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Computer Buyer 1996 October
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Computer Buyer October 1996.iso
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WIN_G
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UTILS.C_
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UTILS.C
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C/C++ Source or Header
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1994-09-20
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16KB
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613 lines
/**************************************************************************
UTILS.C - useful functions for WinG Sample Apps
**************************************************************************/
/**************************************************************************
(C) Copyright 1994 Microsoft Corp. All rights reserved.
You have a royalty-free right to use, modify, reproduce and
distribute the Sample Files (and/or any modified version) in
any way you find useful, provided that you agree that
Microsoft has no warranty obligations or liability for any
Sample Application Files which are modified.
**************************************************************************/
/*----------------------------------------------------------------------------*\
| Functions for handling Device Independent Bitmaps and clearing the |
| System Palette. |
\*----------------------------------------------------------------------------*/
#include <windows.h>
#include <windowsx.h>
#include "utils.h"
#if defined(WIN32) || defined(_WIN32)
#include <memory.h> // for _fmemcpy()
#define _huge
#define hmemcpy memcpy
#endif
#define BFT_ICON 0x4349 /* 'IC' */
#define BFT_BITMAP 0x4d42 /* 'BM' */
#define BFT_CURSOR 0x5450 /* 'PT' */
/* flags for _lseek */
#define SEEK_CUR 1
#define SEEK_END 2
#define SEEK_SET 0
/*
* Clear the System Palette so that we can ensure an identity palette
* mapping for fast performance.
*/
void ClearSystemPalette(void)
{
//*** A dummy palette setup
struct
{
WORD Version;
WORD NumberOfEntries;
PALETTEENTRY aEntries[256];
} Palette =
{
0x300,
256
};
HPALETTE ScreenPalette = 0;
HDC ScreenDC;
int Counter;
UINT nMapped = 0;
BOOL bOK = FALSE;
int nOK = 0;
//*** Reset everything in the system palette to black
for(Counter = 0; Counter < 256; Counter++)
{
Palette.aEntries[Counter].peRed = 0;
Palette.aEntries[Counter].peGreen = 0;
Palette.aEntries[Counter].peBlue = 0;
Palette.aEntries[Counter].peFlags = PC_NOCOLLAPSE;
}
//*** Create, select, realize, deselect, and delete the palette
ScreenDC = GetDC(NULL);
ScreenPalette = CreatePalette((LOGPALETTE *)&Palette);
if (ScreenPalette)
{
ScreenPalette = SelectPalette(ScreenDC,ScreenPalette,FALSE);
nMapped = RealizePalette(ScreenDC);
ScreenPalette = SelectPalette(ScreenDC,ScreenPalette,FALSE);
bOK = DeleteObject(ScreenPalette);
}
nOK = ReleaseDC(NULL, ScreenDC);
return;
}
/*
* Open a DIB file and return a MEMORY DIB, a memory handle containing..
*
* BITMAP INFO bi
* palette data
* bits....
*/
PDIB DibOpenFile(LPSTR szFile)
{
HFILE fh;
DWORD dwLen;
DWORD dwBits;
PDIB pdib;
LPVOID p;
OFSTRUCT of;
#if defined(WIN32) || defined(_WIN32)
#define GetCurrentInstance() GetModuleHandle(NULL)
#else
#define GetCurrentInstance() (HINSTANCE)SELECTOROF((LPVOID)&of)
#endif
fh = OpenFile(szFile, &of, OF_READ);
if (fh == -1)
{
HRSRC h;
h = FindResource(GetCurrentInstance(), szFile, RT_BITMAP);
#if defined(WIN32) || defined(_WIN32)
//!!! can we call GlobalFree() on this? is it the right format.
//!!! can we write to this resource?
if (h)
return (PDIB)LockResource(LoadResource(GetCurrentInstance(), h));
#else
if (h)
fh = AccessResource(GetCurrentInstance(), h);
#endif
}
if (fh == -1)
return NULL;
pdib = DibReadBitmapInfo(fh);
if (!pdib)
return NULL;
/* How much memory do we need to hold the DIB */
dwBits = pdib->biSizeImage;
dwLen = pdib->biSize + DibPaletteSize(pdib) + dwBits;
/* Can we get more memory? */
p = GlobalReAllocPtr(pdib,dwLen,0);
if (!p)
{
GlobalFreePtr(pdib);
pdib = NULL;
}
else
{
pdib = (PDIB)p;
}
if (pdib)
{
/* read in the bits */
_hread(fh, (LPBYTE)pdib + (UINT)pdib->biSize + DibPaletteSize(pdib), dwBits);
}
_lclose(fh);
return pdib;
}
/*
* ReadDibBitmapInfo()
*
* Will read a file in DIB format and return a global HANDLE to its
* BITMAPINFO. This function will work with both "old" and "new"
* bitmap formats, but will always return a "new" BITMAPINFO.
