/**************************************************************************** ** ** Copyright (C) 2015 The Qt Company Ltd. ** Contact: http://www.qt.io/licensing/ ** ** This file is part of the QtQml module of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL21$ ** Commercial License Usage ** Licensees holding valid commercial Qt licenses may use this file in ** accordance with the commercial license agreement provided with the ** Software or, alternatively, in accordance with the terms contained in ** a written agreement between you and The Qt Company. For licensing terms ** and conditions see http://www.qt.io/terms-conditions. For further ** information use the contact form at http://www.qt.io/contact-us. ** ** GNU Lesser General Public License Usage ** Alternatively, this file may be used under the terms of the GNU Lesser ** General Public License version 2.1 or version 3 as published by the Free ** Software Foundation and appearing in the file LICENSE.LGPLv21 and ** LICENSE.LGPLv3 included in the packaging of this file. Please review the ** following information to ensure the GNU Lesser General Public License ** requirements will be met: https://www.gnu.org/licenses/lgpl.html and ** http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** As a special exception, The Qt Company gives you certain additional ** rights. These rights are described in The Qt Company LGPL Exception ** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "qv4global_p.h" #include "qv4runtime_p.h" #ifndef V4_BOOTSTRAP #include "qv4object_p.h" #include "qv4objectproto_p.h" #include "qv4globalobject_p.h" #include "qv4stringobject_p.h" #include "qv4argumentsobject_p.h" #include "qv4objectiterator_p.h" #include "qv4dateobject_p.h" #include "qv4lookup_p.h" #include "qv4function_p.h" #include "private/qlocale_tools_p.h" #include "qv4scopedvalue_p.h" #include #include #include #include #include "qv4qobjectwrapper_p.h" #include #endif #include #include #include #include #include #include "../../3rdparty/double-conversion/double-conversion.h" #ifdef QV4_COUNT_RUNTIME_FUNCTIONS # include # include #endif // QV4_COUNT_RUNTIME_FUNCTIONS QT_BEGIN_NAMESPACE namespace QV4 { #ifdef QV4_COUNT_RUNTIME_FUNCTIONS struct RuntimeCounters::Data { enum Type { None = 0, Undefined = 1, Null = 2, Boolean = 3, Integer = 4, Managed = 5, Double = 7 }; static const char *pretty(Type t) { switch (t) { case None: return ""; case Undefined: return "Undefined"; case Null: return "Null"; case Boolean: return "Boolean"; case Integer: return "Integer"; case Managed: return "Managed"; case Double: return "Double"; default: return "Unknown"; } } static unsigned mangle(unsigned tag) { switch (tag) { case Value::Undefined_Type: return Undefined; case Value::Null_Type: return Null; case Value::Boolean_Type: return Boolean; case Value::Integer_Type: return Integer; case Value::Managed_Type: return Managed; default: return Double; } } static unsigned mangle(unsigned tag1, unsigned tag2) { return (mangle(tag1) << 3) | mangle(tag2); } static void unmangle(unsigned signature, Type &tag1, Type &tag2) { tag1 = Type((signature >> 3) & 7); tag2 = Type(signature & 7); } typedef QVector Counters; QHash counters; inline void count(const char *func) { QVector &cnt = counters[func]; if (cnt.isEmpty()) cnt.resize(64); cnt[0] += 1; } inline void count(const char *func, unsigned tag) { QVector &cnt = counters[func]; if (cnt.isEmpty()) cnt.resize(64); cnt[mangle(tag)] += 1; } inline void count(const char *func, unsigned tag1, unsigned tag2) { QVector &cnt = counters[func]; if (cnt.isEmpty()) cnt.resize(64); cnt[mangle(tag1, tag2)] += 1; } struct Line { const char *func; Type tag1, tag2; quint64 count; static bool less(const Line &line1, const Line &line2) { return line1.count > line2.count; } }; void dump() const { QBuffer buf; buf.open(QIODevice::WriteOnly); QTextStream outs(&buf); QList lines; foreach (const char *func, counters.keys()) { const Counters &fCount = counters[func]; for (int i = 0, ei = fCount.size(); i != ei; ++i) { quint64 count = fCount[i]; if (!count) continue; Line line; line.func = func; unmangle(i, line.tag1, line.tag2); line.count = count; lines.append(line); } } std::sort(lines.begin(), lines.end(), Line::less); outs << lines.size() << " counters:" << endl; foreach (const Line &line, lines) outs << qSetFieldWidth(10) << line.count << qSetFieldWidth(0) << " | " << line.func << " | " << pretty(line.tag1) << " | " << pretty(line.tag2) << endl; qDebug("%s", buf.data().constData()); } }; RuntimeCounters *RuntimeCounters::instance = 0; static RuntimeCounters runtimeCountersInstance; RuntimeCounters::RuntimeCounters() : d(new Data) { if (!instance) instance = this; } RuntimeCounters::~RuntimeCounters() { d->dump(); delete d; } void RuntimeCounters::count(const char *func) { d->count(func); } void RuntimeCounters::count(const char *func, uint tag) { d->count(func, tag); } void RuntimeCounters::count(const char *func, uint tag1, uint tag2) { d->count(func, tag1, tag2); } #endif // QV4_COUNT_RUNTIME_FUNCTIONS #ifndef V4_BOOTSTRAP void RuntimeHelpers::numberToString(QString *result, double num, int radix) { Q_ASSERT(result); if (std::isnan(num)) { *result = QStringLiteral("NaN"); return; } else if (qIsInf(num)) { *result = num < 0 ? QStringLiteral("-Infinity") : QStringLiteral("Infinity"); return; } if (radix == 10) { char str[100]; double_conversion::StringBuilder builder(str, sizeof(str)); double_conversion::DoubleToStringConverter::EcmaScriptConverter().ToShortest(num, &builder); *result = QString::fromLatin1(builder.Finalize()); return; } result->clear(); bool negative = false; if (num < 0) { negative = true; num = -num; } double frac = num - ::floor(num); num = Primitive::toInteger(num); do { char c = (char)::fmod(num, radix); c = (c < 10) ? (c + '0') : (c - 10 + 'a'); result->prepend(QLatin1Char(c)); num = ::floor(num / radix); } while (num != 0); if (frac != 0) { result->append(QLatin1Char('.')); do { frac = frac * radix; char c = (char)::floor(frac); c = (c < 10) ? (c + '0') : (c - 10 + 'a'); result->append(QLatin1Char(c)); frac = frac - ::floor(frac); } while (frac != 0); } if (negative) result->prepend(QLatin1Char('-')); } ReturnedValue Runtime::closure(ExecutionEngine *engine, int functionId) { QV4::Function *clos = engine->current->compilationUnit->runtimeFunctions[functionId]; Q_ASSERT(clos); return FunctionObject::createScriptFunction(engine->currentContext, clos)->asReturnedValue(); } ReturnedValue Runtime::deleteElement(ExecutionEngine *engine, const Value &base, const Value &index) { Scope scope(engine); ScopedObject o(scope, base); if (o) { uint n = index.asArrayIndex(); if (n < UINT_MAX) { return Encode((bool)o->deleteIndexedProperty(n)); } } ScopedString name(scope, index.toString(engine)); return Runtime::deleteMemberString(engine, base, name); } ReturnedValue Runtime::deleteMember(ExecutionEngine *engine, const Value &base, int nameIndex) { Scope scope(engine); ScopedString name(scope, engine->current->compilationUnit->runtimeStrings[nameIndex]); return deleteMemberString(engine, base, name); } ReturnedValue Runtime::deleteMemberString(ExecutionEngine *engine, const Value &base, String *name) { Scope scope(engine); ScopedObject obj(scope, base.toObject(engine)); if (scope.engine->hasException) return Encode::undefined(); return Encode(obj->deleteProperty(name)); } ReturnedValue Runtime::deleteName(ExecutionEngine *engine, int nameIndex) { Scope scope(engine); ScopedString name(scope, engine->current->compilationUnit->runtimeStrings[nameIndex]); return Encode(engine->currentContext->deleteProperty(name)); } QV4::ReturnedValue Runtime::instanceof(ExecutionEngine *engine, const Value &left, const Value &right) { Scope scope(engine); ScopedFunctionObject f(scope, right.as()); if (!f) return engine->throwTypeError(); if (f->isBoundFunction()) f = static_cast(f.getPointer())->target(); ScopedObject v(scope, left.as()); if (!v) return Encode(false); ScopedObject o(scope, f->protoProperty()); if (!o) return engine->throwTypeError(); while (v) { v = v->prototype(); if (!v) break; else if (o->d() == v->d()) return Encode(true); } return Encode(false); } QV4::ReturnedValue Runtime::in(ExecutionEngine *engine, const Value &left, const Value &right) { if (!right.isObject()) return engine->throwTypeError(); Scope scope(engine); ScopedString s(scope, left.toString(engine)); if (scope.hasException()) return Encode::undefined(); bool r = right.objectValue()->hasProperty(s); return Encode(r); } double RuntimeHelpers::stringToNumber(const QString &string) { QString s = string.trimmed(); if (s.startsWith(QLatin1String("0x")) || s.startsWith(QLatin1String("0X"))) return s.toLong(0, 16); bool ok; QByteArray ba = s.toLatin1(); const char *begin = ba.constData(); const char *end = 0; double d = qstrtod(begin, &end, &ok); if (end - begin != ba.size()) { if (ba == "Infinity" || ba == "+Infinity") d = Q_INFINITY; else if (ba == "-Infinity") d = -Q_INFINITY; else d = std::numeric_limits::quiet_NaN(); } return d; } Heap::String *RuntimeHelpers::stringFromNumber(ExecutionEngine *engine, double number) { QString qstr; RuntimeHelpers::numberToString(&qstr, number, 10); return engine->newString(qstr); } ReturnedValue RuntimeHelpers::objectDefaultValue(const Object *object, int typeHint) { if (typeHint == PREFERREDTYPE_HINT) { if (object->as()) typeHint = STRING_HINT; else typeHint = NUMBER_HINT; } ExecutionEngine *engine = object->internalClass()->engine; if (engine->hasException) return Encode::undefined(); String *meth1 = engine->id_toString(); String *meth2 = engine->id_valueOf(); if (typeHint == NUMBER_HINT) qSwap(meth1, meth2); Scope scope(engine); ScopedCallData callData(scope, 0); callData->thisObject = *object; ScopedValue conv(scope, object->get(meth1)); if (FunctionObject *o = conv->as()) { ScopedValue r(scope, o->call(callData)); if (r->isPrimitive()) return r->asReturnedValue(); } if (engine->hasException) return Encode::undefined(); conv = object->get(meth2); if (FunctionObject *o = conv->as()) { ScopedValue r(scope, o->call(callData)); if (r->isPrimitive()) return r->asReturnedValue(); } return engine->throwTypeError(); } Heap::Object *RuntimeHelpers::convertToObject(ExecutionEngine *engine, const Value &value) { Q_ASSERT(!value.isObject()); switch (value.type()) { case Value::Undefined_Type: case