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tdelibs/kjs/object.h

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// -*- c-basic-offset: 2 -*-
/*
* This file is part of the KDE libraries
* Copyright (C) 1999-2001 Harri Porten (porten@kde.org)
* Copyright (C) 2001 Peter Kelly (pmk@post.com)
* 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_OBJECT_H_
#define _KJS_OBJECT_H_
// Objects
#include "value.h"
#include "types.h"
#include "reference_list.h"
#include "identifier.h"
#include "property_map.h"
#include "scope_chain.h"
namespace KJS {
class ObjectImpPrivate;
class PropertyMap;
class HashTable;
struct HashEntry;
class ListImp;
/** Attributes (only applicable to the Object type).
* See ECMA 262-3 8.6.1
*/
enum Attribute { None = 0,
ReadOnly = 1 << 1, ///< property can be only read, not written
DontEnum = 1 << 2, ///< property doesn't appear in (for .. in ..)
DontDelete = 1 << 3, ///< property can't be deleted
Internal = 1 << 4, ///< an internal property, set to by pass checks
Function = 1 << 5 }; ///< property is a function - only used by static hashtables
/**
* Class Information
*/
struct ClassInfo {
/**
* A string denoting the class name. Example: "Window".
*/
const char* className;
/**
* Pointer to the class information of the base class.
* 0L if there is none.
*/
const ClassInfo *parentClass;
/**
* Static hash-table of properties.
*/
const HashTable *propHashTable;
/**
* Reserved for future extension.
*/
void *dummy;
};
/**
* Represents an Object. This is a wrapper for ObjectImp
*/
class KJS_EXPORT Object : public Value {
public:
Object() { }
explicit Object(ObjectImp *v);
ObjectImp *imp() const;
const ClassInfo *classInfo() const;
bool inherits(const ClassInfo *cinfo) const;
/**
* Converts a Value into an Object. If the value's type is not ObjectType,
* 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
* ObjectType, you should check the isValid() methods afterwards before
* calling any methods on the Object.
*
* @return The value converted to an object
*/
static Object dynamicCast(const Value &v);
/**
* Returns the prototype of this object. Note that this is not the same as
* the "prototype" property.
*
* See ECMA 8.6.2
*
* @return The object's prototype
*/
Value prototype() const;
/**
* Returns the class name of the object
*
* See ECMA 8.6.2
*
* @return The object's class name
*/
UString className() const;
/**
* Retrieves the specified property from the object. If neither the object
* or any other object in it's prototype chain have the property, this
* function will return Undefined.
*
* See ECMA 8.6.2.1
*
* @param exec The current execution state
* @param propertyName The name of the property to retrieve
*
* @return The specified property, or Undefined
*/
Value get(ExecState *exec, const Identifier &propertyName) const;
Value get(ExecState *exec, unsigned propertyName) const;
/**
* Sets the specified property.
*
* See ECMA 8.6.2.2
*
* @param exec The current execution state
* @param propertyName The name of the property to set
* @param value The value to set
* @param attr The Attribute value for the property
*/
void put(ExecState *exec, const Identifier &propertyName,
const Value &value, int attr = None);
void put(ExecState *exec, unsigned propertyName,
const Value &value, int attr = None);
/**
* Used to check whether or not a particular property is allowed to be set
* on an object
*
* See ECMA 8.6.2.3
*
* @param exec The current execution state
* @param propertyName The name of the property
* @return true if the property can be set, otherwise false
*/
bool canPut(ExecState *exec, const Identifier &propertyName) const;
/**
* Checks to see whether the object (or any object in it's prototype chain)
* has a property with the specified name.
*
* See ECMA 8.6.2.4
*
* @param exec The current execution state
* @param propertyName The name of the property to check for
* @return true if the object has the property, otherwise false
*/
bool hasProperty(ExecState *exec, const Identifier &propertyName) const;
bool hasProperty(ExecState *exec, unsigned propertyName) const;
/**
* Removes the specified property from the object.