*/
PDIB DibReadBitmapInfo(HFILE fh)
{
DWORD off;
HANDLE hbi = NULL;
int size;
int i;
int nNumColors;
RGBQUAD FAR *pRgb;
BITMAPINFOHEADER bi;
BITMAPCOREHEADER bc;
BITMAPFILEHEADER bf;
PDIB pdib;
if (fh == -1)
return NULL;
off = _llseek(fh,0L,SEEK_CUR);
if (sizeof(bf) != _lread(fh,(LPSTR)&bf,sizeof(bf)))
return FALSE;
/*
* do we have a RC HEADER?
*/
if (bf.bfType != BFT_BITMAP)
{
bf.bfOffBits = 0L;
_llseek(fh,off,SEEK_SET);
}
if (sizeof(bi) != _lread(fh,(LPSTR)&bi,sizeof(bi)))
return FALSE;
/*
* what type of bitmap info is this?
*/
switch (size = (int)bi.biSize)
{
default:
case sizeof(BITMAPINFOHEADER):
break;
case sizeof(BITMAPCOREHEADER):
bc = *(BITMAPCOREHEADER*)&bi;
bi.biSize = sizeof(BITMAPINFOHEADER);
bi.biWidth = (DWORD)bc.bcWidth;
bi.biHeight = (DWORD)bc.bcHeight;
bi.biPlanes = (UINT)bc.bcPlanes;
bi.biBitCount = (UINT)bc.bcBitCount;
bi.biCompression = BI_RGB;
bi.biSizeImage = 0;
bi.biXPelsPerMeter = 0;
bi.biYPelsPerMeter = 0;
bi.biClrUsed = 0;
bi.biClrImportant = 0;
_llseek(fh,(LONG)sizeof(BITMAPCOREHEADER)-sizeof(BITMAPINFOHEADER),SEEK_CUR);
break;
}
nNumColors = DibNumColors(&bi);
#if 0
if (bi.biSizeImage == 0)
bi.biSizeImage = DibSizeImage(&bi);
if (bi.biClrUsed == 0)
bi.biClrUsed = DibNumColors(&bi);
#else
FixBitmapInfo(&bi);
#endif
pdib = (PDIB)GlobalAllocPtr(GMEM_MOVEABLE,(LONG)bi.biSize + nNumColors * sizeof(RGBQUAD));
if (!pdib)
return NULL;
*pdib = bi;
pRgb = DibColors(pdib);
if (nNumColors)
{
if (size == sizeof(BITMAPCOREHEADER))
{
/*
* convert a old color table (3 byte entries) to a new
* color table (4 byte entries)
*/
_lread(fh,(LPVOID)pRgb,nNumColors * sizeof(RGBTRIPLE));
for (i=nNumColors-1; i>=0; i--)
{
RGBQUAD rgb;
rgb.rgbRed = ((RGBTRIPLE FAR *)pRgb)[i].rgbtRed;
rgb.rgbBlue = ((RGBTRIPLE FAR *)pRgb)[i].rgbtBlue;
rgb.rgbGreen = ((RGBTRIPLE FAR *)pRgb)[i].rgbtGreen;
rgb.rgbReserved = (BYTE)0;
pRgb[i] = rgb;
}
}
else
{
_lread(fh,(LPVOID)pRgb,nNumColors * sizeof(RGBQUAD));
}
}
if (bf.bfOffBits != 0L)
_llseek(fh,off + bf.bfOffBits,SEEK_SET);
return pdib;
}
/*
* DibSetUsage(hdib,hpal,wUsage)
*
* Modifies the color table of the passed DIB for use with the wUsage
* parameter specifed.
