710 lines
19 KiB
C
710 lines
19 KiB
C
/*--------------------------------------------------------------------------*\
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| RLECIF.C - Interface to RLE Comressor |
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|//@@BEGIN_MSINTERNAL |
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| History: |
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| 01/01/88 toddla Created |
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| 10/30/90 davidmay Reorganized, rewritten somewhat. |
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| 07/11/91 dannymi Un-hacked |
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| 09/15/91 ToddLa Re-hacked |
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| 09/18/91 DavidMay Separated from RLEC.C |
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| 06/01/92 ToddLa Moved into a installable compressor |
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|//@@END_MSINTERNAL |
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| |
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\*--------------------------------------------------------------------------*/
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/**************************************************************************
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*
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* THIS CODE AND INFORMATION IS PROVIDED "AS IS" WITHOUT WARRANTY OF ANY
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* KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE
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* IMPLIED WARRANTIES OF MERCHANTABILITY AND/OR FITNESS FOR A PARTICULAR
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* PURPOSE.
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*
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* Copyright (c) 1991 - 1995 Microsoft Corporation. All Rights Reserved.
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*
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**************************************************************************/
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//@@BEGIN_MSINTERNAL |
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#ifndef _WIN32
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#include <win32.h>
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#endif
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//@@END_MSINTERNAL |
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#include <windows.h>
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#include <windowsx.h>
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#include <mmsystem.h>
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#include <compddk.h>
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#include "msrle.h"
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#include <stdarg.h>
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//@@BEGIN_MSINTERNAL |
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#ifdef UNICODE
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#include "profile.h" // map to registry for NT
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#endif
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//@@END_MSINTERNAL |
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RLESTATE DefaultRleState = {0, 0, -1, 187, 1500, 4};
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#define FOURCC_DIB mmioFOURCC('D','I','B',' ')
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#define FOURCC_RLE mmioFOURCC('M','R','L','E') //mmioFOURCC('R','L','E',' ')
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#define TWOCC_DIB aviTWOCC('d','b')
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#define TWOCC_RLE aviTWOCC('d','c')
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#define TWOCC_DIBX aviTWOCC('d','x')
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/****************************************************************************
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****************************************************************************/
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#pragma optimize("", off)
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static BOOL NEAR PASCAL IsApp(LPTSTR szApp)
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{
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TCHAR ach[128];
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int i;
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HINSTANCE hInstance;
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#ifdef _WIN32
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hInstance = GetModuleHandle(NULL);
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#else
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_asm mov hInstance,ss
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#endif
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GetModuleFileName(hInstance, ach, sizeof(ach));
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for (i = lstrlen(ach);
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i > 0 && ach[i-1] != '\\' && ach[i-1] != '/' && ach[i] != ':';
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i--)
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;
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return lstrcmpi(ach + i, szApp) == 0;
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}
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#pragma optimize("", on)
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/*****************************************************************************
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****************************************************************************/
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//
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// RleLoad()
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//
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void NEAR PASCAL RleLoad()
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{
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}
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/*****************************************************************************
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****************************************************************************/
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//
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// RleFree()
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//
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void NEAR PASCAL RleFree()
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{
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if (gRgbTol.hpTable)
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GlobalFreePtr(gRgbTol.hpTable);
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gRgbTol.hpTable = NULL;
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}
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/*****************************************************************************
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****************************************************************************/
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//
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// RleOpen() - open a instance of the rle compressor
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//
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PRLEINST NEAR PASCAL RleOpen()
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{
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PRLEINST pri;
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//
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// VIDEDIT Hack
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//
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// we dont want to see two "Microsoft RLE" compressors.
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// so lie to VidEdit and fail to open.
