ if (componentStats)
+ componentStats->componentStat.lineNumber = tree->location.start.line;
- // Build global import scripts
- QStringList importedScriptIndexes;
+ // We generate the importCache before we build the tree so that
+ // it can be used in the binding compiler. Given we "expect" the
+ // QML compilation to succeed, this isn't a waste.
+ output->importCache = new QDeclarativeTypeNameCache();
+ foreach (const QString &ns, unit->namespaces()) {
+ output->importCache->add(ns);
+ }
+ int scriptIndex = 0;
foreach (const QDeclarativeTypeData::ScriptReference &script, unit->resolvedScripts()) {
- importedScriptIndexes.append(script.qualifier);
+ QString qualifier = script.qualifier;
+ QString enclosingNamespace;
- QDeclarativeInstruction import;
- import.setType(QDeclarativeInstruction::StoreImportedScript);
- import.storeScript.value = output->scripts.count();
+ const int lastDotIndex = qualifier.lastIndexOf(QLatin1Char('.'));
+ if (lastDotIndex != -1) {
+ enclosingNamespace = qualifier.left(lastDotIndex);
+ qualifier = qualifier.mid(lastDotIndex+1);
+ }
- QDeclarativeScriptData *scriptData = script.script->scriptData();
- scriptData->addref();
- output->scripts << scriptData;
- output->addInstruction(import);
+ output->importCache->add(qualifier, scriptIndex++, enclosingNamespace);
}
- // We generate the importCache before we build the tree so that
- // it can be used in the binding compiler. Given we "expect" the
- // QML compilation to succeed, this isn't a waste.
- output->importCache = new QDeclarativeTypeNameCache(engine);
- for (int ii = 0; ii < importedScriptIndexes.count(); ++ii)
- output->importCache->add(importedScriptIndexes.at(ii), ii);
unit->imports().populateCache(output->importCache, engine);
if (!buildObject(tree, BindingContext()) || !completeComponentBuild())
return;
- QDeclarativeInstruction init;
- init.setType(QDeclarativeInstruction::Init);
- init.init.bindingsSize = compileState.bindings.count();
- init.init.parserStatusSize = compileState.parserStatusCount;
- init.init.contextCache = genContextCache();
- if (compileState.compiledBindingData.isEmpty())
- init.init.compiledBinding = -1;
+ Instruction::Init init;
+ init.bindingsSize = compileState->totalBindingsCount;
+ init.parserStatusSize = compileState->parserStatusCount;
+ init.contextCache = genContextCache();
+ init.objectStackSize = compileState->objectDepth.maxDepth();
+ init.listStackSize = compileState->listDepth.maxDepth();
+ if (compileState->compiledBindingData.isEmpty())
+ init.compiledBinding = -1;
else
- init.init.compiledBinding = output->indexForByteArray(compileState.compiledBindingData);
+ init.compiledBinding = output->indexForByteArray(compileState->compiledBindingData);
output->addInstruction(init);
- if (!compileState.v8BindingProgram.isEmpty()) {
- QDeclarativeInstruction bindings;
- bindings.setType(QDeclarativeInstruction::InitV8Bindings);
- bindings.initV8Bindings.program = output->indexForString(compileState.v8BindingProgram);
- bindings.initV8Bindings.programIndex = compileState.v8BindingProgramIndex;
- bindings.initV8Bindings.line = compileState.v8BindingProgramLine;
+ foreach (const QDeclarativeTypeData::ScriptReference &script, unit->resolvedScripts()) {
+ Instruction::StoreImportedScript import;
+ import.value = output->scripts.count();
+
+ QDeclarativeScriptData *scriptData = script.script->scriptData();
+ scriptData->addref();
+ output->scripts << scriptData;
+ output->addInstruction(import);
+ }
+
+ if (!compileState->v8BindingProgram.isEmpty()) {
+ Instruction::InitV8Bindings bindings;
+ bindings.program = output->indexForString(compileState->v8BindingProgram);
+ bindings.programIndex = compileState->v8BindingProgramIndex;
+ bindings.line = compileState->v8BindingProgramLine;
output->addInstruction(bindings);
}
genObject(tree);
- QDeclarativeInstruction def;
- def.setType(QDeclarativeInstruction::SetDefault);
+ Instruction::SetDefault def;
output->addInstruction(def);
- QDeclarativeInstruction done;
- done.setType(QDeclarativeInstruction::Done);
+ Instruction::Done done;
output->addInstruction(done);
Q_ASSERT(tree->metatype);
enginePrivate->registerCompositeType(output);
}
-static bool ValuePtrLessThan(const QDeclarativeParser::Value *t1, const QDeclarativeParser::Value *t2)
+static bool QStringList_contains(const QStringList &list, const QHashedStringRef &string)
{
- return t1->location.start.line < t2->location.start.line ||
- (t1->location.start.line == t2->location.start.line &&
- t1->location.start.column < t2->location.start.column);
+ for (int ii = 0; ii < list.count(); ++ii)
+ if (string == list.at(ii))
+ return true;
+
+ return false;
}
-bool QDeclarativeCompiler::buildObject(QDeclarativeParser::Object *obj, const BindingContext &ctxt)
+bool QDeclarativeCompiler::buildObject(QDeclarativeScript::Object *obj, const BindingContext &ctxt)
{
- componentStat.objects++;
+ if (componentStats)
+ componentStats->componentStat.objects++;
Q_ASSERT (obj->type != -1);
- const QDeclarativeCompiledData::TypeReference &tr =
- output->types.at(obj->type);
+ const QDeclarativeCompiledData::TypeReference &tr = output->types.at(obj->type);
obj->metatype = tr.metaObject();
- if (tr.component)
- obj->url = tr.component->url;
- if (tr.type)
+ if (tr.type)
obj->typeName = tr.type->qmlTypeName();
- obj->className = tr.className;
// This object is a "Component" element
if (tr.type && obj->metatype == &QDeclarativeComponent::staticMetaObject) {
return true;
}
+ if (tr.component) {
+ typedef QDeclarativeInstruction I;
+ const I *init = ((const I *)tr.component->bytecode.constData());
+ Q_ASSERT(init && tr.component->instructionType(init) == QDeclarativeInstruction::Init);
+
+ // Adjust stack depths to include nested components
+ compileState->objectDepth.pushPop(init->init.objectStackSize);
+ compileState->listDepth.pushPop(init->init.listStackSize);
+ compileState->parserStatusCount += init->init.parserStatusSize;
+ compileState->totalBindingsCount += init->init.bindingsSize;
+ }
+
+ compileState->objectDepth.push();
+
// Object instantiations reset the binding context
BindingContext objCtxt(obj);
Q_ASSERT(type);
obj->parserStatusCast = type->parserStatusCast();
if (obj->parserStatusCast != -1)
- compileState.parserStatusCount++;
+ compileState->parserStatusCount++;
// Check if this is a custom parser type. Custom parser types allow
// assignments to non-existent properties. These assignments are then
// Must do id property first. This is to ensure that the id given to any
// id reference created matches the order in which the objects are
// instantiated
- foreach(Property *prop, obj->properties) {
- if (prop->name == "id") {
+ for (Property *prop = obj->properties.first(); prop; prop = obj->properties.next(prop)) {
+ if (prop->name() == id_string) {
COMPILE_CHECK(buildProperty(prop, obj, objCtxt));
break;
}
Property *defaultProperty = 0;
Property *skipProperty = 0;
if (obj->defaultProperty) {
- const QMetaObject *metaObject = obj->metaObject();
- Q_ASSERT(metaObject);
- QMetaProperty p = QDeclarativeMetaType::defaultProperty(metaObject);
- if (p.name()) {
- Property *explicitProperty = obj->getProperty(p.name(), false);
- if (explicitProperty && !explicitProperty->value) {
- skipProperty = explicitProperty;
-
- defaultProperty = new Property;
- defaultProperty->parent = obj;
- defaultProperty->isDefault = true;
- defaultProperty->location = obj->defaultProperty->location;
- defaultProperty->listValueRange = obj->defaultProperty->listValueRange;
- defaultProperty->listCommaPositions = obj->defaultProperty->listCommaPositions;
-
- defaultProperty->values = obj->defaultProperty->values;
- defaultProperty->values += explicitProperty->values;
- foreach(QDeclarativeParser::Value *value, defaultProperty->values)
- value->addref();
- qSort(defaultProperty->values.begin(), defaultProperty->values.end(), ValuePtrLessThan);
+ defaultProperty = obj->defaultProperty;
+
+ Property *explicitProperty = 0;
+
+ const QMetaObject *mo = obj->metatype;
+ int idx = mo->indexOfClassInfo("DefaultProperty");
+ if (idx != -1) {
+ QMetaClassInfo info = mo->classInfo(idx);
+ const char *p = info.value();
+ if (p) {
+ int plen = 0;
+ char ord = 0;
+ while (char c = p[plen++]) { ord |= c; };
+ --plen;
+
+ if (ord & 0x80) {
+ // Utf8 - unoptimal, but seldom hit
+ QString *s = pool->NewString(QString::fromUtf8(p, plen));
+ QHashedStringRef r(*s);
+
+ if (obj->propertiesHashField.test(r.hash())) {
+ for (Property *ep = obj->properties.first(); ep; ep = obj->properties.next(ep)) {
+ if (ep->name() == r) {
+ explicitProperty = ep;
+ break;
+ }
+ }
+ }
+
+ if (!explicitProperty)
+ defaultProperty->setName(r);
- } else {
- defaultProperty = obj->defaultProperty;
- defaultProperty->addref();
+ } else {
+ QHashedCStringRef r(p, plen);
+
+ if (obj->propertiesHashField.test(r.hash())) {
+ for (Property *ep = obj->properties.first(); ep; ep = obj->properties.next(ep)) {
+ if (ep->name() == r) {
+ explicitProperty = ep;
+ break;
+ }
+ }
+ }
+
+ if (!explicitProperty) {
+ // Set the default property name
+ QChar *buffer = pool->NewRawArray<QChar>(r.length());
+ r.writeUtf16(buffer);
+ defaultProperty->setName(QHashedStringRef(buffer, r.length(), r.hash()));
+ }
+ }
}
- } else {
- defaultProperty = obj->defaultProperty;
- defaultProperty->addref();
}
+
+ if (explicitProperty && !explicitProperty->value && !explicitProperty->values.isEmpty()) {
+
+ skipProperty = explicitProperty; // We merge the values into defaultProperty
+
+ // Find the correct insertion point
+ Value *insertPos = 0;
+
+ for (Value *v = defaultProperty->values.first(); v; v = Property::ValueList::next(v)) {
+ if (!(v->location.start < explicitProperty->values.first()->location.start))
+ break;
+ insertPos = v;
+ }
+
+ defaultProperty->values.insertAfter(insertPos, explicitProperty->values);
+ }
}
QDeclarativeCustomParser *cp = 0;
cp = output->types.at(obj->type).type->customParser();
// Build all explicit properties specified
- foreach(Property *prop, obj->properties) {
+ for (Property *prop = obj->properties.first(); prop; prop = obj->properties.next(prop)) {
if (prop == skipProperty)
continue;
- if (prop->name == "id")
+ if (prop->name() == id_string)
continue;
bool canDefer = false;
if (isCustomParser) {
- if (doesPropertyExist(prop, obj) &&
+ if (doesPropertyExist(prop, obj) &&
(!(cp->flags() & QDeclarativeCustomParser::AcceptsAttachedProperties) ||
- !isAttachedPropertyName(prop->name))) {
- int ids = compileState.ids.count();
+ !isAttachedPropertyName(prop->name()))) {
+ int ids = compileState->ids.count();
COMPILE_CHECK(buildProperty(prop, obj, objCtxt));
- canDefer = ids == compileState.ids.count();
+ canDefer = ids == compileState->ids.count();
+ } else if (isSignalPropertyName(prop->name()) &&
+ (cp->flags() & QDeclarativeCustomParser::AcceptsSignalHandlers)) {
+ COMPILE_CHECK(buildSignal(prop,obj,objCtxt));
} else {
customProps << QDeclarativeCustomParserNodePrivate::fromProperty(prop);
}
} else {
- if (isSignalPropertyName(prop->name)) {
+ if (isSignalPropertyName(prop->name())) {
COMPILE_CHECK(buildSignal(prop,obj,objCtxt));
} else {
- int ids = compileState.ids.count();
+ int ids = compileState->ids.count();
COMPILE_CHECK(buildProperty(prop, obj, objCtxt));
- canDefer = ids == compileState.ids.count();
+ canDefer = ids == compileState->ids.count();
}
}
- if (canDefer && !deferredList.isEmpty() &&
- deferredList.contains(QString::fromUtf8(prop->name)))
+ if (canDefer && !deferredList.isEmpty() && QStringList_contains(deferredList, prop->name()))
prop->isDeferred = true;
}
bool canDefer = false;
if (isCustomParser) {
if (doesPropertyExist(prop, obj)) {
- int ids = compileState.ids.count();
+ int ids = compileState->ids.count();
COMPILE_CHECK(buildProperty(prop, obj, objCtxt));
- canDefer = ids == compileState.ids.count();
+ canDefer = ids == compileState->ids.count();
} else {
customProps << QDeclarativeCustomParserNodePrivate::fromProperty(prop);
}
} else {
- int ids = compileState.ids.count();
+ int ids = compileState->ids.count();
COMPILE_CHECK(buildProperty(prop, obj, objCtxt));
- canDefer = ids == compileState.ids.count();
+ canDefer = ids == compileState->ids.count();
}
- if (canDefer && !deferredList.isEmpty() &&
- deferredList.contains(QString::fromUtf8(prop->name)))
+ if (canDefer && !deferredList.isEmpty() && QStringList_contains(deferredList, prop->name()))
prop->isDeferred = true;
}
- if (defaultProperty)
- defaultProperty->release();
-
// Compile custom parser parts
if (isCustomParser && !customProps.isEmpty()) {
cp->clearErrors();
}
}
+ compileState->objectDepth.pop();
+
return true;
}
-void QDeclarativeCompiler::genObject(QDeclarativeParser::Object *obj)
+void QDeclarativeCompiler::genObject(QDeclarativeScript::Object *obj)
{
QDeclarativeCompiledData::TypeReference &tr = output->types[obj->type];
if (tr.type && obj->metatype == &QDeclarativeComponent::staticMetaObject) {
// Create the object
if (obj->custom.isEmpty() && output->types.at(obj->type).type &&
- !output->types.at(obj->type).type->isExtendedType() && obj != compileState.root) {
-
- QDeclarativeInstruction create;
- create.setType(QDeclarativeInstruction::CreateSimpleObject);
- create.createSimple.create = output->types.at(obj->type).type->createFunction();
- create.createSimple.typeSize = output->types.at(obj->type).type->createSize();
- create.createSimple.type = obj->type;
- create.createSimple.line = obj->location.start.line;
- create.createSimple.column = obj->location.start.column;
+ !output->types.at(obj->type).type->isExtendedType() && obj != compileState->root) {
+
+ Instruction::CreateSimpleObject create;
+ create.create = output->types.at(obj->type).type->createFunction();
+ create.typeSize = output->types.at(obj->type).type->createSize();
+ create.type = obj->type;
+ create.line = obj->location.start.line;
+ create.column = obj->location.start.column;
output->addInstruction(create);
} else {
- QDeclarativeInstruction create;
- create.setType(QDeclarativeInstruction::CreateObject);
- create.create.line = obj->location.start.line;
- create.create.column = obj->location.start.column;
- create.create.data = -1;
- if (!obj->custom.isEmpty())
- create.create.data = output->indexForByteArray(obj->custom);
- create.create.type = obj->type;
- if (!output->types.at(create.create.type).type &&
- !obj->bindingBitmask.isEmpty()) {
- Q_ASSERT(obj->bindingBitmask.size() % 4 == 0);
- create.create.bindingBits =
- output->indexForByteArray(obj->bindingBitmask);
+ if (output->types.at(obj->type).type) {
+ Instruction::CreateCppObject create;
+ create.line = obj->location.start.line;
+ create.column = obj->location.start.column;
+ create.data = -1;
+ if (!obj->custom.isEmpty())
+ create.data = output->indexForByteArray(obj->custom);
+ create.type = obj->type;
+ create.isRoot = (compileState->root == obj);
+ output->addInstruction(create);
} else {
- create.create.bindingBits = -1;
- }
- output->addInstruction(create);
+ Instruction::CreateQMLObject create;
+ create.type = obj->type;
+ create.isRoot = (compileState->root == obj);
+
+ if (!obj->bindingBitmask.isEmpty()) {
+ Q_ASSERT(obj->bindingBitmask.size() % 4 == 0);
+ create.bindingBits = output->indexForByteArray(obj->bindingBitmask);
+ } else {
+ create.bindingBits = -1;
+ }
+ output->addInstruction(create);
+ Instruction::CompleteQMLObject complete;
+ complete.line = obj->location.start.line;
+ complete.column = obj->location.start.column;
+ complete.isRoot = (compileState->root == obj);
+ output->addInstruction(complete);
+ }
}
// Setup the synthesized meta object if necessary
if (!obj->metadata.isEmpty()) {
- QDeclarativeInstruction meta;
- meta.setType(QDeclarativeInstruction::StoreMetaObject);
- meta.storeMeta.data = output->indexForByteArray(obj->metadata);
- meta.storeMeta.aliasData = output->indexForByteArray(obj->synthdata);
- meta.storeMeta.propertyCache = output->propertyCaches.count();
+ Instruction::StoreMetaObject meta;
+ meta.data = output->indexForByteArray(obj->metadata);
+ meta.aliasData = output->indexForByteArray(obj->synthdata);
+ meta.propertyCache = output->propertyCaches.count();
QDeclarativePropertyCache *propertyCache = obj->synthCache;
Q_ASSERT(propertyCache);
reinterpret_cast<const QDeclarativeVMEMetaData *>(obj->synthdata.constData());
for (int ii = 0; ii < vmeMetaData->aliasCount; ++ii) {
int index = obj->metaObject()->propertyOffset() + vmeMetaData->propertyCount + ii;
- propertyCache->property(index)->flags |= QDeclarativePropertyCache::Data::IsAlias;
+ QDeclarativePropertyData *data = propertyCache->property(index);
+ data->setFlags(data->getFlags() | QDeclarativePropertyData::IsAlias);
}
}
// Set the object id
if (!obj->id.isEmpty()) {
- QDeclarativeInstruction id;
- id.setType(QDeclarativeInstruction::SetId);
- id.setId.value = output->indexForString(obj->id);
- id.setId.index = obj->idIndex;
+ Instruction::SetId id;
+ id.value = output->indexForString(obj->id);
+ id.index = obj->idIndex;
output->addInstruction(id);
}
// Begin the class
