www.gusucode.com > VC Access数据库创建读写实例 > VC Access数据库创建读写实例/RWAccess/PictureEx.cpp
//////////////////////////////////////////////////////////////////////
// PictureEx.cpp: implementation of the CPicture class.
//
// Picture displaying control with support for the following formats:
// GIF (including animated GIF87a and GIF89a), JPEG, BMP, WMF, ICO, CUR
//
// Written by Oleg Bykov (oleg_bykoff@rsdn.ru)
//
// Modified by jingzhou Xu
//////////////////////////////////////////////////////////////////////
#include "stdafx.h"
#include "PictureEx.h"
#include <math.h>
#include <process.h>
#ifdef _DEBUG
#undef THIS_FILE
static char THIS_FILE[]=__FILE__;
#define new DEBUG_NEW
#endif
//////////////////////////////////////////////////////////////////////
// Nested structures member functions
//////////////////////////////////////////////////////////////////////
inline int CPictureEx::TGIFControlExt::GetPackedValue(enum ControlExtValues Value)
{
int nRet = (int)m_cPacked;
switch (Value)
{
case GCX_PACKED_DISPOSAL:
nRet = (nRet & 28) >> 2;
break;
case GCX_PACKED_USERINPUT:
nRet = (nRet & 2) >> 1;
break;
case GCX_PACKED_TRANSPCOLOR:
nRet &= 1;
break;
};
return nRet;
}
inline int CPictureEx::TGIFLSDescriptor::GetPackedValue(enum LSDPackedValues Value)
{
int nRet = (int)m_cPacked;
switch (Value)
{
case LSD_PACKED_GLOBALCT:
nRet = nRet >> 7;
break;
case LSD_PACKED_CRESOLUTION:
nRet = ((nRet & 0x70) >> 4) + 1;
break;
case LSD_PACKED_SORT:
nRet = (nRet & 8) >> 3;
break;
case LSD_PACKED_GLOBALCTSIZE:
nRet &= 7;
break;
};
return nRet;
}
inline int CPictureEx::TGIFImageDescriptor::GetPackedValue(enum IDPackedValues Value)
{
int nRet = (int)m_cPacked;
switch (Value)
{
case ID_PACKED_LOCALCT:
nRet >>= 7;
break;
case ID_PACKED_INTERLACE:
nRet = ((nRet & 0x40) >> 6);
break;
case ID_PACKED_SORT:
nRet = (nRet & 0x20) >> 5;
break;
case ID_PACKED_LOCALCTSIZE:
nRet &= 7;
break;
};
return nRet;
}
//////////////////////////////////////////////////////////////////////
// Construction/Destruction
//////////////////////////////////////////////////////////////////////
CPictureEx::CPictureEx()
{
// check structures size
ASSERT(sizeof(TGIFImageDescriptor) == 10);
ASSERT(sizeof(TGIFAppExtension) == 14);
ASSERT(sizeof(TGIFPlainTextExt) == 15);
ASSERT(sizeof(TGIFLSDescriptor) == 7);
ASSERT(sizeof(TGIFControlExt) == 8);
ASSERT(sizeof(TGIFCommentExt) == 2);
ASSERT(sizeof(TGIFHeader) == 6);
m_pGIFLSDescriptor = NULL;
m_pGIFHeader = NULL;
m_pPicture = NULL;
m_pRawData = NULL;
m_hThread = NULL;
m_hBitmap = NULL;
m_hMemDC = NULL;
m_bIsInitialized = FALSE;
m_bExitThread = FALSE;
m_bIsGIF = FALSE;
m_clrBackground = RGB(255,255,255); // white by default
m_nGlobalCTSize = 0;
m_nCurrOffset = 0;
m_nDataSize = 0;
m_PictureSize.cx = m_PictureSize.cy = 0;
m_hExitEvent = CreateEvent(NULL,TRUE,FALSE,NULL);
}
CPictureEx::~CPictureEx()
{
UnLoad();
CloseHandle(m_hExitEvent);
}
BEGIN_MESSAGE_MAP(CPictureEx, CStatic)