*
* See ECMA 8.6.2.5
*
* @param exec The current execution state
* @param propertyName The name of the property to delete
* @return true if the property was successfully deleted or did not
* exist on the object. false if deleting the specified property is not
* allowed.
*/
bool deleteProperty(ExecState *exec, const Identifier &propertyName);
bool deleteProperty(ExecState *exec, unsigned propertyName);
/**
* Converts the object into a primitive value. The value return may differ
* depending on the supplied hint
*
* See ECMA 8.6.2.6
*
* @param exec The current execution state
* @param hint The desired primitive type to convert to
* @return A primitive value converted from the objetc. Note that the
* type of primitive value returned may not be the same as the requested
* hint.
*/
Value defaultValue(ExecState *exec, Type hint) const;
/**
* Whether or not the object implements the construct() method. If this
* returns false you should not call the construct() method on this
* object (typically, an assertion will fail to indicate this).
*
* @return true if this object implements the construct() method, otherwise
* false
*/
bool implementsConstruct() const;
/**
* Creates a new object based on this object. Typically this means the
* following:
* 1. A new object is created
* 2. The prototype of the new object is set to the value of this object's
* "prototype" property
* 3. The call() method of this object is called, with the new object
* passed as the this value
* 4. The new object is returned
*
* In some cases, Host objects may differ from these semantics, although
* this is discouraged.
*
* If an error occurs during construction, the execution state's exception
* will be set. This can be tested for with ExecState::hadException().
* Under some circumstances, the exception object may also be returned.
*
* Note: This function should not be called if implementsConstruct() returns
* false, in which case it will result in an assertion failure.
*
* @param exec The current execution state
* @param args The arguments to be passed to call() once the new object has
* been created
* @return The newly created &amp; initialized object
*/
Object construct(ExecState *exec, const List &args);
/**
* Whether or not the object implements the call() method. If this returns
* false you should not call the call() method on this object (typically,
* an assertion will fail to indicate this).
*
* @return true if this object implements the call() method, otherwise
* false
*/
bool implementsCall() const;
/**
* Calls this object as if it is a function.
*
* Note: This function should not be called if implementsCall() returns
* false, in which case it will result in an assertion failure.
*
* See ECMA 8.6.2.3
*
* @param exec The current execution state
* @param thisObj The obj to be used as "this" within function execution.
* Note that in most cases this will be different from the C++ "this"
* object. For example, if the ECMAScript code "window.location.toString()"
* is executed, call() will be invoked on the C++ object which implements
* the toString method, with the thisObj being window.location
* @param args List of arguments to be passed to the function
* @return The return value from the function
*/
Value call(ExecState *exec, Object &thisObj, const List &args);
/**
* Whether or not the object implements the hasInstance() method. If this
* returns false you should not call the hasInstance() method on this
* object (typically, an assertion will fail to indicate this).
*
* @return true if this object implements the hasInstance() method,
* otherwise false
*/
bool implementsHasInstance() const;
/**
* Checks whether value delegates behavior to this object. Used by the
* instanceof operator.
*
* @param exec The current execution state
* @param value The value to check
* @return true if value delegates behavior to this object, otherwise
* false
*/
Boolean hasInstance(ExecState *exec, const Value &value);
/**
* Returns the scope of this object. This is used when execution declared
* functions - the execution context for the function is initialized with
* extra object in it's scope. An example of this is functions declared
* inside other functions:
*
* \code
* function f() {
*
* function b() {
* return prototype;
* }
*
* var x = 4;
* // do some stuff
* }
* f.prototype = new String();
* \endcode
*
* When the function f.b is executed, its scope will include properties of
* f. So in the example above the return value of f.b() would be the new
* String object that was assigned to f.prototype.
*
* @return The function's scope
*/
const ScopeChain &scope() const;
void setScope(const ScopeChain &s);
/**
* Returns a List of References to all the properties of the object. Used
* in "for x in y" statements. The list is created new, so it can be freely
* modified without affecting the object's properties. It should be deleted
* by the caller.