Value::Null_Type: engine->throwTypeError(); return 0; case Value::Boolean_Type: return engine->newBooleanObject(value.booleanValue()); case Value::Managed_Type: Q_ASSERT(value.isString()); return engine->newStringObject(value.stringValue()); case Value::Integer_Type: default: // double return engine->newNumberObject(value.asDouble()); } } Heap::String *RuntimeHelpers::convertToString(ExecutionEngine *engine, const Value &value) { switch (value.type()) { case Value::Empty_Type: Q_ASSERT(!"empty Value encountered"); case Value::Undefined_Type: return engine->id_undefined()->d(); case Value::Null_Type: return engine->id_null()->d(); case Value::Boolean_Type: if (value.booleanValue()) return engine->id_true()->d(); else return engine->id_false()->d(); case Value::Managed_Type: if (value.isString()) return value.stringValue()->d(); { Scope scope(engine); ScopedValue prim(scope, RuntimeHelpers::toPrimitive(value, STRING_HINT)); return RuntimeHelpers::convertToString(engine, prim); } case Value::Integer_Type: return RuntimeHelpers::stringFromNumber(engine, value.int_32()); default: // double return RuntimeHelpers::stringFromNumber(engine, value.doubleValue()); } // switch } // This is slightly different from the method above, as // the + operator requires a slightly different conversion static Heap::String *convert_to_string_add(ExecutionEngine *engine, const Value &value) { switch (value.type()) { case Value::Empty_Type: Q_ASSERT(!"empty Value encountered"); case Value::Undefined_Type: return engine->id_undefined()->d(); case Value::Null_Type: return engine->id_null()->d(); case Value::Boolean_Type: if (value.booleanValue()) return engine->id_true()->d(); else return engine->id_false()->d(); case Value::Managed_Type: if (value.isString()) return value.stringValue()->d(); { Scope scope(engine); ScopedValue prim(scope, RuntimeHelpers::toPrimitive(value, PREFERREDTYPE_HINT)); return RuntimeHelpers::convertToString(engine, prim); } case Value::Integer_Type: return RuntimeHelpers::stringFromNumber(engine, value.int_32()); default: // double return RuntimeHelpers::stringFromNumber(engine, value.doubleValue()); } // switch } QV4::ReturnedValue RuntimeHelpers::addHelper(ExecutionEngine *engine, const Value &left, const Value &right) { Scope scope(engine); ScopedValue pleft(scope, RuntimeHelpers::toPrimitive(left, PREFERREDTYPE_HINT)); ScopedValue pright(scope, RuntimeHelpers::toPrimitive(right, PREFERREDTYPE_HINT)); if (pleft->isString() || pright->isString()) { if (!pleft->isString()) pleft = convert_to_string_add(engine, pleft); if (!pright->isString()) pright = convert_to_string_add(engine, pright); if (scope.engine->hasException) return Encode::undefined(); if (!pleft->stringValue()->d()->length()) return pright->asReturnedValue(); if (!pright->stringValue()->d()->length()) return pleft->asReturnedValue(); MemoryManager *mm = engine->memoryManager; return (mm->alloc(mm, pleft->stringValue()->d(), pright->stringValue()->d()))->asReturnedValue(); } double x = RuntimeHelpers::toNumber(pleft); double y = RuntimeHelpers::toNumber(pright); return Encode(x + y); } QV4::ReturnedValue Runtime::addString(ExecutionEngine *engine, const Value &left, const Value &right) { Q_ASSERT(left.isString() || right.isString()); if (left.isString() && right.isString()) { if (!left.stringValue()->d()->length()) return right.asReturnedValue(); if (!right.stringValue()->d()->length()) return left.asReturnedValue(); MemoryManager *mm = engine->memoryManager; return (mm->alloc(mm, left.stringValue()->d(), right.stringValue()->d()))->asReturnedValue(); } Scope scope(engine); ScopedValue pleft(scope, left); ScopedValue pright(scope, right); if (!pleft->isString()) pleft = convert_to_string_add(engine, left); if (!pright->isString()) pright = convert_to_string_add(engine, right); if (scope.engine->hasException) return Encode::undefined(); if (!pleft->stringValue()->d()->length()) return pright->asReturnedValue(); if (!pright->stringValue()->d()->length()) return pleft->asReturnedValue(); MemoryManager *mm = engine->memoryManager; return (mm->alloc(mm, pleft->stringValue()->d(), pright->stringValue()->d()))->asReturnedValue(); } void Runtime::setProperty(ExecutionEngine *engine, const Value &object, int nameIndex, const Value &value) { Scope scope(engine); ScopedString name(scope, engine->current->compilationUnit->runtimeStrings[nameIndex]); ScopedObject o(scope, object.toObject(engine)); if (!o) return; o->put(name, value); } ReturnedValue Runtime::getElement(ExecutionEngine *engine, const Value &object, const Value &index) { Scope scope(engine); uint idx = index.asArrayIndex(); ScopedObject o(scope, object); if (!o) { if (idx < UINT_MAX) { if (const String *str = object.as()) { if (idx >= (uint)str->toQString().length()) { return Encode::undefined(); } const QString s = str->toQString().mid(idx, 1); return scope.engine->newString(s)->asReturnedValue(); } } if (object.isNullOrUndefined()) { QString message = QStringLiteral("Cannot read property '%1' of %2").arg(index.toQStringNoThrow()).arg(object.toQStringNoThrow()); return engine->throwTypeError(message); } o = RuntimeHelpers::convertToObject(scope.engine, object); if (!o) // type error return Encode::undefined(); } if (idx < UINT_MAX) { if (o->arrayData() && !o->arrayData()->attrs) { ScopedValue v(scope, o->arrayData()->get(idx)); if (!v->isEmpty()) return v->asReturnedValue(); } return o->getIndexed(idx); } ScopedString name(scope, index.toString(engine)); if (scope.hasException()) return Encode::undefined(); return o->get(name); } void Runtime::setElement(ExecutionEngine *engine, const Value &object, const Value &index, const Value &value) { Scope scope(engine); ScopedObject o(scope, object.toObject(engine)); if (scope.engine->hasException) return; uint idx = index.asArrayIndex(); if (idx < UINT_MAX) { if (o->arrayType() == Heap::ArrayData::Simple) { Heap::SimpleArrayData *s = static_cast(o->arrayData()); if (s && idx < s->len && !s->data(idx).isEmpty()) { s->data(idx) = value; return; } } o->putIndexed(idx, value); return; } ScopedString name(scope, index.toString(engine)); o->put(name, value); } ReturnedValue Runtime::foreachIterator(ExecutionEngine *engine, const Value &in) { Scope scope(engine); ScopedObject o(scope, (Object *)0); if (!in.isNullOrUndefined()) o = in.toObject(engine); return engine->newForEachIteratorObject(o)->asReturnedValue(); } ReturnedValue Runtime::foreachNextPropertyName(const Value &foreach_iterator) { Q_ASSERT(foreach_iterator.isObject()); ForEachIteratorObject *it = static_cast(foreach_iterator.objectValue()); Q_ASSERT(it->as()); return it->nextPropertyName(); } void Runtime::setActivationProperty(ExecutionEngine *engine, int nameIndex, const Value &value) { Scope scope(engine); ScopedString name(scope, engine->current->compilationUnit->runtimeStrings[nameIndex]); engine->currentContext->setProperty(name, value); } ReturnedValue Runtime::getProperty(ExecutionEngine *engine, const Value &object, int nameIndex) { Scope scope(engine); ScopedString name(scope, engine->current->compilationUnit->runtimeStrings[nameIndex]); ScopedObject o(scope, object); if (o) return o->get(name); if (object.isNullOrUndefined()) { QString message = QStringLiteral("Cannot read property '%1' of %2").arg(name->toQString()).arg(object.toQStringNoThrow()); return engine->throwTypeError(message); } o = RuntimeHelpers::convertToObject(scope.engine, object); if (!o) // type error return Encode::undefined(); return o->get(name); } ReturnedValue Runtime::getActivationProperty(ExecutionEngine *engine, int nameIndex) { Scope scope(engine); ScopedString name(scope, engine->current->compilationUnit->runtimeStrings[nameIndex]); return engine->currentContext->getProperty(name); } #endif // V4_BOOTSTRAP uint RuntimeHelpers::equalHelper(const Value &x, const Value &y) { Q_ASSERT(x.type() != y.type() || (x.isManaged() && (x.isString() != y.isString()))); if (x.isNumber() && y.isNumber()) return x.asDouble() == y.asDouble(); if (x.isNull() && y.isUndefined()) { return true; } else if (x.isUndefined() && y.isNull()) { return true; } else if (x.isNumber() && y.isString()) { double dy = RuntimeHelpers::toNumber(y); return x.asDouble() == dy; } else if (x.isString() && y.isNumber()) { double dx = RuntimeHelpers::toNumber(x); return dx == y.asDouble(); } else if (x.isBoolean()) { return Runtime::compareEqual(Primitive::fromDouble((double) x.booleanValue()), y); } else if (y.isBoolean()) { return Runtime::compareEqual(x, Primitive::fromDouble((double) y.booleanValue())); } else { #ifdef V4_BOOTSTRAP Q_UNIMPLEMENTED(); #else if ((x.isNumber() || x.isString()) && y.isObject()) { Scope scope(y.objectValue()->engine()); ScopedValue py(scope, RuntimeHelpers::toPrimitive(y, PREFERREDTYPE_HINT)); return Runtime::compareEqual(x, py); } else if (x.isObject() && (y.isNumber() || y.isString())) { Scope scope(x.objectValue()->engine()); ScopedValue px(scope, RuntimeHelpers::toPrimitive(x, PREFERREDTYPE_HINT)); return Runtime::compareEqual(px, y); } #endif } return false; } Bool RuntimeHelpers::strictEqual(const Value &x, const Value &y) { TRACE2(x, y); if (x.rawValue() == y.rawValue()) // NaN != NaN return !x.isNaN(); if (x.isNumber()) return y.isNumber() && x.asDouble() == y.asDouble(); if (x.isManaged()) return y.isManaged() && x.cast()->isEqualTo(y.cast()); return false; } QV4::Bool Runtime::compareGreaterThan(const Value &l, const Value &r) { TRACE2(l, r); if (l.isInteger() && r.isInteger()) return l.integerValue() > r.integerValue(); if (l.isNumber() && r.isNumber()) return l.asDouble() > r.asDouble(); if (l.isString() && r.isString()) { #ifdef V4_BOOTSTRAP Q_UNIMPLEMENTED(); return false; #else return r.stringValue()->compare(l.stringValue()); #endif } if (l.isObject() || r.isObject()) { #ifdef V4_BOOTSTRAP Q_UNIMPLEMENTED(); #else QV4::ExecutionEngine *e = (l.isObject() ? l.objectValue() : r.objectValue())->engine(); QV4::Scope scope(e); QV4::ScopedValue pl(scope, RuntimeHelpers::toPrimitive(l, QV4::NUMBER_HINT)); QV4::ScopedValue pr(scope, RuntimeHelpers::toPrimitive(r, QV4::NUMBER_HINT)); return Runtime::compareGreaterThan(pl, pr); #endif } double dl = RuntimeHelpers::toNumber(l); double dr = RuntimeHelpers::toNumber(r); return dl > dr; } QV4::Bool Runtime::compareLessThan(const Value &l, const Value &r) { TRACE2(l, r); if (l.isInteger() && r.isInteger()) return