if (tr.type && obj->parserStatusCast != -1) {
- QDeclarativeInstruction begin;
- begin.setType(QDeclarativeInstruction::BeginObject);
- begin.begin.castValue = obj->parserStatusCast;
+ Instruction::BeginObject begin;
+ begin.castValue = obj->parserStatusCast;
output->addInstruction(begin);
}
genObjectBody(obj);
}
-void QDeclarativeCompiler::genObjectBody(QDeclarativeParser::Object *obj)
+void QDeclarativeCompiler::genObjectBody(QDeclarativeScript::Object *obj)
{
- typedef QPair<Property *, int> PropPair;
- foreach(const PropPair &prop, obj->scriptStringProperties) {
- const QString &script = prop.first->values.at(0)->value.asScript();
- QDeclarativeInstruction ss;
- ss.setType(QDeclarativeInstruction::StoreScriptString);
- ss.storeScriptString.propertyIndex = prop.first->index;
- ss.storeScriptString.value = output->indexForString(script);
- ss.storeScriptString.scope = prop.second;
- ss.storeScriptString.bindingId = rewriteBinding(script, prop.first->name);
- ss.storeScriptString.line = prop.first->location.start.line;
+ for (Property *prop = obj->scriptStringProperties.first(); prop; prop = Object::PropertyList::next(prop)) {
+ Q_ASSERT(prop->scriptStringScope != -1);
+ const QString &script = prop->values.first()->value.asScript();
+ Instruction::StoreScriptString ss;
+ ss.propertyIndex = prop->index;
+ ss.value = output->indexForString(script);
+ ss.scope = prop->scriptStringScope;
+// ss.bindingId = rewriteBinding(script, prop->name());
+ ss.bindingId = rewriteBinding(prop->values.first()->value, QString()); // XXX
+ ss.line = prop->location.start.line;
+ ss.column = prop->location.start.column;
output->addInstruction(ss);
}
bool seenDefer = false;
- foreach(Property *prop, obj->valueProperties) {
+ for (Property *prop = obj->valueProperties.first(); prop; prop = Object::PropertyList::next(prop)) {
if (prop->isDeferred) {
seenDefer = true;
continue;
genValueProperty(prop, obj);
}
if (seenDefer) {
- QDeclarativeInstruction defer;
- defer.setType(QDeclarativeInstruction::Defer);
- defer.defer.deferCount = 0;
+ Instruction::Defer defer;
+ defer.deferCount = 0;
int deferIdx = output->addInstruction(defer);
int nextInstructionIndex = output->nextInstructionIndex();
- QDeclarativeInstruction init;
- init.setType(QDeclarativeInstruction::Init);
- init.init.bindingsSize = compileState.bindings.count(); // XXX - bigger than necessary
- init.init.parserStatusSize = compileState.parserStatusCount; // XXX - bigger than necessary
- init.init.contextCache = -1;
- init.init.compiledBinding = -1;
- output->addInstruction(init);
+ Instruction::DeferInit dinit;
+ // XXX - these are now massive over allocations
+ dinit.bindingsSize = compileState->totalBindingsCount;
+ dinit.parserStatusSize = compileState->parserStatusCount;
+ dinit.objectStackSize = compileState->objectDepth.maxDepth();
+ dinit.listStackSize = compileState->listDepth.maxDepth();
+ output->addInstruction(dinit);
- foreach(Property *prop, obj->valueProperties) {
+ for (Property *prop = obj->valueProperties.first(); prop; prop = Object::PropertyList::next(prop)) {
if (!prop->isDeferred)
continue;
genValueProperty(prop, obj);
}
- QDeclarativeInstruction done;
- done.setType(QDeclarativeInstruction::Done);
+ Instruction::Done done;
output->addInstruction(done);
output->instruction(deferIdx)->defer.deferCount = output->nextInstructionIndex() - nextInstructionIndex;
}
- foreach(Property *prop, obj->signalProperties) {
+ for (Property *prop = obj->signalProperties.first(); prop; prop = Object::PropertyList::next(prop)) {
- QDeclarativeParser::Value *v = prop->values.at(0);
+ QDeclarativeScript::Value *v = prop->values.first();
if (v->type == Value::SignalObject) {
genObject(v->object);
- QDeclarativeInstruction assign;
- assign.setType(QDeclarativeInstruction::AssignSignalObject);
- assign.assignSignalObject.line = v->location.start.line;
- assign.assignSignalObject.signal =
- output->indexForByteArray(prop->name);
+ Instruction::AssignSignalObject assign;
+ assign.line = v->location.start.line;
+ assign.signal = output->indexForString(prop->name().toString());
output->addInstruction(assign);
} else if (v->type == Value::SignalExpression) {
- BindingContext ctxt = compileState.signalExpressions.value(v);
-
- QDeclarativeInstruction store;
- store.setType(QDeclarativeInstruction::StoreSignal);
- store.storeSignal.signalIndex = prop->index;
- store.storeSignal.value =
- output->indexForString(v->value.asScript().trimmed());
- store.storeSignal.context = ctxt.stack;
- store.storeSignal.name = output->indexForByteArray(prop->name);
- store.storeSignal.line = v->location.start.line;
+ Instruction::StoreSignal store;
+ store.signalIndex = prop->index;
+ QDeclarativeRewrite::RewriteSignalHandler rewriteSignalHandler;
+ const QString &rewrite =
+ rewriteSignalHandler(v->value.asScript().trimmed(), prop->name().toString());
+ store.value = output->indexForString(rewrite);
+ store.context = v->signalExpressionContextStack;
+ store.line = v->location.start.line;
+ store.column = v->location.start.column;
output->addInstruction(store);
}
}
- foreach(Property *prop, obj->attachedProperties) {
- QDeclarativeInstruction fetch;
- fetch.setType(QDeclarativeInstruction::FetchAttached);
- fetch.fetchAttached.id = prop->index;
- fetch.fetchAttached.line = prop->location.start.line;
+ for (Property *prop = obj->attachedProperties.first(); prop; prop = Object::PropertyList::next(prop)) {
+ Instruction::FetchAttached fetch;
+ fetch.id = prop->index;
+ fetch.line = prop->location.start.line;
output->addInstruction(fetch);
genObjectBody(prop->value);
- QDeclarativeInstruction pop;
- pop.setType(QDeclarativeInstruction::PopFetchedObject);
+ Instruction::PopFetchedObject pop;
output->addInstruction(pop);
}
- foreach(Property *prop, obj->groupedProperties) {
- QDeclarativeInstruction fetch;
- fetch.setType(QDeclarativeInstruction::FetchObject);
- fetch.fetch.property = prop->index;
- fetch.fetch.line = prop->location.start.line;
+ for (Property *prop = obj->groupedProperties.first(); prop; prop = Object::PropertyList::next(prop)) {
+ Instruction::FetchObject fetch;
+ fetch.property = prop->index;
+ fetch.line = prop->location.start.line;
output->addInstruction(fetch);
if (!prop->value->metadata.isEmpty()) {
- QDeclarativeInstruction meta;
- meta.setType(QDeclarativeInstruction::StoreMetaObject);
- meta.storeMeta.data = output->indexForByteArray(prop->value->metadata);
- meta.storeMeta.aliasData = output->indexForByteArray(prop->value->synthdata);
- meta.storeMeta.propertyCache = -1;
+ Instruction::StoreMetaObject meta;
+ meta.data = output->indexForByteArray(prop->value->metadata);
+ meta.aliasData = output->indexForByteArray(prop->value->synthdata);
+ meta.propertyCache = -1;
output->addInstruction(meta);
}
genObjectBody(prop->value);
- QDeclarativeInstruction pop;
- pop.setType(QDeclarativeInstruction::PopFetchedObject);
+ Instruction::PopFetchedObject pop;
output->addInstruction(pop);
}
- foreach(Property *prop, obj->valueTypeProperties) {
+ for (Property *prop = obj->valueTypeProperties.first(); prop; prop = Object::PropertyList::next(prop)) {
if (!prop->isAlias)
genValueTypeProperty(obj, prop);
}
- foreach(Property *prop, obj->valueProperties) {
+ for (Property *prop = obj->valueProperties.first(); prop; prop = Object::PropertyList::next(prop)) {
if (prop->isDeferred)
continue;
if (prop->isAlias)
genValueProperty(prop, obj);
}
- foreach(Property *prop, obj->valueTypeProperties) {
+ for (Property *prop = obj->valueTypeProperties.first(); prop; prop = Object::PropertyList::next(prop)) {
if (prop->isAlias)
genValueTypeProperty(obj, prop);
}
}
-void QDeclarativeCompiler::genValueTypeProperty(QDeclarativeParser::Object *obj,QDeclarativeParser::Property *prop)
+void QDeclarativeCompiler::genValueTypeProperty(QDeclarativeScript::Object *obj,QDeclarativeScript::Property *prop)
{
- QDeclarativeInstruction fetch;
- fetch.setType(QDeclarativeInstruction::FetchValueType);
- fetch.fetchValue.property = prop->index;
- fetch.fetchValue.type = prop->type;
- fetch.fetchValue.bindingSkipList = 0;
+ Instruction::FetchValueType fetch;
+ fetch.property = prop->index;
+ fetch.type = prop->type;
+ fetch.bindingSkipList = 0;
if (obj->type == -1 || output->types.at(obj->type).component) {
// We only have to do this if this is a composite type. If it is a builtin
// type it can't possibly already have bindings that need to be cleared.
- foreach(Property *vprop, prop->value->valueProperties) {
+ for (Property *vprop = prop->value->valueProperties.first(); vprop; vprop = Object::PropertyList::next(vprop)) {
if (!vprop->values.isEmpty()) {
Q_ASSERT(vprop->index >= 0 && vprop->index < 32);
- fetch.fetchValue.bindingSkipList |= (1 << vprop->index);
+ fetch.bindingSkipList |= (1 << vprop->index);
}
}
}
output->addInstruction(fetch);
- foreach(Property *vprop, prop->value->valueProperties) {
+ for (Property *vprop = prop->value->valueProperties.first(); vprop; vprop = Object::PropertyList::next(vprop)) {
genPropertyAssignment(vprop, prop->value, prop);
}
- QDeclarativeInstruction pop;
- pop.setType(QDeclarativeInstruction::PopValueType);
- pop.fetchValue.property = prop->index;
- pop.fetchValue.type = prop->type;
- pop.fetchValue.bindingSkipList = 0;
+ Instruction::PopValueType pop;
+ pop.property = prop->index;
+ pop.type = prop->type;
+ pop.bindingSkipList = 0;
output->addInstruction(pop);
}
-void QDeclarativeCompiler::genComponent(QDeclarativeParser::Object *obj)
+void QDeclarativeCompiler::genComponent(QDeclarativeScript::Object *obj)
{
- QDeclarativeParser::Object *root = obj->defaultProperty->values.at(0)->object;
+ QDeclarativeScript::Object *root = obj->defaultProperty->values.first()->object;
Q_ASSERT(root);
- QDeclarativeInstruction create;
- create.setType(QDeclarativeInstruction::CreateComponent);
- create.createComponent.line = root->location.start.line;
- create.createComponent.column = root->location.start.column;
- create.createComponent.endLine = root->location.end.line;
+ Instruction::CreateComponent create;
+ create.line = root->location.start.line;
+ create.column = root->location.start.column;
+ create.endLine = root->location.end.line;
+ create.isRoot = (compileState->root == obj);
int createInstruction = output->addInstruction(create);
int nextInstructionIndex = output->nextInstructionIndex();
- ComponentCompileState oldCompileState = compileState;
+ ComponentCompileState *oldCompileState = compileState;
compileState = componentState(root);
- QDeclarativeInstruction init;
- init.setType(QDeclarativeInstruction::Init);
- init.init.bindingsSize = compileState.bindings.count();
- init.init.parserStatusSize = compileState.parserStatusCount;
- init.init.contextCache = genContextCache();
- if (compileState.compiledBindingData.isEmpty())
- init.init.compiledBinding = -1;
+ Instruction::Init init;
+ init.bindingsSize = compileState->totalBindingsCount;
+ init.parserStatusSize = compileState->parserStatusCount;
+ init.contextCache = genContextCache();
+ init.objectStackSize = compileState->objectDepth.maxDepth();
+ init.listStackSize = compileState->listDepth.maxDepth();
+ if (compileState->compiledBindingData.isEmpty())
+ init.compiledBinding = -1;
else
- init.init.compiledBinding = output->indexForByteArray(compileState.compiledBindingData);
+ init.compiledBinding = output->indexForByteArray(compileState->compiledBindingData);
output->addInstruction(init);
- if (!compileState.v8BindingProgram.isEmpty()) {
- QDeclarativeInstruction bindings;
- bindings.setType(QDeclarativeInstruction::InitV8Bindings);
- bindings.initV8Bindings.program = output->indexForString(compileState.v8BindingProgram);
- bindings.initV8Bindings.programIndex = compileState.v8BindingProgramIndex;
- bindings.initV8Bindings.line = compileState.v8BindingProgramLine;
+ if (!compileState->v8BindingProgram.isEmpty()) {
+ Instruction::InitV8Bindings bindings;
+ bindings.program = output->indexForString(compileState->v8BindingProgram);
+ bindings.programIndex = compileState->v8BindingProgramIndex;
+ bindings.line = compileState->v8BindingProgramLine;
output->addInstruction(bindings);
}
genObject(root);
- QDeclarativeInstruction def;
- def.setType(QDeclarativeInstruction::SetDefault);
+ Instruction::SetDefault def;
output->addInstruction(def);
- QDeclarativeInstruction done;
- done.setType(QDeclarativeInstruction::Done);
+ Instruction::Done done;
output->addInstruction(done);
output->instruction(createInstruction)->createComponent.count =
compileState = oldCompileState;
if (!obj->id.isEmpty()) {
- QDeclarativeInstruction id;
- id.setType(QDeclarativeInstruction::SetId);
- id.setId.value = output->indexForString(obj->id);
- id.setId.index = obj->idIndex;
+ Instruction::SetId id;
+ id.value = output->indexForString(obj->id);
+ id.index = obj->idIndex;
output->addInstruction(id);
}
}
}
-bool QDeclarativeCompiler::buildComponent(QDeclarativeParser::Object *obj,
+bool QDeclarativeCompiler::buildComponent(QDeclarativeScript::Object *obj,
const BindingContext &ctxt)
{
// The special "Component" element can only have the id property and a
// default property, that actually defines the component's tree
+ compileState->objectDepth.push();
+
// Find, check and set the "id" property (if any)
Property *idProp = 0;
- if (obj->properties.count() > 1 ||
- (obj->properties.count() == 1 && obj->properties.begin().key() != "id"))
- COMPILE_EXCEPTION(*obj->properties.begin(), tr("Component elements may not contain properties other than id"));
+ if (obj->properties.isMany() ||
+ (obj->properties.isOne() && obj->properties.first()->name() != id_string))
+ COMPILE_EXCEPTION(obj->properties.first(), tr("Component elements may not contain properties other than id"));
- if (obj->properties.count())
- idProp = *obj->properties.begin();
+ if (!obj->properties.isEmpty())
+ idProp = obj->properties.first();
if (idProp) {
- if (idProp->value || idProp->values.count() > 1 || idProp->values.at(0)->object)
+ if (idProp->value || idProp->values.isMany() || idProp->values.first()->object)
COMPILE_EXCEPTION(idProp, tr("Invalid component id specification"));
COMPILE_CHECK(checkValidId(idProp->values.first(), idProp->values.first()->primitive()))
QString idVal = idProp->values.first()->primitive();
- if (compileState.ids.contains(idVal))
+ if (compileState->ids.value(idVal))
COMPILE_EXCEPTION(idProp, tr("id is not unique"));
obj->id = idVal;
// Check the Component tree is well formed
if (obj->defaultProperty &&
- (obj->defaultProperty->value || obj->defaultProperty->values.count() > 1 ||
- (obj->defaultProperty->values.count() == 1 && !obj->defaultProperty->values.first()->object)))
+ (obj->defaultProperty->value || obj->defaultProperty->values.isMany() ||
+ (obj->defaultProperty->values.isOne() && !obj->defaultProperty->values.first()->object)))
COMPILE_EXCEPTION(obj, tr("Invalid component body specification"));
if (!obj->dynamicProperties.isEmpty())
if (!obj->dynamicSlots.isEmpty())
COMPILE_EXCEPTION(obj, tr("Component objects cannot declare new functions."));
- QDeclarativeParser::Object *root = 0;
- if (obj->defaultProperty && obj->defaultProperty->values.count())
+ QDeclarativeScript::Object *root = 0;
+ if (obj->defaultProperty && !obj->defaultProperty->values.isEmpty())
root = obj->defaultProperty->values.first()->object;
if (!root)
// Build the component tree
COMPILE_CHECK(buildComponentFromRoot(root, ctxt));
+ compileState->objectDepth.pop();
+
return true;
}
-bool QDeclarativeCompiler::buildComponentFromRoot(QDeclarativeParser::Object *obj,
+bool QDeclarativeCompiler::buildComponentFromRoot(QDeclarativeScript::Object *obj,
const BindingContext &ctxt)
{
- ComponentCompileState oldComponentCompileState = compileState;
- ComponentStat oldComponentStat = componentStat;
+ ComponentCompileState *oldComponentCompileState = compileState;
+ compileState = pool->New<ComponentCompileState>();
+ compileState->root = obj;
+ compileState->nested = true;
- compileState = ComponentCompileState();
- compileState.root = obj;
- compileState.nested = true;
+ if (componentStats) {
+ ComponentStat oldComponentStat = componentStats->componentStat;
- componentStat = ComponentStat();
- componentStat.lineNumber = obj->location.start.line;
+ componentStats->componentStat = ComponentStat();
+ componentStats->componentStat.lineNumber = obj->location.start.line;
- if (obj)
- COMPILE_CHECK(buildObject(obj, ctxt));
+ if (obj)
+ COMPILE_CHECK(buildObject(obj, ctxt));
+
+ COMPILE_CHECK(completeComponentBuild());
+
+ componentStats->componentStat = oldComponentStat;
+ } else {
+ if (obj)
+ COMPILE_CHECK(buildObject(obj, ctxt));
- COMPILE_CHECK(completeComponentBuild());
+ COMPILE_CHECK(completeComponentBuild());
+ }
compileState = oldComponentCompileState;
- componentStat = oldComponentStat;
return true;
}
// Build a sub-object. A sub-object is one that was not created directly by
// QML - such as a grouped property object, or an attached object. Sub-object's
// can't have an id, involve a custom parser, have attached properties etc.
