/* 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. * */ #include "sherlock/scalpel/scalpel_screen.h" #include "sherlock/scalpel/scalpel.h" #include "sherlock/scalpel/3do/scalpel_3do_screen.h" namespace Sherlock { namespace Scalpel { Scalpel3DOScreen::Scalpel3DOScreen(SherlockEngine *vm): ScalpelScreen(vm) { } void Scalpel3DOScreen::SHblitFrom(const Graphics::Surface &src) { SHblitFrom(src, Common::Point(0, 0)); } void Scalpel3DOScreen::SHblitFrom(const Graphics::Surface &src, const Common::Point &destPos) { SHblitFrom(src, Common::Point(0, 0), Common::Rect(0, 0, src.w, src.h)); } void Scalpel3DOScreen::SHblitFrom(const Graphics::Surface &src, const Common::Point &pt, const Common::Rect &srcBounds) { if (!_vm->_isScreenDoubled) { ScalpelScreen::SHblitFrom(src, pt, srcBounds); return; } Common::Rect srcRect = srcBounds; srcRect.clip(320, 200); Common::Rect destRect(pt.x, pt.y, pt.x + srcRect.width(), pt.y + srcRect.height()); if (!srcRect.isValidRect() || !clip(srcRect, destRect)) return; // Add dirty area remapped to the 640x200 surface addDirtyRect(Common::Rect(destRect.left * 2, destRect.top * 2, destRect.right * 2, destRect.bottom * 2)); // Transfer the area, doubling each pixel for (int yp = 0; yp < srcRect.height(); ++yp) { const uint16 *srcP = (const uint16 *)src.getBasePtr(srcRect.left, srcRect.top + yp); uint16 *destP = (uint16 *)getBasePtr(destRect.left * 2, (destRect.top + yp) * 2); for (int xp = srcRect.left; xp < srcRect.right; ++xp, ++srcP, destP += 2) { *destP = *srcP; *(destP + 1) = *srcP; *(destP + 640) = *srcP; *(destP + 640 + 1) = *srcP; } } } void Scalpel3DOScreen::transBlitFromUnscaled(const Graphics::Surface &src, const Common::Point &pt, bool flipped, int overrideColor) { error("TODO: Refactor"); #if 0 if (!_vm->_isScreenDoubled) { ScalpelScreen::transBlitFromUnscaled(src, pt, flipped, overrideColor); return; } Common::Rect drawRect(0, 0, src.w, src.h); Common::Rect destRect(pt.x, pt.y, pt.x + src.w, pt.y + src.h); // Clip the display area to on-screen if (!clip(drawRect, destRect)) // It's completely off-screen return; if (flipped) drawRect = Common::Rect(src.w - drawRect.right, src.h - drawRect.bottom, src.w - drawRect.left, src.h - drawRect.top); Common::Point destPt(destRect.left, destRect.top); addDirtyRect(Common::Rect(destPt.x * 2, destPt.y * 2, (destPt.x + drawRect.width()) * 2, (destPt.y + drawRect.height()) * 2)); assert(src.format.bytesPerPixel == 2 && _surface.format.bytesPerPixel == 2); for (int yp = 0; yp < drawRect.height(); ++yp) { const uint16 *srcP = (const uint16 *)src.getBasePtr( flipped ? drawRect.right - 1 : drawRect.left, drawRect.top + yp); uint16 *destP = (uint16 *)getBasePtr(destPt.x * 2, (destPt.y + yp) * 2); for (int xp = 0; xp < drawRect.width(); ++xp, destP += 2) { // RGB 0, 0, 0 -> transparent on 3DO if (*srcP) { *destP = *srcP; *(destP + 1) = *srcP; *(destP + 640) = *srcP; *(destP + 640 + 1) = *srcP; } srcP = flipped ? srcP - 1 : srcP + 1; } } #endif } void Scalpel3DOScreen::SHfillRect(const Common::Rect &r, uint color) { if (_vm->_isScreenDoubled) ScalpelScreen::fillRect(Common::Rect(r.left * 2, r.top * 2, r.right * 2, r.bottom * 2), color); else ScalpelScreen::fillRect(r, color); } void Scalpel3DOScreen::SHtransBlitFrom(const ImageFrame &src, const Common::Point &pt, bool flipped, int overrideColor, int scaleVal) { ScalpelScreen::SHtransBlitFrom(src, pt, flipped, overrideColor, _vm->_isScreenDoubled ? scaleVal / 2 : scaleVal); } void Scalpel3DOScreen::SHtransBlitFrom(const Graphics::Surface &src, const Common::Point &pt, bool flipped, int overrideColor, int scaleVal) { ScalpelScreen::SHtransBlitFrom(src, pt, flipped, overrideColor, _vm->_isScreenDoubled ? scaleVal / 2 : scaleVal); } void Scalpel3DOScreen::fadeIntoScreen3DO(int speed) { Events &events = *_vm->_events; uint16 *currentScreenBasePtr = (uint16 *)getPixels(); uint16 *targetScreenBasePtr = (uint16 *)_backBuffer.getPixels(); uint16 currentScreenPixel = 0; uint16 targetScreenPixel = 0; uint16 currentScreenPixelRed = 0; uint16 currentScreenPixelGreen = 0; uint16 