Ref<Result> UPCEANReader::decodeRow(int rowNumber, Ref<BitArray> row){ return decodeRow(rowNumber, row, findStartGuardPattern(row)); }
void AGOSEngine::scrollScreen() { byte *dst; const byte *src; uint x, y; dst = getBackGround(); if (_scrollXMax == 0) { uint screenSize = 8 * _screenWidth; if (_scrollFlag < 0) { memmove(dst + screenSize, dst, _scrollWidth * _screenHeight - screenSize); } else { memmove(dst, dst + screenSize, _scrollWidth * _screenHeight - screenSize); } y = _scrollY - 8; if (_scrollFlag > 0) { dst += _screenHeight * _screenWidth - screenSize; y += 488; } src = _scrollImage + y / 2; decodeRow(dst, src + readUint32Wrapper(src), _scrollWidth, _backGroundBuf->pitch); _scrollY += _scrollFlag; vcWriteVar(250, _scrollY); fillBackFromBackGround(_screenHeight, _scrollWidth); } else { if (_scrollFlag < 0) { memmove(dst + 8, dst, _screenWidth * _scrollHeight - 8); } else { memmove(dst, dst + 8, _screenWidth * _scrollHeight - 8); } x = _scrollX; x -= (getGameType() == GType_FF) ? 8 : 1; if (_scrollFlag > 0) { dst += _screenWidth - 8; x += (getGameType() == GType_FF) ? 648 : 41; } if (getGameType() == GType_FF) src = _scrollImage + x / 2; else src = _scrollImage + x * 4; decodeColumn(dst, src + readUint32Wrapper(src), _scrollHeight, _backGroundBuf->pitch); _scrollX += _scrollFlag; vcWriteVar(251, _scrollX); if (getGameType() == GType_SIMON2) { src = getBackGround(); dst = (byte *)_window4BackScn->pixels; for (int i = 0; i < _scrollHeight; i++) { memcpy(dst, src, _screenWidth); src += _backGroundBuf->pitch; dst += _window4BackScn->pitch; } } else { fillBackFromBackGround(_scrollHeight, _screenWidth); } setMoveRect(0, 0, 320, _scrollHeight); _window4Flag = 1; } _scrollFlag = 0; if (getGameType() == GType_SIMON2) { AnimTable *animTable = _screenAnim1; while (animTable->srcPtr) { animTable->srcPtr = 0; animTable++; } VgaSprite *vsp = _vgaSprites; while (vsp->id) { vsp->windowNum |= 0x8000; vsp++; } } }
void AGOSEngine::dumpBitmap(const char *filename, const byte *offs, uint16 w, uint16 h, int flags, const byte *palette, byte base) { byte *imageBuffer = (byte *)malloc(w * h); assert(imageBuffer); VC10_state state; state.depack_cont = -0x80; state.srcPtr = offs; state.dh = h; state.height = h; state.width = w / 16; if (getFeatures() & GF_PLANAR) { state.srcPtr = convertImage(&state, (getGameType() == GType_PN || (flags & 0x80) != 0)); flags &= ~0x80; } const byte *src = state.srcPtr; byte *dst = imageBuffer; int i, j; if (w > _screenWidth) { for (i = 0; i < w; i += 8) { decodeColumn(dst, src + readUint32Wrapper(src), h, w); dst += 8; src += 4; } } else if (h > _screenHeight) { for (i = 0; i < h; i += 8) { decodeRow(dst, src + readUint32Wrapper(src), w, w); dst += 8 * w; src += 4; } } else if (getGameType() == GType_FF || getGameType() == GType_PP) { if ((flags & 0x80)) { for (i = 0; i != w; i++) { byte *c = vc10_depackColumn(&state); for (j = 0; j != h; j++) { dst[j * w + i] = c[j]; } } } else { for (j = 0; j != h; j++) { for (i = 0; i != w; i++) { dst[i] = src[i]; } } dst += w; src += w; } } else if ((getGameType() == GType_SIMON1 || getGameType() == GType_SIMON2) && w == 320 && (h == 134 || h == 200)) { for (j = 0; j != h; j++) { uint16 count = w / 8; byte *dstPtr = dst; do { uint32 bits = (src[0] << 24) | (src[1] << 16) | (src[2] << 8) | (src[3]); dstPtr[0] = (byte)((bits >> (32 - 5)) & 31); dstPtr[1] = (byte)((bits >> (32 - 10)) & 31); dstPtr[2] = (byte)((bits >> (32 - 15)) & 31); dstPtr[3] = (byte)((bits >> (32 - 20)) & 31); dstPtr[4] = (byte)((bits >> (32 - 25)) & 31); dstPtr[5] = (byte)((bits >> (32 - 30)) & 31); bits = (bits << 8) | src[4]; dstPtr[6] = (byte)((bits >> (40 - 35)) & 31); dstPtr[7] = (byte)((bits) & 31); dstPtr += 8; src += 5; } while (--count); dst += w; } } else if (flags & 0x80) {