//{{AFX_MSG_MAP(CMyStatic)
ON_WM_DESTROY()
ON_WM_PAINT()
//}}AFX_MSG_MAP
END_MESSAGE_MAP()
BOOL CPictureEx::Load(HGLOBAL hGlobal, DWORD dwSize)
{
IStream *pStream = NULL;
UnLoad();
if (!(m_pRawData = reinterpret_cast<unsigned char*> (GlobalLock(hGlobal))) )
{
TRACE(_T("Load: Error locking memory\n"));
return FALSE;
};
m_nDataSize = dwSize;
m_pGIFHeader = reinterpret_cast<TGIFHeader *> (m_pRawData);
if ((memcmp(&m_pGIFHeader->m_cSignature,"GIF",3) != 0) &&
((memcmp(&m_pGIFHeader->m_cVersion,"87a",3) != 0) ||
(memcmp(&m_pGIFHeader->m_cVersion,"89a",3) != 0)) )
{
// it's neither GIF87a nor GIF89a
// do the default processing
// clear GIF variables
m_pRawData = NULL;
GlobalUnlock(hGlobal);
// don't delete memory on object's release
if (CreateStreamOnHGlobal(hGlobal,FALSE,&pStream) != S_OK)
return FALSE;
if (OleLoadPicture(pStream,dwSize,FALSE,IID_IPicture,
reinterpret_cast<LPVOID *>(&m_pPicture)) != S_OK)
{
pStream->Release();
return FALSE;
};
pStream->Release();
// store picture's size
long hmWidth;
long hmHeight;
m_pPicture->get_Width(&hmWidth);
m_pPicture->get_Height(&hmHeight);
HDC hDC = ::GetDC(m_hWnd);
m_PictureSize.cx = MulDiv(hmWidth, GetDeviceCaps(hDC,LOGPIXELSX), 2540);
m_PictureSize.cy = MulDiv(hmHeight, GetDeviceCaps(hDC,LOGPIXELSY), 2540);
::ReleaseDC(m_hWnd,hDC);
}
else
{
// it's a GIF
m_bIsGIF = TRUE;
m_pGIFLSDescriptor = reinterpret_cast<TGIFLSDescriptor *>
(m_pRawData + sizeof(TGIFHeader));
if (m_pGIFLSDescriptor->GetPackedValue(LSD_PACKED_GLOBALCT) == 1)
{
// calculate the globat color table size
m_nGlobalCTSize = static_cast<int>
(3*pow(2,m_pGIFLSDescriptor->GetPackedValue(LSD_PACKED_GLOBALCTSIZE)+1));
// get the background color if GCT is present
unsigned char *pBkClr = m_pRawData + sizeof(TGIFHeader) +
sizeof(TGIFLSDescriptor) + 3*m_pGIFLSDescriptor->m_cBkIndex;
m_clrBackground = RGB(pBkClr[0],pBkClr[1],pBkClr[2]);
};
// store the picture's size
m_PictureSize.cx = m_pGIFLSDescriptor->m_wWidth;
m_PictureSize.cy = m_pGIFLSDescriptor->m_wHeight;
// determine frame count for this picture
UINT nFrameCount=0;
ResetDataPointer();
while (SkipNextGraphicBlock())
nFrameCount++;
#ifdef GIF_TRACING
TRACE(
_T(" -= GIF encountered\n"
"Logical Screen dimensions = %dx%d\n"
"Global color table = %d\n"
"Color depth = %d\n"
"Sort flag = %d\n"
"Size of Global Color Table = %d\n"
"Background color index = %d\n"
"Pixel aspect ratio = %d\n"
"Frame count = %d\n"
"Background color = %06Xh\n\n"
),
m_pGIFLSDescriptor->m_wWidth,
m_pGIFLSDescriptor->m_wHeight,
m_pGIFLSDescriptor->GetPackedValue(LSD_PACKED_GLOBALCT),
m_pGIFLSDescriptor->GetPackedValue(LSD_PACKED_CRESOLUTION),
m_pGIFLSDescriptor->GetPackedValue(LSD_PACKED_SORT),
m_pGIFLSDescriptor->GetPackedValue(LSD_PACKED_GLOBALCTSIZE),
m_pGIFLSDescriptor->m_cBkIndex,
m_pGIFLSDescriptor->m_cPixelAspect,
nFrameCount,
m_clrBackground
);
EnumGIFBlocks();
#endif
if (nFrameCount == 0) // it's an empty GIF!