-bool QDeclarativeCompiler::buildSubObject(QDeclarativeParser::Object *obj, const BindingContext &ctxt)
+bool QDeclarativeCompiler::buildSubObject(QDeclarativeScript::Object *obj, const BindingContext &ctxt)
{
Q_ASSERT(obj->metatype);
Q_ASSERT(!obj->defaultProperty);
Q_ASSERT(ctxt.isSubContext()); // sub-objects must always be in a binding
// sub-context
- foreach(Property *prop, obj->properties) {
- if (isSignalPropertyName(prop->name)) {
+ for (Property *prop = obj->properties.first(); prop; prop = obj->properties.next(prop)) {
+ if (isSignalPropertyName(prop->name())) {
COMPILE_CHECK(buildSignal(prop, obj, ctxt));
} else {
COMPILE_CHECK(buildProperty(prop, obj, ctxt));
int QDeclarativeCompiler::componentTypeRef()
{
- QDeclarativeType *t = QDeclarativeMetaType::qmlType("QtQuick/Component",1,0);
- for (int ii = output->types.count() - 1; ii >= 0; --ii) {
- if (output->types.at(ii).type == t)
- return ii;
+ if (cachedComponentTypeRef == -1) {
+ QDeclarativeType *t = QDeclarativeMetaType::qmlType(Component_import_string,1,0);
+ for (int ii = output->types.count() - 1; ii >= 0; --ii) {
+ if (output->types.at(ii).type == t) {
+ cachedComponentTypeRef = ii;
+ return ii;
+ }
+ }
+ QDeclarativeCompiledData::TypeReference ref;
+ ref.className = Component_string;
+ ref.type = t;
+ output->types << ref;
+ cachedComponentTypeRef = output->types.count() - 1;
}
- QDeclarativeCompiledData::TypeReference ref;
- ref.className = "Component";
- ref.type = t;
- output->types << ref;
- return output->types.count() - 1;
+ return cachedComponentTypeRef;
}
-bool QDeclarativeCompiler::buildSignal(QDeclarativeParser::Property *prop, QDeclarativeParser::Object *obj,
+int QDeclarativeCompiler::translationContextIndex()
+{
+ if (cachedTranslationContextIndex == -1) {
+ // This code must match that in the qsTr() implementation
+ QString path = output->url.toString();
+ int lastSlash = path.lastIndexOf(QLatin1Char('/'));
+ QString context = (lastSlash > -1) ? path.mid(lastSlash + 1, path.length()-lastSlash-5) :
+ QString();
+ QByteArray contextUtf8 = context.toUtf8();
+ cachedTranslationContextIndex = output->indexForByteArray(contextUtf8);
+ }
+ return cachedTranslationContextIndex;
+}
+
+bool QDeclarativeCompiler::buildSignal(QDeclarativeScript::Property *prop, QDeclarativeScript::Object *obj,
const BindingContext &ctxt)
{
Q_ASSERT(obj->metaObject());
- QByteArray name = prop->name;
- Q_ASSERT(name.startsWith("on"));
- name = name.mid(2);
+ const QHashedStringRef &propName = prop->name();
+
+ Q_ASSERT(propName.startsWith(on_string));
+ QString name = propName.mid(2, -1).toString();
// Note that the property name could start with any alpha or '_' or '$' character,
// so we need to do the lower-casing of the first alpha character.
for (int firstAlphaIndex = 0; firstAlphaIndex < name.size(); ++firstAlphaIndex) {
- if (name[firstAlphaIndex] >= 'A' && name[firstAlphaIndex] <= 'Z') {
- name[firstAlphaIndex] = name[firstAlphaIndex] - 'A' + 'a';
+ if (name.at(firstAlphaIndex).isUpper()) {
+ name[firstAlphaIndex] = name.at(firstAlphaIndex).toLower();
break;
}
}
bool notInRevision = false;
- int sigIdx = indexOfSignal(obj, name, ¬InRevision);
- if (sigIdx == -1) {
+ QDeclarativePropertyData *sig = signal(obj, QStringRef(&name), ¬InRevision);
+
+ if (sig == 0) {
- if (notInRevision && -1 == indexOfProperty(obj, prop->name, 0)) {
+ if (notInRevision && 0 == property(obj, propName, 0)) {
Q_ASSERT(obj->type != -1);
const QList<QDeclarativeTypeData::TypeReference> &resolvedTypes = unit->resolvedTypes();
const QDeclarativeTypeData::TypeReference &type = resolvedTypes.at(obj->type);
if (type.type) {
- COMPILE_EXCEPTION(prop, tr("\"%1.%2\" is not available in %3 %4.%5.").arg(QString::fromUtf8(obj->className)).arg(QString::fromUtf8(prop->name)).arg(QString::fromUtf8(type.type->module())).arg(type.majorVersion).arg(type.minorVersion));
+ COMPILE_EXCEPTION(prop, tr("\"%1.%2\" is not available in %3 %4.%5.").arg(elementName(obj)).arg(prop->name().toString()).arg(type.type->module()).arg(type.majorVersion).arg(type.minorVersion));
} else {
- COMPILE_EXCEPTION(prop, tr("\"%1.%2\" is not available due to component versioning.").arg(QString::fromUtf8(obj->className)).arg(QString::fromUtf8(prop->name)));
+ COMPILE_EXCEPTION(prop, tr("\"%1.%2\" is not available due to component versioning.").arg(elementName(obj)).arg(prop->name().toString()));
}
}
} else {
- if (prop->value || prop->values.count() != 1)
+ if (prop->value || !prop->values.isOne())
COMPILE_EXCEPTION(prop, tr("Incorrectly specified signal assignment"));
- prop->index = sigIdx;
+ prop->index = sig->coreIndex;
+ prop->core = *sig;
+
obj->addSignalProperty(prop);
- if (prop->values.at(0)->object) {
- COMPILE_CHECK(buildObject(prop->values.at(0)->object, ctxt));
- prop->values.at(0)->type = Value::SignalObject;
+ if (prop->values.first()->object) {
+ COMPILE_CHECK(buildObject(prop->values.first()->object, ctxt));
+ prop->values.first()->type = Value::SignalObject;
} else {
- prop->values.at(0)->type = Value::SignalExpression;
+ prop->values.first()->type = Value::SignalExpression;
- if (!prop->values.at(0)->value.isScript())
+ if (!prop->values.first()->value.isScript())
COMPILE_EXCEPTION(prop, tr("Cannot assign a value to a signal (expecting a script to be run)"));
- QString script = prop->values.at(0)->value.asScript().trimmed();
+ QString script = prop->values.first()->value.asScript().trimmed();
if (script.isEmpty())
COMPILE_EXCEPTION(prop, tr("Empty signal assignment"));
- compileState.signalExpressions.insert(prop->values.at(0), ctxt);
+ prop->values.first()->signalExpressionContextStack = ctxt.stack;
}
}
/*!
Returns true if (value) property \a prop exists on obj, false otherwise.
*/
-bool QDeclarativeCompiler::doesPropertyExist(QDeclarativeParser::Property *prop,
- QDeclarativeParser::Object *obj)
+bool QDeclarativeCompiler::doesPropertyExist(QDeclarativeScript::Property *prop,
+ QDeclarativeScript::Object *obj)
{
- if(isAttachedPropertyName(prop->name) || prop->name == "id")
+ if (prop->name().isEmpty())
+ return false;
+ if(isAttachedPropertyName(prop->name()) || prop->name() == id_string)
return true;
- const QMetaObject *mo = obj->metaObject();
- if (mo) {
- if (prop->isDefault) {
- QMetaProperty p = QDeclarativeMetaType::defaultProperty(mo);
- return p.name() != 0;
- } else {
- int idx = indexOfProperty(obj, prop->name);
- return idx != -1 && mo->property(idx).isScriptable();
- }
- }
-
- return false;
+ return property(obj, prop->name()) != 0;
}
-bool QDeclarativeCompiler::buildProperty(QDeclarativeParser::Property *prop,
- QDeclarativeParser::Object *obj,
- const BindingContext &ctxt)
+bool QDeclarativeCompiler::buildProperty(QDeclarativeScript::Property *prop,
+ QDeclarativeScript::Object *obj,
+ const BindingContext &ctxt)
{
- if (prop->isEmpty())
+ if (prop->isEmpty())
COMPILE_EXCEPTION(prop, tr("Empty property assignment"));
const QMetaObject *metaObject = obj->metaObject();
Q_ASSERT(metaObject);
- if (isAttachedPropertyName(prop->name)) {
+ if (isAttachedPropertyName(prop->name())) {
// Setup attached property data
if (ctxt.isSubContext()) {
QDeclarativeType *type = 0;
QDeclarativeImportedNamespace *typeNamespace = 0;
- unit->imports().resolveType(prop->name, &type, 0, 0, 0, &typeNamespace);
+ unit->imports().resolveType(prop->name().toString(), &type, 0, 0, 0, &typeNamespace);
if (typeNamespace) {
COMPILE_CHECK(buildPropertyInNamespace(typeNamespace, prop, obj,
prop->value->metatype = type->attachedPropertiesType();
} else {
// Setup regular property data
- QMetaProperty p;
-
- if (prop->isDefault) {
- p = QDeclarativeMetaType::defaultProperty(metaObject);
-
- if (p.name()) {
- prop->index = p.propertyIndex();
- prop->name = p.name();
- }
-
- } else {
- bool notInRevision = false;
- prop->index = indexOfProperty(obj, prop->name, ¬InRevision);
- if (prop->index == -1 && notInRevision) {
- const QList<QDeclarativeTypeData::TypeReference> &resolvedTypes = unit->resolvedTypes();
- const QDeclarativeTypeData::TypeReference &type = resolvedTypes.at(obj->type);
- if (type.type) {
- COMPILE_EXCEPTION(prop, tr("\"%1.%2\" is not available in %3 %4.%5.").arg(QString::fromUtf8(obj->className)).arg(QString::fromUtf8(prop->name)).arg(QString::fromUtf8(type.type->module())).arg(type.majorVersion).arg(type.minorVersion));
- } else {
- COMPILE_EXCEPTION(prop, tr("\"%1.%2\" is not available due to component versioning.").arg(QString::fromUtf8(obj->className)).arg(QString::fromUtf8(prop->name)));
- }
- }
-
- if (prop->index != -1) {
- p = metaObject->property(prop->index);
- Q_ASSERT(p.name());
+ bool notInRevision = false;
+ QDeclarativePropertyData *d =
+ prop->name().isEmpty()?0:property(obj, prop->name(), ¬InRevision);
- if (!p.isScriptable()) {
- prop->index = -1;
- p = QMetaProperty();
- }
+ if (d == 0 && notInRevision) {
+ const QList<QDeclarativeTypeData::TypeReference> &resolvedTypes = unit->resolvedTypes();
+ const QDeclarativeTypeData::TypeReference &type = resolvedTypes.at(obj->type);
+ if (type.type) {
+ COMPILE_EXCEPTION(prop, tr("\"%1.%2\" is not available in %3 %4.%5.").arg(elementName(obj)).arg(prop->name().toString()).arg(type.type->module()).arg(type.majorVersion).arg(type.minorVersion));
+ } else {
+ COMPILE_EXCEPTION(prop, tr("\"%1.%2\" is not available due to component versioning.").arg(elementName(obj)).arg(prop->name().toString()));
}
+ } else if (d) {
+ prop->index = d->coreIndex;
+ prop->core = *d;
+ } else if (prop->isDefault) {
+ QMetaProperty p = QDeclarativeMetaType::defaultProperty(metaObject);
+ QDeclarativePropertyData defaultPropertyData;
+ defaultPropertyData.load(p, engine);
+ if (p.name())
+ prop->setName(QLatin1String(p.name()));
+ prop->core = defaultPropertyData;
+ prop->index = prop->core.coreIndex;
}
// We can't error here as the "id" property does not require a
// successful index resolution
- if (p.name())
- prop->type = p.userType();
+ if (prop->index != -1)
+ prop->type = prop->core.propType;
// Check if this is an alias
if (prop->index != -1 &&
output->types.at(prop->parent->type).component) {
QDeclarativePropertyCache *cache = output->types.at(prop->parent->type).component->rootPropertyCache;
- if (cache && cache->property(prop->index) &&
- cache->property(prop->index)->flags & QDeclarativePropertyCache::Data::IsAlias)
+ if (cache && cache->property(prop->index) && cache->property(prop->index)->isAlias())
prop->isAlias = true;
}
prop->parent->setBindingBit(prop->index);
}
- if (!prop->isDefault && prop->name == "id" && !ctxt.isSubContext()) {
+ if (!prop->isDefault && prop->name() == id_string && !ctxt.isSubContext()) {
// The magic "id" behavior doesn't apply when "id" is resolved as a
// default property or to sub-objects (which are always in binding
// sub-contexts)
COMPILE_CHECK(buildIdProperty(prop, obj));
if (prop->type == QVariant::String &&
- prop->values.at(0)->value.isString())
+ prop->values.first()->value.isString())
COMPILE_CHECK(buildPropertyAssignment(prop, obj, ctxt));
- } else if (isAttachedPropertyName(prop->name)) {
+ } else if (isAttachedPropertyName(prop->name())) {
COMPILE_CHECK(buildAttachedProperty(prop, obj, ctxt));
if (prop->isDefault) {
COMPILE_EXCEPTION(prop->values.first(), tr("Cannot assign to non-existent default property"));
} else {
- COMPILE_EXCEPTION(prop, tr("Cannot assign to non-existent property \"%1\"").arg(QString::fromUtf8(prop->name)));
+ COMPILE_EXCEPTION(prop, tr("Cannot assign to non-existent property \"%1\"").arg(prop->name().toString()));
}
} else if (prop->value) {
COMPILE_CHECK(buildGroupedProperty(prop, obj, ctxt));
- } else if (enginePrivate->isList(prop->type)) {
+ } else if (prop->core.isQList()) {
COMPILE_CHECK(buildListProperty(prop, obj, ctxt));
}
bool QDeclarativeCompiler::buildPropertyInNamespace(QDeclarativeImportedNamespace *ns,
- QDeclarativeParser::Property *nsProp,
- QDeclarativeParser::Object *obj,
+ QDeclarativeScript::Property *nsProp,
+ QDeclarativeScript::Object *obj,
const BindingContext &ctxt)
{
if (!nsProp->value)
COMPILE_EXCEPTION(nsProp, tr("Invalid use of namespace"));
- foreach (Property *prop, nsProp->value->properties) {
+ for (Property *prop = nsProp->value->properties.first(); prop; prop = nsProp->value->properties.next(prop)) {
- if (!isAttachedPropertyName(prop->name))
+ if (!isAttachedPropertyName(prop->name()))
COMPILE_EXCEPTION(prop, tr("Not an attached property name"));
// Setup attached property data
QDeclarativeType *type = 0;
- unit->imports().resolveType(ns, prop->name, &type, 0, 0, 0);
+ unit->imports().resolveType(ns, prop->name().toString(), &type, 0, 0, 0);
if (!type || !type->attachedPropertiesType())
COMPILE_EXCEPTION(prop, tr("Non-existent attached object"));
return true;
}
-void QDeclarativeCompiler::genValueProperty(QDeclarativeParser::Property *prop,
- QDeclarativeParser::Object *obj)
+void QDeclarativeCompiler::genValueProperty(QDeclarativeScript::Property *prop,
+ QDeclarativeScript::Object *obj)
{
- if (enginePrivate->isList(prop->type)) {
+ if (prop->core.isQList()) {
genListProperty(prop, obj);
} else {
genPropertyAssignment(prop, obj);
}
}
-void QDeclarativeCompiler::genListProperty(QDeclarativeParser::Property *prop,
- QDeclarativeParser::Object *obj)
+void QDeclarativeCompiler::genListProperty(QDeclarativeScript::Property *prop,
+ QDeclarativeScript::Object *obj)
{
int listType = enginePrivate->listType(prop->type);
- QDeclarativeInstruction fetch;
- fetch.setType(QDeclarativeInstruction::FetchQList);
- fetch.fetchQmlList.property = prop->index;
+ Instruction::FetchQList fetch;
+ fetch.property = prop->index;
bool listTypeIsInterface = QDeclarativeMetaType::isInterface(listType);
- fetch.fetchQmlList.type = listType;
+ fetch.type = listType;
output->addInstruction(fetch);
- for (int ii = 0; ii < prop->values.count(); ++ii) {
- QDeclarativeParser::Value *v = prop->values.at(ii);
+ for (Value *v = prop->values.first(); v; v = Property::ValueList::next(v)) {
