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220 lines
7.4 KiB
220 lines
7.4 KiB
// File: PixInfo.cpp
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// Author: Michael Marr (mikemarr)
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#include "stdafx.h"
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#include "PixInfo.h"
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#include "DDHelper.h"
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static void
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_GetShiftMaskInfo(DWORD dwMask, BYTE *pnShiftStart, BYTE *pnLengthResidual)
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{
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MMASSERT(pnShiftStart && pnLengthResidual);
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// Note: - DWORD fills with zeros on right shift
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DWORD nShift = 0, nRes = 8;
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if (dwMask) {
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// compute shift
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if ((dwMask & 0xFFFF) == 0) { dwMask >>= 16, nShift += 16; }
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if ((dwMask & 0xFF) == 0) { dwMask >>= 8; nShift += 8; }
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if ((dwMask & 0xF) == 0) { dwMask >>= 4; nShift += 4; }
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if ((dwMask & 0x3) == 0) { dwMask >>= 2; nShift += 2; }
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if ((dwMask & 0x1) == 0) { dwMask >>= 1; nShift++; }
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// compute residual
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if ((dwMask & 0xFF) == 0xFF) {
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nRes = 0;
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} else {
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if ((dwMask & 0xF) == 0xF) { dwMask >>= 4; nRes -= 4; }
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if ((dwMask & 0x3) == 0x3) { dwMask >>= 2; nRes -= 2; }
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if ((dwMask & 0x1) == 0x1) { nRes--; }
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}
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}
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*pnShiftStart = (BYTE) nShift;
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*pnLengthResidual = (BYTE) (nRes);
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}
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HRESULT
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CPixelInfo::Init(BYTE tnBPP, DWORD dwRedMask, DWORD dwGreenMask,
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DWORD dwBlueMask, DWORD dwAlphaMask)
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{
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nBPP = tnBPP;
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uchFlags = 0;
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if (dwRedMask) {
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uchFlags |= flagPixiRGB;
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_GetShiftMaskInfo(dwRedMask, &nRedShift, &nRedResidual);
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_GetShiftMaskInfo(dwGreenMask, &nGreenShift, &nGreenResidual);
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_GetShiftMaskInfo(dwBlueMask, &nBlueShift, &nBlueResidual);
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_GetShiftMaskInfo(dwAlphaMask, &nAlphaShift, &nAlphaResidual);
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if (dwAlphaMask)
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uchFlags |= flagPixiAlpha;
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} else {
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nRedResidual = nGreenResidual = nBlueResidual = nAlphaResidual = 8;
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nRedShift = nGreenShift = nBlueShift = nAlphaShift = 0;
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}
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iRed = (nRedShift == 0 ? 0 : 2);
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iBlue = 2 - iRed;
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// MMTRACE("BPP: %2d R: %2d %2d G: %2d %2d B: %2d %2d A: %2d %2d\n", nBPP,
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// 8 - nRedResidual, nRedShift, 8 - nGreenResidual, nGreenShift,
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// 8 - nBlueResidual, nBlueShift, 8 - nAlphaResidual, nAlphaShift);
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return S_OK;
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}
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void
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CPixelInfo::GetDDPF(DDPIXELFORMAT &ddpf) const
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{
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ddpf.dwSize = sizeof(DDPIXELFORMAT);
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ddpf.dwFlags = DDPF_RGB;
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ddpf.dwRGBBitCount = nBPP;
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if (IsRGB()) {
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ddpf.dwRBitMask = ((((DWORD) 0xFF) >> nRedResidual) << nRedShift);
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ddpf.dwGBitMask = ((((DWORD) 0xFF) >> nGreenResidual) << nGreenShift);
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ddpf.dwBBitMask = ((((DWORD) 0xFF) >> nBlueResidual) << nBlueShift);
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ddpf.dwRGBAlphaBitMask = ((((DWORD) 0xFF) >> nAlphaResidual) << nAlphaShift);
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if (HasAlpha())
