ReceiveTempSMS
/
Sweden-Number
1
0
Fork 0
Code Issues Pull Requests Releases Wiki Activity
Sweden-Number/libs/jxr/jxrgluelib/JXRGlue.c

931 lines
30 KiB
C
Raw Blame History

//*@@@+++@@@@******************************************************************
//
// Copyright © Microsoft Corp.
// All rights reserved.
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are met:
//
// • Redistributions of source code must retain the above copyright notice,
// this list of conditions and the following disclaimer.
// • Redistributions in binary form must reproduce the above copyright notice,
// this list of conditions and the following disclaimer in the documentation
// and/or other materials provided with the distribution.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
// AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
// IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
// ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE
// LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
// CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
// SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
// INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
// CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
// ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
// POSSIBILITY OF SUCH DAMAGE.
//
//*@@@---@@@@******************************************************************
#include <stdlib.h>
#include <ctype.h>
#define INITGUID
#include <JXRGlue.h>
//================================================================
const PKIID IID_PKImageScanEncode = 1;
const PKIID IID_PKImageFrameEncode = 2;
const PKIID IID_PKImageUnsupported = 100;
const PKIID IID_PKImageWmpEncode = 101;
const PKIID IID_PKImageWmpDecode = 201;
//================================================================
// Misc supporting functions
//================================================================
ERR PKAlloc(void** ppv, size_t cb)
{
*ppv = calloc(1, cb);
return *ppv ? WMP_errSuccess : WMP_errOutOfMemory;
}
ERR PKFree(void** ppv)
{
if (ppv)
{
free(*ppv);
*ppv = NULL;
}
return WMP_errSuccess;
}
ERR PKAllocAligned(void** ppv, size_t cb, size_t iAlign)
{
U8 *pOrigPtr;
U8 *pReturnedPtr;
size_t iAlignmentCorrection;
const size_t c_cbBlockSize = cb + sizeof(void*) + iAlign - 1;
*ppv = NULL;
pOrigPtr = calloc(1, c_cbBlockSize);
if (NULL == pOrigPtr)
return WMP_errOutOfMemory;
iAlignmentCorrection = iAlign - ((size_t)pOrigPtr % iAlign);
if (iAlignmentCorrection < sizeof(void*))
// Alignment correction won't leave us enough space to store pOrigPtr - advance to next block
iAlignmentCorrection += iAlign;
assert(iAlignmentCorrection >= sizeof(void*)); // Alignment correction must have space for pOrigPtr
assert(iAlignmentCorrection + cb <= c_cbBlockSize); // Don't exceed right edge of memory block
pReturnedPtr = pOrigPtr + iAlignmentCorrection;
*(void**)(pReturnedPtr - sizeof(void*)) = pOrigPtr;
assert(0 == ((size_t)pReturnedPtr % iAlign)); // Are we in fact aligned?
*ppv = pReturnedPtr;
return WMP_errSuccess;
}
ERR PKFreeAligned(void** ppv)
{
if (ppv && *ppv)
{
U8 **ppOrigPtr = (U8**)((U8*)(*ppv) - sizeof(void*));
assert(*ppOrigPtr <= (U8*)ppOrigPtr); // Something's wrong if pOrigPtr points forward
free(*ppOrigPtr);
*ppv = NULL;
}
return WMP_errSuccess;
}
int PKStrnicmp(const char* s1, const char* s2, size_t c)
{
for(; tolower(*s1) == tolower(*s2) && *s1 && *s2 && c; ++s1, ++s2, --c);
return c ? *s1 - *s2 : 0;
