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/*
* This file is part of the KDE libraries
* Copyright (C) 1999-2001 Harri Porten ([email protected])
* Copyright (C) 2001 Peter Kelly ([email protected])
* Copyright (C) 2003 Apple Computer, Inc.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Library General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Library General Public License for more details.
*
* You should have received a copy of the GNU Library General Public License
* along with this library; see the file COPYING.LIB. If not, write to
* the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
* Boston, MA 02110-1301, USA.
*
*/
#ifndef _KJS_VALUE_H_
#define _KJS_VALUE_H_
#include <stdlib.h> // Needed for size_t
#include "ustring.h"
#include "simple_number.h"
// Primitive data types
namespace KJS {
class Value;
class ValueImp;
class ValueImpPrivate;
class Undefined;
class UndefinedImp;
class Null;
class NullImp;
class Boolean;
class BooleanImp;
class String;
class StringImp;
class Number;
class NumberImp;
class Object;
class ObjectImp;
class Reference;
class List;
class ListImp;
class Completion;
class ExecState;
/**
* Primitive types
*/
enum Type {
UnspecifiedType = 0,
UndefinedType = 1,
NullType = 2,
BooleanType = 3,
StringType = 4,
NumberType = 5,
ObjectType = 6
};
/**
* ValueImp is the base type for all primitives (Undefined, Null, Boolean,
* String, Number) and objects in ECMAScript.
*
* Note: you should never inherit from ValueImp as it is for primitive types
* only (all of which are provided internally by KJS). Instead, inherit from
* ObjectImp.
*/
class KJS_EXPORT ValueImp {
friend class Collector;
friend class Value;
friend class ContextImp;
public:
ValueImp();
virtual ~ValueImp();
ValueImp* ref() { if (!SimpleNumber::is(this)) refcount++; return this; }
bool deref() { if (SimpleNumber::is(this)) return false; else return (!--refcount); }
virtual void mark();
bool marked() const;
void* operator new(size_t);
void operator delete(void*);
/**
* @internal
*
* set by Object() so that the collector is allowed to delete us
*/
void setGcAllowed();
// Will crash if called on a simple number.
void setGcAllowedFast() { _flags |= VI_GCALLOWED; }
int toInteger(ExecState *exec) const;
int toInt32(ExecState *exec) const;
unsigned int toUInt32(ExecState *exec) const;
unsigned short toUInt16(ExecState *exec) const;
// Dispatch wrappers that handle the special small number case
Type dispatchType() const;
Value dispatchToPrimitive(ExecState *exec, Type preferredType = UnspecifiedType) const;
bool dispatchToBoolean(ExecState *exec) const;
double dispatchToNumber(ExecState *exec) const;
UString dispatchToString(ExecState *exec) const;
bool dispatchToUInt32(unsigned&) const;
Object dispatchToObject(ExecState *exec) const;
unsigned short int refcount;
bool isDestroyed() const { return _flags & VI_DESTRUCTED; }
private:
unsigned short int _flags;
virtual Type type() const = 0;
// The conversion operations
virtual Value toPrimitive(ExecState *exec, Type preferredType = UnspecifiedType) const = 0;
virtual bool toBoolean(ExecState *exec) const = 0;
virtual double toNumber(ExecState *exec) const = 0;
// TODO: no need for the following 4 int conversions to be virtual
virtual UString toString(ExecState *exec) const = 0;
virtual Object toObject(ExecState *exec) const = 0;
virtual bool toUInt32(unsigned&) const;
enum {
VI_MARKED = 1,
VI_GCALLOWED = 2,
VI_CREATED = 4,
VI_DESTRUCTED = 8 // nice word we have here :)
}; // VI means VALUEIMPL
ValueImpPrivate *_vd;
// Give a compile time error if we try to copy one of these.
ValueImp(const ValueImp&);
ValueImp& operator=(const ValueImp&);
};
/**
* Value objects are act as wrappers ("smart pointers") around ValueImp
* objects and their descendents. Instead of using ValueImps
* (and derivatives) during normal program execution, you should use a
* Value-derived class.
*
* Value maintains a pointer to a ValueImp object and uses a reference
* counting scheme to ensure that the ValueImp object is not deleted or
* garbage collected.
*
* Note: The conversion operations all return values of various types -
* if an error occurs during conversion, an error object will instead
* be returned (where possible), and the execution state's exception
* will be set appropriately.
*/
class KJS_EXPORT Value {
public:
Value() : rep(0) { }
explicit Value(ValueImp *v);
Value(const Value &v);
~Value();
Value& operator=(const Value &v);
/**
* Returns whether or not this is a valid value. An invalid value
* has a 0 implementation pointer and should not be used for
* any other operation than this check. Current use: as a
* distinct return value signalling failing dynamicCast() calls.
*/
bool isValid() const { return rep != 0; }
/**
* @deprecated
* Use !isValid() instead.
*/
bool isNull() const { return rep == 0; }
ValueImp *imp() const { return rep; }
/**
* Returns the type of value. This is one of UndefinedType, NullType,
* BooleanType, StringType, NumberType, or ObjectType.
