www.gusucode.com > VC 使用图形方式显示动态数字 -源码程序 > VC 使用图形方式显示动态数字 -源码程序/code/dib256.cpp
//Download by http://www.NewXing.com
/////////////////////////////////////////////////////////////////////////////
// Copyright (C) 1998 by J鰎g K鰊ig
// All rights reserved
//
// This file is part of the completely free tetris clone "CGTetris".
//
// This is free software.
// You may redistribute it by any means providing it is not sold for profit
// without the authors written consent.
//
// No warrantee of any kind, expressed or implied, is included with this
// software; use at your own risk, responsibility for damages (if any) to
// anyone resulting from the use of this software rests entirely with the
// user.
//
// Send bug reports, bug fixes, enhancements, requests, flames, etc., and
// I'll try to keep a version up to date. I can be reached as follows:
// J.Koenig@adg.de (company site)
// Joerg.Koenig@rhein-neckar.de (private site)
/////////////////////////////////////////////////////////////////////////////
#include "stdafx.h"
#include "dib256.h"
#include "dibpal.h"
#define PADWIDTH(x) (((x)*8 + 31) & (~31))/8
CDIBitmap :: CDIBitmap()
: m_pInfo(0)
, m_pPixels(0)
, m_pPal(0)
, m_bIsPadded(FALSE)
{
}
CDIBitmap :: ~CDIBitmap() {
delete [] (BYTE*)m_pInfo;
delete [] m_pPixels;
delete m_pPal;
}
void CDIBitmap :: DestroyBitmap() {
delete [] (BYTE*)m_pInfo;
delete [] m_pPixels;
delete m_pPal;
m_pInfo = 0;
m_pPixels = 0;
m_pPal = 0;
}
BOOL CDIBitmap :: CreateFromBitmap( CDC * pDC, CBitmap * pSrcBitmap ) {
ASSERT_VALID(pSrcBitmap);
ASSERT_VALID(pDC);
try {
BITMAP bmHdr;
// Get the pSrcBitmap info
pSrcBitmap->GetObject(sizeof(BITMAP), &bmHdr);
// Reallocate space for the image data
if( m_pPixels ) {
delete [] m_pPixels;
m_pPixels = 0;
}
DWORD dwWidth;
if (bmHdr.bmBitsPixel > 8)
dwWidth = PADWIDTH(bmHdr.bmWidth * 3);
else
dwWidth = PADWIDTH(bmHdr.bmWidth);
m_pPixels = new BYTE[dwWidth*bmHdr.bmHeight];
if( !m_pPixels )
throw TEXT("could not allocate data storage\n");
// Set the appropriate number of colors base on BITMAP structure info
WORD wColors;
switch( bmHdr.bmBitsPixel ) {
case 1 :
wColors = 2;
break;
case 4 :
wColors = 16;
break;
case 8 :
wColors = 256;
break;
default :
wColors = 0;
break;
}
// Re-allocate and populate BITMAPINFO structure
if( m_pInfo ) {
delete [] (BYTE*)m_pInfo;
m_pInfo = 0;
}
m_pInfo = (BITMAPINFO*)new BYTE[sizeof(BITMAPINFOHEADER) + wColors*sizeof(RGBQUAD)];
if( !m_pInfo )
throw TEXT("could not allocate BITMAPINFO struct\n");
// Populate BITMAPINFO header info
m_pInfo->bmiHeader.biSize = sizeof(BITMAPINFOHEADER);
m_pInfo->bmiHeader.biWidth = bmHdr.bmWidth;
m_pInfo->bmiHeader.biHeight = bmHdr.bmHeight;
m_pInfo->bmiHeader.biPlanes = bmHdr.bmPlanes;
if( bmHdr.bmBitsPixel > 8 )
m_pInfo->bmiHeader.biBitCount = 24;
else
m_pInfo->bmiHeader.biBitCount = bmHdr.bmBitsPixel;
m_pInfo->bmiHeader.biCompression = BI_RGB;
m_pInfo->bmiHeader.biSizeImage = ((((bmHdr.bmWidth * bmHdr.bmBitsPixel) + 31) & ~31) >> 3) * bmHdr.bmHeight;
m_pInfo->bmiHeader.biXPelsPerMeter = 0;
m_pInfo->bmiHeader.biYPelsPerMeter = 0;
m_pInfo->bmiHeader.biClrUsed = 0;
m_pInfo->bmiHeader.biClrImportant = 0;