}
static const PKPixelInfo pixelInfo[] =
{
{&GUID_PKPixelFormatDontCare, 1, Y_ONLY, BD_8, 8, PK_pixfmtNul, 0, 0, 0, 0},
// Gray
//{&GUID_PKPixelFormat2bppGray, 1, Y_ONLY, BD_8, 2, PK_pixfmtNul},
//{&GUID_PKPixelFormat4bppGray, 1, Y_ONLY, BD_8, 4, PK_pixfmtNul},
{&GUID_PKPixelFormatBlackWhite, 1, Y_ONLY, BD_1, 1, PK_pixfmtNul, 1, 1, 1, 1},//BlackIsZero is default for GUID_PKPixelFormatBlackWhite
{&GUID_PKPixelFormatBlackWhite, 1, Y_ONLY, BD_1, 1, PK_pixfmtNul, 0, 1, 1, 1},//WhiteIsZero
{&GUID_PKPixelFormat8bppGray, 1, Y_ONLY, BD_8, 8, PK_pixfmtNul, 1, 1, 8, 1},
{&GUID_PKPixelFormat16bppGray, 1, Y_ONLY, BD_16, 16, PK_pixfmtNul, 1, 1, 16, 1},
{&GUID_PKPixelFormat16bppGrayFixedPoint, 1, Y_ONLY, BD_16S, 16, PK_pixfmtNul, 1, 1, 16, 2},
{&GUID_PKPixelFormat16bppGrayHalf, 1, Y_ONLY, BD_16F, 16, PK_pixfmtNul, 1, 1, 16, 3},
//{&GUID_PKPixelFormat32bppGray, 1, Y_ONLY, BD_32, 32, PK_pixfmtNul, 1, 1, 32, 1},
{&GUID_PKPixelFormat32bppGrayFixedPoint, 1, Y_ONLY, BD_32S, 32, PK_pixfmtNul, 1, 1, 32, 2},
{&GUID_PKPixelFormat32bppGrayFloat, 1, Y_ONLY, BD_32F, 32, PK_pixfmtNul, 1, 1, 32, 3},
// RGB
{&GUID_PKPixelFormat24bppRGB, 3, CF_RGB, BD_8, 24, PK_pixfmtNul, 2, 3, 8, 1},
{&GUID_PKPixelFormat24bppBGR, 3, CF_RGB, BD_8, 24, PK_pixfmtBGR, 2, 3, 8, 1},
{&GUID_PKPixelFormat32bppRGB, 3, CF_RGB, BD_8, 32, PK_pixfmtNul, 2, 3, 8, 1},
{&GUID_PKPixelFormat32bppBGR, 3, CF_RGB, BD_8, 32, PK_pixfmtBGR, 2, 3, 8, 1},
{&GUID_PKPixelFormat48bppRGB, 3, CF_RGB, BD_16, 48, PK_pixfmtNul, 2, 3, 16, 1},
{&GUID_PKPixelFormat48bppRGBFixedPoint, 3, CF_RGB, BD_16S, 48, PK_pixfmtNul, 2, 3, 16, 2},
{&GUID_PKPixelFormat48bppRGBHalf, 3, CF_RGB, BD_16F, 48, PK_pixfmtNul, 2, 3, 16, 3},
{&GUID_PKPixelFormat64bppRGBFixedPoint, 3, CF_RGB, BD_16S, 64, PK_pixfmtNul, 2, 3, 16, 2},
{&GUID_PKPixelFormat64bppRGBHalf, 3, CF_RGB, BD_16F, 64, PK_pixfmtNul, 2, 3, 16, 3},
//{&GUID_PKPixelFormat96bppRGB, 3, CF_RGB, BD_32, 96, PK_pixfmtNul, 2, 3, 32, 1},
{&GUID_PKPixelFormat96bppRGBFixedPoint, 3, CF_RGB, BD_32S, 96, PK_pixfmtNul, 2, 3, 32, 2},
{&GUID_PKPixelFormat96bppRGBFloat, 3, CF_RGB, BD_32F, 96, PK_pixfmtNul, 2, 3, 32, 3},
{&GUID_PKPixelFormat128bppRGBFixedPoint, 3, CF_RGB, BD_32S, 128, PK_pixfmtNul, 2, 3, 32, 2},
{&GUID_PKPixelFormat128bppRGBFloat, 3, CF_RGB, BD_32F, 128, PK_pixfmtNul, 2, 3, 32, 3},
// RGBA
{&GUID_PKPixelFormat32bppBGRA, 4, CF_RGB, BD_8, 32, PK_pixfmtHasAlpha | PK_pixfmtBGR, 2, 4, 8, 1},
{&GUID_PKPixelFormat32bppRGBA, 4, CF_RGB, BD_8, 32, PK_pixfmtHasAlpha, 2, 4, 8, 1},
{&GUID_PKPixelFormat64bppRGBA, 4, CF_RGB, BD_16, 64, PK_pixfmtHasAlpha, 2, 4, 16, 1},
{&GUID_PKPixelFormat64bppRGBAFixedPoint, 4, CF_RGB, BD_16S, 64, PK_pixfmtHasAlpha, 2, 4, 16, 2},
{&GUID_PKPixelFormat64bppRGBAHalf, 4, CF_RGB, BD_16F, 64, PK_pixfmtHasAlpha, 2, 4, 16, 3},
//{&GUID_PKPixelFormat128bppRGBA, 4, CF_RGB, BD_32, 128, PK_pixfmtHasAlpha, 2, 4, 32, 1},
{&GUID_PKPixelFormat128bppRGBAFixedPoint, 4, CF_RGB, BD_32S, 128, PK_pixfmtHasAlpha, 2, 4, 32, 2},
{&GUID_PKPixelFormat128bppRGBAFloat, 4, CF_RGB, BD_32F, 128, PK_pixfmtHasAlpha, 2, 4, 32, 3},
// PRGBA
{&GUID_PKPixelFormat32bppPBGRA, 4, CF_RGB, BD_8, 32, PK_pixfmtHasAlpha | PK_pixfmtPreMul | PK_pixfmtBGR, 2, 4, 8, 1},
{&GUID_PKPixelFormat32bppPRGBA, 4, CF_RGB, BD_8, 32, PK_pixfmtHasAlpha | PK_pixfmtPreMul, 2, 4, 8, 1},
{&GUID_PKPixelFormat64bppPRGBA, 4, CF_RGB, BD_16, 64, PK_pixfmtHasAlpha | PK_pixfmtPreMul, 2, 4, 16, 1},
//{&GUID_PKPixelFormat64bppPRGBAFixedPoint, 4, CF_RGB, BD_16S, 64, PK_pixfmtHasAlpha, 2, 4, 16, 2},
