pcsx2/plugins/GSdx/baseclasses/combase.cpp

//------------------------------------------------------------------------------
// File: ComBase.cpp
//
// Desc: DirectShow base classes - implements class hierarchy for creating
//       COM objects.
//
// Copyright (c) Microsoft Corporation.  All rights reserved.
//------------------------------------------------------------------------------


#include "streams.h"
#pragma warning( disable : 4514 )   // Disable warnings re unused inline functions


/* Define the static member variable */

LONG CBaseObject::m_cObjects = 0;


/* Constructor */

CBaseObject::CBaseObject(const TCHAR *pName)
{
    /* Increment the number of active objects */
    InterlockedIncrement(&m_cObjects);

#ifdef DEBUG

#ifdef UNICODE
    m_dwCookie = DbgRegisterObjectCreation(0, pName);
#else
    m_dwCookie = DbgRegisterObjectCreation(pName, 0);
#endif

#endif
}

#ifdef UNICODE
CBaseObject::CBaseObject(const char *pName)
{
    /* Increment the number of active objects */
    InterlockedIncrement(&m_cObjects);

#ifdef DEBUG
    m_dwCookie = DbgRegisterObjectCreation(pName, 0);
#endif
}
#endif

HINSTANCE	hlibOLEAut32;

/* Destructor */

CBaseObject::~CBaseObject()
{
    /* Decrement the number of objects active */
    if (InterlockedDecrement(&m_cObjects) == 0) {
	if (hlibOLEAut32) {
	    FreeLibrary(hlibOLEAut32);

	    hlibOLEAut32 = 0;
	}
    };


#ifdef DEBUG
    DbgRegisterObjectDestruction(m_dwCookie);
#endif
}

static const TCHAR szOle32Aut[]   = TEXT("OleAut32.dll");

HINSTANCE LoadOLEAut32()
{
    if (hlibOLEAut32 == 0) {

	hlibOLEAut32 = LoadLibrary(szOle32Aut);
    }

    return hlibOLEAut32;
}


/* Constructor */

// We know we use "this" in the initialization list, we also know we don't modify *phr.
#pragma warning( disable : 4355 4100 )
CUnknown::CUnknown(const TCHAR *pName, LPUNKNOWN pUnk)
: CBaseObject(pName)
/* Start the object with a reference count of zero - when the      */
/* object is queried for it's first interface this may be          */
/* incremented depending on whether or not this object is          */
/* currently being aggregated upon                                 */
, m_cRef(0)
/* Set our pointer to our IUnknown interface.                      */
/* If we have an outer, use its, otherwise use ours.               */
/* This pointer effectivly points to the owner of                  */
/* this object and can be accessed by the GetOwner() method.       */
, m_pUnknown( pUnk != 0 ? pUnk : reinterpret_cast<LPUNKNOWN>( static_cast<PNDUNKNOWN>(this) ) )
 /* Why the double cast?  Well, the inner cast is a type-safe cast */
 /* to pointer to a type from which we inherit.  The second is     */
 /* type-unsafe but works because INonDelegatingUnknown "behaves   */
 /* like" IUnknown. (Only the names on the methods change.)        */
{
    // Everything we need to do has been done in the initializer list
}

// This does the same as above except it has a useless HRESULT argument
// use the previous constructor, this is just left for compatibility...
CUnknown::CUnknown(TCHAR *pName, LPUNKNOWN pUnk,HRESULT *phr) :
    CBaseObject(pName),
    m_cRef(0),
    m_pUnknown( pUnk != 0 ? pUnk : reinterpret_cast<LPUNKNOWN>( static_cast<PNDUNKNOWN>(this) ) )
{
}

#ifdef UNICODE
CUnknown::CUnknown(const CHAR *pName, LPUNKNOWN pUnk)
: CBaseObject(pName), m_cRef(0),
    m_pUnknown( pUnk != 0 ? pUnk : reinterpret_cast<LPUNKNOWN>( static_cast<PNDUNKNOWN>(this) ) )
{ }

CUnknown::CUnknown(CHAR *pName, LPUNKNOWN pUnk,HRESULT *phr) :
    CBaseObject(pName), m_cRef(0),
    m_pUnknown( pUnk != 0 ? pUnk : reinterpret_cast<LPUNKNOWN>( static_cast<PNDUNKNOWN>(this) ) )
{ }

#endif

#pragma warning( default : 4355 4100 )


/* QueryInterface */

STDMETHODIMP CUnknown::NonDelegatingQueryInterface(REFIID riid, void ** ppv)
{
    CheckPointer(ppv,E_POINTER);
    ValidateReadWritePtr(ppv,sizeof(PVOID));