// Now actually get the bits
int test = ::GetDIBits(pDC->GetSafeHdc(), (HBITMAP)pSrcBitmap->GetSafeHandle(),
0, (WORD)bmHdr.bmHeight, m_pPixels, m_pInfo, DIB_RGB_COLORS);
// check that we scanned in the correct number of bitmap lines
if( test != (int)bmHdr.bmHeight )
throw TEXT("call to GetDIBits did not return full number of requested scan lines\n");
CreatePalette();
m_bIsPadded = FALSE;
#ifdef _DEBUG
} catch( TCHAR * psz ) {
TRACE1("CDIBitmap::CreateFromBitmap(): %s\n", psz);
#else
} catch( TCHAR * ) {
#endif
if( m_pPixels ) {
delete [] m_pPixels;
m_pPixels = 0;
}
if( m_pInfo ) {
delete [] (BYTE*) m_pInfo;
m_pInfo = 0;
}
return FALSE;
}
return TRUE;
}
BOOL CDIBitmap :: LoadResource(LPCTSTR pszID) {
HBITMAP hBmp = (HBITMAP)::LoadImage(
AfxGetInstanceHandle(),
pszID, IMAGE_BITMAP,
0,0, LR_CREATEDIBSECTION
);
if( hBmp == 0 )
return FALSE;
CBitmap bmp;
bmp.Attach(hBmp);
CClientDC cdc( CWnd::GetDesktopWindow() );
BOOL bRet = CreateFromBitmap( &cdc, &bmp );
bmp.DeleteObject();
return bRet;
}
BOOL CDIBitmap :: Load( CFile* pFile ) {
ASSERT( pFile );
BOOL fReturn = TRUE;
try {
delete [] (BYTE*)m_pInfo;
delete [] m_pPixels;
m_pInfo = 0;
m_pPixels = 0;
DWORD dwStart = pFile->GetPosition();
//
// Check to make sure we have a bitmap. The first two bytes must
// be 'B' and 'M'.
BITMAPFILEHEADER fileHeader;
pFile->Read(&fileHeader, sizeof(fileHeader));
if( fileHeader.bfType != 0x4D42 )
throw TEXT("Error:Unexpected file type, not a DIB\n");
BITMAPINFOHEADER infoHeader;
pFile->Read( &infoHeader, sizeof(infoHeader) );
if( infoHeader.biSize != sizeof(infoHeader) )
throw TEXT("Error:OS2 PM BMP Format not supported\n");
// Store the sizes of the DIB structures
int cPaletteEntries = GetPalEntries( infoHeader );
int cColorTable = 256 * sizeof(RGBQUAD);
int cInfo = sizeof(BITMAPINFOHEADER) + cColorTable;
int cPixels = fileHeader.bfSize - fileHeader.bfOffBits;
//
// Allocate space for a new bitmap info header, and copy
// the info header that was loaded from the file. Read the
// the file and store the results in the color table.
m_pInfo = (BITMAPINFO*)new BYTE[cInfo];
memcpy( m_pInfo, &infoHeader, sizeof(BITMAPINFOHEADER) );
pFile->Read( ((BYTE*)m_pInfo) + sizeof(BITMAPINFOHEADER),
cColorTable );
//
// Allocate space for the pixel area, and load the pixel
// info from the file.
m_pPixels = new BYTE[cPixels];
pFile->Seek(dwStart + fileHeader.bfOffBits, CFile::begin);
pFile->Read( m_pPixels, cPixels );
CreatePalette();
m_bIsPadded = TRUE;
#ifdef _DEBUG
} catch( TCHAR * psz ) {
TRACE( psz );
#else
} catch( TCHAR * ) {
#endif
fReturn = FALSE;
}
return fReturn;
}
BOOL CDIBitmap :: Load( const CString & strFilename ) {
CFile file;
if( file.Open( strFilename, CFile::modeRead ) )
return Load( &file );
return FALSE;
}
BOOL CDIBitmap :: Save( const CString & strFileName ) {
ASSERT(! strFileName.IsEmpty());
CFile File;
if( !File.Open(strFileName, CFile::modeCreate|CFile::modeWrite) ) {
TRACE1("CDIBitmap::Save(): Failed to open file %s for writing.\n", LPCSTR(strFileName));
return FALSE;
}
return Save( &File );
}
// Does not open or close pFile. Assumes
// caller will do it.