//{&GUID_PKPixelFormat64bppPRGBAHalf, 4, CF_RGB, BD_16F, 64, PK_pixfmtHasAlpha, 2, 4, 16, 3},
//{&GUID_PKPixelFormat128bppPRGBAFixedPoint, 4, CF_RGB, BD_32S, 128, PK_pixfmtHasAlpha, 2, 4, 32, 2},
{&GUID_PKPixelFormat128bppPRGBAFloat, 4, CF_RGB, BD_32F, 128, PK_pixfmtHasAlpha | PK_pixfmtPreMul, 2, 4, 32, 3},
// Packed formats
{&GUID_PKPixelFormat16bppRGB555, 3, CF_RGB, BD_5, 16, PK_pixfmtNul, 2, 3, 5, 1},
{&GUID_PKPixelFormat16bppRGB565, 3, CF_RGB, BD_565, 16, PK_pixfmtNul, 2, 3, 6, 1},
{&GUID_PKPixelFormat32bppRGB101010, 3, CF_RGB, BD_10, 32, PK_pixfmtNul, 2, 3, 10, 1},
// CMYK
{&GUID_PKPixelFormat32bppCMYK, 4, CMYK, BD_8, 32, PK_pixfmtNul, 5, 4, 8, 1},
{&GUID_PKPixelFormat40bppCMYKAlpha, 5, CMYK, BD_8, 40, PK_pixfmtHasAlpha, 5, 5, 8, 1},
{&GUID_PKPixelFormat64bppCMYK, 4, CMYK, BD_16, 64, PK_pixfmtNul, 5, 4, 16, 1},
{&GUID_PKPixelFormat80bppCMYKAlpha, 5, CMYK, BD_16, 80, PK_pixfmtHasAlpha, 5, 5, 16, 1},
// N_CHANNEL
{&GUID_PKPixelFormat24bpp3Channels, 3, NCOMPONENT, BD_8, 24, PK_pixfmtNul, PK_PI_NCH, 3, 8, 1},//the N channel TIF by PS has PhotometricInterpretation of PK_PI_RGB
{&GUID_PKPixelFormat32bpp4Channels, 4, NCOMPONENT, BD_8, 32, PK_pixfmtNul, PK_PI_NCH, 4, 8, 1},
{&GUID_PKPixelFormat40bpp5Channels, 5, NCOMPONENT, BD_8, 40, PK_pixfmtNul, PK_PI_NCH, 5, 8, 1},
{&GUID_PKPixelFormat48bpp6Channels, 6, NCOMPONENT, BD_8, 48, PK_pixfmtNul, PK_PI_NCH, 6, 8, 1},
{&GUID_PKPixelFormat56bpp7Channels, 7, NCOMPONENT, BD_8, 56, PK_pixfmtNul, PK_PI_NCH, 7, 8, 1},
{&GUID_PKPixelFormat64bpp8Channels, 8, NCOMPONENT, BD_8, 64, PK_pixfmtNul, PK_PI_NCH, 8, 8, 1},
{&GUID_PKPixelFormat32bpp3ChannelsAlpha, 4, NCOMPONENT, BD_8, 32, PK_pixfmtHasAlpha, PK_PI_NCH, 4, 8, 1},
{&GUID_PKPixelFormat40bpp4ChannelsAlpha, 5, NCOMPONENT, BD_8, 40, PK_pixfmtHasAlpha, PK_PI_NCH, 5, 8, 1},
{&GUID_PKPixelFormat48bpp5ChannelsAlpha, 6, NCOMPONENT, BD_8, 48, PK_pixfmtHasAlpha, PK_PI_NCH, 6, 8, 1},
{&GUID_PKPixelFormat56bpp6ChannelsAlpha, 7, NCOMPONENT, BD_8, 56, PK_pixfmtHasAlpha, PK_PI_NCH, 7, 8, 1},
{&GUID_PKPixelFormat64bpp7ChannelsAlpha, 8, NCOMPONENT, BD_8, 64, PK_pixfmtHasAlpha, PK_PI_NCH, 8, 8, 1},
{&GUID_PKPixelFormat72bpp8ChannelsAlpha, 9, NCOMPONENT, BD_8, 72, PK_pixfmtHasAlpha, PK_PI_NCH, 9, 8, 1},
{&GUID_PKPixelFormat48bpp3Channels, 3, NCOMPONENT, BD_16, 48, PK_pixfmtNul, PK_PI_NCH, 3, 16, 1},
{&GUID_PKPixelFormat64bpp4Channels, 4, NCOMPONENT, BD_16, 64, PK_pixfmtNul, PK_PI_NCH, 4, 16, 1},
{&GUID_PKPixelFormat80bpp5Channels, 5, NCOMPONENT, BD_16, 80, PK_pixfmtNul, PK_PI_NCH, 5, 16, 1},
{&GUID_PKPixelFormat96bpp6Channels, 6, NCOMPONENT, BD_16, 96, PK_pixfmtNul, PK_PI_NCH, 6, 16, 1},
{&GUID_PKPixelFormat112bpp7Channels, 7, NCOMPONENT, BD_16, 112, PK_pixfmtNul, PK_PI_NCH, 7, 16, 1},
{&GUID_PKPixelFormat128bpp8Channels, 8, NCOMPONENT, BD_16, 128, PK_pixfmtNul, PK_PI_NCH, 8, 16, 1},
{&GUID_PKPixelFormat64bpp3ChannelsAlpha, 4, NCOMPONENT, BD_16, 64, PK_pixfmtHasAlpha, PK_PI_NCH, 4, 16, 1},
{&GUID_PKPixelFormat80bpp4ChannelsAlpha, 5, NCOMPONENT, BD_16, 80, PK_pixfmtHasAlpha, PK_PI_NCH, 5, 16, 1},
{&GUID_PKPixelFormat96bpp5ChannelsAlpha, 6, NCOMPONENT, BD_16, 96, PK_pixfmtHasAlpha, PK_PI_NCH, 6, 16, 1},
{&GUID_PKPixelFormat112bpp6ChannelsAlpha, 7, NCOMPONENT, BD_16, 112, PK_pixfmtHasAlpha, PK_PI_NCH, 7, 16, 1},
{&GUID_PKPixelFormat128bpp7ChannelsAlpha, 8, NCOMPONENT, BD_16, 128, PK_pixfmtHasAlpha, PK_PI_NCH, 8, 16, 1},
{&GUID_PKPixelFormat144bpp8ChannelsAlpha, 9, NCOMPONENT, BD_16, 144, PK_pixfmtHasAlpha, PK_PI_NCH, 9, 16, 1},