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//
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if (GetModuleHandle(TEXT("MEDDIBS")) && IsApp(TEXT("VIDEDIT.EXE")))
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return NULL;
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pri = (PRLEINST)LocalAlloc(LPTR, sizeof(RLEINST));
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if (pri)
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{
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RleSetState(pri, NULL, 0);
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}
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return pri;
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}
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/*****************************************************************************
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****************************************************************************/
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//
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// RleClose() - close a instance of the rle compressor
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//
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DWORD NEAR PASCAL RleClose(PRLEINST pri)
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{
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if (!pri)
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return FALSE;
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if (pri->lpbiPrev) {
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GlobalFreePtr(pri->lpbiPrev);
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pri->lpbiPrev = NULL;
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}
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LocalFree((LOCALHANDLE)pri);
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return TRUE;
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}
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/*****************************************************************************
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****************************************************************************/
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//
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// RleGetState() - get the current state of the rle compressor
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//
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// will copy current state into passed buffer.
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// returns the size in bytes required to store the entire state.
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//
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DWORD NEAR PASCAL RleGetState(PRLEINST pri, LPVOID pv, DWORD dwSize)
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{
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if (pv == NULL || dwSize == 0)
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return sizeof(RLESTATE);
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if (pri == NULL || dwSize < sizeof(RLESTATE))
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return 0;
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*(LPRLESTATE)pv = pri->RleState;
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return sizeof(RLESTATE);
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}
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/*****************************************************************************
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****************************************************************************/
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//
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// RleSetState() - sets the current state of the rle compressor
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//
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DWORD NEAR PASCAL RleSetState(PRLEINST pri, LPVOID pv, DWORD dwSize)
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{
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if (pv == NULL || dwSize == 0)
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{
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pv = &DefaultRleState;
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dwSize = sizeof(RLESTATE);
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}
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if (pri == NULL || dwSize < sizeof(RLESTATE))
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return 0;
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pri->RleState = *(LPRLESTATE)pv;
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return sizeof(RLESTATE);
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}
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#if !defined NUMELMS
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#define NUMELMS(aa) (sizeof(aa)/sizeof((aa)[0]))
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#endif
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#if defined _WIN32 && !defined UNICODE
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int LoadUnicodeString(HINSTANCE hinst, UINT wID, LPWSTR lpBuffer, int cchBuffer)
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{
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char ach[128];
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int i;
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i = LoadString(hinst, wID, ach, sizeof(ach));
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if (i > 0)
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MultiByteToWideChar(CP_ACP, 0, ach, -1, lpBuffer, cchBuffer);
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return i;
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}
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#else
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#define LoadUnicodeString LoadString
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#endif
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/*****************************************************************************
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****************************************************************************/
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DWORD NEAR PASCAL RleGetInfo(PRLEINST pri, ICINFO FAR *icinfo, DWORD dwSize)
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{
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if (icinfo == NULL)
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return sizeof(ICINFO);
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if (dwSize < sizeof(ICINFO))
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return 0;
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icinfo->dwSize = sizeof(ICINFO);
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icinfo->fccType = ICTYPE_VIDEO;
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icinfo->fccHandler = FOURCC_RLE;
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icinfo->dwFlags = VIDCF_QUALITY | // supports quality
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VIDCF_TEMPORAL | // supports inter-frame
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VIDCF_CRUNCH; // can crunch to a data rate
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icinfo->dwVersion = ICVERSION;
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LoadUnicodeString(ghModule, IDS_DESCRIPTION, icinfo->szDescription, NUMELMS(icinfo->szDescription));
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LoadUnicodeString(ghModule, IDS_NAME, icinfo->szName, NUMELMS(icinfo->szName));
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return sizeof(ICINFO);
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}
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/*****************************************************************************
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****************************************************************************/
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DWORD NEAR PASCAL RleCompressQuery(PRLEINST pri, LPBITMAPINFOHEADER lpbiIn, LPBITMAPINFOHEADER lpbiOut)
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{
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//
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// determine if the input DIB data is in a format we like.
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//
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if (lpbiIn == NULL ||
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lpbiIn->biBitCount != 8 ||
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lpbiIn->biCompression != BI_RGB)
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return (DWORD)ICERR_BADFORMAT;
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//
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// are we being asked to query just the input format?