if (v->type == Value::CreatedObject) {
genObject(v->object);
if (listTypeIsInterface) {
- QDeclarativeInstruction assign;
- assign.setType(QDeclarativeInstruction::AssignObjectList);
- assign.assignObjectList.line = prop->location.start.line;
+ Instruction::AssignObjectList assign;
+ assign.line = prop->location.start.line;
output->addInstruction(assign);
} else {
- QDeclarativeInstruction store;
- store.setType(QDeclarativeInstruction::StoreObjectQList);
+ Instruction::StoreObjectQList store;
output->addInstruction(store);
}
}
- QDeclarativeInstruction pop;
- pop.setType(QDeclarativeInstruction::PopQList);
+ Instruction::PopQList pop;
output->addInstruction(pop);
}
-void QDeclarativeCompiler::genPropertyAssignment(QDeclarativeParser::Property *prop,
- QDeclarativeParser::Object *obj,
- QDeclarativeParser::Property *valueTypeProperty)
+void QDeclarativeCompiler::genPropertyAssignment(QDeclarativeScript::Property *prop,
+ QDeclarativeScript::Object *obj,
+ QDeclarativeScript::Property *valueTypeProperty)
{
- for (int ii = 0; ii < prop->values.count(); ++ii) {
- QDeclarativeParser::Value *v = prop->values.at(ii);
+ for (Value *v = prop->values.first(); v; v = Property::ValueList::next(v)) {
Q_ASSERT(v->type == Value::CreatedObject ||
v->type == Value::PropertyBinding ||
if (QDeclarativeMetaType::isInterface(prop->type)) {
- QDeclarativeInstruction store;
- store.setType(QDeclarativeInstruction::StoreInterface);
- store.storeObject.line = v->object->location.start.line;
- store.storeObject.propertyIndex = prop->index;
+ Instruction::StoreInterface store;
+ store.line = v->object->location.start.line;
+ store.propertyIndex = prop->index;
output->addInstruction(store);
- } else if (prop->type == -1) {
+ } else if (prop->type == QMetaType::QVariant) {
+
+ if (prop->core.isVMEProperty()) {
+ Instruction::StoreVarObject store;
+ store.line = v->object->location.start.line;
+ store.propertyIndex = prop->index;
+ output->addInstruction(store);
+ } else {
+ Instruction::StoreVariantObject store;
+ store.line = v->object->location.start.line;
+ store.propertyIndex = prop->index;
+ output->addInstruction(store);
+ }
- QDeclarativeInstruction store;
- store.setType(QDeclarativeInstruction::StoreVariantObject);
- store.storeObject.line = v->object->location.start.line;
- store.storeObject.propertyIndex = prop->index;
- output->addInstruction(store);
} else {
- QDeclarativeInstruction store;
- store.setType(QDeclarativeInstruction::StoreObject);
- store.storeObject.line = v->object->location.start.line;
- store.storeObject.propertyIndex = prop->index;
+ Instruction::StoreObject store;
+ store.line = v->object->location.start.line;
+ store.propertyIndex = prop->index;
output->addInstruction(store);
}
} else if (v->type == Value::Literal) {
- QMetaProperty mp = obj->metaObject()->property(prop->index);
- genLiteralAssignment(mp, v);
+ genLiteralAssignment(prop, v);
}
}
- for (int ii = 0; ii < prop->onValues.count(); ++ii) {
-
- QDeclarativeParser::Value *v = prop->onValues.at(ii);
+ for (Value *v = prop->onValues.first(); v; v = Property::ValueList::next(v)) {
Q_ASSERT(v->type == Value::ValueSource ||
v->type == Value::ValueInterceptor);
if (v->type == Value::ValueSource) {
genObject(v->object);
- QDeclarativeInstruction store;
- store.setType(QDeclarativeInstruction::StoreValueSource);
+ Instruction::StoreValueSource store;
if (valueTypeProperty) {
- store.assignValueSource.property = genValueTypeData(prop, valueTypeProperty);
- store.assignValueSource.owner = 1;
+ store.property = genValueTypeData(prop, valueTypeProperty);
+ store.owner = 1;
} else {
- store.assignValueSource.property = genPropertyData(prop);
- store.assignValueSource.owner = 0;
+ store.property = prop->core;
+ store.owner = 0;
}
QDeclarativeType *valueType = toQmlType(v->object);
- store.assignValueSource.castValue = valueType->propertyValueSourceCast();
+ store.castValue = valueType->propertyValueSourceCast();
output->addInstruction(store);
} else if (v->type == Value::ValueInterceptor) {
genObject(v->object);
- QDeclarativeInstruction store;
- store.setType(QDeclarativeInstruction::StoreValueInterceptor);
+ Instruction::StoreValueInterceptor store;
if (valueTypeProperty) {
- store.assignValueInterceptor.property = genValueTypeData(prop, valueTypeProperty);
- store.assignValueInterceptor.owner = 1;
+ store.property = genValueTypeData(prop, valueTypeProperty);
+ store.owner = 1;
} else {
- store.assignValueInterceptor.property = genPropertyData(prop);
- store.assignValueInterceptor.owner = 0;
+ store.property = prop->core;
+ store.owner = 0;
}
QDeclarativeType *valueType = toQmlType(v->object);
- store.assignValueInterceptor.castValue = valueType->propertyValueInterceptorCast();
+ store.castValue = valueType->propertyValueInterceptorCast();
output->addInstruction(store);
}
}
}
-bool QDeclarativeCompiler::buildIdProperty(QDeclarativeParser::Property *prop,
- QDeclarativeParser::Object *obj)
+bool QDeclarativeCompiler::buildIdProperty(QDeclarativeScript::Property *prop,
+ QDeclarativeScript::Object *obj)
{
if (prop->value ||
- prop->values.count() > 1 ||
- prop->values.at(0)->object)
+ prop->values.isMany() ||
+ prop->values.first()->object)
COMPILE_EXCEPTION(prop, tr("Invalid use of id property"));
- QDeclarativeParser::Value *idValue = prop->values.at(0);
+ QDeclarativeScript::Value *idValue = prop->values.first();
QString val = idValue->primitive();
COMPILE_CHECK(checkValidId(idValue, val));
- if (compileState.ids.contains(val))
+ if (compileState->ids.value(val))
COMPILE_EXCEPTION(prop, tr("id is not unique"));
- prop->values.at(0)->type = Value::Id;
+ prop->values.first()->type = Value::Id;
obj->id = val;
addId(val, obj);
return true;
}
-void QDeclarativeCompiler::addId(const QString &id, QDeclarativeParser::Object *obj)
+void QDeclarativeCompiler::addId(const QString &id, QDeclarativeScript::Object *obj)
{
- Q_ASSERT(!compileState.ids.contains(id));
+ Q_UNUSED(id);
+ Q_ASSERT(!compileState->ids.value(id));
Q_ASSERT(obj->id == id);
- obj->idIndex = compileState.ids.count();
- compileState.ids.insert(id, obj);
- compileState.idIndexes.insert(obj->idIndex, obj);
+ obj->idIndex = compileState->ids.count();
+ compileState->ids.append(obj);
}
-void QDeclarativeCompiler::addBindingReference(const BindingReference &ref)
+void QDeclarativeCompiler::addBindingReference(JSBindingReference *ref)
{
- Q_ASSERT(ref.value && !compileState.bindings.contains(ref.value));
- compileState.bindings.insert(ref.value, ref);
+ Q_ASSERT(ref->value && !ref->value->bindingReference);
+ ref->value->bindingReference = ref;
+ compileState->totalBindingsCount++;
+ compileState->bindings.prepend(ref);
}
void QDeclarativeCompiler::saveComponentState()
{
- Q_ASSERT(compileState.root);
- Q_ASSERT(!savedCompileStates.contains(compileState.root));
+ Q_ASSERT(compileState->root);
+ Q_ASSERT(compileState->root->componentCompileState == 0);
+
+ compileState->root->componentCompileState = compileState;
- savedCompileStates.insert(compileState.root, compileState);
- savedComponentStats.append(componentStat);
+ if (componentStats)
+ componentStats->savedComponentStats.append(componentStats->componentStat);
}
-QDeclarativeCompiler::ComponentCompileState
-QDeclarativeCompiler::componentState(QDeclarativeParser::Object *obj)
+QDeclarativeCompilerTypes::ComponentCompileState *
+QDeclarativeCompiler::componentState(QDeclarativeScript::Object *obj)
{
- Q_ASSERT(savedCompileStates.contains(obj));
- return savedCompileStates.value(obj);
+ Q_ASSERT(obj->componentCompileState);
+ return obj->componentCompileState;
}
// Build attached property object. In this example,
// GridView.row: 10
// }
// GridView is an attached property object.
-bool QDeclarativeCompiler::buildAttachedProperty(QDeclarativeParser::Property *prop,
- QDeclarativeParser::Object *obj,
+bool QDeclarativeCompiler::buildAttachedProperty(QDeclarativeScript::Property *prop,
+ QDeclarativeScript::Object *obj,
const BindingContext &ctxt)
{
Q_ASSERT(prop->value);
Q_ASSERT(prop->index != -1); // This is set in buildProperty()
+ compileState->objectDepth.push();
+
obj->addAttachedProperty(prop);
COMPILE_CHECK(buildSubObject(prop->value, ctxt.incr()));
+ compileState->objectDepth.pop();
+
return true;
}
// font.family: "Helvetica"
// }
// font is a nested property. pointSize and family are not.
-bool QDeclarativeCompiler::buildGroupedProperty(QDeclarativeParser::Property *prop,
- QDeclarativeParser::Object *obj,
+bool QDeclarativeCompiler::buildGroupedProperty(QDeclarativeScript::Property *prop,
+ QDeclarativeScript::Object *obj,
const BindingContext &ctxt)
{
Q_ASSERT(prop->type != 0);
Q_ASSERT(prop->index != -1);
if (QDeclarativeValueTypeFactory::isValueType(prop->type)) {
- if (prop->type >= 0 /* QVariant == -1 */ && enginePrivate->valueTypes[prop->type]) {
+ if (prop->type >= 0 && enginePrivate->valueTypes[prop->type]) {
- if (prop->values.count()) {
- if (prop->values.at(0)->location < prop->value->location) {
+ if (!prop->values.isEmpty()) {
+ if (prop->values.first()->location < prop->value->location) {
COMPILE_EXCEPTION(prop->value, tr( "Property has already been assigned a value"));
} else {
- COMPILE_EXCEPTION(prop->values.at(0), tr( "Property has already been assigned a value"));
+ COMPILE_EXCEPTION(prop->values.first(), tr( "Property has already been assigned a value"));
}
}
- if (!obj->metaObject()->property(prop->index).isWritable()) {
- COMPILE_EXCEPTION(prop, tr( "Invalid property assignment: \"%1\" is a read-only property").arg(QString::fromUtf8(prop->name)));
+ if (!prop->core.isWritable() && !prop->isReadOnlyDeclaration) {
+ COMPILE_EXCEPTION(prop, tr( "Invalid property assignment: \"%1\" is a read-only property").arg(prop->name().toString()));
}
if (prop->isAlias) {
- foreach (Property *vtProp, prop->value->properties)
+ for (Property *vtProp = prop->value->properties.first(); vtProp; vtProp = prop->value->properties.next(vtProp)) {
vtProp->isAlias = true;
+ }
}
COMPILE_CHECK(buildValueTypeProperty(enginePrivate->valueTypes[prop->type],
if (!prop->value->metatype)
COMPILE_EXCEPTION(prop, tr("Invalid grouped property access"));
- if (prop->values.count())
- COMPILE_EXCEPTION(prop->values.at(0), tr( "Cannot assign a value directly to a grouped property"));
+ if (!prop->values.isEmpty())
+ COMPILE_EXCEPTION(prop->values.first(), tr( "Cannot assign a value directly to a grouped property"));
obj->addGroupedProperty(prop);
+ compileState->objectDepth.push();
+
COMPILE_CHECK(buildSubObject(prop->value, ctxt.incr()));
+
+ compileState->objectDepth.pop();
}
return true;
}
bool QDeclarativeCompiler::buildValueTypeProperty(QObject *type,
- QDeclarativeParser::Object *obj,
- QDeclarativeParser::Object *baseObj,
+ QDeclarativeScript::Object *obj,
+ QDeclarativeScript::Object *baseObj,
const BindingContext &ctxt)
{
+ compileState->objectDepth.push();
+
if (obj->defaultProperty)
COMPILE_EXCEPTION(obj, tr("Invalid property use"));
obj->metatype = type->metaObject();
- foreach (Property *prop, obj->properties) {
- int idx = type->metaObject()->indexOfProperty(prop->name.constData());
- if (idx == -1)
- COMPILE_EXCEPTION(prop, tr("Cannot assign to non-existent property \"%1\"").arg(QString::fromUtf8(prop->name)));
- QMetaProperty p = type->metaObject()->property(idx);
- if (!p.isScriptable())
- COMPILE_EXCEPTION(prop, tr("Cannot assign to non-existent property \"%1\"").arg(QString::fromUtf8(prop->name)));
- prop->index = idx;
- prop->type = p.userType();
+ for (Property *prop = obj->properties.first(); prop; prop = obj->properties.next(prop)) {
+
+ QDeclarativePropertyData *d = property(obj, prop->name());
+ if (d == 0)
+ COMPILE_EXCEPTION(prop, tr("Cannot assign to non-existent property \"%1\"").arg(prop->name().toString()));
+
+ prop->index = d->coreIndex;
+ prop->type = d->propType;
+ prop->core = *d;
prop->isValueTypeSubProperty = true;
if (prop->value)
COMPILE_EXCEPTION(prop, tr("Property assignment expected"));
- if (prop->values.count() > 1) {
+ if (prop->values.isMany()) {
COMPILE_EXCEPTION(prop, tr("Single property assignment expected"));
- } else if (prop->values.count()) {
- QDeclarativeParser::Value *value = prop->values.at(0);
+ } else if (!prop->values.isEmpty()) {
+ QDeclarativeScript::Value *value = prop->values.first();
if (value->object) {
COMPILE_EXCEPTION(prop, tr("Unexpected object assignment"));
//optimization for <Type>.<EnumValue> enum assignments
bool isEnumAssignment = false;
- COMPILE_CHECK(testQualifiedEnumAssignment(p, obj, value, &isEnumAssignment));
+
+ if (prop->core.isEnum())
+ COMPILE_CHECK(testQualifiedEnumAssignment(prop, obj, value, &isEnumAssignment));
+
if (isEnumAssignment) {
value->type = Value::Literal;
} else {
- BindingReference reference;
- reference.expression = value->value;
- reference.property = prop;
- reference.value = value;
- reference.bindingContext = ctxt;
- reference.bindingContext.owner++;
+ JSBindingReference *reference = pool->New<JSBindingReference>();
+ reference->expression = value->value;
+ reference->property = prop;
+ reference->value = value;
+ reference->bindingContext = ctxt;
+ reference->bindingContext.owner++;
addBindingReference(reference);
value->type = Value::PropertyBinding;
}
} else {
- COMPILE_CHECK(testLiteralAssignment(p, value));
+ COMPILE_CHECK(testLiteralAssignment(prop, value));
value->type = Value::Literal;
}
}
- for (int ii = 0; ii < prop->onValues.count(); ++ii) {
- QDeclarativeParser::Value *v = prop->onValues.at(ii);
+ for (Value *v = prop->onValues.first(); v; v = Property::ValueList::next(v)) {
Q_ASSERT(v->object);
COMPILE_CHECK(buildPropertyOnAssignment(prop, obj, baseObj, v, ctxt));
obj->addValueProperty(prop);
}
+ compileState->objectDepth.pop();
+
return true;
}
// Build assignments to QML lists. QML lists are properties of type
// QDeclarativeListProperty<T>. List properties can accept a list of
// objects, or a single binding.
