windows-nt/Source/XPSP1/NT/public/sdk/inc/stdobj.hxx

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//+---------------------------------------------------------------------------
//
// Microsoft Windows
// Copyright (c) Microsoft Corporation. All rights reserved.
//
// File: stdobj.hxx
//
// Contents: Standard component object support
//
// History: 3-June-93 MikeSe Created
//
// Notes: The contents of this file provide a standard infrastructure
// for implementing (aggregatable) component objects, an amalgam
// or work done by JohnEls and DonCl.
//
// The infrastructure supplies implementations of all the IUnknown
// methods (both controlling and private), leaving the developer
// to provide only the following:
//
// - initialisation
// - destruction
// - non-IUnknown methods of supported interfaces.
//
// The infrastructure assumes a static class factory object
// (probably although not necessarily implemented using
// CStdClassFactory) and a static description of the interfaces
// supported or delegated through member variables.
//
// Summary of usage:
//
// 1. Declare your class as inheriting from CStdComponentObject.
// Within the class definition, invoke the DECLARE_DELEGATED_UNKNOWN
// macro to declare the required IUnknown methods. Do not include
// IUnknown explicitly in the list of interface supported.
//
// 2. Use the BEGIN_CLASS, SUPPORTS(_EX), DELEGATES*
// and END_CLASS macros to initialise the static class factory
// and class descriptor for the class. This can be placed in any
// convenient source file.
//
// These macros assume the following naming conventions, for
// an implementation class named <cls>:
//
// - the class factory class is named <cls>CF.
// - the class factory instance is named gcf<cls>Factory
// - the class id for the class is named CLSID_<cls>
// - the class descriptor for the class is named gcd<cls>Descriptor
//
// If you do not adhere to these conventions you will need to
// duplicate the effect of the BEGIN_CLASS macro by hand, or
// provide #define's of the above names to the actual names.
//
// 3. Implement class initialisation. A two-phase approach is used.
// Any failure-free initialisation can be performed in the
// constructor for the class, which *must* also invoke
// the CStdComponentObject constructor, either through the
// INIT_CLASS macro or an equivalent.
//
// If any of the initialisation is failure prone, provide an
// implementation of the _InitInstance method which performs
// this initialisation and returns an appropriate result code
// in the contract of IClassFactory::CreateInstance.
//
// 4. Implement a destructor for your class, if you have any shutdown
// requirements. The destructor should not assume that your
// _InitInstance method (if any) has been called.
//
// 5. Implement the CreateInstance method for your class factory
// (or _CreateInstance if using CStdClassFactory). This should
// issue a 'new' on your class, and then invoke the (inherited)
// InitInstance method.
//
// If you are using CStdClassFactory, you can use the
// IMPLEMENT_CLASSFACTORY macro (defined in common\ih\stdclass.hxx)
// to implement the _CreateInstance method, or in any case
// you can look at the macro to get an idea of the general structure
// you must follow.
//
//----------------------------------------------------------------------------
#ifndef __STDOBJ_HXX__
#define __STDOBJ_HXX__
#include <windows.h>
#include <ole2.h>
#include <otrack.hxx>
//+-------------------------------------------------------------------------
//
// Class: ITFDELTA
//
// Purpose: Defines an interface supported or delegated to.
//
// Notes: if piid is non-NULL
// - a ulDelta with bit 31 set indicates a natively supported
// interface, and (ulDelta&0x7FFFFFFF) gives the value which
// must be added to the object's this pointer in order to
// transform into the required interface pointer.
// [in other words, the equivalent of doing (IFoo*)this]
// - a ulDelta with bit 30 set indicates an interface pointer
// which can be loaded directly from a member variable
// at the offset (ulDelta&0x3FFFFFFF) from the object's this
// pointer.
// - otherwise ulDelta indicates an offset from the object's
// this pointer to a member variable containing an IUnknown
// pointer (a delegatee) which can be QI'd to get the interface
// specified by piid.
// if piid is NULL,
// - ulDelta == 0x80000000L indicates the end of the table
// for the class.
// - otherwise, ulDelta gives the offset to an "else" delegatee
// member variable. (See the DELEGATE_ELSE macro below).
//
//--------------------------------------------------------------------------
class ITFDELTA
{
public:
const IID * piid;
ULONG ulDelta;
};
#define ITF_SUPPORTED 0x80000000L
#define ITF_NO_QI 0x40000000L
#define ITF_END 0x80000000L
#define NOTDELEGATED(ulDelta) ((ulDelta & ITF_SUPPORTED)!=0)
#define QIREQUIRED(ulDelta) ((ulDelta & ITF_NO_QI)==0)
#define GETDELTA(ulDelta) (ulDelta & 0x3FFFFFFFL)
#define MEMBEROFFSET(c,m) ((ULONG)&(((c *)0)->m))
//+---------------------------------------------------------------------------
//
// Macros: SUPPORTS, SUPPORTS_EX, DELEGATES_DIRECT, DELEGATES_QI,
// DELEGATES_ANY, END_INTERFACES
//
// These macros are used to declare ITFDELTA structures of various kinds.