{
m_pRawData = NULL;
GlobalUnlock(hGlobal);
return FALSE;
};
// now check the frame count
// if there's only one frame, no need to animate this GIF
// therefore, treat it like any other pic
if (nFrameCount == 1)
{
// clear GIF variables
m_pRawData = NULL;
GlobalUnlock(hGlobal);
// don't delete memory on object's release
if (CreateStreamOnHGlobal(hGlobal,FALSE,&pStream) != S_OK)
return FALSE;
if (OleLoadPicture(pStream,dwSize,FALSE,IID_IPicture,
(LPVOID *)&m_pPicture) != S_OK)
{
pStream->Release();
return FALSE;
};
pStream->Release();
}
else
{
// if, on the contrary, there are several frames
// then store separate frames in an array
TFrame frame;
UINT nBlockLen;
HGLOBAL hFrameData;
UINT nCurFrame = 0;
ResetDataPointer();
while (hFrameData = GetNextGraphicBlock(&nBlockLen,
&frame.m_nDelay, &frame.m_frameSize,
&frame.m_frameOffset, &frame.m_nDisposal) )
{
#ifdef GIF_TRACING
//////////////////////////////////////////////
// uncomment the following strings if you want
// to write separate frames on disk
//
// CString szName;
// szName.Format(_T("%.4d.gif"),nCurFrame);
// WriteDataOnDisk(szName,hFrameData,nBlockLen);
// nCurFrame++;
#endif // GIF_TRACING
IStream *pStream = NULL;
// delete memory on object's release
if (CreateStreamOnHGlobal(hFrameData,TRUE,&pStream) != S_OK)
{
GlobalFree(hFrameData);
continue;
};
if (OleLoadPicture(pStream,nBlockLen,FALSE,
IID_IPicture,
reinterpret_cast<LPVOID *>(&frame.m_pPicture)) != S_OK)
{
pStream->Release();
continue;
};
pStream->Release();
// everything went well, add this frame
m_arrFrames.push_back(frame);
};
// clean after ourselves
m_pRawData = NULL;
GlobalUnlock(hGlobal);
if (m_arrFrames.empty()) // couldn't load any frames
return FALSE;
};
}; // if (!IsGIF...
return PrepareDC(m_PictureSize.cx,m_PictureSize.cy);
}
void CPictureEx::UnLoad()
{
Stop();
if (m_pPicture)
{
m_pPicture->Release();
m_pPicture = NULL;
};
std::vector<TFrame>::iterator it;
for (it=m_arrFrames.begin();it<m_arrFrames.end();it++)
(*it).m_pPicture->Release();
m_arrFrames.clear();
if (m_hMemDC)
{
SelectObject(m_hMemDC,m_hOldBitmap);
::DeleteDC(m_hMemDC);
::DeleteObject(m_hBitmap);
m_hMemDC = NULL;
m_hBitmap = NULL;
};
m_pGIFLSDescriptor = NULL;
m_pGIFHeader = NULL;
m_pRawData = NULL;
m_hThread = NULL;
m_bIsInitialized = FALSE;
m_bExitThread = FALSE;
m_bIsGIF = FALSE;
m_clrBackground = RGB(255,255,255); // white by default
m_nGlobalCTSize = 0;
m_nCurrOffset = 0;
m_nDataSize = 0;
}
BOOL CPictureEx::Draw()
{
if (!m_bIsInitialized)
{
TRACE(_T("Call of one the CPictureEx::Load() member functions before calling Draw()\n"));
return FALSE;
};
if (IsAnimatedGIF())
{
// the picture needs some animation
// we'll start the thread that will handle it for us
unsigned int nDummy;
m_hThread = (HANDLE) _beginthreadex(NULL,0,_ThreadAnimation,this,
CREATE_SUSPENDED,&nDummy);
if (!m_hThread)
{
TRACE(_T("Draw: Couldn't start a GIF animation thread\n"));
return FALSE;
}
else
ResumeThread(m_hThread);
}
else
{
if (m_pPicture)
{
long hmWidth;
long hmHeight;
m_pPicture->get_Width(&hmWidth);
m_pPicture->get_Height(&hmHeight);
