pcsx2/plugins/GSdx_legacy/baseclasses/combase.h

320 lines
10 KiB
C++

//------------------------------------------------------------------------------
// File: ComBase.h
//
// Desc: DirectShow base classes - defines a class hierarchy for creating
// COM objects.
//
// Copyright (c) Microsoft Corporation. All rights reserved.
//------------------------------------------------------------------------------
/*
a. Derive your COM object from CUnknown
b. Make a static CreateInstance function that takes an LPUNKNOWN, an HRESULT *
and a TCHAR *. The LPUNKNOWN defines the object to delegate IUnknown calls
to. The HRESULT * allows error codes to be passed around constructors and
the TCHAR * is a descriptive name that can be printed on the debugger.
It is important that constructors only change the HRESULT * if they have
to set an ERROR code, if it was successful then leave it alone or you may
overwrite an error code from an object previously created.
When you call a constructor the descriptive name should be in static store
as we do not copy the string. To stop large amounts of memory being used
in retail builds by all these static strings use the NAME macro,
CMyFilter = new CImplFilter(NAME("My filter"),pUnknown,phr);
if (FAILED(hr)) {
return hr;
}
In retail builds NAME(_x_) compiles to NULL, the base CBaseObject class
knows not to do anything with objects that don't have a name.
c. Have a constructor for your object that passes the LPUNKNOWN, HRESULT * and
TCHAR * to the CUnknown constructor. You can set the HRESULT if you have an
error, or just simply pass it through to the constructor.
The object creation will fail in the class factory if the HRESULT indicates
an error (ie FAILED(HRESULT) == TRUE)
d. Create a FactoryTemplate with your object's class id and CreateInstance
function.
Then (for each interface) either
Multiple inheritance
1. Also derive it from ISomeInterface
2. Include DECLARE_IUNKNOWN in your class definition to declare
implementations of QueryInterface, AddRef and Release that
call the outer unknown
3. Override NonDelegatingQueryInterface to expose ISomeInterface by
code something like
if (riid == IID_ISomeInterface) {
return GetInterface((ISomeInterface *) this, ppv);
} else {
return CUnknown::NonDelegatingQueryInterface(riid, ppv);
}
4. Declare and implement the member functions of ISomeInterface.
or: Nested interfaces
1. Declare a class derived from CUnknown
2. Include DECLARE_IUNKNOWN in your class definition
3. Override NonDelegatingQueryInterface to expose ISomeInterface by
code something like
if (riid == IID_ISomeInterface) {
return GetInterface((ISomeInterface *) this, ppv);
} else {
return CUnknown::NonDelegatingQueryInterface(riid, ppv);
}
4. Implement the member functions of ISomeInterface. Use GetOwner() to
access the COM object class.
And in your COM object class:
5. Make the nested class a friend of the COM object class, and declare
an instance of the nested class as a member of the COM object class.
NOTE that because you must always pass the outer unknown and an hResult
to the CUnknown constructor you cannot use a default constructor, in
other words you will have to make the member variable a pointer to the
class and make a NEW call in your constructor to actually create it.
6. override the NonDelegatingQueryInterface with code like this:
if (riid == IID_ISomeInterface) {
return m_pImplFilter->
NonDelegatingQueryInterface(IID_ISomeInterface, ppv);
} else {
return CUnknown::NonDelegatingQueryInterface(riid, ppv);
}
You can have mixed classes which support some interfaces via multiple
inheritance and some via nested classes
*/
#ifndef __COMBASE__
#define __COMBASE__
// Filter Setup data structures no defined in axextend.idl
typedef REGPINTYPES
AMOVIESETUP_MEDIATYPE, * PAMOVIESETUP_MEDIATYPE, * FAR LPAMOVIESETUP_MEDIATYPE;
typedef REGFILTERPINS
AMOVIESETUP_PIN, * PAMOVIESETUP_PIN, * FAR LPAMOVIESETUP_PIN;
typedef struct _AMOVIESETUP_FILTER
{
const CLSID * clsID;
const WCHAR * strName;
DWORD dwMerit;
UINT nPins;
const AMOVIESETUP_PIN * lpPin;
}
AMOVIESETUP_FILTER, * PAMOVIESETUP_FILTER, * FAR LPAMOVIESETUP_FILTER;
/* The DLLENTRY module initialises the module handle on loading */
extern HINSTANCE g_hInst;
/* On DLL load remember which platform we are running on */
extern DWORD g_amPlatform;
extern OSVERSIONINFO g_osInfo; // Filled in by GetVersionEx
/* Version of IUnknown that is renamed to allow a class to support both
non delegating and delegating IUnknowns in the same COM object */
#ifndef INONDELEGATINGUNKNOWN_DEFINED
DECLARE_INTERFACE(INonDelegatingUnknown)
{
STDMETHOD(NonDelegatingQueryInterface) (THIS_ REFIID, LPVOID *) PURE;
STDMETHOD_(ULONG, NonDelegatingAddRef)(THIS) PURE;
STDMETHOD_(ULONG, NonDelegatingRelease)(THIS) PURE;
};
#define INONDELEGATINGUNKNOWN_DEFINED
#endif
typedef INonDelegatingUnknown *PNDUNKNOWN;
/* This is the base object class that supports active object counting. As
part of the debug facilities we trace every time a C++ object is created
or destroyed. The name of the object has to be passed up through the class
derivation list during construction as you cannot call virtual functions
in the constructor. The downside of all this is that every single object
constructor has to take an object name parameter that describes it */
class CBaseObject
{
private:
// Disable the copy constructor and assignment by default so you will get
// compiler errors instead of unexpected behaviour if you pass objects
// by value or assign objects.