//RGBE
{&GUID_PKPixelFormat32bppRGBE, 4, CF_RGBE, BD_8, 32, PK_pixfmtNul, PK_PI_RGBE, 4, 8, 1},
//YUV
{&GUID_PKPixelFormat12bppYUV420, 3, YUV_420, BD_8, 48, PK_pixfmtNul},
{&GUID_PKPixelFormat16bppYUV422, 3, YUV_422, BD_8, 32, PK_pixfmtNul},
{&GUID_PKPixelFormat24bppYUV444, 3, YUV_444, BD_8, 24, PK_pixfmtNul},
};
//----------------------------------------------------------------
//ERR GetPixelInfo(PKPixelFormatGUID enPixelFormat, const PKPixelInfo** ppPI)
ERR PixelFormatLookup(PKPixelInfo* pPI, U8 uLookupType)
{
ERR err = WMP_errSuccess;
size_t i;
for (i = 0; i < sizeof2(pixelInfo); ++i)
{
if (LOOKUP_FORWARD == uLookupType)
{
if (IsEqualGUID(pPI->pGUIDPixFmt, pixelInfo[i].pGUIDPixFmt))
{
*pPI = pixelInfo[i];
goto Cleanup;
}
}
else if (LOOKUP_BACKWARD_TIF == uLookupType)
{
if (pPI->uSamplePerPixel == pixelInfo[i].uSamplePerPixel &&
pPI->uBitsPerSample == pixelInfo[i].uBitsPerSample &&
pPI->uSampleFormat == pixelInfo[i].uSampleFormat &&
pPI->uInterpretation == pixelInfo[i].uInterpretation)
{
// match alpha & premult
if ((pPI->grBit & (PK_pixfmtHasAlpha | PK_pixfmtPreMul)) ==
(pixelInfo[i].grBit & (PK_pixfmtHasAlpha | PK_pixfmtPreMul)))
{
*pPI = pixelInfo[i];
goto Cleanup;
}
}
}
}
Call(WMP_errUnsupportedFormat);
Cleanup:
return err;
}
const PKPixelFormatGUID* GetPixelFormatFromHash(const U8 uPFHash)
{
int i;
for (i = 0; i < sizeof2(pixelInfo); i++)
{
if (pixelInfo[i].pGUIDPixFmt->Data4[7] == uPFHash)
return pixelInfo[i].pGUIDPixFmt;
}
// If we reached this point, we did not find anything which matched the hash
return NULL;
}
//----------------------------------------------------------------
typedef struct tagPKIIDInfo
{
const char* szExt;
const PKIID* pIIDEnc;
const PKIID* pIIDDec;
} PKIIDInfo;
static ERR GetIIDInfo(const char* szExt, const PKIIDInfo** ppInfo)
{
ERR err = WMP_errSuccess;
static PKIIDInfo iidInfo[] = {
{".jxr", &IID_PKImageWmpEncode, &IID_PKImageWmpDecode},
{".wdp", &IID_PKImageUnsupported, &IID_PKImageWmpDecode},
{".hdp", &IID_PKImageUnsupported, &IID_PKImageWmpDecode},
};
size_t i = 0;
*ppInfo = NULL;
for (i = 0; i < sizeof2(iidInfo); ++i)
{
if (0 == PKStrnicmp(szExt, iidInfo[i].szExt, strlen(iidInfo[i].szExt)))
{
*ppInfo = &iidInfo[i];
goto Cleanup;
}
}
Call(WMP_errUnsupportedFormat);
Cleanup:
return err;
}
ERR GetImageEncodeIID(const char* szExt, const PKIID** ppIID)
{
ERR err = WMP_errSuccess;
const PKIIDInfo* pInfo = NULL;
Call(GetIIDInfo(szExt, &pInfo));
*ppIID = pInfo->pIIDEnc;
Cleanup:
return err;
}
ERR GetImageDecodeIID(const char* szExt, const PKIID** ppIID)
{
ERR err = WMP_errSuccess;
const PKIIDInfo* pInfo = NULL;
Call(GetIIDInfo(szExt, &pInfo));
*ppIID = pInfo->pIIDDec;
Cleanup:
return err;
}
//================================================================
// PKFactory
//================================================================
ERR PKCreateFactory_CreateStream(PKStream** ppStream)
{
ERR err = WMP_errSuccess;
Call(PKAlloc((void **) ppStream, sizeof(**ppStream)));
Cleanup:
return err;
}
ERR PKCreateFactory_Release(PKFactory** ppFactory)
{
ERR err = WMP_errSuccess;
Call(PKFree((void **) ppFactory));
Cleanup:
return err;
}
//----------------------------------------------------------------
ERR PKCreateFactory(PKFactory** ppFactory, U32 uVersion)
{
ERR err = WMP_errSuccess;
PKFactory* pFactory = NULL;
UNREFERENCED_PARAMETER( uVersion );
Call(PKAlloc((void **) ppFactory, sizeof(**ppFactory)));
pFactory = *ppFactory;
pFactory->CreateStream = PKCreateFactory_CreateStream;