if (m_pPicture->Render(m_hMemDC, 0, 0, m_PictureSize.cx, m_PictureSize.cy,
0, hmHeight, hmWidth, -hmHeight, NULL) == S_OK)
{
Invalidate(FALSE);
return TRUE;
};
};
};
return FALSE;
}
SIZE CPictureEx::GetSize() const
{
return m_PictureSize;
}
BOOL CPictureEx::Load(LPCTSTR szFileName)
{
ASSERT(szFileName);
CFile file;
HGLOBAL hGlobal;
DWORD dwSize;
if (!file.Open(szFileName,
CFile::modeRead |
CFile::shareDenyWrite) )
{
TRACE(_T("Load (file): Error opening file %s\n"),szFileName);
return FALSE;
};
dwSize = file.GetLength();
hGlobal = GlobalAlloc(GMEM_MOVEABLE | GMEM_NODISCARD,dwSize);
if (!hGlobal)
{
TRACE(_T("Load (file): Error allocating memory\n"));
return FALSE;
};
char *pData = reinterpret_cast<char*>(GlobalLock(hGlobal));
if (!pData)
{
TRACE(_T("Load (file): Error locking memory\n"));
GlobalFree(hGlobal);
return FALSE;
};
TRY
{
file.Read(pData,dwSize);
}
CATCH(CFileException, e);
{
TRACE(_T("Load (file): An exception occured while reading the file %s\n"),
szFileName);
GlobalFree(hGlobal);
//e->Delete(); // DO NOT CALL THIS, CAN CAUSE CRASH. majun, 7.31
file.Close();
return FALSE;
}
END_CATCH
GlobalUnlock(hGlobal);
file.Close();
BOOL bRetValue = Load(hGlobal,dwSize);
GlobalFree(hGlobal);
return bRetValue;
}
BOOL CPictureEx::Load(LPCTSTR szResourceName, LPCTSTR szResourceType)
{
ASSERT(szResourceName);
ASSERT(szResourceType);
HRSRC hPicture = FindResource(AfxGetResourceHandle(),szResourceName,szResourceType);
HGLOBAL hResData;
if (!hPicture || !(hResData = LoadResource(AfxGetResourceHandle(),hPicture)))
{
TRACE(_T("Load (resource): Error loading resource %s\n"),szResourceName);
return FALSE;
};
DWORD dwSize = SizeofResource(AfxGetResourceHandle(),hPicture);
// hResData is not the real HGLOBAL (we can't lock it)
// let's make it real
HGLOBAL hGlobal = GlobalAlloc(GMEM_MOVEABLE | GMEM_NODISCARD,dwSize);
if (!hGlobal)
{
TRACE("Load (resource): Error allocating memory\n");
FreeResource(hResData);
return FALSE;
};
char *pDest = reinterpret_cast<char *> (GlobalLock(hGlobal));
char *pSrc = reinterpret_cast<char *> (LockResource(hResData));
if (!pSrc || !pDest)
{
TRACE(_T("Load (resource): Error locking memory\n"));
GlobalFree(hGlobal);
FreeResource(hResData);
return FALSE;
};
CopyMemory(pDest,pSrc,dwSize);
FreeResource(hResData);
GlobalUnlock(hGlobal);
BOOL bRetValue = Load(hGlobal,dwSize);
GlobalFree(hGlobal);
return bRetValue;
}
void CPictureEx::ResetDataPointer()
{
// skip header and logical screen descriptor
m_nCurrOffset =
sizeof(TGIFHeader)+sizeof(TGIFLSDescriptor)+m_nGlobalCTSize;
}
BOOL CPictureEx::SkipNextGraphicBlock()
{
if (!m_pRawData) return FALSE;
// GIF header + LSDescriptor [+ GCT] [+ Control block] + Data
enum GIFBlockTypes nBlock;
nBlock = GetNextBlock();
while ((nBlock != BLOCK_CONTROLEXT) &&
(nBlock != BLOCK_IMAGE) &&
(nBlock != BLOCK_PLAINTEXT) &&
(nBlock != BLOCK_UNKNOWN) &&
(nBlock != BLOCK_TRAILER) )
{
if (!SkipNextBlock()) return NULL;
nBlock = GetNextBlock();
};
if ((nBlock == BLOCK_UNKNOWN) ||
(nBlock == BLOCK_TRAILER))
return FALSE;
// it's either a control ext.block, an image or a plain text