l.integerValue() < r.integerValue(); if (l.isNumber() && r.isNumber()) return l.asDouble() < r.asDouble(); if (l.isString() && r.isString()) { #ifdef V4_BOOTSTRAP Q_UNIMPLEMENTED(); return false; #else return l.stringValue()->compare(r.stringValue()); #endif } if (l.isObject() || r.isObject()) { #ifdef V4_BOOTSTRAP Q_UNIMPLEMENTED(); #else QV4::ExecutionEngine *e = (l.isObject() ? l.objectValue() : r.objectValue())->engine(); QV4::Scope scope(e); QV4::ScopedValue pl(scope, RuntimeHelpers::toPrimitive(l, QV4::NUMBER_HINT)); QV4::ScopedValue pr(scope, RuntimeHelpers::toPrimitive(r, QV4::NUMBER_HINT)); return Runtime::compareLessThan(pl, pr); #endif } double dl = RuntimeHelpers::toNumber(l); double dr = RuntimeHelpers::toNumber(r); return dl < dr; } QV4::Bool Runtime::compareGreaterEqual(const Value &l, const Value &r) { TRACE2(l, r); if (l.isInteger() && r.isInteger()) return l.integerValue() >= r.integerValue(); if (l.isNumber() && r.isNumber()) return l.asDouble() >= r.asDouble(); if (l.isString() && r.isString()) { #ifdef V4_BOOTSTRAP Q_UNIMPLEMENTED(); return false; #else return !l.stringValue()->compare(r.stringValue()); #endif } if (l.isObject() || r.isObject()) { #ifdef V4_BOOTSTRAP Q_UNIMPLEMENTED(); #else QV4::ExecutionEngine *e = (l.isObject() ? l.objectValue() : r.objectValue())->engine(); QV4::Scope scope(e); QV4::ScopedValue pl(scope, RuntimeHelpers::toPrimitive(l, QV4::NUMBER_HINT)); QV4::ScopedValue pr(scope, RuntimeHelpers::toPrimitive(r, QV4::NUMBER_HINT)); return Runtime::compareGreaterEqual(pl, pr); #endif } double dl = RuntimeHelpers::toNumber(l); double dr = RuntimeHelpers::toNumber(r); return dl >= dr; } QV4::Bool Runtime::compareLessEqual(const Value &l, const Value &r) { TRACE2(l, r); if (l.isInteger() && r.isInteger()) return l.integerValue() <= r.integerValue(); if (l.isNumber() && r.isNumber()) return l.asDouble() <= r.asDouble(); if (l.isString() && r.isString()) { #ifdef V4_BOOTSTRAP Q_UNIMPLEMENTED(); return false; #else return !r.stringValue()->compare(l.stringValue()); #endif } if (l.isObject() || r.isObject()) { #ifdef V4_BOOTSTRAP Q_UNIMPLEMENTED(); #else QV4::ExecutionEngine *e = (l.isObject() ? l.objectValue() : r.objectValue())->engine(); QV4::Scope scope(e); QV4::ScopedValue pl(scope, RuntimeHelpers::toPrimitive(l, QV4::NUMBER_HINT)); QV4::ScopedValue pr(scope, RuntimeHelpers::toPrimitive(r, QV4::NUMBER_HINT)); return Runtime::compareLessEqual(pl, pr); #endif } double dl = RuntimeHelpers::toNumber(l); double dr = RuntimeHelpers::toNumber(r); return dl <= dr; } #ifndef V4_BOOTSTRAP Bool Runtime::compareInstanceof(ExecutionEngine *engine, const Value &left, const Value &right) { TRACE2(left, right); Scope scope(engine); ScopedValue v(scope, Runtime::instanceof(engine, left, right)); return v->booleanValue(); } uint Runtime::compareIn(ExecutionEngine *engine, const Value &left, const Value &right) { TRACE2(left, right); Scope scope(engine); ScopedValue v(scope, Runtime::in(engine, left, right)); return v->booleanValue(); } ReturnedValue Runtime::callGlobalLookup(ExecutionEngine *engine, uint index, CallData *callData) { Scope scope(engine); Q_ASSERT(callData->thisObject.isUndefined()); Lookup *l = engine->current->lookups + index; ScopedFunctionObject o(scope, l->globalGetter(l, engine)); if (!o) return engine->throwTypeError(); ScopedString name(scope, engine->current->compilationUnit->runtimeStrings[l->nameIndex]); if (o->d() == scope.engine->evalFunction()->d() && name->equals(scope.engine->id_eval())) return static_cast(o.getPointer())->evalCall(callData, true); return o->call(callData); } ReturnedValue Runtime::callActivationProperty(ExecutionEngine *engine, int nameIndex, CallData *callData) { Q_ASSERT(callData->thisObject.isUndefined()); Scope scope(engine); ScopedString name(scope, engine->current->compilationUnit->runtimeStrings[nameIndex]); ScopedObject base(scope); ScopedValue func(scope, engine->currentContext->getPropertyAndBase(name, base.getRef())); if (scope.engine->hasException) return Encode::undefined(); if (base) callData->thisObject = base; FunctionObject *o = func->as(); if (!o) { QString objectAsString = QStringLiteral("[null]"); if (base) objectAsString = ScopedValue(scope, base.asReturnedValue())->toQStringNoThrow(); QString msg = QStringLiteral("Property '%1' of object %2 is not a function").arg(name->toQString()).arg(objectAsString); return engine->throwTypeError(msg); } if (o->d() == scope.engine->evalFunction()->d() && name->equals(scope.engine->id_eval())) { return static_cast(o)->evalCall(callData, true); } return o->call(callData); } ReturnedValue Runtime::callQmlScopeObjectProperty(ExecutionEngine *engine, int propertyIndex, CallData *callData) { Scope scope(engine); ScopedFunctionObject o(scope, getQmlScopeObjectProperty(engine, callData->thisObject, propertyIndex)); if (!o) { QString error = QStringLiteral("Property '%1' of scope object is not a function").arg(propertyIndex); return engine->throwTypeError(error); } return o->call(callData); } ReturnedValue Runtime::callQmlContextObjectProperty(ExecutionEngine *engine, int propertyIndex, CallData *callData) { Scope scope(engine); ScopedFunctionObject