/* ScummVM - Graphic Adventure Engine * * ScummVM is the legal property of its developers, whose names * are too numerous to list here. Please refer to the COPYRIGHT * file distributed with this source distribution. * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. * * $URL$ * $Id$ * */ #include "kyra/screen_v2.h" #include "common/endian.h" namespace Kyra { Screen_v2::Screen_v2(KyraEngine_v1 *vm, OSystem *system) : Screen(vm, system), _wsaFrameAnimBuffer(0) { _wsaFrameAnimBuffer = new uint8[1024]; assert(_wsaFrameAnimBuffer); } Screen_v2::~Screen_v2() { delete[] _wsaFrameAnimBuffer; } uint8 *Screen_v2::generateOverlay(const uint8 *palette, uint8 *buffer, int startColor, uint16 factor) { if (!palette || !buffer) return buffer; factor = MIN(255, factor); factor >>= 1; factor &= 0xFF; const byte col1 = palette[startColor * 3 + 0]; const byte col2 = palette[startColor * 3 + 1]; const byte col3 = palette[startColor * 3 + 2]; uint8 *dst = buffer; *dst++ = 0; for (int i = 1; i != 255; ++i) { uint8 processedPalette[3]; const uint8 *src = palette + i*3; byte col; col = *src++; col -= ((((col - col1) * factor) << 1) >> 8) & 0xFF; processedPalette[0] = col; col = *src++; col -= ((((col - col2) * factor) << 1) >> 8) & 0xFF; processedPalette[1] = col; col = *src++; col -= ((((col - col3) * factor) << 1) >> 8) & 0xFF; processedPalette[2] = col; *dst++ = findLeastDifferentColor(processedPalette, palette+3, 255)+1; } return buffer; } void Screen_v2::applyOverlay(int x, int y, int w, int h, int pageNum, const uint8 *overlay) { if (pageNum == 0 || pageNum == 1) addDirtyRect(x, y, w, h); uint8 *dst = getPagePtr(pageNum) + y * 320 + x; while (h--) { for (int wi = 0; wi < w; ++wi) { uint8 index = *dst; *dst++ = overlay[index]; } dst += 320 - w; } } int Screen_v2::findLeastDifferentColor(const uint8 *paletteEntry, const uint8 *palette, uint16 numColors) { int m = 0x7fff; int r = 0x101; for (int i = 0; i < numColors; i++) { int v = paletteEntry[0] - *palette++; int c = v * v; v = paletteEntry[1] - *palette++; c += (v * v); v = paletteEntry[2] - *palette++; c += (v * v); if (c <= m) { m = c; r = i; } } return r; } void Screen_v2::getFadeParams(const uint8 *palette, int delay, int &delayInc, int &diff) { debugC(9, kDebugLevelScreen, "Screen_v2::getFadeParams(%p, %d, %p, %p)", (const void *)palette, delay, (const void *)&delayInc, (const void *)&diff); int maxDiff = 0; diff = 0; for (int i = 0; i < 768; ++i) { diff = ABS(palette[i] - _screenPalette[i]); maxDiff = MAX(maxDiff, diff); } delayInc = delay << 8; if (maxDiff != 0) { delayInc /= maxDiff; delayInc = MIN(delayInc, 0x7FFF); } delay = delayInc; for (diff = 1; diff <= maxDiff; ++diff) { if (delayInc >= 256) break; delayInc += delay; } } void Screen_v2::copyWsaRect(int x, int y, int w, int h, int dimState, int plotFunc, const uint8 *src, int unk1, const uint8 *unkPtr1, const uint8 *unkPtr2) { uint8 *dstPtr = getPagePtr(_curPage); uint8 *origDst = dstPtr; const