if (GetNextBlockLen() <= 0) return FALSE;
if (nBlock == BLOCK_CONTROLEXT)
{
if (!SkipNextBlock()) return FALSE;
nBlock = GetNextBlock();
// skip everything until we meet an image block or a plain-text block
while ((nBlock != BLOCK_IMAGE) &&
(nBlock != BLOCK_PLAINTEXT) &&
(nBlock != BLOCK_UNKNOWN) &&
(nBlock != BLOCK_TRAILER) )
{
if (!SkipNextBlock()) return NULL;
nBlock = GetNextBlock();
};
if ((nBlock == BLOCK_UNKNOWN) ||
(nBlock == BLOCK_TRAILER))
return FALSE;
};
// skip the found data block (image or plain-text)
if (!SkipNextBlock()) return FALSE;
return TRUE;
}
UINT CPictureEx::GetSubBlocksLen(UINT nStartingOffset) const
{
UINT nRet = 0;
UINT nCurOffset = nStartingOffset;
while (m_pRawData[nCurOffset] != 0)
{
nRet += m_pRawData[nCurOffset]+1;
nCurOffset += m_pRawData[nCurOffset]+1;
};
return nRet+1;
}
enum CPictureEx::GIFBlockTypes CPictureEx::GetNextBlock() const
{
switch(m_pRawData[m_nCurrOffset])
{
case 0x21:
// extension block
switch(m_pRawData[m_nCurrOffset+1])
{
case 0x01:
// plain text extension
return BLOCK_PLAINTEXT;
break;
case 0xF9:
// graphic control extension
return BLOCK_CONTROLEXT;
break;
case 0xFE:
// comment extension
return BLOCK_COMMEXT;
break;
case 0xFF:
// application extension
return BLOCK_APPEXT;
break;
};
break;
case 0x3B:
// trailer
return BLOCK_TRAILER;
break;
case 0x2C:
// image data
return BLOCK_IMAGE;
break;
};
return BLOCK_UNKNOWN;
}
BOOL CPictureEx::SkipNextBlock()
{
if (!m_pRawData) return FALSE;
int nLen = GetNextBlockLen();
if ((nLen <= 0) || ((m_nCurrOffset+nLen) > m_nDataSize))
return FALSE;
m_nCurrOffset += nLen;
return TRUE;
}
int CPictureEx::GetNextBlockLen() const
{
GIFBlockTypes nBlock = GetNextBlock();
int nTmp;
switch(nBlock)
{
case BLOCK_UNKNOWN:
return -1;
break;
case BLOCK_TRAILER:
return 1;
break;
case BLOCK_APPEXT:
nTmp = GetSubBlocksLen(m_nCurrOffset+sizeof(TGIFAppExtension));
if (nTmp > 0)
return sizeof(TGIFAppExtension)+nTmp;
break;
case BLOCK_COMMEXT:
nTmp = GetSubBlocksLen(m_nCurrOffset+sizeof(TGIFCommentExt));
if (nTmp > 0)
return sizeof(TGIFCommentExt)+nTmp;
break;
case BLOCK_CONTROLEXT:
return sizeof(TGIFControlExt);
break;
case BLOCK_PLAINTEXT:
nTmp = GetSubBlocksLen(m_nCurrOffset+sizeof(TGIFPlainTextExt));
if (nTmp > 0)
return sizeof(TGIFPlainTextExt)+nTmp;
break;
case BLOCK_IMAGE:
TGIFImageDescriptor *pIDescr =
reinterpret_cast<TGIFImageDescriptor *> (&m_pRawData[m_nCurrOffset]);
int nLCTSize = (int)
(pIDescr->GetPackedValue(ID_PACKED_LOCALCT)*3*
pow(2,pIDescr->GetPackedValue(ID_PACKED_LOCALCTSIZE)+1));
int nTmp = GetSubBlocksLen(m_nCurrOffset+
sizeof(TGIFImageDescriptor) + nLCTSize + 1);
if (nTmp > 0)
return sizeof(TGIFImageDescriptor) + nLCTSize + 1 + nTmp;
break;
};
return 0;
}
UINT WINAPI CPictureEx::_ThreadAnimation(LPVOID pParam)
{
ASSERT(pParam);
CPictureEx *pPic = reinterpret_cast<CPictureEx *> (pParam);
pPic->ThreadAnimation();
// this thread has finished its work so we close the handle
CloseHandle(pPic->m_hThread);
// and init the handle to zero (so that Stop() doesn't Wait on it)
pPic->m_hThread = 0;
return 0;
}