// They are intended to be used in conjunction with the BEGIN_CLASS and
// END_CLASS macros (see below) and may not work correctly if used
// otherwise.
//
// SUPPORTS is used to specify an interface that is supported directly
// on the specified class.
//
// SUPPORTS_EX is used when an interface is inherited through more than one
// parent, and you need to express which one to use.
// SUPPORTS_EX(CFoo, IFoo, IPersist) says to use the IPersist inherited from
// IFoo (as opposed to the one inherited from IPersistFile, say).
//
// DELEGATES_DIRECT specifies a member variable of the class which contains an
// interface pointer to the specified interface.
// IE: DELEGATES_DIRECT(CFoo,IFoo,_pmem) implies that _pmem is of type IFoo*.
//
// DELEGATES_QI is similar, except it specifies that the interface must be
// obtained by issuing a QueryInterface on the pointer in the member variable.
// (Thus the member variable can be of any type deriving from IUnknown). The
// QueryInterface operation is permitted to fail.
//
// DELEGATES_ANY is similar to DELEGATES_QI except that any interface may
// be requested from the referred to member variable. Thus it is a kind of
// catchall.
//
// END_INTERFACES marks the end of the list. It is not used when END_CLASS
// (see below) is used.
//
// Do not put semicolons at the ends of these statements.
//
// The built-in implementation of QueryInterface processes the ITFDELTA array
// in the class descriptor in order, stopping as soon as the requested interface
// is obtained. Thus DELEGATES_ANY entries, of which there may be several,
// will normally appear last.
//
// If an interface which is part of a derivation chain is supported (eg:
// IPersistStream, deriving from IPersist) then all the interfaces, except
// IUnknown, must be listed. (i.e both IPersist and IPersistStream).
//
//----------------------------------------------------------------------------
#define SUPPORTS(clsname, itfname) \
{ \
&IID_##itfname, \
((ULONG)((VOID *) ((itfname *)(clsname *) ITF_SUPPORTED))) \
},
#define SUPPORTS_EX(clsname, itfprimary, itfname) \
{ \
&IID_##itfname, \
((ULONG)(VOID *)(itfname *)((itfprimary *)((clsname *) ITF_SUPPORTED))) \
},
#define DELEGATES_DIRECT(clsname, itfname, iunkptr) \
{ \
&IID_##itfname, \
MEMBEROFFSET(clsname, iunkptr)|ITF_NO_QI \
},
#define DELEGATES_QI(clsname, itfname, iunkptr) \
{ \
&IID_##itfname, \
MEMBEROFFSET(clsname, iunkptr) \
},
#define DELEGATES_ANY(clsname, iunkptr) \
{ \
NULL, \
MEMBEROFFSET(clsname, iunkptr) \
},
#define END_INTERFACES \
{ \
NULL, \
ITF_END \
}
//+-------------------------------------------------------------------------
//
// Class: CLASSDESCRIPTION
//
// Purpose: Static description of class required by infrastructure.
//
// Notes: When creating a CLASSDESCRIPTOR, use the SUPPORTS etc.
// macros to declare the entries in the aitfd array (or
// better still, use BEGIN_CLASS etc to create the whole
// descriptor).
//
//--------------------------------------------------------------------------
#if _MSC_VER >= 1200
#pragma warning(push)
#endif
#pragma warning ( disable: 4200 ) // valid use of open struct
class CLASSDESCRIPTOR
{
public:
const CLSID * pcls; // the class id
char * pszClassName; // for object tracking, the
// printable name of the class
IClassFactory * pcf; // the class factory for the
// class, assumed static
ITFDELTA aitfd[]; // supported/delegated interfaces
};
#if _MSC_VER >= 1200
#pragma warning(pop)
#else
#pragma warning ( default: 4200 )
#endif
//+-------------------------------------------------------------------------
//
// Macro: CLASSFACTORY_NAME, CLASSDESCRIPTOR_NAME
//
// Purpose: These macros generate the standard names for the class factory
// and class descriptor instances for a class.
//
// Notes:
//
//--------------------------------------------------------------------------
#define CLASSFACTORY_NAME(cls) gcf##cls##Factory
#define CLASSDESCRIPTOR_NAME(cls) gcd##cls##Descriptor
//+-------------------------------------------------------------------------
//
// Macro: BEGIN_CLASS
//
// Purpose: Declare the class factory and the first part of the
// class descriptor.