-bool QDeclarativeCompiler::buildListProperty(QDeclarativeParser::Property *prop,
- QDeclarativeParser::Object *obj,
+bool QDeclarativeCompiler::buildListProperty(QDeclarativeScript::Property *prop,
+ QDeclarativeScript::Object *obj,
const BindingContext &ctxt)
{
- Q_ASSERT(enginePrivate->isList(prop->type));
+ Q_ASSERT(prop->core.isQList());
+
+ compileState->listDepth.push();
int t = prop->type;
bool listTypeIsInterface = QDeclarativeMetaType::isInterface(listType);
bool assignedBinding = false;
- for (int ii = 0; ii < prop->values.count(); ++ii) {
- QDeclarativeParser::Value *v = prop->values.at(ii);
+ for (Value *v = prop->values.first(); v; v = Property::ValueList::next(v)) {
if (v->object) {
v->type = Value::CreatedObject;
COMPILE_CHECK(buildObject(v->object, ctxt));
}
}
+ compileState->listDepth.pop();
+
return true;
}
// Compiles an assignment to a QDeclarativeScriptString property
-bool QDeclarativeCompiler::buildScriptStringProperty(QDeclarativeParser::Property *prop,
- QDeclarativeParser::Object *obj,
+bool QDeclarativeCompiler::buildScriptStringProperty(QDeclarativeScript::Property *prop,
+ QDeclarativeScript::Object *obj,
const BindingContext &ctxt)
{
- if (prop->values.count() > 1)
- COMPILE_EXCEPTION(prop->values.at(1), tr( "Cannot assign multiple values to a script property"));
+ if (prop->values.isMany())
+ COMPILE_EXCEPTION(prop->values.first()->nextValue, tr( "Cannot assign multiple values to a script property"));
- if (prop->values.at(0)->object)
- COMPILE_EXCEPTION(prop->values.at(0), tr( "Invalid property assignment: script expected"));
+ if (prop->values.first()->object)
+ COMPILE_EXCEPTION(prop->values.first(), tr( "Invalid property assignment: script expected"));
- obj->addScriptStringProperty(prop, ctxt.stack);
+ prop->scriptStringScope = ctxt.stack;
+ obj->addScriptStringProperty(prop);
return true;
}
// Compile regular property assignments of the form "property: <value>"
-bool QDeclarativeCompiler::buildPropertyAssignment(QDeclarativeParser::Property *prop,
- QDeclarativeParser::Object *obj,
+bool QDeclarativeCompiler::buildPropertyAssignment(QDeclarativeScript::Property *prop,
+ QDeclarativeScript::Object *obj,
const BindingContext &ctxt)
{
obj->addValueProperty(prop);
- if (prop->values.count() > 1)
- COMPILE_EXCEPTION(prop->values.at(0), tr( "Cannot assign multiple values to a singular property") );
+ if (prop->values.isMany())
+ COMPILE_EXCEPTION(prop->values.first(), tr( "Cannot assign multiple values to a singular property") );
- for (int ii = 0; ii < prop->values.count(); ++ii) {
- QDeclarativeParser::Value *v = prop->values.at(ii);
+ for (Value *v = prop->values.first(); v; v = Property::ValueList::next(v)) {
if (v->object) {
COMPILE_CHECK(buildPropertyObjectAssignment(prop, obj, v, ctxt));
}
}
- for (int ii = 0; ii < prop->onValues.count(); ++ii) {
- QDeclarativeParser::Value *v = prop->onValues.at(ii);
-
+ for (Value *v = prop->onValues.first(); v; v = Property::ValueList::next(v)) {
Q_ASSERT(v->object);
COMPILE_CHECK(buildPropertyOnAssignment(prop, obj, obj, v, ctxt));
}
}
// Compile assigning a single object instance to a regular property
-bool QDeclarativeCompiler::buildPropertyObjectAssignment(QDeclarativeParser::Property *prop,
- QDeclarativeParser::Object *obj,
- QDeclarativeParser::Value *v,
+bool QDeclarativeCompiler::buildPropertyObjectAssignment(QDeclarativeScript::Property *prop,
+ QDeclarativeScript::Object *obj,
+ QDeclarativeScript::Value *v,
const BindingContext &ctxt)
{
Q_ASSERT(prop->index != -1);
Q_ASSERT(v->object->type != -1);
- if (!obj->metaObject()->property(prop->index).isWritable())
- COMPILE_EXCEPTION(v, tr("Invalid property assignment: \"%1\" is a read-only property").arg(QString::fromUtf8(prop->name)));
+ if (!prop->core.isWritable() && !prop->isReadOnlyDeclaration)
+ COMPILE_EXCEPTION(v, tr("Invalid property assignment: \"%1\" is a read-only property").arg(prop->name().toString()));
if (QDeclarativeMetaType::isInterface(prop->type)) {
v->type = Value::CreatedObject;
- } else if (prop->type == -1) {
+ } else if (prop->type == QMetaType::QVariant) {
// Assigning an object to a QVariant
COMPILE_CHECK(buildObject(v->object, ctxt));
v->type = Value::CreatedObject;
} else if (propertyMetaObject == &QDeclarativeComponent::staticMetaObject) {
// Automatic "Component" insertion
- QDeclarativeParser::Object *root = v->object;
- QDeclarativeParser::Object *component = new QDeclarativeParser::Object;
+ QDeclarativeScript::Object *root = v->object;
+ QDeclarativeScript::Object *component = pool->New<Object>();
component->type = componentTypeRef();
- component->typeName = "Qt/Component";
+ component->typeName = QStringLiteral("Qt/Component");
component->metatype = &QDeclarativeComponent::staticMetaObject;
component->location = root->location;
- QDeclarativeParser::Value *componentValue = new QDeclarativeParser::Value;
+ QDeclarativeScript::Value *componentValue = pool->New<Value>();
componentValue->object = root;
component->getDefaultProperty()->addValue(componentValue);
v->object = component;
// Item {
// NumberAnimation on x { }
// }
-bool QDeclarativeCompiler::buildPropertyOnAssignment(QDeclarativeParser::Property *prop,
- QDeclarativeParser::Object *obj,
- QDeclarativeParser::Object *baseObj,
- QDeclarativeParser::Value *v,
+bool QDeclarativeCompiler::buildPropertyOnAssignment(QDeclarativeScript::Property *prop,
+ QDeclarativeScript::Object *obj,
+ QDeclarativeScript::Object *baseObj,
+ QDeclarativeScript::Value *v,
const BindingContext &ctxt)
{
Q_ASSERT(prop->index != -1);
Q_ASSERT(v->object->type != -1);
- if (!obj->metaObject()->property(prop->index).isWritable())
- COMPILE_EXCEPTION(v, tr("Invalid property assignment: \"%1\" is a read-only property").arg(QString::fromUtf8(prop->name)));
+ Q_UNUSED(obj);
+
+ if (!prop->core.isWritable())
+ COMPILE_EXCEPTION(v, tr("Invalid property assignment: \"%1\" is a read-only property").arg(prop->name().toString()));
// Normally buildObject() will set this up, but we need the static
buildDynamicMeta(baseObj, ForceCreation);
v->type = isPropertyValue ? Value::ValueSource : Value::ValueInterceptor;
} else {
- COMPILE_EXCEPTION(v, tr("\"%1\" cannot operate on \"%2\"").arg(QString::fromUtf8(v->object->typeName)).arg(QString::fromUtf8(prop->name.constData())));
+ COMPILE_EXCEPTION(v, tr("\"%1\" cannot operate on \"%2\"").arg(v->object->typeName).arg(prop->name().toString()));
}
return true;
}
// Compile assigning a literal or binding to a regular property
-bool QDeclarativeCompiler::buildPropertyLiteralAssignment(QDeclarativeParser::Property *prop,
- QDeclarativeParser::Object *obj,
- QDeclarativeParser::Value *v,
- const BindingContext &ctxt)
+bool QDeclarativeCompiler::buildPropertyLiteralAssignment(QDeclarativeScript::Property *prop,
+ QDeclarativeScript::Object *obj,
+ QDeclarativeScript::Value *v,
+ const BindingContext &ctxt)
{
Q_ASSERT(prop->index != -1);
if (v->value.isScript()) {
//optimization for <Type>.<EnumValue> enum assignments
- bool isEnumAssignment = false;
- COMPILE_CHECK(testQualifiedEnumAssignment(obj->metaObject()->property(prop->index), obj, v, &isEnumAssignment));
- if (isEnumAssignment) {
- v->type = Value::Literal;
- return true;
+ if (prop->core.isEnum()) {
+ bool isEnumAssignment = false;
+ COMPILE_CHECK(testQualifiedEnumAssignment(prop, obj, v, &isEnumAssignment));
+ if (isEnumAssignment) {
+ v->type = Value::Literal;
+ return true;
+ }
}
- COMPILE_CHECK(buildBinding(v, prop, ctxt));
+ // Test for other binding optimizations
+ if (!buildLiteralBinding(v, prop, ctxt))
+ COMPILE_CHECK(buildBinding(v, prop, ctxt));
v->type = Value::PropertyBinding;
} else {
- COMPILE_CHECK(testLiteralAssignment(obj->metaObject()->property(prop->index), v));
+ COMPILE_CHECK(testLiteralAssignment(prop, v));
v->type = Value::Literal;
}
return true;
}
-bool QDeclarativeCompiler::testQualifiedEnumAssignment(const QMetaProperty &prop,
- QDeclarativeParser::Object *obj,
- QDeclarativeParser::Value *v,
- bool *isAssignment)
+bool QDeclarativeCompiler::testQualifiedEnumAssignment(QDeclarativeScript::Property *prop,
+ QDeclarativeScript::Object *obj,
+ QDeclarativeScript::Value *v,
+ bool *isAssignment)
{
*isAssignment = false;
- if (!prop.isEnumType())
+ if (!prop->core.isEnum())
return true;
- if (!prop.isWritable())
- COMPILE_EXCEPTION(v, tr("Invalid property assignment: \"%1\" is a read-only property").arg(QString::fromUtf8(prop.name())));
+ QMetaProperty mprop = obj->metaObject()->property(prop->index);
+
+ if (!prop->core.isWritable() && !prop->isReadOnlyDeclaration)
+ COMPILE_EXCEPTION(v, tr("Invalid property assignment: \"%1\" is a read-only property").arg(prop->name().toString()));
QString string = v->value.asString();
if (!string.at(0).isUpper())
QString typeName = parts.at(0);
QDeclarativeType *type = 0;
- unit->imports().resolveType(typeName.toUtf8(), &type, 0, 0, 0, 0);
+ unit->imports().resolveType(typeName, &type, 0, 0, 0, 0);
//handle enums on value types (where obj->typeName is empty)
- QByteArray objTypeName = obj->typeName;
+ QString objTypeName = obj->typeName;
if (objTypeName.isEmpty()) {
QDeclarativeType *objType = toQmlType(obj);
if (objType)
return true;
QString enumValue = parts.at(1);
- int value = -1;
+ int value;
+ bool ok;
if (objTypeName == type->qmlTypeName()) {
// When these two match, we can short cut the search
- if (prop.isFlagType()) {
- value = prop.enumerator().keysToValue(enumValue.toUtf8().constData());
+ if (mprop.isFlagType()) {
+ value = mprop.enumerator().keysToValue(enumValue.toUtf8().constData(), &ok);
} else {
- value = prop.enumerator().keyToValue(enumValue.toUtf8().constData());
+ value = mprop.enumerator().keyToValue(enumValue.toUtf8().constData(), &ok);
}
} else {
// Otherwise we have to search the whole type
// This matches the logic in QV8TypeWrapper
QByteArray enumName = enumValue.toUtf8();
const QMetaObject *metaObject = type->baseMetaObject();
- for (int ii = metaObject->enumeratorCount() - 1; value == -1 && ii >= 0; --ii) {
+ ok = false;
+ for (int ii = metaObject->enumeratorCount() - 1; !ok && ii >= 0; --ii) {
QMetaEnum e = metaObject->enumerator(ii);
- value = e.keyToValue(enumName.constData());
+ value = e.keyToValue(enumName.constData(), &ok);
}
}
- if (value == -1)
+ if (!ok)
return true;
v->type = Value::Literal;
- v->value = QDeclarativeParser::Variant((double)value);
+ v->value = QDeclarativeScript::Variant((double)value);
*isAssignment = true;
return true;
}
+struct StaticQtMetaObject : public QObject
+{
+ static const QMetaObject *get()
+ { return &static_cast<StaticQtMetaObject*> (0)->staticQtMetaObject; }
+};
+
// Similar logic to above, but not knowing target property.
int QDeclarativeCompiler::evaluateEnum(const QByteArray& script) const
{
int dot = script.indexOf('.');
if (dot > 0) {
+ const QByteArray &scope = script.left(dot);
QDeclarativeType *type = 0;
- unit->imports().resolveType(script.left(dot), &type, 0, 0, 0, 0);
- if (!type)
+ unit->imports().resolveType(QString::fromUtf8(script.left(dot)), &type, 0, 0, 0, 0);
+ if (!type && scope != "Qt")
return -1;
- const QMetaObject *mo = type->metaObject();
+ const QMetaObject *mo = type ? type->metaObject() : StaticQtMetaObject::get();
const char *key = script.constData() + dot+1;
int i = mo->enumeratorCount();
while (i--) {
- int v = mo->enumerator(i).keyToValue(key);
- if (v >= 0)
+ bool ok;
+ int v = mo->enumerator(i).keyToValue(key, &ok);
+ if (ok)
return v;
}
}
return -1;
}
-const QMetaObject *QDeclarativeCompiler::resolveType(const QByteArray& name) const
+const QMetaObject *QDeclarativeCompiler::resolveType(const QString& name) const
{
QDeclarativeType *qmltype = 0;
- if (!unit->imports().resolveType(name, &qmltype, 0, 0, 0, 0))
+ if (!unit->imports().resolveType(name, &qmltype, 0, 0, 0, 0))
return 0;
if (!qmltype)
return 0;
// similar to logic of completeComponentBuild, but also sticks data
// into primitives at the end
-int QDeclarativeCompiler::rewriteBinding(const QString& expression, const QByteArray& name)
+int QDeclarativeCompiler::rewriteBinding(const QDeclarativeScript::Variant& value, const QString& name)
{
QDeclarativeRewrite::RewriteBinding rewriteBinding;
- rewriteBinding.setName('$' + name.mid(name.lastIndexOf('.') + 1));
+ rewriteBinding.setName(QLatin1Char('$') + name.mid(name.lastIndexOf(QLatin1Char('.')) + 1));
- QString rewrite = rewriteBinding(expression, 0, 0);
+ QString rewrite = rewriteBinding(value.asAST(), value.asScript(), 0);
return output->indexForString(rewrite);
}
+QString QDeclarativeCompiler::rewriteSignalHandler(const QString &handler, const QString &name)
+{
+ QDeclarativeRewrite::RewriteSignalHandler rewriteSignalHandler;
+ return rewriteSignalHandler(handler, name);
+}
+
// Ensures that the dynamic meta specification on obj is valid
-bool QDeclarativeCompiler::checkDynamicMeta(QDeclarativeParser::Object *obj)
+bool QDeclarativeCompiler::checkDynamicMeta(QDeclarativeScript::Object *obj)
{
- QSet<QByteArray> propNames;
- QSet<QByteArray> methodNames;
bool seenDefaultProperty = false;
+ // We use a coarse grain, 31 bit hash to check if there are duplicates.
+ // Calculating the hash for the names is not a waste as we have to test
+ // them against the illegalNames set anyway.
+ QHashField propNames;
+ QHashField methodNames;
+
// Check properties
- for (int ii = 0; ii < obj->dynamicProperties.count(); ++ii) {
- const QDeclarativeParser::Object::DynamicProperty &prop =
- obj->dynamicProperties.at(ii);
+ for (Object::DynamicProperty *p = obj->dynamicProperties.first(); p; p = obj->dynamicProperties.next(p)) {
+ const QDeclarativeScript::Object::DynamicProperty &prop = *p;
if (prop.isDefaultProperty) {
if (seenDefaultProperty)
seenDefaultProperty = true;
}
- if (propNames.contains(prop.name))
- COMPILE_EXCEPTION(&prop, tr("Duplicate property name"));
-
- QString propName = QString::fromUtf8(prop.name);
- if (propName.at(0).isUpper())
- COMPILE_EXCEPTION(&prop, tr("Property names cannot begin with an upper case letter"));
+ if (propNames.testAndSet(prop.name.hash())) {
+ for (Object::DynamicProperty *p2 = obj->dynamicProperties.first(); p2 != p;
+ p2 = obj->dynamicProperties.next(p2)) {
+ if (p2->name == prop.name) {
+ COMPILE_EXCEPTION_LOCATION(prop.nameLocation.line,
+ prop.nameLocation.column,
+ tr("Duplicate property name"));
+ }
+ }
+ }
- if (enginePrivate->v8engine.illegalNames().contains(propName))
- COMPILE_EXCEPTION(&prop, tr("Illegal property name"));
+ if (prop.name.at(0).isUpper()) {
+ COMPILE_EXCEPTION_LOCATION(prop.nameLocation.line,
+ prop.nameLocation.column,
+ tr("Property names cannot begin with an upper case letter"));
+ }
- propNames.insert(prop.name);
+ if (enginePrivate->v8engine()->illegalNames().contains(prop.name)) {
+ COMPILE_EXCEPTION_LOCATION(prop.nameLocation.line,
+ prop.nameLocation.column,
+ tr("Illegal property name"));
+ }
}
- for (int ii = 0; ii < obj->dynamicSignals.count(); ++ii) {
- QByteArray name = obj->dynamicSignals.at(ii).name;
- if (methodNames.contains(name))
- COMPILE_EXCEPTION(obj, tr("Duplicate signal name"));
- QString nameStr = QString::fromUtf8(name);
- if (nameStr.at(0).isUpper())
- COMPILE_EXCEPTION(obj, tr("Signal names cannot begin with an upper case letter"));
- if (enginePrivate->v8engine.illegalNames().contains(nameStr))
- COMPILE_EXCEPTION(obj, tr("Illegal signal name"));
- methodNames.insert(name);
+ for (Object::DynamicSignal *s = obj->dynamicSignals.first(); s; s = obj->dynamicSignals.next(s)) {
+ const QDeclarativeScript::Object::DynamicSignal &currSig = *s;
+
+ if (methodNames.testAndSet(currSig.name.hash())) {
+ for (Object::DynamicSignal *s2 = obj->dynamicSignals.first(); s2 != s;
+ s2 = obj->dynamicSignals.next(s2)) {
+ if (s2->name == currSig.name)
+ COMPILE_EXCEPTION(&currSig, tr("Duplicate signal name"));
+ }
+ }
+
+ if (currSig.name.at(0).isUpper())
+ COMPILE_EXCEPTION(&currSig, tr("Signal names cannot begin with an upper case letter"));
+ if (enginePrivate->v8engine()->illegalNames().contains(currSig.name))
+ COMPILE_EXCEPTION(&currSig, tr("Illegal signal name"));
}
- for (int ii = 0; ii < obj->dynamicSlots.count(); ++ii) {
- QByteArray name = obj->dynamicSlots.at(ii).name;
- if (methodNames.contains(name))
- COMPILE_EXCEPTION(obj, tr("Duplicate method name"));
- QString nameStr = QString::fromUtf8(name);
- if (nameStr.at(0).isUpper())
- COMPILE_EXCEPTION(obj, tr("Method names cannot begin with an upper case letter"));
- if (enginePrivate->v8engine.illegalNames().contains(nameStr))
- COMPILE_EXCEPTION(obj, tr("Illegal method name"));
- methodNames.insert(name);
+
+ for (Object::DynamicSlot *s = obj->dynamicSlots.first(); s; s = obj->dynamicSlots.next(s)) {
+ const QDeclarativeScript::Object::DynamicSlot &currSlot = *s;
+
+ if (methodNames.testAndSet(currSlot.name.hash())) {
+ for (Object::DynamicSignal *s2 = obj->dynamicSignals.first(); s2;
+ s2 = obj->dynamicSignals.next(s2)) {
+ if (s2->name == currSlot.name)
+ COMPILE_EXCEPTION(&currSlot, tr("Duplicate method name"));
+ }
+ for (Object::DynamicSlot *s2 = obj->dynamicSlots.first(); s2 != s;
+ s2 = obj->dynamicSlots.next(s2)) {
+ if (s2->name == currSlot.name)
+ COMPILE_EXCEPTION(&currSlot, tr("Duplicate method name"));
+ }
+ }
+
+ if (currSlot.name.at(0).isUpper())
+ COMPILE_EXCEPTION(&currSlot, tr("Method names cannot begin with an upper case letter"));
+ if (enginePrivate->v8engine()->illegalNames().contains(currSlot.name))
+ COMPILE_EXCEPTION(&currSlot, tr("Illegal method name"));
}
return true;
}
-bool QDeclarativeCompiler::mergeDynamicMetaProperties(QDeclarativeParser::Object *obj)
+bool QDeclarativeCompiler::mergeDynamicMetaProperties(QDeclarativeScript::Object *obj)
{
- for (int ii = 0; ii < obj->dynamicProperties.count(); ++ii) {
- const Object::DynamicProperty &p = obj->dynamicProperties.at(ii);
+ for (Object::DynamicProperty *p = obj->dynamicProperties.first(); p;
+ p = obj->dynamicProperties.next(p)) {
- if (!p.defaultValue || p.type == Object::DynamicProperty::Alias)
+ if (!p->defaultValue || p->type == Object::DynamicProperty::Alias)
continue;
Property *property = 0;
- if (p.isDefaultProperty) {
+ if (p->isDefaultProperty) {
property = obj->getDefaultProperty();
} else {
- property = obj->getProperty(p.name);
+ property = obj->getProperty(p->name);
if (!property->values.isEmpty())
COMPILE_EXCEPTION(property, tr("Property value set multiple times"));
}
+ if (p->isReadOnly)
+ property->isReadOnlyDeclaration = true;
+
if (property->value)
COMPILE_EXCEPTION(property, tr("Invalid property nesting"));
- for (int ii = 0; ii < p.defaultValue->values.count(); ++ii) {
- QDeclarativeParser::Value *v = p.defaultValue->values.at(ii);
- v->addref();
- property->values.append(v);
- }
+ property->values.append(p->defaultValue->values);
}
return true;
}
Q_GLOBAL_STATIC(QAtomicInt, classIndexCounter)
-bool QDeclarativeCompiler::buildDynamicMeta(QDeclarativeParser::Object *obj, DynamicMetaMode mode)
+bool QDeclarativeCompiler::buildDynamicMeta(QDeclarativeScript::Object *obj, DynamicMetaMode mode)
{
Q_ASSERT(obj);
Q_ASSERT(obj->metatype);