ScreenDim *dim = getScreenDim(dimState); int dimX1 = dim->sx << 3; int dimX2 = dim->w << 3; dimX2 += dimX1; int dimY1 = dim->sy; int dimY2 = dim->h; dimY2 += dimY1; int temp = y - dimY1; if (temp < 0) { if ((temp += h) <= 0) return; else { SWAP(temp, h); y += temp - h; src += (temp - h) * w; } } temp = dimY2 - y; if (temp <= 0) return; if (temp < h) h = temp; int srcOffset = 0; temp = x - dimX1; if (temp < 0) { temp = -temp; srcOffset = temp; x += temp; w -= temp; } int srcAdd = 0; temp = dimX2 - x; if (temp <= 0) return; if (temp < w) { SWAP(w, temp); temp -= w; srcAdd = temp; } dstPtr += y * SCREEN_W + x; uint8 *dst = dstPtr; if (_curPage == 0 || _curPage == 1) addDirtyRect(x, y, w, h); clearOverlayRect(_curPage, x, y, w, h); temp = h; int curY = y; while (h--) { src += srcOffset; ++curY; int cW = w; switch (plotFunc) { case 0: memcpy(dst, src, cW); dst += cW; src += cW; break; case 1: while (cW--) { uint8 d = *src++; uint8 t = unkPtr1[d]; if (t != 0xFF) d = unkPtr2[*dst + (t << 8)]; *dst++ = d; } break; case 4: while (cW--) { uint8 d = *src++; if (d) *dst = d; ++dst; } break; case 5: while (cW--) { uint8 d = *src++; if (d) { uint8 t = unkPtr1[d]; if (t != 0xFF) d = unkPtr2[*dst + (t << 8)]; *dst = d; } ++dst; } break; case 8: case 9: while (cW--) { uint8 d = *src++; uint8 t = _shapePages[0][dst - origDst] & 7; if (unk1 < t && (curY > _maskMinY && curY < _maskMaxY)) d = _shapePages[1][dst - origDst]; *dst++ = d; } break; case 12: case 13: while (cW--) { uint8 d = *src++; if (d) { uint8 t = _shapePages[0][dst - origDst] & 7; if (unk1 < t && (curY > _maskMinY && curY < _maskMaxY)) d = _shapePages[1][dst - origDst]; *dst++ = d; } else { d = _shapePages[1][dst - origDst]; *dst++ = d; } } break; default: break; } dst = (dstPtr += SCREEN_W); src += srcAdd; } } const uint8 *Screen_v2::getPtrToShape(const uint8 *shpFile, int shape) { debugC(9, kDebugLevelScreen, "Screen_v2::getPtrToShape(%p, %d)", (const void *)shpFile, shape); uint16 shapes = READ_LE_UINT16(shpFile); if (shapes <= shape) return 0; uint32 offset = READ_LE_UINT32(shpFile + (shape << 2) + 2); return shpFile + offset + 2; } uint8 *Screen_v2::getPtrToShape(uint8 *shpFile, int shape) { debugC(9, kDebugLevelScreen, "Screen_v2::getPtrToShape(%p, %d)", (void *)shpFile, shape); uint16 shapes = READ_LE_UINT16(shpFile); if (shapes <= shape) return 0; uint32 offset = READ_LE_UINT32(shpFile + (shape << 2) + 2); return shpFile + offset + 2; } int Screen_v2::getShapeScaledWidth(const uint8 *shpFile, int scale) { debugC(9, kDebugLevelScreen, "Screen_v2::getShapeScaledWidth(%p, %d)", (const void*)shpFile, scale); int width = READ_LE_UINT16(shpFile+3); return (width * scale) >> 8; } int Screen_v2::getShapeScaledHeight(const uint8 *shpFile, int scale) { debugC(9, kDebugLevelScreen, "Screen_v2::getShapeScaledHeight(%p, %d)", (const void*)shpFile, scale); int height = shpFile[2]; return (height * scale) >> 8; } uint16 Screen_v2::getShapeSize(const uint8 *shp) { debugC(9, kDebugLevelScreen, "Screen_v2::getShapeSize(%p)", (const void *)shp); return READ_LE_UINT16(shp+6); } uint8 *Screen_v2::makeShapeCopy(const uint8 *src, int index) { debugC(9, kDebugLevelScreen, "Screen_v2::makeShapeCopy(%p, %d)", (const void *)src, index); const uint8 *shape = getPtrToShape(src, index); if (!shape) return 0; int size = getShapeSize(shape); uint8 *copy = new uint8[size]; assert(copy); memcpy(copy, shape, size); return copy; } int Screen_v2::getLayer(int x, int y) { debugC(9, kDebugLevelScreen, "Screen_v2::getLayer(%d, %d)", x, y); if (x < 0) x = 0; else if (x >= 320) x = 319; if (y < 0) y = 0; else if (y >= 144) y = 143; uint8 pixel = *(getCPagePtr(5) + y * 320 + x); pixel &= 0x7F; pixel >>= 3; if (pixel < 1) pixel = 1; else if (pixel > 15) pixel = 15; return pixel; } int Screen_v2::getRectSize(int w, int h) { debugC(9, kDebugLevelScreen, "Screen_v2::getRectSize(%d, %d)", w, h); if (w > 320 || h > 200) return 0; return w*h; } void Screen_v2::setTextColorMap(const uint8 *cmap) { debugC(9, kDebugLevelScreen, "Screen_v2::setTextColorMap(%p)", (const void *)cmap); setTextColor(cmap, 0, 15); } void Screen_v2::wsaFrameAnimationStep(int x1, int y1, int x2, int y2, int w1, int h1, int w2, int h2, int srcPage, int dstPage, int dim) { if (!(w1 || h1 || w2 || h2)) return; ScreenDim cdm = *getScreenDim(dim); cdm.sx <<= 3; cdm.w <<= 3; int na = 0, nb = 0, nc = w2; if (!calcBounds(cdm.w, cdm.h, x2, y2, w2, h2, na, nb, nc)) return; const uint8 *src = getPagePtr(srcPage) + y1 * 320; uint8 *dst = getPagePtr(dstPage) + (y2 + cdm.sy) * 320; int u = -1; do { int t = (nb * h1) / h2; if (t != u) { u = t; const uint8 *s = src + x1 + t * 320; uint8 *dt = (uint8 *)_wsaFrameAnimBuffer; t = w2 - w1; if (!t) { memcpy(dt, s, w2); } else if (t > 0) { if (w1 == 1) { memset(dt, *s, w2); } else { t = ((((((w2 - w1 + 1) & 0xffff) << 8) / w1) + 0x100) & 0xffff) << 8; int bp = 0; for (int i = 0; i < w1; i++) { int cnt = (t >> 16); bp += (t & 0xffff); if (bp > 0xffff) { bp -= 0xffff; cnt++; } memset(dt, *s++, cnt); dt += cnt; } } } else { if (w2 == 1) { *dt = *s; } else { t = (((((w1 - w2) & 0xffff) << 8) / w2) & 0xffff) << 8; int bp = 0; for (int i = 0; i < w2; i++) { *dt++ = *s++; bp += (t & 0xffff); if (bp > 0xffff) { bp -= 0xffff; s++; } s += (t >> 16); } } } } memcpy(dst + x2 + cdm.sx, _wsaFrameAnimBuffer + na, w2); dst += 320; } while (++nb < h2); } bool Screen_v2::calcBounds(int w0, int h0, int &x1, int &y1, int &w1, int &h1, int &x2, int &y2, int &w2) { x2 = 0; y2 = 0; w2 = w1; int t = x1 + w1; if (t < 1) { w1 = h1 = -1; } else { if (t <= x1) { x2 = w1 - t; w1 = t; x1 = 0; } t = w0 - x1; if (t < 1) { w1 = h1 = -1; } else { if (t <= w1) { w1 = t; } w2 -= w1; t = h1 + y1; if (t < 1) { w1 = h1 = -1; } else { if (t <= y1) { y2 = h1 - t; h1 = t; y1 = 0; } t = h0 - y1; if (t < 1) { w1 = h1 = -1; } else { if (t <= h1) { h1 = t; } } } } } return (w1 == -1) ? false : true; } } // end of namespace Kyra