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//
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if (lpbiOut == NULL)
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return ICERR_OK;
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//
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// make sure we can handle the format to compress to also.
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//
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if (lpbiOut->biCompression != BI_RLE8 || // must be rle format
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lpbiOut->biBitCount != 8 || // must be 8bpp
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lpbiOut->biWidth != lpbiIn->biWidth || // must be 1:1 (no stretch)
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lpbiOut->biHeight != lpbiIn->biHeight)
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return (DWORD)ICERR_BADFORMAT;
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return ICERR_OK;
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}
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/*****************************************************************************
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****************************************************************************/
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DWORD NEAR PASCAL RleCompressGetFormat(PRLEINST pri, LPBITMAPINFOHEADER lpbiIn, LPBITMAPINFOHEADER lpbiOut)
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{
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DWORD dw;
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if (dw = RleCompressQuery(pri, lpbiIn, NULL))
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return dw;
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dw = lpbiIn->biSize + (int)lpbiIn->biClrUsed * sizeof(RGBQUAD);
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//
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// if lpbiOut == NULL then, return the size required to hold a output
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// format
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//
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if (lpbiOut == NULL)
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return dw;
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hmemcpy(lpbiOut, lpbiIn, dw);
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lpbiOut->biBitCount = 8;
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lpbiOut->biCompression = BI_RLE8;
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lpbiOut->biSizeImage = RleCompressGetSize(pri, lpbiIn, lpbiOut);
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return ICERR_OK;
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}
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/*****************************************************************************
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****************************************************************************/
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DWORD NEAR PASCAL RleCompressBegin(PRLEINST pri, LPBITMAPINFOHEADER lpbiIn, LPBITMAPINFOHEADER lpbiOut)
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{
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DWORD dw;
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if (dw = RleCompressQuery(pri, lpbiIn, lpbiOut))
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return dw;
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if (pri->lpbiPrev) {
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GlobalFreePtr(pri->lpbiPrev);
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pri->lpbiPrev = NULL;
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}
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pri->iStart = 0;
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pri->lLastParm = 0L;
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pri->fCompressBegin = TRUE;
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MakeRgbTable(lpbiIn);
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return ICERR_OK;
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}
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/*****************************************************************************
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****************************************************************************/
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DWORD NEAR PASCAL RleCompressGetSize(PRLEINST pri, LPBITMAPINFOHEADER lpbiIn, LPBITMAPINFOHEADER lpbiOut)
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{
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int dx,dy;
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//
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// we assume RLE data will never be twice the size of a full frame.
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//
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dx = (int)lpbiIn->biWidth;
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dy = (int)lpbiIn->biHeight;
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return (DWORD)(UINT)dx * (DWORD)(UINT)dy * 2;
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}
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/*****************************************************************************
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****************************************************************************/
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DWORD NEAR PASCAL RleCompress(PRLEINST pri, ICCOMPRESS FAR *icinfo, DWORD dwSize)
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{
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DWORD dw;
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BOOL fFrameHalvingOccurred = FALSE;
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LPBITMAPINFOHEADER lpbi;
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if (!pri->fCompressBegin)
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{
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if (dw = RleCompressBegin(pri, icinfo->lpbiInput, icinfo->lpbiOutput))
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return dw;
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pri->fCompressBegin = FALSE;
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}
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//
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// we can compress in one of two ways:
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//
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// if a frame size is given (>0) then call CrunchDib using the passed
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// quality as the "frame half" setting.