o(scope, getQmlContextObjectProperty(engine, callData->thisObject, propertyIndex)); if (!o) { QString error = QStringLiteral("Property '%1' of context object is not a function").arg(propertyIndex); return engine->throwTypeError(error); } return o->call(callData); } ReturnedValue Runtime::callProperty(ExecutionEngine *engine, int nameIndex, CallData *callData) { Scope scope(engine); ScopedString name(scope, engine->current->compilationUnit->runtimeStrings[nameIndex]); ScopedObject baseObject(scope, callData->thisObject); if (!baseObject) { Q_ASSERT(!callData->thisObject.isEmpty()); if (callData->thisObject.isNullOrUndefined()) { QString message = QStringLiteral("Cannot call method '%1' of %2").arg(name->toQString()).arg(callData->thisObject.toQStringNoThrow()); return engine->throwTypeError(message); } baseObject = RuntimeHelpers::convertToObject(scope.engine, callData->thisObject); if (!baseObject) // type error return Encode::undefined(); callData->thisObject = baseObject.asReturnedValue(); } ScopedFunctionObject o(scope, baseObject->get(name)); if (!o) { QString error = QStringLiteral("Property '%1' of object %2 is not a function").arg(name->toQString(), callData->thisObject.toQStringNoThrow()); return engine->throwTypeError(error); } return o->call(callData); } ReturnedValue Runtime::callPropertyLookup(ExecutionEngine *engine, uint index, CallData *callData) { Lookup *l = engine->current->lookups + index; Value v; v = l->getter(l, engine, callData->thisObject); if (!v.isObject()) return engine->throwTypeError(); return v.objectValue()->call(callData); } ReturnedValue Runtime::callElement(ExecutionEngine *engine, const Value &index, CallData *callData) { Scope scope(engine); ScopedObject baseObject(scope, callData->thisObject.toObject(engine)); ScopedString s(scope, index.toString(engine)); if (scope.engine->hasException) return Encode::undefined(); callData->thisObject = baseObject; ScopedObject o(scope, baseObject->get(s)); if (!o) return engine->throwTypeError(); return o->call(callData); } ReturnedValue Runtime::callValue(ExecutionEngine *engine, const Value &func, CallData *callData) { if (!func.isObject()) return engine->throwTypeError(QStringLiteral("%1 is not a function").arg(func.toQStringNoThrow())); return func.objectValue()->call(callData); } ReturnedValue Runtime::constructGlobalLookup(ExecutionEngine *engine, uint index, CallData *callData) { Scope scope(engine); Q_ASSERT(callData->thisObject.isUndefined()); Lookup *l = engine->current->lookups + index; ScopedObject f(scope, l->globalGetter(l, engine)); if (!f) return engine->throwTypeError(); return f->construct(callData); } ReturnedValue Runtime::constructActivationProperty(ExecutionEngine *engine, int nameIndex, CallData *callData) { Scope scope(engine); ScopedString name(scope, engine->current->compilationUnit->runtimeStrings[nameIndex]); ScopedValue func(scope, engine->currentContext->getProperty(name)); if (scope.engine->hasException) return Encode::undefined(); Object *f = func->as(); if (!f) return engine->throwTypeError(); return f->construct(callData); } ReturnedValue Runtime::constructValue(ExecutionEngine *engine, const Value &func, CallData *callData) { const Object *f = func.as(); if (!f) return engine->throwTypeError(); return f->construct(callData); } ReturnedValue Runtime::constructProperty(ExecutionEngine *engine, int nameIndex, CallData *callData) { Scope scope(engine); ScopedObject thisObject(scope, callData->thisObject.toObject(engine)); ScopedString name(scope, engine->current->compilationUnit->runtimeStrings[nameIndex]); if (scope.engine->hasException) return Encode::undefined(); ScopedObject f(scope, thisObject->get(name)); if (!f) return engine->throwTypeError(); return f->construct(callData); } ReturnedValue Runtime::constructPropertyLookup(ExecutionEngine *engine, uint index, CallData *callData) { Lookup *l = engine->current->lookups + index; Value v; v = l->getter(l, engine, callData->thisObject); if (!v.isObject()) return engine->throwTypeError(); return v.objectValue()->construct(callData); } void Runtime::throwException(ExecutionEngine *engine, const Value &value) { if (!value.isEmpty()) engine->throwError(value); } ReturnedValue Runtime::typeofValue(ExecutionEngine *engine, const Value &value) { Scope scope(engine); ScopedString res(scope); switch (value.type()) { case Value::Undefined_Type: res = engine->id_undefined(); break; case Value::Null_Type: res = engine->id_object(); break; case Value::Boolean_Type: res = engine->id_boolean(); break; case Value::Managed_Type: if (value.isString()) res = engine->id_string(); else if (value.objectValue()->as()) res = engine->id_function(); else res = engine->id_object(); // ### implementation-defined break; default: res = engine->id_number(); break; } return res.asReturnedValue(); } QV4::ReturnedValue Runtime::typeofName(ExecutionEngine *engine, int nameIndex) { Scope scope(engine); ScopedString name(scope, engine->current->compilationUnit->runtimeStrings[nameIndex]); ScopedValue prop(scope, engine->currentContext->getProperty(name)); // typeof doesn't throw. clear any possible exception scope.engine->hasException = false; return