pFactory->CreateStreamFromFilename = CreateWS_File;
pFactory->CreateStreamFromMemory = CreateWS_Memory;
pFactory->Release = PKCreateFactory_Release;
Cleanup:
return err;
}
//================================================================
// PKCodecFactory
//================================================================
ERR PKCodecFactory_CreateCodec(const PKIID* iid, void** ppv)
{
ERR err = WMP_errSuccess;
if (IID_PKImageWmpEncode == *iid)
{
Call(PKImageEncode_Create_WMP((PKImageEncode**)ppv));
}
else if (IID_PKImageWmpDecode == *iid)
{
Call(PKImageDecode_Create_WMP((PKImageDecode**)ppv));
}
else
{
Call(WMP_errUnsupportedFormat);
}
Cleanup:
return err;
}
ERR PKCodecFactory_CreateDecoderFromFile(const char* szFilename, PKImageDecode** ppDecoder)
{
ERR err = WMP_errSuccess;
char *pExt = NULL;
const PKIID* pIID = NULL;
struct WMPStream* pStream = NULL;
PKImageDecode* pDecoder = NULL;
// get file extension
pExt = strrchr(szFilename, '.');
FailIf(NULL == pExt, WMP_errUnsupportedFormat);
// get decode PKIID
Call(GetImageDecodeIID(pExt, &pIID));
// create stream
Call(CreateWS_File(&pStream, szFilename, "rb"));
// Create decoder
Call(PKCodecFactory_CreateCodec(pIID, (void **) ppDecoder));
pDecoder = *ppDecoder;
// attach stream to decoder
Call(pDecoder->Initialize(pDecoder, pStream));
pDecoder->fStreamOwner = !0;
Cleanup:
return err;
}
ERR PKCodecFactory_CreateFormatConverter(PKFormatConverter** ppFConverter)
{
ERR err = WMP_errSuccess;
PKFormatConverter* pFC = NULL;
Call(PKAlloc((void **) ppFConverter, sizeof(**ppFConverter)));
pFC = *ppFConverter;
pFC->Initialize = PKFormatConverter_Initialize;
pFC->InitializeConvert = PKFormatConverter_InitializeConvert;
pFC->GetPixelFormat = PKFormatConverter_GetPixelFormat;
pFC->GetSourcePixelFormat = PKFormatConverter_GetSourcePixelFormat;
pFC->GetSize = PKFormatConverter_GetSize;
pFC->GetResolution = PKFormatConverter_GetResolution;
pFC->Copy = PKFormatConverter_Copy;
pFC->Convert = PKFormatConverter_Convert;
pFC->Release = PKFormatConverter_Release;
Cleanup:
return err;
}
ERR PKCreateCodecFactory_Release(PKCodecFactory** ppCFactory)
{
ERR err = WMP_errSuccess;
Call(PKFree((void **) ppCFactory));
Cleanup:
return err;
}
ERR PKCreateCodecFactory(PKCodecFactory** ppCFactory, U32 uVersion)
{
ERR err = WMP_errSuccess;
PKCodecFactory* pCFactory = NULL;
UNREFERENCED_PARAMETER( uVersion );
Call(PKAlloc((void **) ppCFactory, sizeof(**ppCFactory)));
pCFactory = *ppCFactory;
pCFactory->CreateCodec = PKCodecFactory_CreateCodec;
pCFactory->CreateDecoderFromFile = PKCodecFactory_CreateDecoderFromFile;
pCFactory->CreateFormatConverter = PKCodecFactory_CreateFormatConverter;
pCFactory->Release = PKCreateCodecFactory_Release;
Cleanup:
return err;
}
//================================================================
// PKImageEncode
//================================================================
ERR PKImageEncode_Initialize(
PKImageEncode* pIE,
struct WMPStream* pStream,
void* pvParam,
size_t cbParam)
{
ERR err = WMP_errSuccess;
UNREFERENCED_PARAMETER( pIE );
UNREFERENCED_PARAMETER( pvParam );
UNREFERENCED_PARAMETER( cbParam );
pIE->pStream = pStream;
pIE->guidPixFormat = GUID_PKPixelFormatDontCare;
pIE->fResX = 96;
pIE->fResY = 96;
pIE->cFrame = 1;
Call(pIE->pStream->GetPos(pIE->pStream, &pIE->offStart));
Cleanup:
return err;
}
ERR PKImageEncode_Terminate(
PKImageEncode* pIE)
{
UNREFERENCED_PARAMETER( pIE );
return WMP_errSuccess;
}