BOOL CDIBitmap :: Save( CFile * pFile ) {
ASSERT_VALID( pFile );
ASSERT( m_pInfo );
ASSERT( m_pPixels );
BITMAPFILEHEADER bmfHdr;
DWORD dwPadWidth = PADWIDTH(GetWidth());
// Make sure bitmap data is in padded format
PadBits();
bmfHdr.bfType = 0x4D42;
// initialize to BitmapInfo size
DWORD dwImageSize= m_pInfo->bmiHeader.biSize;
// Add in palette size
WORD wColors = GetColorCount();
WORD wPaletteSize = (WORD)(wColors*sizeof(RGBQUAD));
dwImageSize += wPaletteSize;
// Add in size of actual bit array
dwImageSize += PADWIDTH((GetWidth()) * DWORD(m_pInfo->bmiHeader.biBitCount)/8) * GetHeight();
m_pInfo->bmiHeader.biSizeImage = 0;
bmfHdr.bfSize = dwImageSize + sizeof(BITMAPFILEHEADER);
bmfHdr.bfReserved1 = 0;
bmfHdr.bfReserved2 = 0;
bmfHdr.bfOffBits = (DWORD)sizeof(BITMAPFILEHEADER) + m_pInfo->bmiHeader.biSize + wPaletteSize;
pFile->Write(&bmfHdr, sizeof(BITMAPFILEHEADER));
pFile->Write(m_pInfo, sizeof(BITMAPINFO) + (wColors-1)*sizeof(RGBQUAD));
pFile->WriteHuge(m_pPixels,
DWORD((dwPadWidth*(DWORD)m_pInfo->bmiHeader.biBitCount*GetHeight())/8) );
return TRUE;
}
BOOL CDIBitmap :: CreatePalette() {
if( m_pPal )
delete m_pPal;
m_pPal = 0;
ASSERT( m_pInfo );
// We only need a palette, if there are <= 256 colors.
// otherwise we would bomb the memory.
if( m_pInfo->bmiHeader.biBitCount <= 8 )
m_pPal = new CBmpPalette(this);
return m_pPal ? TRUE : FALSE;
}
void CDIBitmap :: ClearPalette() {
if( m_pPal )
delete m_pPal;
m_pPal = 0;
}
void CDIBitmap :: DrawDIB( CDC* pDC, int x, int y ) {
DrawDIB( pDC, x, y, GetWidth(), GetHeight() );
}
//
// DrawDib uses StretchDIBits to display the bitmap.
void CDIBitmap :: DrawDIB( CDC* pDC, int x, int y, int width, int height ) {
ASSERT( pDC );
HDC hdc = pDC->GetSafeHdc();
CPalette * pOldPal = 0;
if( m_pPal ) {
pOldPal = pDC->SelectPalette( m_pPal, FALSE );
pDC->RealizePalette();
// Make sure to use the stretching mode best for color pictures
pDC->SetStretchBltMode(COLORONCOLOR);
}
if( m_pInfo )
StretchDIBits( hdc,
x,
y,
width,
height,
0,
0,
GetWidth(),
GetHeight(),
GetPixelPtr(),
GetHeaderPtr(),
DIB_RGB_COLORS,
SRCCOPY );
if( m_pPal )
pDC->SelectPalette( pOldPal, FALSE );
}
int CDIBitmap :: DrawDIB( CDC * pDC, CRect & rectDC, CRect & rectDIB ) {
ASSERT( pDC );
HDC hdc = pDC->GetSafeHdc();
CPalette * pOldPal = 0;
if( m_pPal ) {
pOldPal = pDC->SelectPalette( m_pPal, FALSE );
pDC->RealizePalette();
// Make sure to use the stretching mode best for color pictures
pDC->SetStretchBltMode(COLORONCOLOR);
}
int nRet = 0;
if( m_pInfo )
nRet = SetDIBitsToDevice(
hdc, // device
rectDC.left, // DestX
rectDC.top, // DestY
rectDC.Width(), // DestWidth
rectDC.Height(), // DestHeight
rectDIB.left, // SrcX
GetHeight() -
rectDIB.top -
rectDIB.Height(), // SrcY
0, // StartScan
GetHeight(), // NumScans
GetPixelPtr(), // color data
GetHeaderPtr(), // header data
DIB_RGB_COLORS // color usage
);
if( m_pPal )
pDC->SelectPalette( pOldPal, FALSE );
return nRet;
}
BITMAPINFO * CDIBitmap :: GetHeaderPtr() const {
ASSERT( m_pInfo );
ASSERT( m_pPixels );
return m_pInfo;
}
RGBQUAD * CDIBitmap :: GetColorTablePtr() const {
ASSERT( m_pInfo );
ASSERT( m_pPixels );
RGBQUAD* pColorTable = 0;
if( m_pInfo != 0 ) {
int cOffset = sizeof(BITMAPINFOHEADER);
pColorTable = (RGBQUAD*)(((BYTE*)(m_pInfo)) + cOffset);
