#define MAKE_MEDIA_PATH(pFileName) (TEXT("C:\\Program Files (x86)\\LEAD Technologies\\LEADTOOLS 19\\Media\\")TEXT(pFileName))
#define WM_CONVERTNOTIFY (WM_USER+1)
IltmmConvert *g_pConvert;
IltmmMemory *g_pSource;
IltmmMemory *g_pTarget;
HRESULT SetAVIRecompression(HWND hwndParent);
void UseltmmMemoryForMemoryConversion_Example (HWND hWnd)
{
{ //1. Create a convert object, g_pSource and g_pTarget objects:
// create a convert object, g_pSource and g_pTarget memory objects
CoCreateInstance(&CLSID_ltmmConvert,
NULL,
CLSCTX_INPROC_SERVER,
&IID_IltmmConvert,
(void**) &g_pConvert);
CoCreateInstance(&CLSID_ltmmMemory,
NULL,
CLSCTX_INPROC_SERVER,
&IID_IltmmMemory,
(void**) &g_pSource);
CoCreateInstance(&CLSID_ltmmMemory,
NULL,
CLSCTX_INPROC_SERVER,
&IID_IltmmMemory,
(void**) &g_pTarget);
} //1. Create a convert object, g_pSource and g_pTarget objects:
// set notify window
IltmmConvert_SetNotifyWindow(g_pConvert, (long)hWnd, WM_CONVERTNOTIFY);
{ //2. Setup the g_pSource object, pre-load it with data:
SAFEARRAY sa;
VARIANT var;
UCHAR arr [100];
long fl = 100;
// Set the buffer size
IltmmMemory_put_BufferSize (g_pSource, fl);
// pass data from the arr BYTE array...
memset(&sa, 0, sizeof(sa));
sa.cbElements = sizeof(unsigned char);
sa.cDims = 1;
sa.fFeatures = (FADF_AUTO | FADF_FIXEDSIZE);
sa.pvData = arr; //data to fill
sa.rgsabound[0].cElements = fl;
VariantInit(&var);
V_VT(&var) = (VT_ARRAY | VT_UI1);
V_ARRAY(&var) = &sa;
IltmmMemory_SetData (g_pSource, 0, fl, var);
} //2. Setup the g_pSource object, preload it with data:
// Set input memory object
IltmmConvert_put_SourceStream(g_pConvert, g_pSource);
// Set output memory object
IltmmConvert_put_TargetStream(g_pConvert, g_pTarget);
// Set recompression
SetAVIRecompression(NULL);
// Start conversion
IltmmConvert_StartConvert (g_pConvert);
}
//
// SetAVIRecompression
// sets up LEAD video compression, MP3 audio compression, and AVI file output
//
// hwndParent = parent window for compressor property dialog boxes
//
HRESULT SetAVIRecompression(HWND hwndParent)
{
IltmmCompressors *pCompressors;
long index;
VARIANT_BOOL f;
BSTR bstr;
// select the LEAD video compressor
IltmmConvert_get_VideoCompressors(g_pConvert, &pCompressors);
bstr = SysAllocString(L"@device:sw:{33D9A760-90C8-11D0-BD43-00A0C911CE86}\\LEAD MCMP/MJPEG Codec (2.0)");
IltmmCompressors_Find (pCompressors , bstr, &index);
SysFreeString(bstr);
if(index < 0)
{
// compressor isn't registered
IltmmCompressors_Release (pCompressors);
return E_FAIL;
}
IltmmCompressors_put_Selection (pCompressors, index);
IltmmCompressors_Release(pCompressors);
// select the MP3 audio video compressor
IltmmConvert_get_AudioCompressors(g_pConvert, &pCompressors);
bstr = SysAllocString(L"@device:cm:{33D9A761-90C8-11D0-BD43-00A0C911CE86}\\85MPEG Layer-3");
IltmmCompressors_Find(pCompressors, bstr, &index);
SysFreeString(bstr);
if(index < 0)
{
// compressor isn't registered
IltmmCompressors_Release (pCompressors);