obj->dynamicSlots.isEmpty())
return true;
- QByteArray dynamicData(sizeof(QDeclarativeVMEMetaData), (char)0);
+ bool resolveAlias = (mode == ResolveAliases);
+
+ const Object::DynamicProperty *defaultProperty = 0;
+ int aliasCount = 0;
+ int varPropCount = 0;
+ int totalPropCount = 0;
+ int firstPropertyVarIndex = 0;
+
+ for (Object::DynamicProperty *p = obj->dynamicProperties.first(); p; p = obj->dynamicProperties.next(p)) {
+
+ if (p->type == Object::DynamicProperty::Alias)
+ aliasCount++;
+ if (p->type == Object::DynamicProperty::Var)
+ varPropCount++;
+
+ if (p->isDefaultProperty &&
+ (resolveAlias || p->type != Object::DynamicProperty::Alias))
+ defaultProperty = p;
+
+ if (!resolveAlias) {
+ // No point doing this for both the alias and non alias cases
+ QDeclarativePropertyData *d = property(obj, p->name);
+ if (d && d->isFinal())
+ COMPILE_EXCEPTION(p, tr("Cannot override FINAL property"));
+ }
+ }
+
+ bool buildData = resolveAlias || aliasCount == 0;
+
+ QByteArray dynamicData;
+ if (buildData) {
+ typedef QDeclarativeVMEMetaData VMD;
+
+ dynamicData = QByteArray(sizeof(QDeclarativeVMEMetaData) +
+ (obj->dynamicProperties.count() - aliasCount) * sizeof(VMD::PropertyData) +
+ obj->dynamicSlots.count() * sizeof(VMD::MethodData) +
+ aliasCount * sizeof(VMD::AliasData), 0);
+ }
+
+ int uniqueClassId = classIndexCounter()->fetchAndAddRelaxed(1);
QByteArray newClassName = obj->metatype->className();
newClassName.append("_QML_");
- int idx = classIndexCounter()->fetchAndAddRelaxed(1);
- newClassName.append(QByteArray::number(idx));
- if (compileState.root == obj && !compileState.nested) {
+ newClassName.append(QByteArray::number(uniqueClassId));
+
+ if (compileState->root == obj && !compileState->nested) {
QString path = output->url.path();
int lastSlash = path.lastIndexOf(QLatin1Char('/'));
if (lastSlash > -1) {
QString nameBase = path.mid(lastSlash + 1, path.length()-lastSlash-5);
if (!nameBase.isEmpty() && nameBase.at(0).isUpper())
- newClassName = nameBase.toUtf8() + "_QMLTYPE_" + QByteArray::number(idx);
- }
- }
-
- QMetaObjectBuilder builder;
- builder.setClassName(newClassName);
- builder.setFlags(QMetaObjectBuilder::DynamicMetaObject);
-
- bool hasAlias = false;
- for (int ii = 0; ii < obj->dynamicProperties.count(); ++ii) {
- const Object::DynamicProperty &p = obj->dynamicProperties.at(ii);
+ newClassName = nameBase.toUtf8() + "_QMLTYPE_" + QByteArray::number(uniqueClassId);
+ }
+ }
+
+ QFastMetaBuilder builder;
+ QFastMetaBuilder::StringRef classNameRef = builder.init(newClassName.length(),
+ obj->dynamicProperties.count() - (resolveAlias?0:aliasCount),
+ obj->dynamicSlots.count(),
+ obj->dynamicSignals.count() + obj->dynamicProperties.count(),
+ defaultProperty?1:0);
+
+ struct TypeData {
+ Object::DynamicProperty::Type dtype;
+ int metaType;
+ const char *cppType;
+ } builtinTypes[] = {
+ { Object::DynamicProperty::Var, QMetaType::QVariant, "QVariant" },
+ { Object::DynamicProperty::Variant, QMetaType::QVariant, "QVariant" },
+ { Object::DynamicProperty::Int, QMetaType::Int, "int" },
+ { Object::DynamicProperty::Bool, QMetaType::Bool, "bool" },
+ { Object::DynamicProperty::Real, QMetaType::Double, "double" },
+ { Object::DynamicProperty::String, QMetaType::QString, "QString" },
+ { Object::DynamicProperty::Url, QMetaType::QUrl, "QUrl" },
+ { Object::DynamicProperty::Color, QMetaType::QColor, "QColor" },
+ { Object::DynamicProperty::Time, QMetaType::QTime, "QTime" },
+ { Object::DynamicProperty::Date, QMetaType::QDate, "QDate" },
+ { Object::DynamicProperty::DateTime, QMetaType::QDateTime, "QDateTime" },
+ };
+ static const int builtinTypeCount = sizeof(builtinTypes) / sizeof(TypeData);
+ QFastMetaBuilder::StringRef typeRefs[builtinTypeCount];
+
+ // Reserve dynamic properties
+ if (obj->dynamicProperties.count()) {
+ typedef QDeclarativeVMEMetaData VMD;
+
+ int effectivePropertyIndex = 0;
+ for (Object::DynamicProperty *p = obj->dynamicProperties.first(); p; p = obj->dynamicProperties.next(p)) {
+
+ // Reserve space for name
+ p->nameRef = builder.newString(p->name.utf8length());
+
+ int propertyType = 0;
+ bool readonly = false;
+ QFastMetaBuilder::StringRef typeRef;
+
+ if (p->type == Object::DynamicProperty::Alias) {
+ continue;
+ } else if (p->type < builtinTypeCount) {
+ Q_ASSERT(builtinTypes[p->type].dtype == p->type);
+ propertyType = builtinTypes[p->type].metaType;
+ if (typeRefs[p->type].isEmpty())
+ typeRefs[p->type] = builder.newString(strlen(builtinTypes[p->type].cppType));
+ typeRef = typeRefs[p->type];
- int propIdx = obj->metaObject()->indexOfProperty(p.name.constData());
- if (-1 != propIdx) {
- QMetaProperty prop = obj->metaObject()->property(propIdx);
- if (prop.isFinal())
- COMPILE_EXCEPTION(&p, tr("Cannot override FINAL property"));
- }
+ } else {
+ Q_ASSERT(p->type == Object::DynamicProperty::CustomList ||
+ p->type == Object::DynamicProperty::Custom);
- if (p.isDefaultProperty &&
- (p.type != Object::DynamicProperty::Alias ||
- mode == ResolveAliases))
- builder.addClassInfo("DefaultProperty", p.name);
+ // XXX don't double resolve this in the case of an alias run
- QByteArray type;
- int propertyType = 0;
- bool readonly = false;
- switch(p.type) {
- case Object::DynamicProperty::Alias:
- hasAlias = true;
- continue;
- break;
- case Object::DynamicProperty::CustomList:
- case Object::DynamicProperty::Custom:
- {
QByteArray customTypeName;
QDeclarativeType *qmltype = 0;
- QUrl url;
- if (!unit->imports().resolveType(p.customType, &qmltype, &url, 0, 0, 0))
- COMPILE_EXCEPTION(&p, tr("Invalid property type"));
+ QString url;
+ if (!unit->imports().resolveType(p->customType.toString(), &qmltype, &url, 0, 0, 0))
+ COMPILE_EXCEPTION(p, tr("Invalid property type"));
if (!qmltype) {
- QDeclarativeTypeData *tdata = enginePrivate->typeLoader.get(url);
+ QDeclarativeTypeData *tdata = enginePrivate->typeLoader.get(QUrl(url));
Q_ASSERT(tdata);
Q_ASSERT(tdata->isComplete());
customTypeName = qmltype->typeName();
}
- if (p.type == Object::DynamicProperty::Custom) {
- type = customTypeName + '*';
+ if (p->type == Object::DynamicProperty::Custom) {
+ customTypeName += '*';
propertyType = QMetaType::QObjectStar;
} else {
readonly = true;
- type = "QDeclarativeListProperty<";
- type.append(customTypeName);
- type.append(">");
+ customTypeName = QByteArray("QDeclarativeListProperty<") + customTypeName + QByteArray(">");
propertyType = qMetaTypeId<QDeclarativeListProperty<QObject> >();
}
+
+ p->resolvedCustomTypeName = pool->NewByteArray(customTypeName);
+ p->typeRef = builder.newString(customTypeName.length());
+ typeRef = p->typeRef;
+ }
+
+ if (p->type == Object::DynamicProperty::Var)
+ continue;
+
+ if (p->isReadOnly)
+ readonly = true;
+
+ if (buildData) {
+ VMD *vmd = (QDeclarativeVMEMetaData *)dynamicData.data();
+ vmd->propertyCount++;
+ (vmd->propertyData() + effectivePropertyIndex)->propertyType = propertyType;
+ }
+
+ if (p->type < builtinTypeCount)
+ builder.setProperty(effectivePropertyIndex, p->nameRef, typeRef, (QMetaType::Type)propertyType,
+ readonly?QFastMetaBuilder::None:QFastMetaBuilder::Writable,
+ effectivePropertyIndex);
+ else
+ builder.setProperty(effectivePropertyIndex, p->nameRef, typeRef,
+ readonly?QFastMetaBuilder::None:QFastMetaBuilder::Writable,
+ effectivePropertyIndex);
+
+ p->changedSignatureRef = builder.newString(p->name.utf8length() + strlen("Changed()"));
+ builder.setSignal(effectivePropertyIndex, p->changedSignatureRef);
+
+ effectivePropertyIndex++;
+ }
+
+ if (varPropCount) {
+ VMD *vmd = (QDeclarativeVMEMetaData *)dynamicData.data();
+ if (buildData)
+ vmd->varPropertyCount = varPropCount;
+ firstPropertyVarIndex = effectivePropertyIndex;
+ totalPropCount = varPropCount + effectivePropertyIndex;
+ for (Object::DynamicProperty *p = obj->dynamicProperties.first(); p; p = obj->dynamicProperties.next(p)) {
+ if (p->type == Object::DynamicProperty::Var) {
+ QFastMetaBuilder::StringRef typeRef = typeRefs[p->type];
+ if (buildData) {
+ vmd->propertyCount++;
+ (vmd->propertyData() + effectivePropertyIndex)->propertyType = QMetaType::QVariant;
+ }
+
+ builder.setProperty(effectivePropertyIndex, p->nameRef, typeRef,
+ QMetaType::QVariant,
+ p->isReadOnly?QFastMetaBuilder::None:QFastMetaBuilder::Writable,
+ effectivePropertyIndex);
+
+ p->changedSignatureRef = builder.newString(p->name.utf8length() + strlen("Changed()"));
+ builder.setSignal(effectivePropertyIndex, p->changedSignatureRef);
+
+ effectivePropertyIndex++;
+ }
+ }
+ }
+
+ if (aliasCount) {
+ int aliasIndex = 0;
+ for (Object::DynamicProperty *p = obj->dynamicProperties.first(); p; p = obj->dynamicProperties.next(p)) {
+ if (p->type == Object::DynamicProperty::Alias) {
+ if (resolveAlias) {
+ Q_ASSERT(buildData);
+ ((QDeclarativeVMEMetaData *)dynamicData.data())->aliasCount++;
+ COMPILE_CHECK(compileAlias(builder, dynamicData, obj, effectivePropertyIndex,
+ aliasIndex, *p));
+ }
+ // Even if we aren't resolving the alias, we need a fake signal so that the
+ // metaobject remains consistent across the resolve and non-resolve alias runs
+ p->changedSignatureRef = builder.newString(p->name.utf8length() + strlen("Changed()"));
+ builder.setSignal(effectivePropertyIndex, p->changedSignatureRef);
+ effectivePropertyIndex++;
+ aliasIndex++;
+ }
}
- break;
- case Object::DynamicProperty::Variant:
- propertyType = -1;
- type = "QVariant";
- break;
- case Object::DynamicProperty::Int:
- propertyType = QVariant::Int;
- type = "int";
- break;
- case Object::DynamicProperty::Bool:
- propertyType = QVariant::Bool;
- type = "bool";
- break;
- case Object::DynamicProperty::Real:
- propertyType = QVariant::Double;
- type = "double";
- break;
- case Object::DynamicProperty::String:
- propertyType = QVariant::String;
- type = "QString";
- break;
- case Object::DynamicProperty::Url:
- propertyType = QVariant::Url;
- type = "QUrl";
- break;
- case Object::DynamicProperty::Color:
- propertyType = QVariant::Color;
- type = "QColor";
- break;
- case Object::DynamicProperty::Time:
- propertyType = QVariant::Time;
- type = "QTime";
- break;
- case Object::DynamicProperty::Date:
- propertyType = QVariant::Date;
- type = "QDate";
- break;
- case Object::DynamicProperty::DateTime:
- propertyType = QVariant::DateTime;
- type = "QDateTime";
- break;
}
+ }
+
+ // Reserve default property
+ QFastMetaBuilder::StringRef defPropRef;
+ if (defaultProperty) {
+ defPropRef = builder.newString(strlen("DefaultProperty"));
+ builder.setClassInfo(0, defPropRef, defaultProperty->nameRef);
+ }
+
+ // Reserve dynamic signals
+ int signalIndex = 0;
+ for (Object::DynamicSignal *s = obj->dynamicSignals.first(); s; s = obj->dynamicSignals.next(s)) {
+
+ int paramCount = s->parameterNames.count();
- ((QDeclarativeVMEMetaData *)dynamicData.data())->propertyCount++;
- QDeclarativeVMEMetaData::PropertyData propertyData = { propertyType };
- dynamicData.append((char *)&propertyData, sizeof(propertyData));
+ int signatureSize = s->name.utf8length() + 2 /* paren */;
+ int namesSize = 0;
+ if (paramCount) signatureSize += s->parameterTypesLength() + (paramCount - 1) /* commas */;
+ if (paramCount) namesSize += s->parameterNamesLength() + (paramCount - 1) /* commas */;
- builder.addSignal(p.name + "Changed()");
- QMetaPropertyBuilder propBuilder =
- builder.addProperty(p.name, type, builder.methodCount() - 1);
- propBuilder.setWritable(!readonly);
+ s->signatureRef = builder.newString(signatureSize);
+ if (namesSize) s->parameterNamesRef = builder.newString(namesSize);
+
+ if (buildData)
+ ((QDeclarativeVMEMetaData *)dynamicData.data())->signalCount++;
+
+ builder.setSignal(signalIndex + obj->dynamicProperties.count(), s->signatureRef, s->parameterNamesRef);
+ ++signalIndex;
}
- for (int ii = 0; ii < obj->dynamicProperties.count(); ++ii) {
- const Object::DynamicProperty &p = obj->dynamicProperties.at(ii);
+ // Reserve dynamic slots
+ if (obj->dynamicSlots.count()) {
- if (p.type == Object::DynamicProperty::Alias) {
- if (mode == ResolveAliases) {
- ((QDeclarativeVMEMetaData *)dynamicData.data())->aliasCount++;
- COMPILE_CHECK(compileAlias(builder, dynamicData, obj, p));
- } else {
- // Need a fake signal so that the metaobject remains consistent across
- // the resolve and non-resolve alias runs
- builder.addSignal(p.name + "Changed()");
+ // Allocate QVariant string
+ if (typeRefs[0].isEmpty())
+ typeRefs[0] = builder.newString(strlen(builtinTypes[0].cppType));
+
+ typedef QDeclarativeVMEMetaData VMD;
+
+ int methodIndex = 0;
+ for (Object::DynamicSlot *s = obj->dynamicSlots.first(); s; s = obj->dynamicSlots.next(s)) {
+ int paramCount = s->parameterNames.count();
+
+ int signatureSize = s->name.utf8length() + 2 /* paren */;
+ int namesSize = 0;
+ if (paramCount) signatureSize += (paramCount * strlen("QVariant") + (paramCount - 1));
+ if (paramCount) namesSize += s->parameterNamesLength() + (paramCount - 1 /* commas */);
+
+ s->signatureRef = builder.newString(signatureSize);
+ if (namesSize) s->parameterNamesRef = builder.newString(namesSize);
+
+ builder.setMethod(methodIndex, s->signatureRef, s->parameterNamesRef, typeRefs[0]);
+
+ if (buildData) {
+ QString funcScript;
+ funcScript.reserve(strlen("(function ") + s->name.length() + 1 /* lparen */ +
+ namesSize + 1 /* rparen */ + s->body.length() + 1 /* rparen */);
+ funcScript = QLatin1String("(function ") + s->name.toString() + QLatin1Char('(');
+ for (int jj = 0; jj < paramCount; ++jj) {
+ if (jj) funcScript.append(QLatin1Char(','));
+ funcScript.append(QLatin1String(s->parameterNames.at(jj)));
+ }
+ funcScript += QLatin1Char(')') + s->body + QLatin1Char(')');
+
+ VMD::MethodData methodData = { s->parameterNames.count(), 0,
+ funcScript.length(),
+ s->location.start.line };
+
+ VMD *vmd = (QDeclarativeVMEMetaData *)dynamicData.data();
+ vmd->methodCount++;
+
+ VMD::MethodData &md = *(vmd->methodData() + methodIndex);
+ md = methodData;
+ md.bodyOffset = dynamicData.size();
+
+ dynamicData.append((const char *)funcScript.constData(),
+ (funcScript.length() * sizeof(QChar)));
}
- }
- }
- for (int ii = 0; ii < obj->dynamicSignals.count(); ++ii) {
- const Object::DynamicSignal &s = obj->dynamicSignals.at(ii);
- QByteArray sig(s.name + '(');
- for (int jj = 0; jj < s.parameterTypes.count(); ++jj) {
- if (jj) sig.append(',');
- sig.append(s.parameterTypes.at(jj));
+ methodIndex++;
}
- sig.append(')');
- QMetaMethodBuilder b = builder.addSignal(sig);
- b.setParameterNames(s.parameterNames);
- ((QDeclarativeVMEMetaData *)dynamicData.data())->signalCount++;
}
- QStringList funcScripts;
+ // Now allocate used builtin types
+ for (int ii = 0; ii < builtinTypeCount; ++ii) {
+ if (!typeRefs[ii].isEmpty())
+ typeRefs[ii].load(builtinTypes[ii].cppType);
+ }
- for (int ii = 0; ii < obj->dynamicSlots.count(); ++ii) {
- Object::DynamicSlot &s = obj->dynamicSlots[ii];
- QByteArray sig(s.name + '(');
- QString funcScript(QLatin1String("(function ") + s.name + QLatin1Char('('));
+ // Now allocate properties
+ for (Object::DynamicProperty *p = obj->dynamicProperties.first(); p; p = obj->dynamicProperties.next(p)) {
- for (int jj = 0; jj < s.parameterNames.count(); ++jj) {
- if (jj) {
- sig.append(',');
- funcScript.append(QLatin1Char(','));
- }
- funcScript.append(QLatin1String(s.parameterNames.at(jj)));
- sig.append("QVariant");
- }
- sig.append(')');
- funcScript.append(QLatin1Char(')'));
- funcScript.append(s.body);
- funcScript.append(QLatin1Char(')'));
- funcScripts << funcScript;
+ char *d = p->changedSignatureRef.data();
+ p->name.writeUtf8(d);
+ strcpy(d + p->name.utf8length(), "Changed()");
- QMetaMethodBuilder b = builder.addSlot(sig);
- b.setReturnType("QVariant");
- b.setParameterNames(s.parameterNames);
+ if (p->type == Object::DynamicProperty::Alias && !resolveAlias)
+ continue;
- ((QDeclarativeVMEMetaData *)dynamicData.data())->methodCount++;
- QDeclarativeVMEMetaData::MethodData methodData =
- { s.parameterNames.count(), 0, funcScript.length(), s.location.start.line };
+ p->nameRef.load(p->name);
- dynamicData.append((char *)&methodData, sizeof(methodData));
+ if (p->type >= builtinTypeCount) {
+ Q_ASSERT(p->resolvedCustomTypeName);
+ p->typeRef.load(*p->resolvedCustomTypeName);
+ }
}
- for (int ii = 0; ii < obj->dynamicSlots.count(); ++ii) {
- const QString &funcScript = funcScripts.at(ii);
- QDeclarativeVMEMetaData::MethodData *data =
- ((QDeclarativeVMEMetaData *)dynamicData.data())->methodData() + ii;
+ // Allocate default property if necessary
+ if (defaultProperty)
+ strcpy(defPropRef.data(), "DefaultProperty");
+
+ // Now allocate signals
+ for (Object::DynamicSignal *s = obj->dynamicSignals.first(); s; s = obj->dynamicSignals.next(s)) {
+
+ char *d = s->signatureRef.data();
+ char *d2 = s->parameterNamesRef.isEmpty()?0:s->parameterNamesRef.data();
+ s->name.writeUtf8(d); d += s->name.utf8length();
+ *d++ = '(';
- data->bodyOffset = dynamicData.size();
+ for (int jj = 0; jj < s->parameterNames.count(); ++jj) {
+ if (jj != 0) { *d++ = ','; *d2++ = ','; }
+ strcpy(d, s->parameterTypes.at(jj).constData());
+ d += s->parameterTypes.at(jj).length();
+ s->parameterNames.at(jj).writeUtf8(d2);
+ d2 += s->parameterNames.at(jj).utf8length();
+ }
+ *d++ = ')';
+ *d = 0;
+ if (d2) *d2 = 0;
+ }
- dynamicData.append((const char *)funcScript.constData(),
- (funcScript.length() * sizeof(QChar)));
+ // Now allocate methods
+ for (Object::DynamicSlot *s = obj->dynamicSlots.first(); s; s = obj->dynamicSlots.next(s)) {
+ char *d = s->signatureRef.data();
+ char *d2 = s->parameterNamesRef.isEmpty()?0:s->parameterNamesRef.data();
+ s->name.writeUtf8(d); d += s->name.utf8length();
+ *d++ = '(';
+ for (int jj = 0; jj < s->parameterNames.count(); ++jj) {
+ if (jj != 0) { *d++ = ','; *d2++ = ','; }
+ strcpy(d, "QVariant");
+ d += strlen("QVariant");
+ strcpy(d2, s->parameterNames.at(jj).constData());
+ d2 += s->parameterNames.at(jj).length();
+ }
+ *d++ = ')';
+ *d = 0;
+ if (d2) *d2 = 0;
}
- obj->metadata = builder.toRelocatableData();
- builder.fromRelocatableData(&obj->extObject, obj->metatype, obj->metadata);
+ // Now allocate class name
+ classNameRef.load(newClassName);
+
+ obj->metadata = builder.toData();
+ builder.fromData(&obj->extObject, obj->metatype, obj->metadata);
- if (mode == IgnoreAliases && hasAlias)
- compileState.aliasingObjects << obj;
+ if (mode == IgnoreAliases && aliasCount)
+ compileState->aliasingObjects.append(obj);
obj->synthdata = dynamicData;
}
if (obj->type != -1) {
- QDeclarativePropertyCache *cache = output->types[obj->type].createPropertyCache(engine)->copy();
- cache->append(engine, &obj->extObject, QDeclarativePropertyCache::Data::NoFlags,
- QDeclarativePropertyCache::Data::IsVMEFunction,
- QDeclarativePropertyCache::Data::IsVMESignal);
+ QDeclarativePropertyCache *superCache = output->types[obj->type].createPropertyCache(engine);
+ QDeclarativePropertyCache *cache =
+ superCache->copyAndAppend(engine, &obj->extObject,
+ QDeclarativePropertyData::NoFlags,
+ QDeclarativePropertyData::IsVMEFunction,
+ QDeclarativePropertyData::IsVMESignal);
+
+ // now we modify the flags appropriately for var properties.