*
* if wUsage is DIB_PAL_COLORS the DIB color table is set to 0-256
* if wUsage is DIB_RGB_COLORS the DIB color table is set to the RGB values
* in the passed palette
*/
BOOL DibSetUsage(PDIB pdib, HPALETTE hpal,UINT wUsage)
{
PALETTEENTRY ape[256];
RGBQUAD FAR * pRgb;
WORD FAR * pw;
int nColors;
int n;
if (hpal == NULL)
hpal = (HPALETTE)GetStockObject(DEFAULT_PALETTE);
if (!pdib)
return FALSE;
nColors = DibNumColors(pdib);
if (nColors == 3 && DibCompression(pdib) == BI_BITFIELDS)
nColors = 0;
if (nColors > 0)
{
pRgb = DibColors(pdib);
switch (wUsage)
{
//
// Set the DIB color table to palette indexes
//
case DIB_PAL_COLORS:
for (pw = (WORD FAR*)pRgb,n=0; n<nColors; n++,pw++)
*pw = n;
break;
//
// Set the DIB color table to RGBQUADS
//
default:
case DIB_RGB_COLORS:
nColors = min(nColors,256);
GetPaletteEntries(hpal,0,nColors,ape);
for (n=0; n<nColors; n++)
{
pRgb[n].rgbRed = ape[n].peRed;
pRgb[n].rgbGreen = ape[n].peGreen;
pRgb[n].rgbBlue = ape[n].peBlue;
pRgb[n].rgbReserved = 0;
}
break;
}
}
return TRUE;
}
/*
* DibCreate(bits, dx, dy)
*
* Creates a new packed DIB with the given dimensions and the
* given number of bits per pixel
*/
PDIB DibCreate(int bits, int dx, int dy)
{
LPBITMAPINFOHEADER lpbi ;
DWORD dwSizeImage;
int i;
DWORD FAR *pdw;
dwSizeImage = dy*(DWORD)((dx*bits/8+3)&~3);
lpbi = (PDIB)GlobalAllocPtr(GHND,sizeof(BITMAPINFOHEADER)+dwSizeImage + 1024);
if (lpbi == NULL)
return NULL;
lpbi->biSize = sizeof(BITMAPINFOHEADER) ;
lpbi->biWidth = dx;
lpbi->biHeight = dy;
lpbi->biPlanes = 1;
lpbi->biBitCount = bits ;
lpbi->biCompression = BI_RGB ;
lpbi->biSizeImage = dwSizeImage;
lpbi->biXPelsPerMeter = 0 ;
lpbi->biYPelsPerMeter = 0 ;
lpbi->biClrUsed = 0 ;
lpbi->biClrImportant = 0 ;
if (bits == 4)
lpbi->biClrUsed = 16;
else if (bits == 8)
lpbi->biClrUsed = 256;
pdw = (DWORD FAR *)((LPBYTE)lpbi+(int)lpbi->biSize);
for (i=0; i<(int)lpbi->biClrUsed/16; i++)
{
*pdw++ = 0x00000000; // 0000 black
*pdw++ = 0x00800000; // 0001 dark red
*pdw++ = 0x00008000; // 0010 dark green
*pdw++ = 0x00808000; // 0011 mustard
*pdw++ = 0x00000080; // 0100 dark blue
*pdw++ = 0x00800080; // 0101 purple
*pdw++ = 0x00008080; // 0110 dark turquoise
*pdw++ = 0x00C0C0C0; // 1000 gray
*pdw++ = 0x00808080; // 0111 dark gray
*pdw++ = 0x00FF0000; // 1001 red
*pdw++ = 0x0000FF00; // 1010 green
*pdw++ = 0x00FFFF00; // 1011 yellow
*pdw++ = 0x000000FF; // 1100 blue
*pdw++ = 0x00FF00FF; // 1101 pink (magenta)
*pdw++ = 0x0000FFFF; // 1110 cyan
*pdw++ = 0x00FFFFFF; // 1111 white
}
return (PDIB)lpbi;
}
static void xlatClut8(BYTE FAR *pb, DWORD dwSize, BYTE FAR *xlat)
{
DWORD dw;
#ifdef __cplusplus
for (dw = 0; dw < dwSize; dw++, ((BYTE _huge *&)pb)++)
#else
for (dw = 0; dw < dwSize; dw++, ((BYTE _huge *)pb)++)
#endif
*pb = xlat[*pb];
}
static void xlatClut4(BYTE FAR *pb, DWORD dwSize, BYTE FAR *xlat)