void CPictureEx::ThreadAnimation()
{
int nTemp = 0;
while (!m_bExitThread)
{
if (m_arrFrames[nTemp].m_pPicture)
{
///////////////////////////////////////////////////////
// Before rendering a frame we should take care of what's
// behind that frame. TFrame::m_nDisposal will be our guide:
// 0 - no disposal specified (do nothing)
// 1 - do not dispose (again, do nothing)
// 2 - restore to background color (m_clrBackground)
// 3 - restore to previous
//////// disposal method #3
HDC hMemDC = NULL;
HBITMAP hMemBM = NULL, hOldBM;
if (m_arrFrames[nTemp].m_nDisposal == 3)
{
// prepare a memory DC and store the background in it
hMemDC = CreateCompatibleDC(m_hMemDC);
hMemBM = CreateCompatibleBitmap(m_hMemDC,
m_arrFrames[nTemp].m_frameSize.cx,
m_arrFrames[nTemp].m_frameSize.cy);
if (hMemDC && hMemBM)
{
hOldBM = reinterpret_cast<HBITMAP> (SelectObject(hMemDC,hMemBM));
BitBlt(hMemDC,0,0,
m_arrFrames[nTemp].m_frameSize.cx,
m_arrFrames[nTemp].m_frameSize.cy,
m_hMemDC,
m_arrFrames[nTemp].m_frameOffset.cx,
m_arrFrames[nTemp].m_frameOffset.cy,
SRCCOPY);
};
};
///////////////////////
long hmWidth;
long hmHeight;
m_arrFrames[nTemp].m_pPicture->get_Width(&hmWidth);
m_arrFrames[nTemp].m_pPicture->get_Height(&hmHeight);
if (m_arrFrames[nTemp].m_pPicture->Render(m_hMemDC,
m_arrFrames[nTemp].m_frameOffset.cx,
m_arrFrames[nTemp].m_frameOffset.cy,
m_arrFrames[nTemp].m_frameSize.cx,
m_arrFrames[nTemp].m_frameSize.cy,
0, hmHeight, hmWidth, -hmHeight, NULL) == S_OK)
{
Invalidate(FALSE);
};
if (m_bExitThread)
{
if (hMemDC)
{
// dispose local variables
SelectObject(hMemDC,hOldBM);
DeleteDC(hMemDC);
DeleteObject(hMemBM);
};
break;
};
// if the delay time is too short (like in old GIFs), wait for 100ms
if (m_arrFrames[nTemp].m_nDelay < 5)
WaitForSingleObject(m_hExitEvent, 100);
else
WaitForSingleObject(m_hExitEvent, 10*m_arrFrames[nTemp].m_nDelay);
if (m_bExitThread)
{
if (hMemDC)
{
// dispose local variables
SelectObject(hMemDC,hOldBM);
DeleteDC(hMemDC);
DeleteObject(hMemBM);
};
break;
};
// disposal method #2
if (m_arrFrames[nTemp].m_nDisposal == 2)
{
HBRUSH hBrush = CreateSolidBrush(m_clrBackground);
if (hBrush)
{
RECT rect = {
m_arrFrames[nTemp].m_frameOffset.cx,
m_arrFrames[nTemp].m_frameOffset.cy,
m_arrFrames[nTemp].m_frameOffset.cx + m_arrFrames[nTemp].m_frameSize.cx,
m_arrFrames[nTemp].m_frameOffset.cy + m_arrFrames[nTemp].m_frameSize.cy };
FillRect(m_hMemDC,&rect,hBrush);
DeleteObject(hBrush);
};
}
else
if (hMemDC && (m_arrFrames[nTemp].m_nDisposal == 3) )
{
// put it back
BitBlt(m_hMemDC,
m_arrFrames[nTemp].m_frameOffset.cx,
m_arrFrames[nTemp].m_frameOffset.cy,
m_arrFrames[nTemp].m_frameSize.cx,
m_arrFrames[nTemp].m_frameSize.cy,
hMemDC,0,0, SRCCOPY);
// dispose local variables
SelectObject(hMemDC,hOldBM);
DeleteDC(hMemDC);
DeleteObject(hMemBM);
};
};
nTemp++;
if (nTemp == m_arrFrames.size())
{
nTemp = 0;
// init the screen for the first frame,
HBRUSH hBrush = CreateSolidBrush(m_clrBackground);
if (hBrush)
{
RECT rect = {0,0,m_PictureSize.cx,m_PictureSize.cy};
FillRect(m_hMemDC,&rect,hBrush);
DeleteObject(hBrush);
};
};
};
}
void CPictureEx::Stop()