}
return pColorTable;
}
BYTE * CDIBitmap :: GetPixelPtr() const {
ASSERT( m_pInfo );
ASSERT( m_pPixels );
return m_pPixels;
}
int CDIBitmap :: GetWidth() const {
ASSERT( m_pInfo );
return m_pInfo->bmiHeader.biWidth;
}
int CDIBitmap :: GetHeight() const {
ASSERT( m_pInfo );
return m_pInfo->bmiHeader.biHeight;
}
WORD CDIBitmap :: GetColorCount() const {
ASSERT( m_pInfo );
switch( m_pInfo->bmiHeader.biBitCount ) {
case 1: return 2;
case 4: return 16;
case 8: return 256;
default: return 0;
}
}
int CDIBitmap :: GetPalEntries() const {
ASSERT( m_pInfo );
return GetPalEntries( *(BITMAPINFOHEADER*)m_pInfo );
}
int CDIBitmap :: GetPalEntries( BITMAPINFOHEADER& infoHeader ) const {
int nReturn;
if( infoHeader.biClrUsed == 0 )
nReturn = ( 1 << infoHeader.biBitCount );
else
nReturn = infoHeader.biClrUsed;
return nReturn;
}
DWORD CDIBitmap :: GetBitsPerPixel() const {
ASSERT( m_pInfo );
return m_pInfo->bmiHeader.biBitCount;
}
DWORD CDIBitmap :: LastByte( DWORD dwBitsPerPixel, DWORD dwPixels ) const {
register DWORD dwBits = dwBitsPerPixel * dwPixels;
register DWORD numBytes = dwBits / 8;
register DWORD extraBits = dwBits - numBytes * 8;
return (extraBits % 8) ? numBytes+1 : numBytes;
}
DWORD CDIBitmap :: GetBytesPerLine( DWORD dwBitsPerPixel, DWORD dwWidth ) const {
DWORD dwBits = dwBitsPerPixel * dwWidth;
if( (dwBits % 32) == 0 )
return (dwBits/8); // already DWORD aligned, no padding needed
DWORD dwPadBits = 32 - (dwBits % 32);
return (dwBits/8 + dwPadBits/8 + (((dwPadBits % 8) > 0) ? 1 : 0));
}
BOOL CDIBitmap :: PadBits() {
if( m_bIsPadded )
return TRUE;
// dwAdjust used when bits per pixel spreads over more than 1 byte
DWORD dwAdjust = 1, dwOffset = 0, dwPadOffset=0;
BOOL bIsOdd = FALSE;
dwPadOffset = GetBytesPerLine(GetBitsPerPixel(), GetWidth());
dwOffset = LastByte(GetBitsPerPixel(), GetWidth());
if( dwPadOffset == dwOffset )
return TRUE;
BYTE * pTemp = new BYTE [GetWidth()*dwAdjust];
if( !pTemp ) {
TRACE1("CDIBitmap::PadBits(): could not allocate row of width %d.\n", GetWidth());
return FALSE;
}
// enough space has already been allocated for the bit array to
// include the padding, so we just need to shift rows around.
// This will pad each "row" on a DWORD alignment.
for( DWORD row = GetHeight()-1 ; row>0 ; --row ) {
CopyMemory((void *)pTemp, (const void *)(m_pPixels + (row*dwOffset)), dwOffset );
CopyMemory((void *)(m_pPixels + (row*dwPadOffset)), (const void *)pTemp, dwOffset);
}
delete [] pTemp;
return TRUE;
}
BOOL CDIBitmap::UnPadBits() {
if( ! m_bIsPadded )
return TRUE;
DWORD dwAdjust = 1;
BOOL bIsOdd = FALSE;
DWORD dwPadOffset = GetBytesPerLine(GetBitsPerPixel(), GetWidth());
DWORD dwOffset = LastByte(GetBitsPerPixel(), GetWidth());
BYTE * pTemp = new BYTE [dwOffset];
if( !pTemp ) {
TRACE1("CDIBitmap::UnPadBits() could not allocate row of width %d.\n", GetWidth());
return FALSE;
}
// enough space has already been allocated for the bit array to
// include the padding, so we just need to shift rows around.
for( DWORD row=1 ; row < DWORD(GetHeight()); ++row ) {
CopyMemory((void *)pTemp, (const void *)(m_pPixels + row*(dwPadOffset)), dwOffset);
CopyMemory((void *)(m_pPixels + (row*dwOffset)), (const void *)pTemp, dwOffset);
}
delete [] pTemp;
return TRUE;
}