*
* Subclasses can override this method in ObjectImpl to provide the
* appearance of
* having extra properties other than those set specifically with put().
*
* @param exec The current execution state
* @param recursive Whether or not properties in the object's prototype
* chain should be
* included in the list.
* @return A List of References to properties of the object.
**/
ReferenceList propList(ExecState *exec, bool recursive = true);
/**
* Returns the internal value of the object. This is used for objects such
* as String and Boolean which are wrappers for native types. The interal
* value is the actual value represented by the wrapper objects.
*
* @see ECMA 8.6.2
* @return The internal value of the object
*/
Value internalValue() const;
/**
* Sets the internal value of the object
*
* @see internalValue()
*
* @param v The new internal value
*/
void setInternalValue(const Value &v);
};
inline Object Value::toObject(ExecState *exec) const { return rep->dispatchToObject(exec); }
class KJS_EXPORT ObjectImp : public ValueImp {
friend class ObjectProtoFuncImp;
public:
/**
* Creates a new ObjectImp with the specified prototype
*
* @param proto The prototype
*/
ObjectImp(const Object &proto);
ObjectImp(ObjectImp *proto);
/**
* Creates a new ObjectImp with a prototype of Null()
* (that is, the ECMAScript "null" value, not a null Object).
*
*/
ObjectImp();
virtual ~ObjectImp();
virtual void mark();
Type type() const;
/**
* A pointer to a ClassInfo struct for this class. This provides a basic
* facility for run-time type information, and can be used to check an
* object's class an inheritance (see inherits()). This should
* always return a statically declared pointer, or 0 to indicate that
* there is no class information.
*
* This is primarily useful if you have application-defined classes that you
* wish to check against for casting purposes.
*
* For example, to specify the class info for classes FooImp and BarImp,
* where FooImp inherits from BarImp, you would add the following in your
* class declarations:
*
* \code
* class BarImp : public ObjectImp {
* virtual const ClassInfo *classInfo() const { return &info; }
* static const ClassInfo info;
* // ...
* };
*
* class FooImp : public ObjectImp {
* virtual const ClassInfo *classInfo() const { return &info; }
* static const ClassInfo info;
* // ...
* };
* \endcode
*
* And in your source file:
*
* \code
* const ClassInfo BarImp::info = {0, 0, 0}; // no parent class
* const ClassInfo FooImp::info = {&BarImp::info, 0, 0};
* \endcode
*
* @see inherits()
*/
virtual const ClassInfo *classInfo() const;
/**
* Checks whether this object inherits from the class with the specified
* classInfo() pointer. This requires that both this class and the other
* class return a non-NULL pointer for their classInfo() methods (otherwise
* it will return false).
*
* For example, for two ObjectImp pointers obj1 and obj2, you can check
* if obj1's class inherits from obj2's class using the following:
*
* if (obj1->inherits(obj2->classInfo())) {
* // ...
* }
*
* If you have a handle to a statically declared ClassInfo, such as in the
* classInfo() example, you can check for inheritance without needing
* an instance of the other class:
*
* if (obj1->inherits(FooImp::info)) {
* // ...
* }
*
* @param cinfo The ClassInfo pointer for the class you want to check
* inheritance against.
* @return true if this object's class inherits from class with the
* ClassInfo pointer specified in cinfo
*/
bool inherits(const ClassInfo *cinfo) const;
// internal properties (ECMA 262-3 8.6.2)
/**
* Implementation of the [[Prototype]] internal property (implemented by
* all Objects)
*
* @see Object::prototype()
*/
Value prototype() const;
void setPrototype(const Value &proto);
/**
* Implementation of the [[Class]] internal property (implemented by all
* Objects)
*
* The default implementation uses classInfo().
* You should either implement classInfo(), or
* if you simply need a classname, you can reimplement className()
* instead.