Runtime::typeofValue(engine, prop); } #ifndef V4_BOOTSTRAP ReturnedValue Runtime::typeofScopeObjectProperty(ExecutionEngine *engine, const Value &context, int propertyIndex) { Scope scope(engine); ScopedValue prop(scope, getQmlScopeObjectProperty(engine, context, propertyIndex)); if (scope.engine->hasException) return Encode::undefined(); return Runtime::typeofValue(engine, prop); } ReturnedValue Runtime::typeofContextObjectProperty(ExecutionEngine *engine, const Value &context, int propertyIndex) { Scope scope(engine); ScopedValue prop(scope, getQmlContextObjectProperty(engine, context, propertyIndex)); if (scope.engine->hasException) return Encode::undefined(); return Runtime::typeofValue(engine, prop); } #endif // V4_BOOTSTRAP QV4::ReturnedValue Runtime::typeofMember(ExecutionEngine *engine, const Value &base, int nameIndex) { Scope scope(engine); ScopedString name(scope, engine->current->compilationUnit->runtimeStrings[nameIndex]); ScopedObject obj(scope, base.toObject(engine)); if (scope.engine->hasException) return Encode::undefined(); ScopedValue prop(scope, obj->get(name)); return Runtime::typeofValue(engine, prop); } QV4::ReturnedValue Runtime::typeofElement(ExecutionEngine *engine, const Value &base, const Value &index) { Scope scope(engine); ScopedString name(scope, index.toString(engine)); ScopedObject obj(scope, base.toObject(engine)); if (scope.engine->hasException) return Encode::undefined(); ScopedValue prop(scope, obj->get(name)); return Runtime::typeofValue(engine, prop); } ReturnedValue Runtime::unwindException(ExecutionEngine *engine) { if (!engine->hasException) return Primitive::emptyValue().asReturnedValue(); return engine->catchException(0); } /* The next three methods are a bit tricky. They can't open up a Scope, as that * would mess up the pushing of the context. * * Instead the push/pop pair acts as a non local scope. */ void Runtime::pushWithScope(const Value &o, ExecutionEngine *engine) { engine->pushContext(engine->currentContext->newWithContext(o.toObject(engine))); Q_ASSERT(engine->jsStackTop == engine->currentContext + 2); } void Runtime::pushCatchScope(NoThrowEngine *engine, int exceptionVarNameIndex) { ExecutionContext *c = engine->currentContext; engine->pushContext(c->newCatchContext(c->d()->compilationUnit->runtimeStrings[exceptionVarNameIndex], engine->catchException(0))); Q_ASSERT(engine->jsStackTop == engine->currentContext + 2); } void Runtime::popScope(ExecutionEngine *engine) { Q_ASSERT(engine->jsStackTop == engine->currentContext + 2); engine->popContext(); engine->jsStackTop -= 2; } void Runtime::declareVar(ExecutionEngine *engine, bool deletable, int nameIndex) { Scope scope(engine); ScopedString name(scope, engine->current->compilationUnit->runtimeStrings[nameIndex]); engine->currentContext->createMutableBinding(name, deletable); } ReturnedValue Runtime::arrayLiteral(ExecutionEngine *engine, Value *values, uint length) { return engine->newArrayObject(values, length)->asReturnedValue(); } ReturnedValue Runtime::objectLiteral(ExecutionEngine *engine, const QV4::Value *args, int classId, int arrayValueCount, int arrayGetterSetterCountAndFlags) { Scope scope(engine); QV4::InternalClass *klass = engine->current->compilationUnit->runtimeClasses[classId]; ScopedObject o(scope, engine->newObject(klass, engine->objectPrototype())); { bool needSparseArray = arrayGetterSetterCountAndFlags >> 30; if (needSparseArray) o->initSparseArray(); } for (uint i = 0; i < klass->size; ++i) *o->propertyData(i) = *args++; if (arrayValueCount > 0) { ScopedValue entry(scope); for (int i = 0; i < arrayValueCount; ++i) { uint idx = args->toUInt32(); ++args; entry = *args++; o->arraySet(idx, entry); } } uint arrayGetterSetterCount = arrayGetterSetterCountAndFlags & ((1 << 30) - 1); if (arrayGetterSetterCount > 0) { ScopedProperty pd(scope); for (uint i = 0; i < arrayGetterSetterCount; ++i) { uint idx = args->toUInt32(); ++args; pd->value = *args; ++args; pd->set = *args; ++args; o->arraySet(idx, pd, Attr_Accessor); } } return o.asReturnedValue(); } QV4::ReturnedValue Runtime::setupArgumentsObject(ExecutionEngine *engine) { Q_ASSERT(engine->current->type == Heap::ExecutionContext::Type_CallContext); QV4::CallContext *c = static_cast(engine->currentContext); QV4::InternalClass *ic = c->d()->strictMode ? engine->strictArgumentsObjectClass : engine->argumentsObjectClass; return engine->memoryManager->allocObject(ic, engine->objectPrototype(), c)->asReturnedValue(); } #endif // V4_BOOTSTRAP QV4::ReturnedValue Runtime::increment(const Value &value) { TRACE1(value); if (value.isInteger() && value.integerValue() < INT_MAX) return Encode(value.integerValue() + 1); else { double d = value.toNumber(); return Encode(d + 1.); } } QV4::ReturnedValue Runtime::decrement(const Value &value) { TRACE1(value); if (value.isInteger() && value.integerValue() > INT_MIN) return Encode(value.integerValue() - 1); else { double d = value.toNumber(); return Encode(d - 1.); } } #ifndef V4_BOOTSTRAP QV4::ReturnedValue RuntimeHelpers::toString(ExecutionEngine *engine, const Value &value) { if (value.isString()) return value.asReturnedValue(); return RuntimeHelpers::convertToString(engine, value)->asReturnedValue(); } QV4::ReturnedValue