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//
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// if a frame size is not given (==0) then use the passed quality
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// as the tolerance and do a normal RleDeltaFrame()
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//
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if (icinfo->dwQuality == ICQUALITY_DEFAULT)
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icinfo->dwQuality = QUALITY_DEFAULT;
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if (icinfo->dwFrameSize > 0)
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{
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dw = ICQUALITY_HIGH - icinfo->dwQuality;
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pri->RleState.lMaxFrameSize = icinfo->dwFrameSize;
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pri->RleState.lMinFrameSize = icinfo->dwFrameSize - 500;
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pri->RleState.tolMax = dw;
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pri->RleState.tolSpatial = dw / 8;
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pri->RleState.tolTemporal = ADAPTIVE;
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// SplitDib makes really ugly artifacts by splitting the frame into who knows
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// how many pieces which will be pieced together like a bad jigsaw puzzle where
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// each piece is from a different picture. I decided never to use this method
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// of compression.
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#if 0
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if (dw == 0)
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{
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pri->RleState.tolSpatial = 0;
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pri->RleState.tolTemporal = 0;
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SplitDib(pri,
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icinfo->lpbiOutput, icinfo->lpOutput,
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icinfo->lpbiPrev, icinfo->lpPrev,
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icinfo->lpbiInput, icinfo->lpInput);
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}
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else
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#endif
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{
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CrunchDib(pri,
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icinfo->lpbiOutput, icinfo->lpOutput,
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icinfo->lpbiPrev, icinfo->lpPrev,
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icinfo->lpbiInput, icinfo->lpInput);
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}
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lpbi = icinfo->lpbiOutput;
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if (lpbi->biCompression == BI_DIBX)
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fFrameHalvingOccurred = TRUE;
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if (icinfo->lpckid)
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{
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if (fFrameHalvingOccurred)
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*icinfo->lpckid = TWOCC_DIBX;
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else
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*icinfo->lpckid = TWOCC_RLE;
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}
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lpbi->biCompression = BI_RLE8; // biSizeImage is filled in
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}
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else
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{
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dw = ICQUALITY_HIGH - icinfo->dwQuality;
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pri->RleState.tolSpatial = dw;
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pri->RleState.tolTemporal = dw / 8;
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RleDeltaFrame(
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icinfo->lpbiOutput, icinfo->lpOutput,
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icinfo->lpbiPrev, icinfo->lpPrev,
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icinfo->lpbiInput, icinfo->lpInput,
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0,-1,
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pri->RleState.tolTemporal,
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pri->RleState.tolSpatial,
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pri->RleState.iMaxRunLen,4);
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if (icinfo->lpckid)
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*icinfo->lpckid = TWOCC_RLE;
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}
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//
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// set the AVI index flags,
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//
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// make it a keyframe, if no previous frame
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//
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if (icinfo->lpdwFlags) {
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if (icinfo->lpbiPrev == NULL && !fFrameHalvingOccurred)
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*icinfo->lpdwFlags |= AVIIF_TWOCC | AVIIF_KEYFRAME;
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else
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*icinfo->lpdwFlags |= AVIIF_TWOCC;
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}
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return ICERR_OK;
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}
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/*****************************************************************************
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****************************************************************************/
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DWORD NEAR PASCAL RleCompressEnd(PRLEINST pri)
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{
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pri->fCompressBegin = FALSE;
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return ICERR_OK;
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}
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/*****************************************************************************
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****************************************************************************/
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DWORD NEAR PASCAL RleDecompressQuery(RLEINST * pri, LPBITMAPINFOHEADER lpbiIn, LPBITMAPINFOHEADER lpbiOut)
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{
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//
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// determine if the input DIB data is in a format we like.
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// We like all RGB. We like 8bit RLE.
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//
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if (lpbiIn == NULL ||
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(lpbiIn->biBitCount != 8 && lpbiIn->biCompression == BI_RLE8) ||
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(lpbiIn->biCompression != BI_RGB && lpbiIn->biCompression != BI_RLE8))
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return (DWORD)ICERR_BADFORMAT;
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//
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// are we being asked to query just the input format?
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//
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if (lpbiOut == NULL)
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return ICERR_OK;
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//
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// make sure we can handle the format to decompress too.