*
* @see Object::className()
*/
virtual UString className() const;
/**
* Implementation of the [[Get]] internal property (implemented by all
* Objects)
*
* @see Object::get()
*/
// [[Get]] - must be implemented by all Objects
virtual Value get(ExecState *exec, const Identifier &propertyName) const;
virtual Value getPropertyByIndex(ExecState *exec,
unsigned propertyName) const;
/**
* Implementation of the [[Put]] internal property (implemented by all
* Objects)
*
* @see Object::put()
*/
virtual void put(ExecState *exec, const Identifier &propertyName,
const Value &value, int attr = None);
virtual void putPropertyByIndex(ExecState *exec, unsigned propertyName,
const Value &value, int attr = None);
/**
* Implementation of the [[CanPut]] internal property (implemented by all
* Objects)
*
* @see Object::canPut()
*/
virtual bool canPut(ExecState *exec, const Identifier &propertyName) const;
/**
* Implementation of the [[HasProperty]] internal property (implemented by
* all Objects)
*
* @see Object::hasProperty()
*/
virtual bool hasProperty(ExecState *exec,
const Identifier &propertyName) const;
virtual bool hasPropertyByIndex(ExecState *exec, unsigned propertyName) const;
/**
* Implementation of the [[Delete]] internal property (implemented by all
* Objects)
*
* @see Object::deleteProperty()
*/
virtual bool deleteProperty(ExecState *exec,
const Identifier &propertyName);
virtual bool deletePropertyByIndex(ExecState *exec, unsigned propertyName);
/**
* Remove all properties from this object.
* This doesn't take DontDelete into account, and isn't in the ECMA spec.
* It's simply a quick way to remove everything before destroying.
*/
void deleteAllProperties(ExecState *);
/**
* Implementation of the [[DefaultValue]] internal property (implemented by
* all Objects)
*
* @see Object::defaultValue()
*/
virtual Value defaultValue(ExecState *exec, Type hint) const;
virtual bool implementsConstruct() const;
/**
* Implementation of the [[Construct]] internal property
*
* @see Object::construct()
*/
virtual Object construct(ExecState *exec, const List &args);
virtual bool implementsCall() const;
/**
* Implementation of the [[Call]] internal property
*
* @see Object::call()
*/
virtual Value call(ExecState *exec, Object &thisObj,
const List &args);
virtual bool implementsHasInstance() const;
/**
* Implementation of the [[HasInstance]] internal property
*
* @see Object::hasInstance()
*/
virtual Boolean hasInstance(ExecState *exec, const Value &value);
/**
* Implementation of the [[Scope]] internal property
*
* @see Object::scope()
*/
const ScopeChain &scope() const { return _scope; }
void setScope(const ScopeChain &s) { _scope = s; }
virtual ReferenceList propList(ExecState *exec, bool recursive = true);
Value internalValue() const;
void setInternalValue(const Value &v);
void setInternalValue(ValueImp *v);
Value toPrimitive(ExecState *exec,
Type preferredType = UnspecifiedType) const;
bool toBoolean(ExecState *exec) const;
double toNumber(ExecState *exec) const;
UString toString(ExecState *exec) const;
Object toObject(ExecState *exec) const;
// This get method only looks at the property map.
// A bit like hasProperty(recursive=false), this doesn't go to the prototype.
// This is used e.g. by lookupOrCreateFunction (to cache a function, we don't want
// to look up in the prototype, it might already exist there)
ValueImp *getDirect(const Identifier& propertyName) const
{ return _prop.get(propertyName); }
void putDirect(const Identifier &propertyName, ValueImp *value, int attr = 0);
void putDirect(const Identifier &propertyName, int value, int attr = 0);
/**
* Sets the name of the function, if this is an InternalFunctionImp object.