CBaseObject(const CBaseObject& objectSrc); // no implementation
void operator=(const CBaseObject& objectSrc); // no implementation
private:
static LONG m_cObjects; /* Total number of objects active */
protected:
#ifdef DEBUG
DWORD m_dwCookie; /* Cookie identifying this object */
#endif
public:
/* These increment and decrement the number of active objects */
CBaseObject(const TCHAR *pName);
#ifdef UNICODE
CBaseObject(const char *pName);
#endif
~CBaseObject();
/* Call this to find if there are any CUnknown derived objects active */
static LONG ObjectsActive() {
return m_cObjects;
};
};
/* An object that supports one or more COM interfaces will be based on
this class. It supports counting of total objects for DLLCanUnloadNow
support, and an implementation of the core non delegating IUnknown */
class AM_NOVTABLE CUnknown : public INonDelegatingUnknown,
public CBaseObject
{
private:
const LPUNKNOWN m_pUnknown; /* Owner of this object */
protected: /* So we can override NonDelegatingRelease() */
volatile LONG m_cRef; /* Number of reference counts */
public:
CUnknown(const TCHAR *pName, LPUNKNOWN pUnk);
virtual ~CUnknown() {};
// This is redundant, just use the other constructor
// as we never touch the HRESULT in this anyway
CUnknown(TCHAR *pName, LPUNKNOWN pUnk,HRESULT *phr);
#ifdef UNICODE
CUnknown(const char *pName, LPUNKNOWN pUnk);
CUnknown(char *pName, LPUNKNOWN pUnk,HRESULT *phr);
#endif
/* Return the owner of this object */
LPUNKNOWN GetOwner() const {
return m_pUnknown;
};
/* Called from the class factory to create a new instance, it is
pure virtual so it must be overriden in your derived class */
/* static CUnknown *CreateInstance(LPUNKNOWN, HRESULT *) */
/* Non delegating unknown implementation */
STDMETHODIMP NonDelegatingQueryInterface(REFIID, void **);
STDMETHODIMP_(ULONG) NonDelegatingAddRef();
STDMETHODIMP_(ULONG) NonDelegatingRelease();
};
#if (_MSC_VER <= 1200)
#pragma warning(disable:4211)
/* The standard InterlockedXXX functions won't take volatiles */
static inline LONG WINAPI InterlockedIncrement( volatile LONG * plong )
{ return InterlockedIncrement( const_cast<LONG*>( plong ) ); }
static inline LONG WINAPI InterlockedDecrement( volatile LONG * plong )
{ return InterlockedDecrement( const_cast<LONG*>( plong ) ); }
#pragma warning(default:4211)
#endif
/* Return an interface pointer to a requesting client
performing a thread safe AddRef as necessary */
STDAPI GetInterface(LPUNKNOWN pUnk, void **ppv);
/* A function that can create a new COM object */
typedef CUnknown *(CALLBACK *LPFNNewCOMObject)(LPUNKNOWN pUnkOuter, HRESULT *phr);
/* A function (can be NULL) which is called from the DLL entrypoint
routine for each factory template:
bLoading - TRUE on DLL load, FALSE on DLL unload
rclsid - the m_ClsID of the entry
*/
typedef void (CALLBACK *LPFNInitRoutine)(BOOL bLoading, const CLSID *rclsid);
/* Create one of these per object class in an array so that
the default class factory code can create new instances */
class CFactoryTemplate {
public:
const WCHAR * m_Name;
const CLSID * m_ClsID;
LPFNNewCOMObject m_lpfnNew;
LPFNInitRoutine m_lpfnInit;
const AMOVIESETUP_FILTER * m_pAMovieSetup_Filter;
BOOL IsClassID(REFCLSID rclsid) const {
return (IsEqualCLSID(*m_ClsID,rclsid));
};
CUnknown *CreateInstance(LPUNKNOWN pUnk, HRESULT *phr) const {
CheckPointer(phr,NULL);
return m_lpfnNew(pUnk, phr);
};
};
/* You must override the (pure virtual) NonDelegatingQueryInterface to return
interface pointers (using GetInterface) to the interfaces your derived
class supports (the default implementation only supports IUnknown) */
#define DECLARE_IUNKNOWN \
STDMETHODIMP QueryInterface(REFIID riid, void **ppv) { \
return GetOwner()->QueryInterface(riid,ppv); \
}; \
STDMETHODIMP_(ULONG) AddRef() { \
return GetOwner()->AddRef(); \
}; \
STDMETHODIMP_(ULONG) Release() { \
return GetOwner()->Release(); \
};
HINSTANCE LoadOLEAut32();
#endif /* __COMBASE__ */