return E_FAIL;
}
IltmmCompressors_put_Selection (pCompressors, index);
IltmmCompressors_Release(pCompressors);
// set output format to AVI
IltmmConvert_put_TargetFormat (g_pConvert, ltmmConvert_TargetFormat_Avi);
// set video compressor properties
IltmmConvert_HasDialog(g_pConvert, ltmmConvert_Dlg_VideoCompressor, &f);
if(f)
IltmmConvert_ShowDialog (g_pConvert, ltmmConvert_Dlg_VideoCompressor, (long) hwndParent);
// set audio compressor properties
IltmmConvert_HasDialog(g_pConvert, ltmmConvert_Dlg_AudioCompressor, &f);
if(f)
IltmmConvert_ShowDialog(g_pConvert, ltmmConvert_Dlg_AudioCompressor, (long) hwndParent);
return S_OK;
}
//3. Handle the notification window to plot the data and save it to a file:
LRESULT OnConvertNotify(WPARAM wParam, LPARAM lParam)
{
lParam = lParam ;
switch(wParam)
{
case ltmmConvert_Notify_Complete:
{
// Indicates a successful completion of the conversion process.
HANDLE hFile = NULL;
long fl = 0;
unsigned long lBytesWritten;
IltmmMemory *pTarget = NULL;
VARIANT varData;
unsigned char *pBuffer = NULL;
SAFEARRAY sa;
// write the data to a file
hFile = CreateFile( MAKE_MEDIA_PATH("Target.avi"), // open file name
GENERIC_WRITE, // open for writing
FILE_SHARE_READ, // share for reading
NULL, // no security
CREATE_ALWAYS, // re-create the file
FILE_ATTRIBUTE_NORMAL, // normal file
NULL); // no attr. template
IltmmConvert_get_TargetStream(g_pConvert, (IUnknown**)&pTarget);
if(!pTarget)
break;
IltmmMemory_get_BufferSize(pTarget, &fl);
VariantInit(&varData);
// pass data
memset(&sa, 0, sizeof(sa));
sa.cbElements = sizeof(unsigned char);
sa.cDims = 1;
sa.fFeatures = (FADF_AUTO | FADF_FIXEDSIZE);
sa.pvData = (UCHAR*) malloc(fl*sizeof (UCHAR));
sa.rgsabound[0].cElements = fl;
V_VT(&varData) = (VT_ARRAY | VT_UI1);
V_ARRAY(&varData) = &sa;
//
// To lock the buffer for synchronization, use the following
// line instead of the line below :
// IltmmMemory_LockBuffer (pTarget, &varData);
// or
// IltmmMemory_LockRegion (pTarget, 0, fl, &varData);
// You may also use the IltmmMemory_GetData() function
// To get the data without allocating a SAFEARRAY :
// IltmmMemory_GetData (pTarget, 0, fl, &varData);
//
IltmmMemory_CopyData(pTarget, 0, fl, &varData);
SafeArrayAccessData(V_ARRAY(&varData), (void**)&pBuffer);
WriteFile(hFile, pBuffer, fl, &lBytesWritten, NULL);
{// Plot data on screen
char dataPlot[255];
char data[20];
short sData;
int i;
dataPlot[0] = '\0' ;
for(i=0; i<fl ; i++)
{
IltmmMemory_GetByte (pTarget, i, &sData);
strcat (dataPlot,"0x");
strcat (dataPlot,ltoa(sData, data, 16));
strcat (dataPlot," ");
}
printf ("%s", dataPlot);
}// Plot data on screen
// if IltmmMemory_LockBuffer() or
// IltmmMemory_LockRegion() is used,
// IltmmMemory_Unloack() must be called :
// IltmmMemory_Unlock (pTarget);
SafeArrayUnaccessData(V_ARRAY(&varData));
VariantClear(&varData);
CloseHandle(hFile);
IltmmMemory_Release(pTarget);
}
break;
}
return 0;
}
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