    /* We know only about IUnknown */

    if (riid == IID_IUnknown) {
        GetInterface((LPUNKNOWN) (PNDUNKNOWN) this, ppv);
        return NOERROR;
    } else {
        *ppv = NULL;
        return E_NOINTERFACE;
    }
}

/* We have to ensure that we DON'T use a max macro, since these will typically   */
/* lead to one of the parameters being evaluated twice.  Since we are worried    */
/* about concurrency, we can't afford to access the m_cRef twice since we can't  */
/* afford to run the risk that its value having changed between accesses.        */

template<class T> inline static T ourmax( const T & a, const T & b )
{
    return a > b ? a : b;
}

/* AddRef */

STDMETHODIMP_(ULONG) CUnknown::NonDelegatingAddRef()
{
    LONG lRef = InterlockedIncrement( &m_cRef );
    ASSERT(lRef > 0);
    DbgLog((LOG_MEMORY,3,TEXT("    Obj %d ref++ = %d"),
           m_dwCookie, m_cRef));
    return ourmax(ULONG(m_cRef), 1ul);
}


/* Release */

STDMETHODIMP_(ULONG) CUnknown::NonDelegatingRelease()
{
    /* If the reference count drops to zero delete ourselves */

    LONG lRef = InterlockedDecrement( &m_cRef );
    ASSERT(lRef >= 0);

    DbgLog((LOG_MEMORY,3,TEXT("    Object %d ref-- = %d"),
	    m_dwCookie, m_cRef));
    if (lRef == 0) {

        // COM rules say we must protect against re-entrancy.
        // If we are an aggregator and we hold our own interfaces
        // on the aggregatee, the QI for these interfaces will
        // addref ourselves. So after doing the QI we must release
        // a ref count on ourselves. Then, before releasing the
        // private interface, we must addref ourselves. When we do
        // this from the destructor here it will result in the ref
        // count going to 1 and then back to 0 causing us to
        // re-enter the destructor. Hence we add an extra refcount here
        // once we know we will delete the object.
        // for an example aggregator see filgraph\distrib.cpp.

        m_cRef++;

        delete this;
        return ULONG(0);
    } else {
        return ourmax(ULONG(m_cRef), 1ul);
    }
}


/* Return an interface pointer to a requesting client
   performing a thread safe AddRef as necessary */

STDAPI GetInterface(LPUNKNOWN pUnk, void **ppv)
{
    CheckPointer(ppv, E_POINTER);
    *ppv = pUnk;
    pUnk->AddRef();
    return NOERROR;
}


/* Compares two interfaces and returns TRUE if they are on the same object */

BOOL WINAPI IsEqualObject(IUnknown *pFirst, IUnknown *pSecond)
{
    /*  Different objects can't have the same interface pointer for
        any interface
    */
    if (pFirst == pSecond) {
        return TRUE;
    }
    /*  OK - do it the hard way - check if they have the same
        IUnknown pointers - a single object can only have one of these
    */
    LPUNKNOWN pUnknown1;     // Retrieve the IUnknown interface
    LPUNKNOWN pUnknown2;     // Retrieve the other IUnknown interface
    HRESULT hr;              // General OLE return code

    ASSERT(pFirst);
    ASSERT(pSecond);

    /* See if the IUnknown pointers match */

    hr = pFirst->QueryInterface(IID_IUnknown,(void **) &pUnknown1);
    ASSERT(SUCCEEDED(hr));
    ASSERT(pUnknown1);

    hr = pSecond->QueryInterface(IID_IUnknown,(void **) &pUnknown2);
    ASSERT(SUCCEEDED(hr));
    ASSERT(pUnknown2);

    /* Release the extra interfaces we hold */

    pUnknown1->Release();
    pUnknown2->Release();
    return (pUnknown1 == pUnknown2);
}
Re-Added eol-style:native properties to the repository. The settings got lost when we merged from Playground to Official. Added interface.cpp (plugin/pcsx2 interface) and savestate.cpp to SPU2ghz, to help clean up SPU2.cpp. git-svn-id: http://pcsx2.googlecode.com/svn/trunk@463 96395faa-99c1-11dd-bbfe-3dabce05a288 2009-02-09 21:15:56 +00:00			`//------------------------------------------------------------------------------`
			`// File: ComBase.cpp`
			`//`
			`// Desc: DirectShow base classes - implements class hierarchy for creating`
			`// COM objects.`
			`//`
			`// Copyright (c) Microsoft Corporation. All rights reserved.`
			`//------------------------------------------------------------------------------`