//
// Notes: This macro is usually followed by zero or more ITFDELTA
// declaration macros (SUPPORTS, etc) and then END_CLASS.
//
//--------------------------------------------------------------------------
#define BEGIN_CLASS(cls) \
cls##CF CLASSFACTORY_NAME(cls); \
\
CLASSDESCRIPTOR CLASSDESCRIPTOR_NAME(cls) = { \
&CLSID_##cls, \
#cls, \
(IClassFactory*)&gcf##cls##Factory, \
{
//+-------------------------------------------------------------------------
//
// Macro: END_CLASS
//
// Purpose: Complete the declaration of the class descriptor.
//
// Notes:
//
//--------------------------------------------------------------------------
#define END_CLASS \
END_INTERFACES \
} \
};
//+-------------------------------------------------------------------------
//
// Class: CStdComponentObject
//
// Purpose: Standard base class from which to derive aggregatable component
// classes.
//
// Interface: CStdComponentObject [constructor]
// InitInstance [second phase initialisation,
// do not override].
// ~CStdComponentObject [virtual destructor]
// _InitInstance [virtual, override to provide
// class-specific second phase
// initialisation].
// _QueryInterface [virtual, override to provide last
// ditch QueryInterface operation ].
//
// Notes: "Last ditch" QI operation means anything which cannot be
// described in a static ITFDELTA. The _QueryInterface method
// (if provided) is invoked only if the requested interface
// cannot be satisfied via the ITFDELTA table.
//
// The order of the method declarations is important, because
// it allows us to safely cast a CStdComponentObject to an IUnknown
// without actually deriving from it.
//
//--------------------------------------------------------------------------
class CStdComponentObject: INHERIT_TRACKING
{
private:
//
// pseudo-IUnknown methods
//
STDMETHOD(PrimaryQueryInterface) (REFIID riid, void** ppv);
STDMETHOD_(ULONG,PrimaryAddRef) (void);
STDMETHOD_(ULONG,PrimaryRelease) (void);
//
// Two-phase constructor.
//
protected:
CStdComponentObject ( const CLASSDESCRIPTOR * pcd );
public:
HRESULT InitInstance (
IUnknown* punkOuter,
REFIID riid,
void** ppv );
//
// Destructor
//
virtual ~CStdComponentObject(void);
protected:
// Override the following method to provide last-ditch QueryInterface
// behaviour.
STDMETHOD(_QueryInterface) ( REFIID riid, void** ppv );
// Override the following method to provide class-specific failure-prone
// initialisation. Status codes returned must be in the set defined
// as valid for IClassFactory::CreateInstance.
STDMETHOD(_InitInstance) ( void );
const CLASSDESCRIPTOR* _pcd;
IUnknown* _punkControlling;
};
//+-------------------------------------------------------------------------
//
// Macro: DECLARE_DELEGATED_UNKNOWN
//
// Synopsis: Implements IUnknown methods that simply delegate to the
// corresponding methods on the controlling IUnknown object.
//
// Note: Use this macro when declaring a subclass of CStdComponentObject.
// Invoke it anywhere within the public portion of your class
// definition. If you sub-subclass, you must invoke this macro
// at each level. EG:
//
// class CMyMain: CStdComponentObject, IFoo
//
// class CMySub: CMyMain, IBar
//
// then both CMyMain and CMySub must DECLARE_DELEGATED_UNKNOWN.
//
//--------------------------------------------------------------------------
#define DECLARE_DELEGATED_UNKNOWN \
\
STDMETHOD(QueryInterface) (REFIID riid, void** ppv) \
{ \
return _punkControlling->QueryInterface(riid, ppv); \
}; \
\
STDMETHOD_(ULONG,AddRef) () \
{ \
return _punkControlling->AddRef(); \
}; \
\
STDMETHOD_(ULONG,Release) () \
{ \
return _punkControlling->Release(); \
};
//+-------------------------------------------------------------------------
//
// Macro: INIT_CLASS
//
// Purpose: Call constructor of base class correctly.
//
// Notes: This macro should be invoked in the initialisation
// phase of the constructor for the component class
// deriving from CStdComponentObject, viz:
//
// CMyClass::CMyClass ()
// :INIT_CLASS(CMyClass)
// other initialisations
// {...
//
// Use of this macro requires the class descriptor to
// be named according to the convention described previously.
// If this is not so (eg: you didn't use BEGIN_CLASS) you
// must write your own equivalent invocation.
//
// If you sub-subclass, you must declare the constructor
// for the subclass appropriately, so that the class descriptor
// for the sub-subclass can be passed through to CStdComponentObject.
//
//--------------------------------------------------------------------------
#define INIT_CLASS(cls) CStdComponentObject ( &CLASSDESCRIPTOR_NAME(cls) )
#endif // of ifndef __STDOBJ_HXX__