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//
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if (lpbiOut->biCompression != BI_RGB || // must be full dib
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lpbiOut->biBitCount != lpbiIn->biBitCount ||// must match
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lpbiOut->biWidth != lpbiIn->biWidth || // must be 1:1 (no stretch)
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lpbiOut->biHeight != lpbiIn->biHeight)
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return (DWORD)ICERR_BADFORMAT;
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return ICERR_OK;
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}
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/*****************************************************************************
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****************************************************************************/
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DWORD NEAR PASCAL RleDecompressGetFormat(RLEINST * pri, LPBITMAPINFOHEADER lpbiIn, LPBITMAPINFOHEADER lpbiOut)
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{
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DWORD dw;
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if (dw = RleDecompressQuery(pri, lpbiIn, NULL))
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return dw;
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dw = lpbiIn->biSize + (int)lpbiIn->biClrUsed * sizeof(RGBQUAD);
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//
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// if lpbiOut == NULL then, return the size required to hold a output
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// format
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//
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if (lpbiOut == NULL)
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return dw;
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hmemcpy(lpbiOut, lpbiIn, dw);
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lpbiOut->biBitCount = lpbiIn->biBitCount;
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lpbiOut->biCompression = BI_RGB;
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lpbiOut->biSizeImage = lpbiIn->biHeight * DibWidthBytes(lpbiIn);
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return ICERR_OK;
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}
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/*****************************************************************************
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****************************************************************************/
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DWORD NEAR PASCAL RleDecompressBegin(RLEINST * pri, LPBITMAPINFOHEADER lpbiIn, LPBITMAPINFOHEADER lpbiOut)
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{
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DWORD dw;
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if (dw = RleDecompressQuery(pri, lpbiIn, lpbiOut))
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return dw;
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pri->fDecompressBegin = TRUE;
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// Make sure we know the size of an uncompressed DIB
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if (lpbiOut->biSizeImage == 0)
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lpbiOut->biSizeImage = lpbiOut->biHeight * DibWidthBytes(lpbiOut);
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return ICERR_OK;
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}
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/*****************************************************************************
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****************************************************************************/
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DWORD NEAR PASCAL RleDecompress(RLEINST * pri, ICDECOMPRESS FAR *icinfo, DWORD dwSize)
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{
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DWORD dw;
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if (!pri->fDecompressBegin)
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{
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if (dw = RleDecompressBegin(pri, icinfo->lpbiInput, icinfo->lpbiOutput))