			`#include "streams.h"`
			`#pragma warning( disable : 4514 ) // Disable warnings re unused inline functions`


			`/* Define the static member variable */`

			`LONG CBaseObject::m_cObjects = 0;`


			`/* Constructor */`

			`CBaseObject::CBaseObject(const TCHAR *pName)`
			`{`
			`/* Increment the number of active objects */`
			`InterlockedIncrement(&m_cObjects);`

			`#ifdef DEBUG`

			`#ifdef UNICODE`
			`m_dwCookie = DbgRegisterObjectCreation(0, pName);`
			`#else`
			`m_dwCookie = DbgRegisterObjectCreation(pName, 0);`
			`#endif`

			`#endif`
			`}`

			`#ifdef UNICODE`
			`CBaseObject::CBaseObject(const char *pName)`
			`{`
			`/* Increment the number of active objects */`
			`InterlockedIncrement(&m_cObjects);`

			`#ifdef DEBUG`
			`m_dwCookie = DbgRegisterObjectCreation(pName, 0);`
			`#endif`
			`}`
			`#endif`

			`HINSTANCE hlibOLEAut32;`

			`/* Destructor */`

			`CBaseObject::~CBaseObject()`
			`{`
			`/* Decrement the number of objects active */`
			`if (InterlockedDecrement(&m_cObjects) == 0) {`
			`if (hlibOLEAut32) {`
			`FreeLibrary(hlibOLEAut32);`

			`hlibOLEAut32 = 0;`
			`}`
			`};`


			`#ifdef DEBUG`
			`DbgRegisterObjectDestruction(m_dwCookie);`
			`#endif`
			`}`

			`static const TCHAR szOle32Aut[] = TEXT("OleAut32.dll");`

			`HINSTANCE LoadOLEAut32()`
			`{`
			`if (hlibOLEAut32 == 0) {`

			`hlibOLEAut32 = LoadLibrary(szOle32Aut);`
			`}`

			`return hlibOLEAut32;`
			`}`


			`/* Constructor */`

			`// We know we use "this" in the initialization list, we also know we don't modify *phr.`
			`#pragma warning( disable : 4355 4100 )`
			`CUnknown::CUnknown(const TCHAR *pName, LPUNKNOWN pUnk)`
			`: CBaseObject(pName)`
			`/* Start the object with a reference count of zero - when the */`
			`/* object is queried for it's first interface this may be */`
			`/* incremented depending on whether or not this object is */`
			`/* currently being aggregated upon */`
			`, m_cRef(0)`
			`/* Set our pointer to our IUnknown interface. */`
			`/* If we have an outer, use its, otherwise use ours. */`
			`/* This pointer effectivly points to the owner of */`
			`/* this object and can be accessed by the GetOwner() method. */`
			`, m_pUnknown( pUnk != 0 ? pUnk : reinterpret_cast<LPUNKNOWN>( static_cast<PNDUNKNOWN>(this) ) )`
			`/* Why the double cast? Well, the inner cast is a type-safe cast */`
			`/* to pointer to a type from which we inherit. The second is */`
			`/* type-unsafe but works because INonDelegatingUnknown "behaves */`
			`/* like" IUnknown. (Only the names on the methods change.) */`
			`{`
			`// Everything we need to do has been done in the initializer list`
			`}`

			`// This does the same as above except it has a useless HRESULT argument`
			`// use the previous constructor, this is just left for compatibility...`
			`CUnknown::CUnknown(TCHAR pName, LPUNKNOWN pUnk,HRESULT phr) :`
			`CBaseObject(pName),`
			`m_cRef(0),`
			`m_pUnknown( pUnk != 0 ? pUnk : reinterpret_cast<LPUNKNOWN>( static_cast<PNDUNKNOWN>(this) ) )`
			`{`
			`}`

			`#ifdef UNICODE`
			`CUnknown::CUnknown(const CHAR *pName, LPUNKNOWN pUnk)`
			`: CBaseObject(pName), m_cRef(0),`
			`m_pUnknown( pUnk != 0 ? pUnk : reinterpret_cast<LPUNKNOWN>( static_cast<PNDUNKNOWN>(this) ) )`
			`{ }`

			`CUnknown::CUnknown(CHAR pName, LPUNKNOWN pUnk,HRESULT phr) :`
			`CBaseObject(pName), m_cRef(0),`
			`m_pUnknown( pUnk != 0 ? pUnk : reinterpret_cast<LPUNKNOWN>( static_cast<PNDUNKNOWN>(this) ) )`
			`{ }`