RuntimeHelpers::toObject(ExecutionEngine *engine, const Value &value) { if (value.isObject()) return value.asReturnedValue(); Heap::Object *o = RuntimeHelpers::convertToObject(engine, value); if (!o) // type error return Encode::undefined(); return Encode(o); } #endif // V4_BOOTSTRAP ReturnedValue Runtime::toDouble(const Value &value) { TRACE1(value); return Encode(value.toNumber()); } int Runtime::toInt(const Value &value) { TRACE1(value); return value.toInt32(); } int Runtime::doubleToInt(const double &d) { TRACE0(); return Primitive::toInt32(d); } unsigned Runtime::toUInt(const Value &value) { TRACE1(value); return value.toUInt32(); } unsigned Runtime::doubleToUInt(const double &d) { TRACE0(); return Primitive::toUInt32(d); } #ifndef V4_BOOTSTRAP ReturnedValue Runtime::getQmlContext(NoThrowEngine *engine) { return engine->qmlContext()->asReturnedValue(); } ReturnedValue Runtime::regexpLiteral(ExecutionEngine *engine, int id) { return engine->current->compilationUnit->runtimeRegularExpressions[id].asReturnedValue(); } ReturnedValue Runtime::getQmlQObjectProperty(ExecutionEngine *engine, const Value &object, int propertyIndex, bool captureRequired) { Scope scope(engine); QV4::Scoped wrapper(scope, object); if (!wrapper) { engine->throwTypeError(QStringLiteral("Cannot read property of null")); return Encode::undefined(); } return QV4::QObjectWrapper::getProperty(scope.engine, wrapper->object(), propertyIndex, captureRequired); } QV4::ReturnedValue Runtime::getQmlAttachedProperty(ExecutionEngine *engine, int attachedPropertiesId, int propertyIndex) { QObject *scopeObject = engine->qmlScopeObject(); QObject *attachedObject = qmlAttachedPropertiesObjectById(attachedPropertiesId, scopeObject); QJSEngine *jsEngine = engine->jsEngine(); QQmlData::ensurePropertyCache(jsEngine, attachedObject); return QV4::QObjectWrapper::getProperty(engine, attachedObject, propertyIndex, /*captureRequired*/true); } ReturnedValue Runtime::getQmlScopeObjectProperty(ExecutionEngine *engine, const Value &context, int propertyIndex) { const QmlContext &c = static_cast(context); return QV4::QObjectWrapper::getProperty(engine, c.d()->qml->scopeObject, propertyIndex, false); } ReturnedValue Runtime::getQmlContextObjectProperty(ExecutionEngine *engine, const Value &context, int propertyIndex) { const QmlContext &c = static_cast(context); return QV4::QObjectWrapper::getProperty(engine, c.d()->qml->context->contextObject, propertyIndex, false); } ReturnedValue Runtime::getQmlSingletonQObjectProperty(ExecutionEngine *engine, const Value &object, int propertyIndex, bool captureRequired) { Scope scope(engine); QV4::Scoped wrapper(scope, object); if (!wrapper) { scope.engine->throwTypeError(QStringLiteral("Cannot read property of null")); return Encode::undefined(); } return QV4::QObjectWrapper::getProperty(scope.engine, wrapper->singletonObject(), propertyIndex, captureRequired); } ReturnedValue Runtime::getQmlIdObject(ExecutionEngine *engine, const Value &c, uint index) { Scope scope(engine); const QmlContext &qmlContext = static_cast(c); QQmlContextData *context = qmlContext.d()->qml->context; if (!context || index >= (uint)context->idValueCount) return Encode::undefined(); QQmlEnginePrivate *ep = engine->qmlEngine() ? QQmlEnginePrivate::get(engine->qmlEngine()) : 0; if (ep && ep->propertyCapture) ep->propertyCapture->captureProperty(&context->idValues[index].bindings); return QObjectWrapper::wrap(engine, context->idValues[index].data()); } void Runtime::setQmlScopeObjectProperty(ExecutionEngine *engine, const Value &context, int propertyIndex, const Value &value) { const QmlContext &c = static_cast(context); return QV4::QObjectWrapper::setProperty(engine, c.d()->qml->scopeObject, propertyIndex, value); } void Runtime::setQmlContextObjectProperty(ExecutionEngine *engine, const Value &context, int propertyIndex, const Value &value) { const QmlContext &c = static_cast(context); return QV4::QObjectWrapper::setProperty(engine, c.d()->qml->context->contextObject, propertyIndex, value); } void Runtime::setQmlQObjectProperty(ExecutionEngine *engine, const Value &object, int propertyIndex, const Value &value) { Scope scope(engine); QV4::Scoped wrapper(scope, object); if (!wrapper) { engine->throwTypeError(QStringLiteral("Cannot write property of null")); return; } wrapper->setProperty(engine, propertyIndex, value); } ReturnedValue Runtime::getQmlImportedScripts(NoThrowEngine *engine) { QQmlContextData *context = engine->callingQmlContext(); if (!context) return Encode::undefined(); return context->importedScripts.value(); } QV4::ReturnedValue Runtime::getQmlSingleton(QV4::NoThrowEngine *engine, int nameIndex) { Scope scope(engine); ScopedString name(scope, engine->current->compilationUnit->runtimeStrings[nameIndex]); return engine->qmlSingletonWrapper(name); } void Runtime::convertThisToObject(ExecutionEngine *engine) { Value *t = &engine->current->callData->thisObject; if (t->isObject()) return; if (t->isNullOrUndefined()) { *t = engine->globalObject->asReturnedValue(); } else { *t = t->toObject(engine)->asReturnedValue(); } } #endif // V4_BOOTSTRAP } // namespace QV4 QT_END_NAMESPACE