ERR PKImageEncode_SetPixelFormat(
PKImageEncode* pIE,
PKPixelFormatGUID enPixelFormat)
{
pIE->guidPixFormat = enPixelFormat;
return WMP_errSuccess;
}
ERR PKImageEncode_SetSize(
PKImageEncode* pIE,
I32 iWidth,
I32 iHeight)
{
ERR err = WMP_errSuccess;
pIE->uWidth = (U32)iWidth;
pIE->uHeight = (U32)iHeight;
return err;
}
ERR PKImageEncode_SetResolution(
PKImageEncode* pIE,
Float fResX,
Float fResY)
{
pIE->fResX = fResX;
pIE->fResY = fResY;
return WMP_errSuccess;
}
ERR PKImageEncode_SetColorContext(PKImageEncode *pIE,
const U8 *pbColorContext,
U32 cbColorContext)
{
UNREFERENCED_PARAMETER( pIE );
UNREFERENCED_PARAMETER( pbColorContext );
UNREFERENCED_PARAMETER( cbColorContext );
return WMP_errNotYetImplemented;
}
ERR PKImageEncode_SetDescriptiveMetadata(PKImageEncode *pIE, const DESCRIPTIVEMETADATA *pDescMetadata)
{
UNREFERENCED_PARAMETER( pIE );
UNREFERENCED_PARAMETER( pDescMetadata );
return WMP_errNotYetImplemented;
}
ERR PKImageEncode_WritePixels(
PKImageEncode* pIE,
U32 cLine,
U8* pbPixels,
U32 cbStride)
{
UNREFERENCED_PARAMETER( pIE );
UNREFERENCED_PARAMETER( cLine );
UNREFERENCED_PARAMETER( pbPixels );
UNREFERENCED_PARAMETER( cbStride );
return WMP_errAbstractMethod;
}
ERR PKImageEncode_WriteSource(
PKImageEncode* pIE,
PKFormatConverter* pFC,
PKRect* pRect)
{
ERR err = WMP_errSuccess;
PKPixelFormatGUID enPFFrom = GUID_PKPixelFormatDontCare;
PKPixelFormatGUID enPFTo = GUID_PKPixelFormatDontCare;
PKPixelInfo pPIFrom;
PKPixelInfo pPITo;
U32 cbStrideTo = 0;
U32 cbStrideFrom = 0;
U32 cbStride = 0;
U8* pb = NULL;
// CWMTranscodingParam* pParam = NULL;
// get pixel format
Call(pFC->GetSourcePixelFormat(pFC, &enPFFrom));
Call(pFC->GetPixelFormat(pFC, &enPFTo));
FailIf(!IsEqualGUID(&pIE->guidPixFormat, &enPFTo), WMP_errUnsupportedFormat);
// calc common stride
// Call(GetPixelInfo(enPFFrom, &pPIFrom));
pPIFrom.pGUIDPixFmt = &enPFFrom;
PixelFormatLookup(&pPIFrom, LOOKUP_FORWARD);
// Call(GetPixelInfo(enPFTo, &pPITo));
pPITo.pGUIDPixFmt = &enPFTo;
PixelFormatLookup(&pPITo, LOOKUP_FORWARD);
// cbStrideFrom = (pPIFrom->cbPixel * pRect->Width + pPIFrom->cbPixelDenom - 1) / pPIFrom->cbPixelDenom;
cbStrideFrom = (BD_1 == pPIFrom.bdBitDepth ? ((pPIFrom.cbitUnit * pRect->Width + 7) >> 3) : (((pPIFrom.cbitUnit + 7) >> 3) * pRect->Width));
if (&GUID_PKPixelFormat12bppYUV420 == pPIFrom.pGUIDPixFmt
|| &GUID_PKPixelFormat16bppYUV422 == pPIFrom.pGUIDPixFmt)
cbStrideFrom >>= 1;
// cbStrideTo = (pPITo->cbPixel * pIE->uWidth + pPITo->cbPixelDenom - 1) / pPITo->cbPixelDenom;
cbStrideTo = (BD_1 == pPITo.bdBitDepth ? ((pPITo.cbitUnit * pIE->uWidth + 7) >> 3) : (((pPITo.cbitUnit + 7) >> 3) * pIE->uWidth));
if (&GUID_PKPixelFormat12bppYUV420 == pPITo.pGUIDPixFmt
|| &GUID_PKPixelFormat16bppYUV422 == pPITo.pGUIDPixFmt)
cbStrideTo >>= 1;
cbStride = max(cbStrideFrom, cbStrideTo);
// actual dec/enc with local buffer
Call(PKAllocAligned((void **) &pb, cbStride * pRect->Height, 128));
Call(pFC->Copy(pFC, pRect, pb, cbStride));
Call(pIE->WritePixels(pIE, pRect->Height, pb, cbStride));
Cleanup:
PKFreeAligned((void **) &pb);
return err;
}
ERR PKImageEncode_WritePixelsBandedBegin(PKImageEncode* pEncoder, struct WMPStream *pPATempFile)
{
UNREFERENCED_PARAMETER( pEncoder );
UNREFERENCED_PARAMETER( pPATempFile );
return WMP_errAbstractMethod;
}
ERR PKImageEncode_WritePixelsBanded(PKImageEncode* pEncoder, U32 cLines, U8* pbPixels, U32 cbStride, Bool fLastCall)
{
UNREFERENCED_PARAMETER( pEncoder );
UNREFERENCED_PARAMETER( cLines );
UNREFERENCED_PARAMETER( pbPixels );