			`#endif`

			`#pragma warning( default : 4355 4100 )`


			`/* QueryInterface */`

			`STDMETHODIMP CUnknown::NonDelegatingQueryInterface(REFIID riid, void ** ppv)`
			`{`
			`CheckPointer(ppv,E_POINTER);`
			`ValidateReadWritePtr(ppv,sizeof(PVOID));`

			`/* We know only about IUnknown */`

			`if (riid == IID_IUnknown) {`
			`GetInterface((LPUNKNOWN) (PNDUNKNOWN) this, ppv);`
			`return NOERROR;`
			`} else {`
			`*ppv = NULL;`
			`return E_NOINTERFACE;`
			`}`
			`}`

			`/* We have to ensure that we DON'T use a max macro, since these will typically */`
			`/* lead to one of the parameters being evaluated twice. Since we are worried */`
			`/* about concurrency, we can't afford to access the m_cRef twice since we can't */`
			`/* afford to run the risk that its value having changed between accesses. */`

			`template<class T> inline static T ourmax( const T & a, const T & b )`
			`{`
			`return a > b ? a : b;`
			`}`

			`/* AddRef */`

			`STDMETHODIMP_(ULONG) CUnknown::NonDelegatingAddRef()`
			`{`
			`LONG lRef = InterlockedIncrement( &m_cRef );`
			`ASSERT(lRef > 0);`
			`DbgLog((LOG_MEMORY,3,TEXT(" Obj %d ref++ = %d"),`
			`m_dwCookie, m_cRef));`
			`return ourmax(ULONG(m_cRef), 1ul);`
			`}`


			`/* Release */`

			`STDMETHODIMP_(ULONG) CUnknown::NonDelegatingRelease()`
			`{`
			`/* If the reference count drops to zero delete ourselves */`

			`LONG lRef = InterlockedDecrement( &m_cRef );`
			`ASSERT(lRef >= 0);`

			`DbgLog((LOG_MEMORY,3,TEXT(" Object %d ref-- = %d"),`
			`m_dwCookie, m_cRef));`
			`if (lRef == 0) {`

			`// COM rules say we must protect against re-entrancy.`
			`// If we are an aggregator and we hold our own interfaces`
			`// on the aggregatee, the QI for these interfaces will`
			`// addref ourselves. So after doing the QI we must release`
			`// a ref count on ourselves. Then, before releasing the`
			`// private interface, we must addref ourselves. When we do`
			`// this from the destructor here it will result in the ref`
			`// count going to 1 and then back to 0 causing us to`
			`// re-enter the destructor. Hence we add an extra refcount here`
			`// once we know we will delete the object.`
			`// for an example aggregator see filgraph\distrib.cpp.`

			`m_cRef++;`

			`delete this;`
			`return ULONG(0);`
			`} else {`
			`return ourmax(ULONG(m_cRef), 1ul);`
			`}`
			`}`


			`/* Return an interface pointer to a requesting client`
			`performing a thread safe AddRef as necessary */`

			`STDAPI GetInterface(LPUNKNOWN pUnk, void **ppv)`
			`{`
			`CheckPointer(ppv, E_POINTER);`
			`*ppv = pUnk;`
			`pUnk->AddRef();`
			`return NOERROR;`
			`}`


			`/* Compares two interfaces and returns TRUE if they are on the same object */`

			`BOOL WINAPI IsEqualObject(IUnknown pFirst, IUnknown pSecond)`
			`{`
			`/* Different objects can't have the same interface pointer for`
			`any interface`
			`*/`
			`if (pFirst == pSecond) {`
			`return TRUE;`
			`}`
			`/* OK - do it the hard way - check if they have the same`
			`IUnknown pointers - a single object can only have one of these`
			`*/`
			`LPUNKNOWN pUnknown1; // Retrieve the IUnknown interface`
			`LPUNKNOWN pUnknown2; // Retrieve the other IUnknown interface`
			`HRESULT hr; // General OLE return code`

			`ASSERT(pFirst);`
			`ASSERT(pSecond);`

			`/* See if the IUnknown pointers match */`

			`hr = pFirst->QueryInterface(IID_IUnknown,(void **) &pUnknown1);`
			`ASSERT(SUCCEEDED(hr));`
			`ASSERT(pUnknown1);`

			`hr = pSecond->QueryInterface(IID_IUnknown,(void **) &pUnknown2);`
			`ASSERT(SUCCEEDED(hr));`
			`ASSERT(pUnknown2);`

			`/* Release the extra interfaces we hold */`

			`pUnknown1->Release();`
			`pUnknown2->Release();`
			`return (pUnknown1 == pUnknown2);`
			`}`