{
m_bExitThread = TRUE;
SetEvent(m_hExitEvent);
if (m_hThread)
{
// we'll wait for 5 seconds then continue execution
WaitForSingleObject(m_hThread,5000);
CloseHandle(m_hThread);
m_hThread = NULL;
}
// make it possible to Draw() again
ResetEvent(m_hExitEvent);
m_bExitThread = FALSE;
}
HGLOBAL CPictureEx::GetNextGraphicBlock(UINT *pBlockLen,
UINT *pDelay, SIZE *pBlockSize, SIZE *pBlockOffset,
UINT *pDisposal)
{
if (!m_pRawData) return NULL;
// GIF header + LSDescriptor [+ GCT] [+ Control block] + Data
*pDisposal = 0;
enum GIFBlockTypes nBlock;
nBlock = GetNextBlock();
while (
(nBlock != BLOCK_CONTROLEXT) &&
(nBlock != BLOCK_IMAGE) &&
(nBlock != BLOCK_PLAINTEXT) &&
(nBlock != BLOCK_UNKNOWN) &&
(nBlock != BLOCK_TRAILER)
)
{
if (!SkipNextBlock()) return NULL;
nBlock = GetNextBlock();
};
if ((nBlock == BLOCK_UNKNOWN) ||
(nBlock == BLOCK_TRAILER))
return NULL;
// it's either a control ext.block, an image or a plain text
int nStart = m_nCurrOffset;
int nBlockLen = GetNextBlockLen();
if (nBlockLen <= 0) return NULL;
if (nBlock == BLOCK_CONTROLEXT)
{
// get the following data
TGIFControlExt *pControl =
reinterpret_cast<TGIFControlExt *> (&m_pRawData[m_nCurrOffset]);
// store delay time
*pDelay = pControl->m_wDelayTime;
// store disposal method
*pDisposal = pControl->GetPackedValue(GCX_PACKED_DISPOSAL);
if (!SkipNextBlock()) return NULL;
nBlock = GetNextBlock();
// skip everything until we find data to display
// (image block or plain-text block)
while (
(nBlock != BLOCK_IMAGE) &&
(nBlock != BLOCK_PLAINTEXT) &&
(nBlock != BLOCK_UNKNOWN) &&
(nBlock != BLOCK_TRAILER)
)
{
if (!SkipNextBlock()) return NULL;
nBlock = GetNextBlock();
nBlockLen += GetNextBlockLen();
};
if ((nBlock == BLOCK_UNKNOWN) || (nBlock == BLOCK_TRAILER))
return NULL;
nBlockLen += GetNextBlockLen();
}
else
*pDelay = -1; // to indicate that there was no delay value
if (nBlock == BLOCK_IMAGE)
{
// store size and offsets
TGIFImageDescriptor *pImage =
reinterpret_cast<TGIFImageDescriptor *> (&m_pRawData[m_nCurrOffset]);
pBlockSize->cx = pImage->m_wWidth;
pBlockSize->cy = pImage->m_wHeight;
pBlockOffset->cx = pImage->m_wLeftPos;
pBlockOffset->cy = pImage->m_wTopPos;
};
if (!SkipNextBlock()) return NULL;
HGLOBAL hGlobal = GlobalAlloc(GMEM_FIXED,
sizeof(TGIFHeader) +
sizeof(TGIFLSDescriptor) +
m_nGlobalCTSize +
nBlockLen +
1); // for the trailer
if (!hGlobal) return NULL;
int nOffset = 0;
// GMEM_FIXED means we get a pointer
unsigned char *pGlobal = reinterpret_cast<unsigned char *> (hGlobal);
CopyMemory(pGlobal,m_pRawData,
sizeof(TGIFHeader)+sizeof(TGIFLSDescriptor)+m_nGlobalCTSize);
nOffset += sizeof(TGIFHeader)+sizeof(TGIFLSDescriptor)+m_nGlobalCTSize;
CopyMemory(pGlobal + nOffset,&m_pRawData[nStart], nBlockLen);
nOffset += nBlockLen;
pGlobal[nOffset] = 0x3B; // trailer
nOffset++;
*pBlockLen = nOffset;
return hGlobal;
}
BOOL CPictureEx::IsGIF() const
{
return m_bIsGIF;
}
BOOL CPictureEx::IsAnimatedGIF() const
{
return (m_bIsGIF && (m_arrFrames.size() > 1));
}
int CPictureEx::GetFrameCount() const
{
if (!IsAnimatedGIF())
return 0;
return m_arrFrames.size();