UNREFERENCED_PARAMETER( cbStride );
UNREFERENCED_PARAMETER( fLastCall );
return WMP_errAbstractMethod;
}
ERR PKImageEncode_WritePixelsBandedEnd(PKImageEncode* pEncoder)
{
UNREFERENCED_PARAMETER( pEncoder );
return WMP_errAbstractMethod;
}
ERR PKImageEncode_Transcode(
PKImageEncode* pIE,
PKFormatConverter* pFC,
PKRect* pRect)
{
ERR err = WMP_errSuccess;
PKPixelFormatGUID enPFFrom = GUID_PKPixelFormatDontCare;
PKPixelFormatGUID enPFTo = GUID_PKPixelFormatDontCare;
PKPixelInfo pPIFrom;
PKPixelInfo pPITo;
U32 cbStrideTo = 0;
U32 cbStrideFrom = 0;
U32 cbStride = 0;
U8* pb = NULL;
CWMTranscodingParam cParam = {0};
// get pixel format
Call(pFC->GetSourcePixelFormat(pFC, &enPFFrom));
Call(pFC->GetPixelFormat(pFC, &enPFTo));
FailIf(!IsEqualGUID(&pIE->guidPixFormat, &enPFTo), WMP_errUnsupportedFormat);
// calc common stride
// Call(GetPixelInfo(enPFFrom, &pPIFrom));
pPIFrom.pGUIDPixFmt = &enPFFrom;
PixelFormatLookup(&pPIFrom, LOOKUP_FORWARD);
// Call(GetPixelInfo(enPFTo, &pPITo));
pPITo.pGUIDPixFmt = &enPFTo;
PixelFormatLookup(&pPITo, LOOKUP_FORWARD);
// cbStrideFrom = (pPIFrom->cbPixel * pRect->Width + pPIFrom->cbPixelDenom - 1) / pPIFrom->cbPixelDenom;
cbStrideFrom = (BD_1 == pPIFrom.bdBitDepth ? ((pPIFrom.cbitUnit * pRect->Width + 7) >> 3) : (((pPIFrom.cbitUnit + 7) >> 3) * pRect->Width));
if (&GUID_PKPixelFormat12bppYUV420 == pPIFrom.pGUIDPixFmt
|| &GUID_PKPixelFormat16bppYUV422 == pPIFrom.pGUIDPixFmt)
cbStrideFrom >>= 1;
// cbStrideTo = (pPITo->cbPixel * pIE->uWidth + pPITo->cbPixelDenom - 1) / pPITo->cbPixelDenom;
cbStrideTo = (BD_1 == pPITo.bdBitDepth ? ((pPITo.cbitUnit * pIE->uWidth + 7) >> 3) : (((pPITo.cbitUnit + 7) >> 3) * pIE->uWidth));
if (&GUID_PKPixelFormat12bppYUV420 == pPITo.pGUIDPixFmt
|| &GUID_PKPixelFormat16bppYUV422 == pPITo.pGUIDPixFmt)
cbStrideTo >>= 1;
cbStride = max(cbStrideFrom, cbStrideTo);
if(pIE->bWMP){
cParam.cLeftX = pFC->pDecoder->WMP.wmiI.cROILeftX;
cParam.cTopY = pFC->pDecoder->WMP.wmiI.cROITopY;
cParam.cWidth = pFC->pDecoder->WMP.wmiI.cROIWidth;
cParam.cHeight = pFC->pDecoder->WMP.wmiI.cROIHeight;
cParam.oOrientation = pFC->pDecoder->WMP.wmiI.oOrientation;
// cParam.cfColorFormat = pFC->pDecoder->WMP.wmiI.cfColorFormat;
cParam.uAlphaMode = pFC->pDecoder->WMP.wmiSCP.uAlphaMode;
cParam.bfBitstreamFormat = pFC->pDecoder->WMP.wmiSCP.bfBitstreamFormat;
cParam.sbSubband = pFC->pDecoder->WMP.wmiSCP.sbSubband;
cParam.bIgnoreOverlap = pFC->pDecoder->WMP.bIgnoreOverlap;
Call(pIE->Transcode(pIE, pFC->pDecoder, &cParam));
}
else
{
// actual dec/enc with local buffer
Call(PKAllocAligned((void **) &pb, cbStride * pRect->Height, 128));
Call(pFC->Copy(pFC, pRect, pb, cbStride));
Call(pIE->WritePixels(pIE, pRect->Height, pb, cbStride));
}
Cleanup:
PKFreeAligned((void **) &pb);
return err;
}
ERR PKImageEncode_CreateNewFrame(
PKImageEncode* pIE,
void* pvParam,
size_t cbParam)
{
UNREFERENCED_PARAMETER( pIE );
UNREFERENCED_PARAMETER( pvParam );
UNREFERENCED_PARAMETER( cbParam );
// NYI
return WMP_errSuccess;
}
ERR PKImageEncode_Release(
PKImageEncode** ppIE)
{
PKImageEncode *pIE = *ppIE;
pIE->pStream->Close(&pIE->pStream);
return PKFree((void **) ppIE);
}
ERR PKImageEncode_Create(PKImageEncode** ppIE)
{
ERR err = WMP_errSuccess;
PKImageEncode* pIE = NULL;
Call(PKAlloc((void **) ppIE, sizeof(**ppIE)));
pIE = *ppIE;
pIE->Initialize = PKImageEncode_Initialize;
pIE->Terminate = PKImageEncode_Terminate;
pIE->SetPixelFormat = PKImageEncode_SetPixelFormat;
pIE->SetSize = PKImageEncode_SetSize;