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ddpf.dwFlags |= DDPF_ALPHAPIXELS;
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} else {
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ddpf.dwFlags |= BPPToPixelFlags(nBPP);
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ddpf.dwRBitMask = ddpf.dwGBitMask = ddpf.dwBBitMask = ddpf.dwRGBAlphaBitMask = 0;
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}
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}
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BOOL
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CPixelInfo::operator==(const CPixelInfo &pixi) const
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{
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return ((nBPP == pixi.nBPP) && (!IsRGB() ||
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((nRedShift == pixi.nRedShift) && (nGreenShift == pixi.nGreenShift) &&
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(nBlueShift == pixi.nBlueShift) && (nAlphaShift == pixi.nAlphaShift))));
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}
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BOOL
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CPixelInfo::operator==(const DDPIXELFORMAT &ddpf) const
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{
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return ((nBPP == ddpf.dwRGBBitCount) && ((!IsRGB() && (ddpf.dwRBitMask == 0)) ||
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((ddpf.dwRBitMask == ((DWORD(0xFF) >> nRedResidual) << nRedShift)) &&
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(ddpf.dwGBitMask == ((DWORD(0xFF) >> nGreenResidual) << nGreenShift)) &&
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(ddpf.dwBBitMask == ((DWORD(0xFF) >> nBlueResidual) << nBlueShift)) &&
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(ddpf.dwRGBAlphaBitMask == ((DWORD(0xFF) >> nAlphaResidual) << nAlphaShift)))));
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}
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DWORD
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CPixelInfo::Pack(const BYTE *pPixel) const
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{
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MMASSERT(pPixel && (nBPP >= 8));
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if (nBPP == 8)
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return (DWORD) *pPixel;
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if (HasAlpha())
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return Pack(pPixel[0], pPixel[1], pPixel[2], pPixel[3]);
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else
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return Pack(pPixel[0], pPixel[1], pPixel[2]);
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}
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DWORD
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CPixelInfo::Pack(BYTE r, BYTE g, BYTE b) const
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{
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// truncate the RGB values to fit in allotted bits
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return (((((DWORD) r) >> nRedResidual) << nRedShift) |
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((((DWORD) g) >> nGreenResidual) << nGreenShift) |
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((((DWORD) b) >> nBlueResidual) << nBlueShift));
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}
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DWORD
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CPixelInfo::Pack(BYTE r, BYTE g, BYTE b, BYTE a) const
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{
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// truncate the alpha value to fit in allotted bits
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return (((((DWORD) r) >> nRedResidual) << nRedShift) |
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((((DWORD) g) >> nGreenResidual) << nGreenShift) |
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((((DWORD) b) >> nBlueResidual) << nBlueShift) |
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((((DWORD) a) >> nAlphaResidual) << nAlphaShift));
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}
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void
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CPixelInfo::UnPack(DWORD dwPixel, BYTE *pR, BYTE *pG, BYTE *pB, BYTE *pA) const
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{
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MMASSERT(pR && pG && pB && pA);
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*pR = (BYTE) (((dwPixel >> nRedShift) & (0xFF >> nRedResidual)) << nRedResidual);
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*pG = (BYTE) (((dwPixel >> nGreenShift) & (0xFF >> nGreenResidual)) << nGreenResidual);
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*pB = (BYTE) (((dwPixel >> nBlueShift) & (0xFF >> nBlueResidual)) << nBlueResidual);
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*pA = (BYTE) (((dwPixel >> nAlphaShift) & (0xFF >> nAlphaResidual)) << nAlphaResidual);
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}
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void
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CPixelInfo::UnPack(DWORD dwPixel, BYTE *pR, BYTE *pG, BYTE *pB) const
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{
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MMASSERT(pR && pG && pB);
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*pR = (BYTE)(((dwPixel >> nRedShift) & (0xFF >> nRedResidual)) << nRedResidual);
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*pG = (BYTE)(((dwPixel >> nGreenShift) & (0xFF >> nGreenResidual)) << nGreenResidual);