}
COLORREF CPictureEx::GetBkColor() const
{
return m_clrBackground;
}
void CPictureEx::OnPaint()
{
CPaintDC dc(this); // device context for painting
::BitBlt(dc.m_hDC,0,0,m_PictureSize.cx,m_PictureSize.cy,
m_hMemDC,0,0,SRCCOPY);
}
BOOL CPictureEx::PrepareDC(int nWidth, int nHeight)
{
SetWindowPos(NULL,0,0,nWidth,nHeight,SWP_NOMOVE | SWP_NOZORDER);
HDC hWinDC = ::GetDC(m_hWnd);
if (!hWinDC) return FALSE;
m_hMemDC = CreateCompatibleDC(hWinDC);
if (!m_hMemDC)
{
::ReleaseDC(m_hWnd,hWinDC);
return FALSE;
};
m_hBitmap = CreateCompatibleBitmap(hWinDC,nWidth,nHeight);
if (!m_hBitmap)
{
::ReleaseDC(m_hWnd,hWinDC);
::DeleteDC(m_hMemDC);
return FALSE;
};
m_hOldBitmap = reinterpret_cast<HBITMAP>
(SelectObject(m_hMemDC,m_hBitmap));
// fill the background
m_clrBackground = GetSysColor(COLOR_3DFACE);
RECT rect = {0,0,nWidth,nHeight};
FillRect(m_hMemDC,&rect,(HBRUSH)(COLOR_WINDOW));
m_bIsInitialized = TRUE;
return TRUE;
}
void CPictureEx::OnDestroy()
{
Stop();
CStatic::OnDestroy();
}
void CPictureEx::SetBkColor(COLORREF clr)
{
if (!m_bIsInitialized) return;
m_clrBackground = clr;
HBRUSH hBrush = CreateSolidBrush(clr);
if (hBrush)
{
RECT rect = {0,0,m_PictureSize.cx,m_PictureSize.cy};
FillRect(m_hMemDC,&rect,hBrush);
DeleteObject(hBrush);
};
}
#ifdef GIF_TRACING
void CPictureEx::WriteDataOnDisk(CString szFileName, HGLOBAL hData, DWORD dwSize)
{
CFile file;
if (!file.Open(szFileName,
CFile::modeCreate |
CFile::modeWrite |
CFile::shareDenyNone))
{
TRACE(_T("WriteData: Error creating file %s\n"),szFileName);
return;
};
char *pData = reinterpret_cast<char *> (GlobalLock(hData));
if (!pData)
{
TRACE(_T("WriteData: Error locking memory\n"));
return;
};
TRY
{
file.Write(pData,dwSize);
}
CATCH(CFileException, e);
{
TRACE(_T("WriteData: An exception occured while writing to the file %s\n"),
szFileName);
//e->Delete(); // DO NOT CALL THIS, CAN CAUSE CRASH. majun, 7.31
GlobalUnlock(hData);
file.Close();
return;
}
END_CATCH
GlobalUnlock(hData);
file.Close();
}
void CPictureEx::EnumGIFBlocks()
{
enum GIFBlockTypes nBlock;
ResetDataPointer();
while(m_nCurrOffset < m_nDataSize)
{
nBlock = GetNextBlock();
switch(nBlock)
{
case BLOCK_UNKNOWN:
TRACE(_T("- Unknown block\n"));
return;
break;
case BLOCK_TRAILER:
TRACE(_T("- Trailer block\n"));
break;
case BLOCK_APPEXT:
TRACE(_T("- Application extension block\n"));
break;
case BLOCK_COMMEXT:
TRACE(_T("- Comment extension block\n"));
break;
case BLOCK_CONTROLEXT:
{
TGIFControlExt *pControl =
reinterpret_cast<TGIFControlExt *> (&m_pRawData[m_nCurrOffset]);
TRACE(_T("- Graphic control extension block (delay %d, disposal %d)\n"),
pControl->m_wDelayTime, pControl->GetPackedValue(GCX_PACKED_DISPOSAL));
};
break;
case BLOCK_PLAINTEXT:
TRACE(_T("- Plain text extension block\n"));
break;
case BLOCK_IMAGE:
TGIFImageDescriptor *pIDescr =
reinterpret_cast<TGIFImageDescriptor *> (&m_pRawData[m_nCurrOffset]);
TRACE(_T("- Image data block (%dx%d %d,%d)\n"),
pIDescr->m_wWidth,
pIDescr->m_wHeight,
pIDescr->m_wLeftPos,
pIDescr->m_wTopPos);
break;
};
SkipNextBlock();
};
TRACE(_T("\n"));
}
#endif // GIF_TRACING