* (calling InternalFunctionImp::setName)
*/
void setFunctionName(const Identifier &propertyName);
protected:
PropertyMap _prop;
private:
const HashEntry* tqfindPropertyHashEntry( const Identifier& propertyName ) const;
ObjectImpPrivate *_od;
ValueImp *_proto;
ValueImp *_internalValue;
ScopeChain _scope;
};
/**
* Types of Native Errors available. For custom errors, GeneralError
* should be used.
*/
enum ErrorType { GeneralError = 0,
EvalError = 1,
RangeError = 2,
ReferenceError = 3,
SyntaxError = 4,
TypeError = 5,
URIError = 6};
/**
* @short Factory methods for error objects.
*/
class KJS_EXPORT Error {
public:
/**
* Factory method for error objects.
*
* @param exec The current execution state
* @param errtype Type of error.
* @param message Optional error message.
* @param lineno Optional line number.
* @param sourceId Optional source id.
*/
static Object create(ExecState *exec, ErrorType errtype = GeneralError,
const char *message = 0, int lineno = -1,
int sourceId = -1);
/**
* Array of error names corresponding to ErrorType
*/
static const char * const * const errorNames;
};
inline Object::Object(ObjectImp *v) : Value(v) { }
inline ObjectImp *Object::imp() const { return static_cast<ObjectImp*>(rep); }
inline const ClassInfo *Object::classInfo() const
{ return imp()->classInfo(); }
inline bool Object::inherits(const ClassInfo *cinfo) const
{ return imp()->inherits(cinfo); }
inline Value Object::prototype() const
{ return Value(imp()->prototype()); }
inline UString Object::className() const
{ return imp()->className(); }
inline Value Object::get(ExecState *exec, const Identifier &propertyName) const
{ return imp()->get(exec,propertyName); }
inline Value Object::get(ExecState *exec, unsigned propertyName) const
{ return imp()->getPropertyByIndex(exec, propertyName); }
inline void Object::put(ExecState *exec, const Identifier &propertyName, const Value &value, int attr)
{ imp()->put(exec,propertyName,value,attr); }
inline void Object::put(ExecState *exec, unsigned propertyName, const Value &value, int attr)
{ imp()->putPropertyByIndex(exec, propertyName, value, attr); }
inline bool Object::canPut(ExecState *exec, const Identifier &propertyName) const
{ return imp()->canPut(exec,propertyName); }
inline bool Object::hasProperty(ExecState *exec, const Identifier &propertyName) const
{ return imp()->hasProperty(exec, propertyName); }
inline bool Object::hasProperty(ExecState *exec, unsigned propertyName) const
{ return imp()->hasPropertyByIndex(exec, propertyName); }
inline bool Object::deleteProperty(ExecState *exec, const Identifier &propertyName)
{ return imp()->deleteProperty(exec,propertyName); }
inline bool Object::deleteProperty(ExecState *exec, unsigned propertyName)
{ return imp()->deletePropertyByIndex(exec, propertyName); }
inline Value Object::defaultValue(ExecState *exec, Type hint) const
{ return imp()->defaultValue(exec,hint); }
inline bool Object::implementsConstruct() const
{ return imp()->implementsConstruct(); }
inline Object Object::construct(ExecState *exec, const List &args)
{ return imp()->construct(exec,args); }
inline bool Object::implementsCall() const
{ return imp()->implementsCall(); }
inline bool Object::implementsHasInstance() const
{ return imp()->implementsHasInstance(); }
inline Boolean Object::hasInstance(ExecState *exec, const Value &value)
{ return imp()->hasInstance(exec,value); }
inline const ScopeChain &Object::scope() const
{ return imp()->scope(); }
inline void Object::setScope(const ScopeChain &s)
{ imp()->setScope(s); }
inline ReferenceList Object::propList(ExecState *exec, bool recursive)
{ return imp()->propList(exec,recursive); }
inline Value Object::internalValue() const
{ return imp()->internalValue(); }
inline void Object::setInternalValue(const Value &v)
{ imp()->setInternalValue(v); }
} // namespace
#endif // _KJS_OBJECT_H_