*
* @return The type of value
*/
Type type() const { return rep->dispatchType(); }
/**
* Checks whether or not the value is of a particular tpye
*
* @param t The type to compare with
* @return true if the value is of the specified type, otherwise false
*/
bool isA(Type t) const { return rep->dispatchType() == t; }
/**
* Performs the ToPrimitive type conversion operation on this value
* (ECMA 9.1)
*/
Value toPrimitive(ExecState *exec,
Type preferredType = UnspecifiedType) const
{ return rep->dispatchToPrimitive(exec, preferredType); }
/**
* Performs the ToBoolean type conversion operation on this value (ECMA 9.2)
*/
bool toBoolean(ExecState *exec) const { return rep->dispatchToBoolean(exec); }
/**
* Performs the ToNumber type conversion operation on this value (ECMA 9.3)
*/
double toNumber(ExecState *exec) const { return rep->dispatchToNumber(exec); }
/**
* Performs the ToInteger type conversion operation on this value (ECMA 9.4)
*/
int toInteger(ExecState *exec) const { return rep->toInteger(exec); }
/**
* Performs the ToInt32 type conversion operation on this value (ECMA 9.5)
*/
int toInt32(ExecState *exec) const { return rep->toInt32(exec); }
/**
* Performs the ToUInt32 type conversion operation on this value (ECMA 9.6)
*/
unsigned int toUInt32(ExecState *exec) const { return rep->toUInt32(exec); }
/**
* Performs the ToUInt16 type conversion operation on this value (ECMA 9.7)
*/
unsigned short toUInt16(ExecState *exec) const { return rep->toUInt16(exec); }
/**
* Performs the ToString type conversion operation on this value (ECMA 9.8)
*/
UString toString(ExecState *exec) const { return rep->dispatchToString(exec); }
/**
* Performs the ToObject type conversion operation on this value (ECMA 9.9)
*/
Object toObject(ExecState *exec) const;
/**
* Checks if we can do a lossless conversion to UInt32.
*/
bool toUInt32(unsigned& i) const { return rep->dispatchToUInt32(i); }
protected:
ValueImp *rep;
};
// Primitive types
/**
* Represents an primitive Undefined value. All instances of this class
* share the same implementation object, so == will always return true
* for any comparison between two Undefined objects.
*/
class KJS_EXPORT Undefined : public Value {
public:
Undefined();
/**
* Converts a Value into an Undefined. If the value's type is not
* UndefinedType, a null object will be returned (i.e. one with it's
* internal pointer set to 0). If you do not know for sure whether the
* value is of type UndefinedType, you should check the isValid()
* methods afterwards before calling any methods on the returned value.
*
* @return The value converted to an Undefined
*/
static Undefined dynamicCast(const Value &v);
private:
friend class UndefinedImp;
explicit Undefined(UndefinedImp *v);
};
/**
* Represents an primitive Null value. All instances of this class
* share the same implementation object, so == will always return true
* for any comparison between two Null objects.
*/
class KJS_EXPORT Null : public Value {
public:
Null();
/**
* Converts a Value into an Null. If the value's type is not NullType,
* a null object will be returned (i.e. one with it's internal pointer set
* to 0). If you do not know for sure whether the value is of type
* NullType, you should check the isValid() methods afterwards before
* calling any methods on the returned value.
*
* @return The value converted to a Null
*/
static Null dynamicCast(const Value &v);
private:
friend class NullImp;
explicit Null(NullImp *v);
};
/**
* Represents an primitive Boolean value
*/
class KJS_EXPORT Boolean : public Value {
public:
Boolean(bool b = false);
/**
* Converts a Value into an Boolean. If the value's type is not BooleanType,
* a null object will be returned (i.e. one with it's internal pointer set
* to 0). If you do not know for sure whether the value is of type
* BooleanType, you should check the isValid() methods afterwards before
* calling any methods on the returned value.
*
* @return The value converted to a Boolean
*/
static Boolean dynamicCast(const Value &v);
bool value() const;
private:
friend class BooleanImp;
explicit Boolean(BooleanImp *v);
};
/**
* Represents an primitive String value
*/
class KJS_EXPORT String : public Value {
public:
String(const UString &s = "");
/**
* Converts a Value into an String. If the value's type is not StringType,
* a null object will be returned (i.e. one with it's internal pointer set
* to 0). If you do not know for sure whether the value is of type
* StringType, you should check the isValid() methods afterwards before
* calling any methods on the returned value.
*
* @return The value converted to a String
*/
static String dynamicCast(const Value &v);
UString value() const;
private:
friend class StringImp;
explicit String(StringImp *v);
};
extern const double NaN;
extern const double Inf;
/**
* Represents an primitive Number value
*/
class KJS_EXPORT Number : public Value {
friend class ValueImp;
public:
Number(int i);
Number(unsigned int u);
Number(double d = 0.0);
Number(long int l);
Number(long unsigned int l);
double value() const;
int intValue() const;
bool isNaN() const;
bool isInf() const;
/**
* Converts a Value into an Number. If the value's type is not NumberType,
* a null object will be returned (i.e. one with it's internal pointer set
* to 0). If you do not know for sure whether the value is of type
* NumberType, you should check the isNull() methods afterwards before
* calling any methods on the returned value.
*
* @return The value converted to a Number
*/
static Number dynamicCast(const Value &v);
private:
friend class NumberImp;
explicit Number(NumberImp *v);
};
} // namespace
#endif // _KJS_VALUE_H_
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