pIE->SetResolution = PKImageEncode_SetResolution;
pIE->SetColorContext = PKImageEncode_SetColorContext;
pIE->SetDescriptiveMetadata = PKImageEncode_SetDescriptiveMetadata;
pIE->WritePixels = PKImageEncode_WritePixels;
// pIE->WriteSource = PKImageEncode_WriteSource;
pIE->WritePixelsBandedBegin = PKImageEncode_WritePixelsBandedBegin;
pIE->WritePixelsBanded = PKImageEncode_WritePixelsBanded;
pIE->WritePixelsBandedEnd = PKImageEncode_WritePixelsBandedEnd;
pIE->CreateNewFrame = PKImageEncode_CreateNewFrame;
pIE->Release = PKImageEncode_Release;
pIE->bWMP = FALSE;
Cleanup:
return err;
}
//================================================================
// PKImageDecode
//================================================================
ERR PKImageDecode_Initialize(
PKImageDecode* pID,
struct WMPStream* pStream)
{
ERR err = WMP_errSuccess;
pID->pStream = pStream;
pID->guidPixFormat = GUID_PKPixelFormatDontCare;
pID->fResX = 96;
pID->fResY = 96;
pID->cFrame = 1;
Call(pID->pStream->GetPos(pID->pStream, &pID->offStart));
memset(&pID->WMP.wmiDEMisc, 0, sizeof(pID->WMP.wmiDEMisc));
Cleanup:
return WMP_errSuccess;
}
ERR PKImageDecode_GetPixelFormat(
PKImageDecode* pID,
PKPixelFormatGUID* pPF)
{
*pPF = pID->guidPixFormat;
return WMP_errSuccess;
}
ERR PKImageDecode_GetSize(
PKImageDecode* pID,
I32* piWidth,
I32* piHeight)
{
*piWidth = (I32)pID->uWidth;
*piHeight = (I32)pID->uHeight;
return WMP_errSuccess;
}
ERR PKImageDecode_GetResolution(
PKImageDecode* pID,
Float* pfResX,
Float* pfResY)
{
*pfResX = pID->fResX;
*pfResY = pID->fResY;
return WMP_errSuccess;
}
ERR PKImageDecode_GetColorContext(PKImageDecode *pID, U8 *pbColorContext, U32 *pcbColorContext)
{
UNREFERENCED_PARAMETER( pID );
UNREFERENCED_PARAMETER( pbColorContext );
UNREFERENCED_PARAMETER( pcbColorContext );
return WMP_errNotYetImplemented;
}
ERR PKImageDecode_GetDescriptiveMetadata(PKImageDecode *pIE, DESCRIPTIVEMETADATA *pDescMetadata)
{
UNREFERENCED_PARAMETER( pIE );
UNREFERENCED_PARAMETER( pDescMetadata );
return WMP_errNotYetImplemented;
}
ERR PKImageDecode_Copy(
PKImageDecode* pID,
const PKRect* pRect,
U8* pb,
U32 cbStride)
{
UNREFERENCED_PARAMETER( pID );
UNREFERENCED_PARAMETER( pRect );
UNREFERENCED_PARAMETER( pb );
UNREFERENCED_PARAMETER( cbStride );
return WMP_errAbstractMethod;
}
ERR PKImageDecode_GetFrameCount(
PKImageDecode* pID,
U32* puCount)
{
*puCount = pID->cFrame;
return WMP_errSuccess;
}
ERR PKImageDecode_SelectFrame(
PKImageDecode* pID,
U32 uFrame)
{
UNREFERENCED_PARAMETER( pID );
UNREFERENCED_PARAMETER( uFrame );
// NYI
return WMP_errSuccess;
}
ERR PKImageDecode_Release(
PKImageDecode** ppID)
{
PKImageDecode* pID = *ppID;
pID->fStreamOwner && pID->pStream->Close(&pID->pStream);
return PKFree((void **) ppID);
}
ERR PKImageDecode_Create(
PKImageDecode** ppID)
{
ERR err = WMP_errSuccess;
PKImageDecode* pID = NULL;
Call(PKAlloc((void **) ppID, sizeof(**ppID)));
pID = *ppID;
pID->Initialize = PKImageDecode_Initialize;
pID->GetPixelFormat = PKImageDecode_GetPixelFormat;
pID->GetSize = PKImageDecode_GetSize;
pID->GetResolution = PKImageDecode_GetResolution;
pID->GetColorContext = PKImageDecode_GetColorContext;
pID->GetDescriptiveMetadata = PKImageDecode_GetDescriptiveMetadata;
pID->Copy = PKImageDecode_Copy;
pID->GetFrameCount = PKImageDecode_GetFrameCount;
pID->SelectFrame = PKImageDecode_SelectFrame;
pID->Release = PKImageDecode_Release;
Cleanup:
return err;
}
Reference in New Issue View Git Blame Copy Permalink