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*pB = (BYTE)(((dwPixel >> nBlueShift) & (0xFF >> nBlueResidual)) << nBlueResidual);
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}
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DWORD
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CPixelInfo::TranslatePack(DWORD dwPix, const CPixelInfo &pixiSrc) const
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{
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// REVIEW: this could be optimized by splitting out the cases
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DWORD dwTmp;
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dwTmp = ((((((dwPix >> pixiSrc.nRedShift) & (0xFF >> pixiSrc.nRedResidual))
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<< pixiSrc.nRedResidual) >> nRedResidual) << nRedShift) |
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(((((dwPix >> pixiSrc.nGreenShift) & (0xFF >> pixiSrc.nGreenResidual))
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<< pixiSrc.nGreenResidual) >> nGreenResidual) << nGreenShift) |
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(((((dwPix >> pixiSrc.nBlueShift) & (0xFF >> pixiSrc.nBlueResidual))
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<< pixiSrc.nBlueResidual) >> nBlueResidual) << nBlueShift));
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if (pixiSrc.HasAlpha())
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dwTmp |= (((((dwPix >> pixiSrc.nAlphaShift) & (0xFF >> pixiSrc.nAlphaResidual))
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<< pixiSrc.nAlphaResidual) >> nAlphaResidual) << nAlphaShift);
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return dwTmp;
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}
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WORD
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CPixelInfo::Pack16(BYTE r, BYTE g, BYTE b) const
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{
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MMASSERT(nBPP == 16);
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return (((((WORD) r) >> nRedResidual) << nRedShift) |
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((((WORD) g) >> nGreenResidual) << nGreenShift) |
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((((WORD) b) >> nBlueResidual) << nBlueShift));
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}
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WORD
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CPixelInfo::Pack16(BYTE r, BYTE g, BYTE b, BYTE a) const
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{
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MMASSERT(nBPP == 16);
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return (((((WORD) r) >> nRedResidual) << nRedShift) |
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((((WORD) g) >> nGreenResidual) << nGreenShift) |
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((((WORD) b) >> nBlueResidual) << nBlueShift) |
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((((WORD) a) >> nAlphaResidual) << nAlphaShift));
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}
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/*
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void
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TestPixi()
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{
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DDPIXELFORMAT ddpf;
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INIT_DXSTRUCT(ddpf);
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DWORD dwTmp = 0;
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BYTE r = 0, g = 0, b = 0, a = 0;
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MMASSERT(g_pixiPalette8 != g_ddpfBGR332);
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MMASSERT(g_pixiRGB != g_pixiBGR);
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MMASSERT(g_pixiRGB565 != g_ddpfBGR565);
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MMASSERT(g_pixiBGRA5551 == g_ddpfBGRA5551);
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MMASSERT(g_pixiBGRX != g_pixiBGRA);
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MMASSERT(g_pixiBGR != g_pixiBGRX);
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MMASSERT(g_pixiBGRA5551 != g_pixiBGR555);
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MMASSERT(g_pixiBGR332.Pack(0x00, 0xFF, 0x00) == g_ddpfBGR332.dwGBitMask);
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MMASSERT(g_pixiBGRA4444.Pack(0x00, 0x00, 0x00, 0xFF) == g_ddpfBGRA4444.dwRGBAlphaBitMask);
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MMASSERT(g_pixiBGRA5551.TranslatePack(g_pixiBGRA4444.Pack(0, 0, 0, 0xFF), g_pixiBGRA4444) == g_ddpfBGRA5551.dwRGBAlphaBitMask);
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g_pixiRGB.UnPack(g_pixiRGB.Pack(0xFF, 0, 0), &r, &g, &b, &a);
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MMASSERT((r == 0xFF) && (g == 0) && (b == 0) && (a == 0));
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g_pixiBGR332.GetDDPF(ddpf);
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MMASSERT(ddpf == g_ddpfBGR332);
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g_pixiPalette8.GetDDPF(ddpf);
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MMASSERT(ddpf == g_ddpfPalette8);
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g_pixiBGRA4444.GetDDPF(ddpf);
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MMASSERT(g_ddpfBGRA4444 == ddpf);
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g_pixiBGR565.GetDDPF(ddpf);
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MMASSERT(g_ddpfBGR565 == ddpf);
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}
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*/
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