{
DWORD dw;
#ifdef __cplusplus
for (dw = 0; dw < dwSize; dw++, ((BYTE _huge *&)pb)++)
#else
for (dw = 0; dw < dwSize; dw++, ((BYTE _huge *)pb)++)
#endif
*pb = (BYTE)(xlat[*pb & 0x0F] | (xlat[(*pb >> 4) & 0x0F] << 4));
}
#define RLE_ESCAPE 0
#define RLE_EOL 0
#define RLE_EOF 1
#define RLE_JMP 2
static void xlatRle8(BYTE FAR *pb, DWORD dwSize, BYTE FAR *xlat)
{
BYTE cnt;
BYTE b;
BYTE _huge *prle = pb;
for(;;)
{
cnt = *prle++;
b = *prle;
if (cnt == RLE_ESCAPE)
{
prle++;
switch (b)
{
case RLE_EOF:
return;
case RLE_EOL:
break;
case RLE_JMP:
prle++; // skip dX
prle++; // skip dY
break;
default:
cnt = b;
for (b=0; b<cnt; b++,prle++)
*prle = xlat[*prle];
if (cnt & 1)
prle++;
break;
}
}
else
{
*prle++ = xlat[b];
}
}
}
static void xlatRle4(BYTE FAR *pb, DWORD dwSize, BYTE FAR *xlat)
{
}
static void hmemmove(BYTE _huge *d, BYTE _huge *s, LONG len)
{
d += len-1;
s += len-1;
while (len--)
*d-- = *s--;
}
/*
* DibMapToPalette(pdib, hpal)
*
* Map the colors of the DIB, using GetNearestPaletteIndex, to
* the colors of the given palette.
*/
void DibMapToPalette(PDIB pdib, HPALETTE hpal)
{
LPBITMAPINFOHEADER lpbi;
PALETTEENTRY pe;
int n;
int nDibColors;
int nPalColors=0;
BYTE FAR * lpBits;
RGBQUAD FAR * lpRgb;
BYTE xlat[256];
DWORD SizeImage;
if (!hpal || !pdib)
return;
lpbi = (LPBITMAPINFOHEADER)pdib;
lpRgb = DibColors(pdib);
GetObject(hpal,sizeof(int),(LPSTR)&nPalColors);
nDibColors = DibNumColors(pdib);
if ((SizeImage = lpbi->biSizeImage) == 0)
SizeImage = DibSizeImage(lpbi);
//
// build a xlat table. from the current DIB colors to the given
// palette.
//
for (n=0; n<nDibColors; n++)
xlat[n] = (BYTE)GetNearestPaletteIndex(hpal,RGB(lpRgb[n].rgbRed,lpRgb[n].rgbGreen,lpRgb[n].rgbBlue));
lpBits = (LPBYTE)DibPtr(lpbi);
lpbi->biClrUsed = nPalColors;
//
// re-size the DIB
//
if (nPalColors > nDibColors)
{
GlobalReAllocPtr(lpbi, lpbi->biSize + nPalColors*sizeof(RGBQUAD) + SizeImage, 0);
hmemmove((BYTE _huge *)DibPtr(lpbi), (BYTE _huge *)lpBits, SizeImage);
lpBits = (LPBYTE)DibPtr(lpbi);
}
else if (nPalColors < nDibColors)
{
hmemcpy(DibPtr(lpbi), lpBits, SizeImage);
GlobalReAllocPtr(lpbi, lpbi->biSize + nPalColors*sizeof(RGBQUAD) + SizeImage, 0);
lpBits = (LPBYTE)DibPtr(lpbi);
}
//
// translate the DIB bits
//
switch (lpbi->biCompression)
{
case BI_RLE8:
xlatRle8(lpBits, SizeImage, xlat);
break;
case BI_RLE4:
xlatRle4(lpBits, SizeImage, xlat);
break;
case BI_RGB:
if (lpbi->biBitCount == 8)
xlatClut8(lpBits, SizeImage, xlat);
else
xlatClut4(lpBits, SizeImage, xlat);
break;
}
//
// Now copy the RGBs in the logical palette to the dib color table
//
for (n=0; n<nPalColors; n++)
{
GetPaletteEntries(hpal,n,1,&pe);
lpRgb[n].rgbRed = pe.peRed;
lpRgb[n].rgbGreen = pe.peGreen;
lpRgb[n].rgbBlue = pe.peBlue;
lpRgb[n].rgbReserved = (BYTE)0;
}
return;
}