+ int propertyOffset = obj->extObject.propertyOffset();
+ QDeclarativePropertyData *currPropData = 0;
+ for (int pvi = firstPropertyVarIndex; pvi < totalPropCount; ++pvi) {
+ currPropData = cache->property(pvi + propertyOffset);
+ currPropData->setFlags(currPropData->getFlags() | QDeclarativePropertyData::IsVMEProperty);
+ }
+
obj->synthCache = cache;
}
return true;
}
-bool QDeclarativeCompiler::checkValidId(QDeclarativeParser::Value *v, const QString &val)
+bool QDeclarativeCompiler::checkValidId(QDeclarativeScript::Value *v, const QString &val)
{
if (val.isEmpty())
COMPILE_EXCEPTION(v, tr( "Invalid empty ID"));
- if (val.at(0).isLetter() && !val.at(0).isLower())
+ QChar ch = val.at(0);
+ if (ch.isLetter() && !ch.isLower())
COMPILE_EXCEPTION(v, tr( "IDs cannot start with an uppercase letter"));
QChar u(QLatin1Char('_'));
- for (int ii = 0; ii < val.count(); ++ii) {
+ if (!ch.isLetter() && ch != u)
+ COMPILE_EXCEPTION(v, tr( "IDs must start with a letter or underscore"));
- if (ii == 0 && !val.at(ii).isLetter() && val.at(ii) != u) {
- COMPILE_EXCEPTION(v, tr( "IDs must start with a letter or underscore"));
- } else if (ii != 0 && !val.at(ii).isLetterOrNumber() && val.at(ii) != u) {
+ for (int ii = 1; ii < val.count(); ++ii) {
+ ch = val.at(ii);
+ if (!ch.isLetterOrNumber() && ch != u)
COMPILE_EXCEPTION(v, tr( "IDs must contain only letters, numbers, and underscores"));
- }
-
}
- if (enginePrivate->v8engine.illegalNames().contains(val))
+ if (enginePrivate->v8engine()->illegalNames().contains(val))
COMPILE_EXCEPTION(v, tr( "ID illegally masks global JavaScript property"));
return true;
}
-#include <qdeclarativejsparser_p.h>
+#include <private/qdeclarativejsparser_p.h>
static QStringList astNodeToStringList(QDeclarativeJS::AST::Node *node)
{
if (node->kind == QDeclarativeJS::AST::Node::Kind_IdentifierExpression) {
QString name =
- static_cast<QDeclarativeJS::AST::IdentifierExpression *>(node)->name->asString();
+ static_cast<QDeclarativeJS::AST::IdentifierExpression *>(node)->name.toString();
return QStringList() << name;
} else if (node->kind == QDeclarativeJS::AST::Node::Kind_FieldMemberExpression) {
QDeclarativeJS::AST::FieldMemberExpression *expr = static_cast<QDeclarativeJS::AST::FieldMemberExpression *>(node);
QStringList rv = astNodeToStringList(expr->base);
if (rv.isEmpty())
return rv;
- rv.append(expr->name->asString());
+ rv.append(expr->name.toString());
return rv;
}
return QStringList();
}
-bool QDeclarativeCompiler::compileAlias(QMetaObjectBuilder &builder,
+bool QDeclarativeCompiler::compileAlias(QFastMetaBuilder &builder,
QByteArray &data,
- QDeclarativeParser::Object *obj,
- const Object::DynamicProperty &prop)
+ QDeclarativeScript::Object *obj,
+ int propIndex, int aliasIndex,
+ Object::DynamicProperty &prop)
{
if (!prop.defaultValue)
COMPILE_EXCEPTION(obj, tr("No property alias location"));
- if (prop.defaultValue->values.count() != 1 ||
- prop.defaultValue->values.at(0)->object ||
- !prop.defaultValue->values.at(0)->value.isScript())
+ if (!prop.defaultValue->values.isOne() ||
+ prop.defaultValue->values.first()->object ||
+ !prop.defaultValue->values.first()->value.isScript())
COMPILE_EXCEPTION(prop.defaultValue, tr("Invalid alias location"));
- QDeclarativeJS::AST::Node *node = prop.defaultValue->values.at(0)->value.asAST();
+ QDeclarativeJS::AST::Node *node = prop.defaultValue->values.first()->value.asAST();
if (!node)
COMPILE_EXCEPTION(obj, tr("No property alias location")); // ### Can this happen?
if (alias.count() < 1 || alias.count() > 3)
COMPILE_EXCEPTION(prop.defaultValue, tr("Invalid alias reference. An alias reference must be specified as <id>, <id>.<property> or <id>.<value property>.<property>"));
- if (!compileState.ids.contains(alias.at(0)))
+ QDeclarativeScript::Object *idObject = compileState->ids.value(alias.at(0));
+ if (!idObject)
COMPILE_EXCEPTION(prop.defaultValue, tr("Invalid alias reference. Unable to find id \"%1\"").arg(alias.at(0)));
- QDeclarativeParser::Object *idObject = compileState.ids[alias.at(0)];
-
QByteArray typeName;
int propIdx = -1;
int flags = 0;
+ int type = 0;
bool writable = false;
+ bool resettable = false;
if (alias.count() == 2 || alias.count() == 3) {
- propIdx = indexOfProperty(idObject, alias.at(1).toUtf8());
+ propIdx = indexOfProperty(idObject, alias.at(1));
if (-1 == propIdx) {
COMPILE_EXCEPTION(prop.defaultValue, tr("Invalid alias location"));
if (!aliasProperty.isScriptable())
COMPILE_EXCEPTION(prop.defaultValue, tr("Invalid alias location"));
- writable = aliasProperty.isWritable();
+ writable = aliasProperty.isWritable() && !prop.isReadOnly;
+ resettable = aliasProperty.isResettable() && !prop.isReadOnly;
+
+ if (aliasProperty.type() < QVariant::UserType
+ || uint(aliasProperty.type()) == QMetaType::QVariant)
+ type = aliasProperty.type();
if (alias.count() == 3) {
QDeclarativeValueType *valueType = enginePrivate->valueTypes[aliasProperty.type()];
aliasProperty = valueType->metaObject()->property(valueTypeIndex);
propIdx |= (valueTypeIndex << 16);
+
+ // update the property type
+ type = aliasProperty.type();
+ if (type >= (int)QVariant::UserType)
+ type = 0;
}
if (aliasProperty.isEnumType())
else
typeName = aliasProperty.typeName();
} else {
- typeName = idObject->metaObject()->className();
+ Q_ASSERT(idObject->type != -1); // How else did it get an id?
- //use the base type since it has been registered with metatype system
- int index = typeName.indexOf("_QML_");
- if (index != -1) {
- typeName = typeName.left(index);
- } else {
- index = typeName.indexOf("_QMLTYPE_");
- const QMetaObject *mo = idObject->metaObject();
- while (index != -1 && mo) {
- typeName = mo->superClass()->className();
- index = typeName.indexOf("_QMLTYPE_");
- mo = mo->superClass();
- }
- }
+ const QDeclarativeCompiledData::TypeReference &ref = output->types.at(idObject->type);
+ if (ref.type)
+ typeName = ref.type->typeName();
+ else
+ typeName = ref.component->root->className();
typeName += '*';
}
if (typeName.endsWith('*'))
flags |= QML_ALIAS_FLAG_PTR;
- data.append((const char *)&idObject->idIndex, sizeof(idObject->idIndex));
- data.append((const char *)&propIdx, sizeof(propIdx));
- data.append((const char *)&flags, sizeof(flags));
+ QDeclarativeVMEMetaData::AliasData aliasData = { idObject->idIndex, propIdx, flags };
+
+ typedef QDeclarativeVMEMetaData VMD;
+ VMD *vmd = (QDeclarativeVMEMetaData *)data.data();
+ *(vmd->aliasData() + aliasIndex) = aliasData;
+
+ prop.nameRef = builder.newString(prop.name.utf8length());
+ prop.resolvedCustomTypeName = pool->NewByteArray(typeName);
+ prop.typeRef = builder.newString(typeName.length());
+
+ int propertyFlags = 0;
+ if (writable)
+ propertyFlags |= QFastMetaBuilder::Writable;
+ if (resettable)
+ propertyFlags |= QFastMetaBuilder::Resettable;
+
+ builder.setProperty(propIndex, prop.nameRef, prop.typeRef, (QMetaType::Type)type,
+ (QFastMetaBuilder::PropertyFlag)propertyFlags,
+ propIndex);
- builder.addSignal(prop.name + "Changed()");
- QMetaPropertyBuilder propBuilder =
- builder.addProperty(prop.name, typeName.constData(), builder.methodCount() - 1);
- propBuilder.setWritable(writable);
return true;
}
-bool QDeclarativeCompiler::buildBinding(QDeclarativeParser::Value *value,
- QDeclarativeParser::Property *prop,
- const BindingContext &ctxt)
+bool QDeclarativeCompiler::buildBinding(QDeclarativeScript::Value *value,
+ QDeclarativeScript::Property *prop,
+ const BindingContext &ctxt)
{
Q_ASSERT(prop->index != -1);
Q_ASSERT(prop->parent);
Q_ASSERT(prop->parent->metaObject());
- QMetaProperty mp = prop->parent->metaObject()->property(prop->index);
- if (!mp.isWritable() && !QDeclarativeMetaType::isList(prop->type))
- COMPILE_EXCEPTION(prop, tr("Invalid property assignment: \"%1\" is a read-only property").arg(QString::fromUtf8(prop->name)));
+ if (!prop->core.isWritable() && !prop->core.isQList() && !prop->isReadOnlyDeclaration)
+ COMPILE_EXCEPTION(prop, tr("Invalid property assignment: \"%1\" is a read-only property").arg(prop->name().toString()));
- BindingReference reference;
- reference.expression = value->value;
- reference.property = prop;
- reference.value = value;
- reference.bindingContext = ctxt;
+ JSBindingReference *reference = pool->New<JSBindingReference>();
+ reference->expression = value->value;
+ reference->property = prop;
+ reference->value = value;
+ reference->bindingContext = ctxt;
addBindingReference(reference);
return true;
}
-void QDeclarativeCompiler::genBindingAssignment(QDeclarativeParser::Value *binding,
- QDeclarativeParser::Property *prop,
- QDeclarativeParser::Object *obj,
- QDeclarativeParser::Property *valueTypeProperty)
+bool QDeclarativeCompiler::buildLiteralBinding(QDeclarativeScript::Value *v,
+ QDeclarativeScript::Property *prop,
+ const QDeclarativeCompilerTypes::BindingContext &)
+{
+ Q_ASSERT(v->value.isScript());
+
+ if (!prop->core.isWritable())
+ return false;
+
+ AST::Node *binding = v->value.asAST();
+
+ if (prop->type == QVariant::String) {
+ if (AST::CallExpression *e = AST::cast<AST::CallExpression *>(binding)) {
+ if (AST::IdentifierExpression *i = AST::cast<AST::IdentifierExpression *>(e->base)) {
+ if (i->name == qsTrId_string) {
+ AST::ArgumentList *arg1 = e->arguments?e->arguments:0;
+ AST::ArgumentList *arg2 = arg1?arg1->next:0;
+
+ if (arg1 && arg1->expression->kind == AST::Node::Kind_StringLiteral &&
+ (!arg2 || arg2->expression->kind == AST::Node::Kind_NumericLiteral) &&
+ (!arg2 || !arg2->next)) {
+
+ QStringRef text;
+ int n = -1;
+
+ text = AST::cast<AST::StringLiteral *>(arg1->expression)->value;
+ if (arg2) n = (int)AST::cast<AST::NumericLiteral *>(arg2->expression)->value;
+
+ TrBindingReference *reference = pool->New<TrBindingReference>();
+ reference->dataType = BindingReference::TrId;
+ reference->text = text;
+ reference->n = n;
+ v->bindingReference = reference;
+ return true;
+ }
+
+ } else if (i->name == qsTr_string) {
+
+ AST::ArgumentList *arg1 = e->arguments?e->arguments:0;
+ AST::ArgumentList *arg2 = arg1?arg1->next:0;
+ AST::ArgumentList *arg3 = arg2?arg2->next:0;
+
+ if (arg1 && arg1->expression->kind == AST::Node::Kind_StringLiteral &&
+ (!arg2 || arg2->expression->kind == AST::Node::Kind_StringLiteral) &&
+ (!arg3 || arg3->expression->kind == AST::Node::Kind_NumericLiteral) &&
+ (!arg3 || !arg3->next)) {
+
+ QStringRef text;
+ QStringRef comment;
+ int n = -1;
+
+ text = AST::cast<AST::StringLiteral *>(arg1->expression)->value;
+ if (arg2) comment = AST::cast<AST::StringLiteral *>(arg2->expression)->value;
+ if (arg3) n = (int)AST::cast<AST::NumericLiteral *>(arg3->expression)->value;
+
+ TrBindingReference *reference = pool->New<TrBindingReference>();
+ reference->dataType = BindingReference::Tr;
+ reference->text = text;
+ reference->comment = comment;
+ reference->n = n;
+ v->bindingReference = reference;
+ return true;
+ }
+
+ }
+ }
+ }
+
+ }
+
+ return false;
+}
+
+void QDeclarativeCompiler::genBindingAssignment(QDeclarativeScript::Value *binding,
+ QDeclarativeScript::Property *prop,
+ QDeclarativeScript::Object *obj,
+ QDeclarativeScript::Property *valueTypeProperty)
{
Q_UNUSED(obj);
- Q_ASSERT(compileState.bindings.contains(binding));
+ Q_ASSERT(binding->bindingReference);
- const BindingReference &ref = compileState.bindings.value(binding);
- if (ref.dataType == BindingReference::V4) {
- QDeclarativeInstruction store;
- store.setType(QDeclarativeInstruction::StoreV4Binding);
- store.assignBinding.value = ref.compiledIndex;
- store.assignBinding.context = ref.bindingContext.stack;
- store.assignBinding.owner = ref.bindingContext.owner;
- if (valueTypeProperty)
- store.assignBinding.property = (valueTypeProperty->index & 0xFFFF) |
- ((valueTypeProperty->type & 0xFF)) << 16 |
- ((prop->index & 0xFF) << 24);
- else
- store.assignBinding.property = prop->index;
- store.assignBinding.line = binding->location.start.line;
+ const BindingReference &ref = *binding->bindingReference;
+ if (ref.dataType == BindingReference::TrId) {
+ const TrBindingReference &tr = static_cast<const TrBindingReference &>(ref);
+
+ Instruction::StoreTrIdString store;
+ store.propertyIndex = prop->core.coreIndex;
+ store.text = output->indexForByteArray(tr.text.toUtf8());
+ store.n = tr.n;
+ output->addInstruction(store);
+ } else if (ref.dataType == BindingReference::Tr) {
+ const TrBindingReference &tr = static_cast<const TrBindingReference &>(ref);
+
+ Instruction::StoreTrString store;
+ store.propertyIndex = prop->core.coreIndex;
+ store.context = translationContextIndex();
+ store.text = output->indexForByteArray(tr.text.toUtf8());
+ store.comment = output->indexForByteArray(tr.comment.toUtf8());
+ store.n = tr.n;
+ output->addInstruction(store);
+ } else if (ref.dataType == BindingReference::V4) {
+ const JSBindingReference &js = static_cast<const JSBindingReference &>(ref);
+
+ Instruction::StoreV4Binding store;
+ store.value = js.compiledIndex;
+ store.context = js.bindingContext.stack;
+ store.owner = js.bindingContext.owner;
+ if (valueTypeProperty) {
+ store.property = (valueTypeProperty->index & 0xFFFF) |
+ ((valueTypeProperty->type & 0xFF)) << 16 |
+ ((prop->index & 0xFF) << 24);
+ store.isRoot = (compileState->root == valueTypeProperty->parent);
+ } else {
+ store.property = prop->index;
+ store.isRoot = (compileState->root == obj);
+ }
+ store.line = binding->location.start.line;
+ store.column = binding->location.start.column;
output->addInstruction(store);
} else if (ref.dataType == BindingReference::V8) {
- QDeclarativeInstruction store;
- store.setType(QDeclarativeInstruction::StoreV8Binding);
- store.assignBinding.value = ref.compiledIndex;
- store.assignBinding.context = ref.bindingContext.stack;
- store.assignBinding.owner = ref.bindingContext.owner;
- store.assignBinding.line = binding->location.start.line;
+ const JSBindingReference &js = static_cast<const JSBindingReference &>(ref);
+
+ Instruction::StoreV8Binding store;
+ store.value = js.compiledIndex;
+ store.context = js.bindingContext.stack;
+ store.owner = js.bindingContext.owner;
+ if (valueTypeProperty) {
+ store.isRoot = (compileState->root == valueTypeProperty->parent);
+ } else {
+ store.isRoot = (compileState->root == obj);
+ }
+ store.line = binding->location.start.line;
+ store.column = binding->location.start.column;
- Q_ASSERT(ref.bindingContext.owner == 0 ||
- (ref.bindingContext.owner != 0 && valueTypeProperty));
- if (ref.bindingContext.owner) {
- store.assignBinding.property = genValueTypeData(prop, valueTypeProperty);
+ Q_ASSERT(js.bindingContext.owner == 0 ||
+ (js.bindingContext.owner != 0 && valueTypeProperty));
+ if (js.bindingContext.owner) {