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return dw;
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pri->fDecompressBegin = FALSE;
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}
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//
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// handle a decompress of 'DIB ' (ie full frame) data. Just return it.
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// It may be disguised an an RLE. We can tell by how big it is
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//
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if (icinfo->lpbiInput->biCompression == BI_RGB ||
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icinfo->lpbiInput->biSizeImage == icinfo->lpbiOutput->biSizeImage)
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{
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hmemcpy(icinfo->lpOutput, icinfo->lpInput,
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icinfo->lpbiInput->biSizeImage);
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return ICERR_OK;
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}
|
|
|
|
DecodeRle(icinfo->lpbiOutput, icinfo->lpOutput, icinfo->lpInput);
|
|
|
|
return ICERR_OK;
|
|
}
|
|
|
|
/*****************************************************************************
|
|
****************************************************************************/
|
|
DWORD NEAR PASCAL RleDecompressEnd(RLEINST * pri)
|
|
{
|
|
pri->fDecompressBegin = FALSE;
|
|
return ICERR_OK;
|
|
}
|
|
|
|
/***************************************************************************
|
|
|
|
DecodeRle - 'C' version
|
|
|
|
Play back a RLE buffer into a DIB buffer
|
|
|
|
returns
|
|
none
|
|
|
|
***************************************************************************/
|
|
|
|
void NEAR PASCAL DecodeRle(LPBITMAPINFOHEADER lpbi, LPVOID lp, LPVOID lpRle)
|
|
{
|
|
UINT cnt;
|
|
BYTE b;
|
|
UINT x;
|
|
UINT dx,dy;
|
|
UINT wWidthBytes;
|
|
|
|
#define RLE_ESCAPE 0
|
|
#define RLE_EOL 0
|
|
#define RLE_EOF 1
|
|
#define RLE_JMP 2
|
|
#define RLE_RUN 3
|
|
|
|
#ifndef _WIN32
|
|
extern FAR PASCAL __WinFlags;
|
|
#define WinFlags (UINT)(&__WinFlags)
|
|
//
|
|
// this uses ASM code found in RLEA.ASM
|
|
//
|
|
if (!(WinFlags & WF_CPU286))
|
|
DecodeRle386(lpbi, lp, lpRle);
|
|
else if (lpbi->biSizeImage < 65536l)
|
|
DecodeRle286(lpbi, lp, lpRle);
|
|
else
|
|
#endif
|
|
{
|
|
BYTE _huge *pb = lp;
|
|
BYTE _huge *prle = lpRle;
|
|
|
|
wWidthBytes = (UINT)lpbi->biWidth+3 & ~3;
|
|
|
|
x = 0;
|
|
|
|
for(;;)
|
|
{
|
|
cnt = (UINT)*prle++;
|
|
b = *prle++;
|
|
|
|
if (cnt == RLE_ESCAPE)
|
|
{
|
|
switch (b)
|
|
{
|
|
case RLE_EOF:
|
|
return;
|
|
|
|
case RLE_EOL:
|
|
pb += wWidthBytes - x;
|
|
x = 0;
|
|
break;
|
|
|
|
case RLE_JMP:
|
|
dx = (UINT)*prle++;
|
|
dy = (UINT)*prle++;
|
|
|
|
pb += (DWORD)wWidthBytes * dy + dx;
|
|
x += dx;
|
|
|
|
break;
|
|
|
|
default:
|
|
cnt = b;
|
|
x += cnt;
|
|
// If the count was sufficiently large it would be worthwhile
|
|
// using an inline memcpy function. The code could
|
|
// be faster. Even doing this as a series of word
|
|
// moves would be quicker. However, RLE is not the highest
|
|
// priority.
|
|
while (cnt-- > 0)
|
|
*pb++ = *prle++; // copy
|
|
|
|
if (b & 1)
|
|
prle++;
|
|
|
|
break;
|
|
}
|
|
}
|
|
else
|
|
{
|
|
x += cnt;
|
|
|
|
// If the count was sufficiently large it would be worthwhile
|
|
// using an inline memset function. The code could
|
|
// be faster. Even doing this as a series of word
|
|
// moves would be quicker. However, RLE is not the highest
|
|
// priority.
|
|
#if 1
|
|
// at least on the x86... this way persuades the compiler
|
|
// to use registers more effectively through the whole of
|
|
// the decode routine
|
|
while (cnt-- > 0) {
|
|
*pb++ = b; // set
|
|
}
|
|
|
|
#else // the alternative
|
|
memset(pb, b, cnt);
|
|
pb += cnt;
|
|
#endif
|
|
}
|
|
}
|
|
}
|
|
}
|
|
|
|
#ifdef DEBUG
|
|
|
|
void FAR cdecl dprintf(LPSTR szFormat, ...)
|
|
{
|
|
char ach[256];
|
|
va_list va;
|
|
|
|
static BOOL fDebug = -1;
|
|
|
|
if (fDebug == -1)
|
|
fDebug = GetProfileIntA("Debug", "MSRLE", FALSE);
|
|
|
|
if (!fDebug)
|
|
return;
|
|
|
|
lstrcpyA(ach, "MSRLE: ");
|
|
va_start(va, szFormat);
|
|
wvsprintfA(ach+7, szFormat, va);
|
|
va_end(va);
|
|
lstrcatA(ach, "\r\n");
|
|
|
|
OutputDebugStringA(ach);
|
|
}
|
|
|
|
#endif
|