+ store.property = genValueTypeData(prop, valueTypeProperty);
} else {
- store.assignBinding.property = genPropertyData(prop);
+ store.property = prop->core;
}
output->addInstruction(store);
- } else {
+ } else if (ref.dataType == BindingReference::QtScript) {
+ const JSBindingReference &js = static_cast<const JSBindingReference &>(ref);
+
QDeclarativeInstruction store;
- if (!prop->isAlias)
- store.setType(QDeclarativeInstruction::StoreBinding);
- else
- store.setType(QDeclarativeInstruction::StoreBindingOnAlias);
- store.assignBinding.value = output->indexForString(ref.rewrittenExpression);
- store.assignBinding.context = ref.bindingContext.stack;
- store.assignBinding.owner = ref.bindingContext.owner;
+ store.assignBinding.value = output->indexForString(js.rewrittenExpression);
+ store.assignBinding.context = js.bindingContext.stack;
+ store.assignBinding.owner = js.bindingContext.owner;
store.assignBinding.line = binding->location.start.line;
+ store.assignBinding.column = binding->location.start.column;
+
+ if (valueTypeProperty) {
+ store.assignBinding.isRoot = (compileState->root == valueTypeProperty->parent);
+ } else {
+ store.assignBinding.isRoot = (compileState->root == obj);
+ }
- Q_ASSERT(ref.bindingContext.owner == 0 ||
- (ref.bindingContext.owner != 0 && valueTypeProperty));
- if (ref.bindingContext.owner) {
+ Q_ASSERT(js.bindingContext.owner == 0 ||
+ (js.bindingContext.owner != 0 && valueTypeProperty));
+ if (js.bindingContext.owner) {
store.assignBinding.property = genValueTypeData(prop, valueTypeProperty);
} else {
- store.assignBinding.property = genPropertyData(prop);
+ store.assignBinding.property = prop->core;
}
- output->addInstruction(store);
+ output->addInstructionHelper(
+ !prop->isAlias ? QDeclarativeInstruction::StoreBinding
+ : QDeclarativeInstruction::StoreBindingOnAlias
+ , store);
+ } else {
+ Q_ASSERT(!"Unhandled BindingReference::DataType type");
}
}
int QDeclarativeCompiler::genContextCache()
{
- if (compileState.ids.count() == 0)
+ if (compileState->ids.count() == 0)
return -1;
QDeclarativeIntegerCache *cache = new QDeclarativeIntegerCache();
-
- for (QHash<QString, QDeclarativeParser::Object *>::ConstIterator iter = compileState.ids.begin();
- iter != compileState.ids.end();
- ++iter)
- cache->add(iter.key(), (*iter)->idIndex);
+ cache->reserve(compileState->ids.count());
+ for (Object *o = compileState->ids.first(); o; o = compileState->ids.next(o))
+ cache->add(o->id, o->idIndex);
output->contextCaches.append(cache);
return output->contextCaches.count() - 1;
}
-int QDeclarativeCompiler::genValueTypeData(QDeclarativeParser::Property *valueTypeProp,
- QDeclarativeParser::Property *prop)
-{
- QByteArray data =
- QDeclarativePropertyPrivate::saveValueType(prop->parent->metaObject(), prop->index,
- enginePrivate->valueTypes[prop->type]->metaObject(),
- valueTypeProp->index);
-// valueTypeProp->index, valueTypeProp->type);
-
- return output->indexForByteArray(data);
-}
-
-int QDeclarativeCompiler::genPropertyData(QDeclarativeParser::Property *prop)
+QDeclarativePropertyData
+QDeclarativeCompiler::genValueTypeData(QDeclarativeScript::Property *valueTypeProp,
+ QDeclarativeScript::Property *prop)
{
- return output->indexForByteArray(QDeclarativePropertyPrivate::saveProperty(prop->parent->metaObject(), prop->index));
+ typedef QDeclarativePropertyPrivate QDPP;
+ return QDPP::saveValueType(prop->parent->metaObject(), prop->index,
+ enginePrivate->valueTypes[prop->type]->metaObject(),
+ valueTypeProp->index, engine);
}
bool QDeclarativeCompiler::completeComponentBuild()
{
- componentStat.ids = compileState.ids.count();
+ if (componentStats)
+ componentStats->componentStat.ids = compileState->ids.count();
- for (int ii = 0; ii < compileState.aliasingObjects.count(); ++ii) {
- QDeclarativeParser::Object *aliasObject = compileState.aliasingObjects.at(ii);
+ for (Object *aliasObject = compileState->aliasingObjects.first(); aliasObject;
+ aliasObject = compileState->aliasingObjects.next(aliasObject))
COMPILE_CHECK(buildDynamicMeta(aliasObject, ResolveAliases));
- }
- QDeclarativeV4Compiler::Expression expr;
- expr.component = compileState.root;
- expr.ids = compileState.ids;
+ QV4Compiler::Expression expr(unit->imports());
+ expr.component = compileState->root;
+ expr.ids = &compileState->ids;
expr.importCache = output->importCache;
- expr.imports = unit->imports();
- QDeclarativeV4Compiler bindingCompiler;
+ QV4Compiler bindingCompiler;
- QList<BindingReference*> sharedBindings;
+ QList<JSBindingReference*> sharedBindings;
- for (QHash<QDeclarativeParser::Value*,BindingReference>::Iterator iter = compileState.bindings.begin();
- iter != compileState.bindings.end(); ++iter) {
+ for (JSBindingReference *b = compileState->bindings.first(); b; b = b->nextReference) {
- BindingReference &binding = *iter;
+ JSBindingReference &binding = *b;
// ### We don't currently optimize for bindings on alias's - because
// of the solution to QTBUG-13719
if (index != -1) {
binding.dataType = BindingReference::V4;
binding.compiledIndex = index;
- componentStat.optimizedBindings.append(iter.key()->location);
+ if (componentStats)
+ componentStats->componentStat.optimizedBindings.append(b->value->location);
continue;
}
}
QString expression = binding.expression.asScript();
QDeclarativeRewrite::RewriteBinding rewriteBinding;
- rewriteBinding.setName('$'+binding.property->name);
+ rewriteBinding.setName(QLatin1Char('$')+binding.property->name().toString());
bool isSharable = false;
binding.rewrittenExpression = rewriteBinding(binding.expression.asAST(), expression, &isSharable);
if (isSharable && !binding.property->isAlias /* See above re alias */ &&
binding.property->type != qMetaTypeId<QDeclarativeBinding*>()) {
binding.dataType = BindingReference::V8;
- sharedBindings.append(&iter.value());
+ sharedBindings.append(b);
} else {
binding.dataType = BindingReference::QtScript;
}
- componentStat.scriptBindings.append(iter.key()->location);
+ if (componentStats)
+ componentStats->componentStat.scriptBindings.append(b->value->location);
}
if (!sharedBindings.isEmpty()) {
struct Sort {
- static bool lt(const BindingReference *lhs, const BindingReference *rhs)
+ static bool lt(const JSBindingReference *lhs, const JSBindingReference *rhs)
{
return lhs->value->location.start.line < rhs->value->location.start.line;
}
QString functionArray(QLatin1String("["));
for (int ii = 0; ii < sharedBindings.count(); ++ii) {
- BindingReference *reference = sharedBindings.at(ii);
- QDeclarativeParser::Value *value = reference->value;
+ JSBindingReference *reference = sharedBindings.at(ii);
+ QDeclarativeScript::Value *value = reference->value;
const QString &expression = reference->rewrittenExpression;
if (ii != 0) functionArray += QLatin1String(",");
}
functionArray += expression;
+ lineNumber += expression.count(QLatin1Char('\n'));
reference->compiledIndex = ii;
}
functionArray += QLatin1String("]");
- compileState.v8BindingProgram = functionArray;
- compileState.v8BindingProgramLine = startLineNumber;
- compileState.v8BindingProgramIndex = output->v8bindings.count();
+ compileState->v8BindingProgram = functionArray;
+ compileState->v8BindingProgramLine = startLineNumber;
+ compileState->v8BindingProgramIndex = output->v8bindings.count();
output->v8bindings.append(v8::Persistent<v8::Array>());
}
if (bindingCompiler.isValid())
- compileState.compiledBindingData = bindingCompiler.program();
+ compileState->compiledBindingData = bindingCompiler.program();
+
+ // Check pop()'s matched push()'s
+ Q_ASSERT(compileState->objectDepth.depth() == 0);
+ Q_ASSERT(compileState->listDepth.depth() == 0);
saveComponentState();
void QDeclarativeCompiler::dumpStats()
{
+ Q_ASSERT(componentStats);
qWarning().nospace() << "QML Document: " << output->url.toString();
- for (int ii = 0; ii < savedComponentStats.count(); ++ii) {
- const ComponentStat &stat = savedComponentStats.at(ii);
+ for (int ii = 0; ii < componentStats->savedComponentStats.count(); ++ii) {
+ const ComponentStat &stat = componentStats->savedComponentStats.at(ii);
qWarning().nospace() << " Component Line " << stat.lineNumber;
qWarning().nospace() << " Total Objects: " << stat.objects;
qWarning().nospace() << " IDs Used: " << stat.ids;
Returns true if from can be assigned to a (QObject) property of type
to.
*/
-bool QDeclarativeCompiler::canCoerce(int to, QDeclarativeParser::Object *from)
+bool QDeclarativeCompiler::canCoerce(int to, QDeclarativeScript::Object *from)
{
- const QMetaObject *toMo =
- enginePrivate->rawMetaObjectForType(to);
+ const QMetaObject *toMo = enginePrivate->rawMetaObjectForType(to);
const QMetaObject *fromMo = from->metaObject();
while (fromMo) {
return false;
}
-QDeclarativeType *QDeclarativeCompiler::toQmlType(QDeclarativeParser::Object *from)
+/*!
+ Returns the element name, as written in the QML file, for o.
+*/
+QString QDeclarativeCompiler::elementName(QDeclarativeScript::Object *o)
+{
+ Q_ASSERT(o);
+ if (o->type != -1) {
+ return output->types.at(o->type).className;
+ } else {
+ return QString();
+ }
+}
+
+QDeclarativeType *QDeclarativeCompiler::toQmlType(QDeclarativeScript::Object *from)
{
// ### Optimize
const QMetaObject *mo = from->metatype;
return type;
}
-QStringList QDeclarativeCompiler::deferredProperties(QDeclarativeParser::Object *obj)
+QStringList QDeclarativeCompiler::deferredProperties(QDeclarativeScript::Object *obj)
{
const QMetaObject *mo = obj->metatype;
return rv;
}
-// This code must match the semantics of QDeclarativePropertyPrivate::findSignalByName
-int QDeclarativeCompiler::indexOfSignal(QDeclarativeParser::Object *object, const QByteArray &name,
- bool *notInRevision)
+QDeclarativePropertyData *
+QDeclarativeCompiler::property(QDeclarativeScript::Object *object, int index)
{
- if (notInRevision) *notInRevision = false;
+ QDeclarativePropertyCache *cache = 0;
- if (object->synthCache || (object->type != -1 && output->types.at(object->type).propertyCache())) {
- // XXX fromUtf8
- QString strName(QString::fromUtf8(name));
- QDeclarativePropertyCache *cache =
- object->synthCache?object->synthCache:output->types.at(object->type).propertyCache();
+ if (object->synthCache)
+ cache = object->synthCache;
+ else if (object->type != -1)
+ cache = output->types[object->type].createPropertyCache(engine);
+ else
+ cache = QDeclarativeEnginePrivate::get(engine)->cache(object->metaObject());
- QDeclarativePropertyCache::Data *d = cache->property(strName);
- if (notInRevision) *notInRevision = false;
+ return cache->property(index);
+}
- while (d && !(d->flags & QDeclarativePropertyCache::Data::IsFunction))
- d = cache->overrideData(d);
+QDeclarativePropertyData *
+QDeclarativeCompiler::property(QDeclarativeScript::Object *object, const QHashedStringRef &name, bool *notInRevision)
+{
+ if (notInRevision) *notInRevision = false;
- if (d && !cache->isAllowedInRevision(d)) {
- if (notInRevision) *notInRevision = true;
- return -1;
- } else if (d) {
- return d->coreIndex;
- }
+ QDeclarativePropertyCache *cache = 0;
- if (name.endsWith("Changed")) {
- QByteArray propName = name.mid(0, name.length() - 7);
+ if (object->synthCache)
+ cache = object->synthCache;
+ else if (object->type != -1)
+ cache = output->types[object->type].createPropertyCache(engine);
+ else
+ cache = QDeclarativeEnginePrivate::get(engine)->cache(object->metaObject());
- int propIndex = indexOfProperty(object, propName, notInRevision);
- if (propIndex != -1) {
- d = cache->property(propIndex);
- return d->notifyIndex;
- }
- }
+ QDeclarativePropertyData *d = cache->property(name);
- return -1;
+ // Find the first property
+ while (d && d->isFunction())
+ d = cache->overrideData(d);
+
+ if (d && !cache->isAllowedInRevision(d)) {
+ if (notInRevision) *notInRevision = true;
+ return 0;
} else {
- return QDeclarativePropertyPrivate::findSignalByName(object->metaObject(), name).methodIndex();
+ return d;
}
-
}
-int QDeclarativeCompiler::indexOfProperty(QDeclarativeParser::Object *object, const QByteArray &name,
- bool *notInRevision)
+// This code must match the semantics of QDeclarativePropertyPrivate::findSignalByName
+QDeclarativePropertyData *
+QDeclarativeCompiler::signal(QDeclarativeScript::Object *object, const QHashedStringRef &name, bool *notInRevision)
{
if (notInRevision) *notInRevision = false;
- if (object->synthCache || (object->type != -1 && output->types.at(object->type).propertyCache())) {
- // XXX fromUtf8
- QString strName(QString::fromUtf8(name));
- QDeclarativePropertyCache *cache =
- object->synthCache?object->synthCache:output->types.at(object->type).propertyCache();
+ QDeclarativePropertyCache *cache = 0;
- QDeclarativePropertyCache::Data *d = cache->property(strName);
- // Find the first property
- while (d && d->flags & QDeclarativePropertyCache::Data::IsFunction)
- d = cache->overrideData(d);
+ if (object->synthCache)
+ cache = object->synthCache;
+ else if (object->type != -1)
+ cache = output->types[object->type].createPropertyCache(engine);
+ else
+ cache = QDeclarativeEnginePrivate::get(engine)->cache(object->metaObject());
- if (d && !cache->isAllowedInRevision(d)) {
- if (notInRevision) *notInRevision = true;
- return -1;
- } else {
- return d?d->coreIndex:-1;
- }
- } else {
- const QMetaObject *mo = object->metaObject();
- return mo->indexOfProperty(name.constData());
+
+ QDeclarativePropertyData *d = cache->property(name);
+ if (notInRevision) *notInRevision = false;
+
+ while (d && !(d->isFunction()))
+ d = cache->overrideData(d);
+
+ if (d && !cache->isAllowedInRevision(d)) {
+ if (notInRevision) *notInRevision = true;
+ return 0;
+ } else if (d) {
+ return d;
+ }
+
+ if (name.endsWith(Changed_string)) {
+ QHashedStringRef propName = name.mid(0, name.length() - Changed_string.length());
+
+ d = property(object, propName, notInRevision);
+ if (d)
+ return cache->method(d->notifyIndex);
}
+
+ return 0;
+}
+
+// This code must match the semantics of QDeclarativePropertyPrivate::findSignalByName
+int QDeclarativeCompiler::indexOfSignal(QDeclarativeScript::Object *object, const QString &name,
+ bool *notInRevision)
+{
+ QDeclarativePropertyData *d = signal(object, QStringRef(&name), notInRevision);
+ return d?d->coreIndex:-1;
+}
+
+int QDeclarativeCompiler::indexOfProperty(QDeclarativeScript::Object *object, const QString &name,
+ bool *notInRevision)
+{
+ return indexOfProperty(object, QStringRef(&name), notInRevision);
+}
+
+int QDeclarativeCompiler::indexOfProperty(QDeclarativeScript::Object *object, const QHashedStringRef &name,
+ bool *notInRevision)
+{
+ QDeclarativePropertyData *d = property(object, name, notInRevision);
+ return d?d->coreIndex:-1;
}
QT_END_NAMESPACE