currentScreenPixelBlue = 0; uint16 targetScreenPixelRed = 0; uint16 targetScreenPixelGreen = 0; uint16 targetScreenPixelBlue = 0; uint16 screenWidth = SHERLOCK_SCREEN_WIDTH; uint16 screenHeight = SHERLOCK_SCREEN_HEIGHT; uint16 screenX = 0; uint16 screenY = 0; uint16 pixelsChanged = 0; clearDirtyRects(); do { pixelsChanged = 0; uint16 *currentScreenPtr = currentScreenBasePtr; uint16 *targetScreenPtr = targetScreenBasePtr; for (screenY = 0; screenY < screenHeight; screenY++) { for (screenX = 0; screenX < screenWidth; screenX++) { currentScreenPixel = *currentScreenPtr; targetScreenPixel = *targetScreenPtr; if (currentScreenPixel != targetScreenPixel) { // pixel doesn't match, adjust accordingly currentScreenPixelRed = currentScreenPixel & 0xF800; currentScreenPixelGreen = currentScreenPixel & 0x07E0; currentScreenPixelBlue = currentScreenPixel & 0x001F; targetScreenPixelRed = targetScreenPixel & 0xF800; targetScreenPixelGreen = targetScreenPixel & 0x07E0; targetScreenPixelBlue = targetScreenPixel & 0x001F; if (currentScreenPixelRed != targetScreenPixelRed) { if (currentScreenPixelRed < targetScreenPixelRed) { currentScreenPixelRed += 0x0800; } else { currentScreenPixelRed -= 0x0800; } } if (currentScreenPixelGreen != targetScreenPixelGreen) { // Adjust +2/-2 because we are running RGB555 at RGB565 if (currentScreenPixelGreen < targetScreenPixelGreen) { currentScreenPixelGreen += 0x0040; } else { currentScreenPixelGreen -= 0x0040; } } if (currentScreenPixelBlue != targetScreenPixelBlue) { if (currentScreenPixelBlue < targetScreenPixelBlue) { currentScreenPixelBlue += 0x0001; } else { currentScreenPixelBlue -= 0x0001; } } uint16 v = currentScreenPixelRed | currentScreenPixelGreen | currentScreenPixelBlue; *currentScreenPtr = v; if (_vm->_isScreenDoubled) { *(currentScreenPtr + 1) = v; *(currentScreenPtr + 640) = v; *(currentScreenPtr + 640 + 1) = v; } pixelsChanged++; } currentScreenPtr += _vm->_isScreenDoubled ? 2 : 1; targetScreenPtr++; } if (_vm->_isScreenDoubled) currentScreenPtr += 640; } // Too much considered dirty at the moment if (_vm->_isScreenDoubled) addDirtyRect(Common::Rect(0, 0, screenWidth * 2, screenHeight * 2)); else addDirtyRect(Common::Rect(0, 0, screenWidth, screenHeight)); events.pollEvents(); events.delay(10 * speed); } while ((pixelsChanged) && (!_vm->shouldQuit())); } void Scalpel3DOScreen::blitFrom3DOcolorLimit(uint16 limitColor) { uint16 *currentScreenPtr = (uint16 *)getPixels(); uint16 *targetScreenPtr = (uint16 *)_backBuffer.getPixels(); uint16 currentScreenPixel = 0; uint16 screenWidth = SHERLOCK_SCREEN_WIDTH; uint16 screenHeight = SHERLOCK_SCREEN_HEIGHT; uint16 screenX = 0; uint16 screenY = 0; uint16 currentScreenPixelRed = 0; uint16 currentScreenPixelGreen = 0; uint16 currentScreenPixelBlue = 0; uint16 limitPixelRed = limitColor & 0xF800; uint16 limitPixelGreen = limitColor & 0x07E0; uint16 limitPixelBlue = limitColor & 0x001F; for (screenY = 0; screenY < screenHeight; screenY++) { for (screenX = 0; screenX < screenWidth; screenX++) { currentScreenPixel = *targetScreenPtr; currentScreenPixelRed = currentScreenPixel & 0xF800; currentScreenPixelGreen = currentScreenPixel & 0x07E0; currentScreenPixelBlue = currentScreenPixel & 0x001F; if (currentScreenPixelRed < limitPixelRed) currentScreenPixelRed = limitPixelRed; if (currentScreenPixelGreen < limitPixelGreen) currentScreenPixelGreen = limitPixelGreen; if (currentScreenPixelBlue < limitPixelBlue) currentScreenPixelBlue = limitPixelBlue; uint16 v = currentScreenPixelRed | currentScreenPixelGreen | currentScreenPixelBlue; *currentScreenPtr = v; if (_vm->_isScreenDoubled) { *(currentScreenPtr + 1) = v; *(currentScreenPtr + 640) = v; *(currentScreenPtr + 640 + 1) = v; } currentScreenPtr += _vm->_isScreenDoubled ? 2 : 1; targetScreenPtr++; } if (_vm->_isScreenDoubled) currentScreenPtr += 640; } // Too much considered dirty at the moment if (_vm->_isScreenDoubled) addDirtyRect(Common::Rect(0, 0, screenWidth * 2, screenHeight * 2)); else addDirtyRect(Common::Rect(0, 0, screenWidth, screenHeight)); } uint16 Scalpel3DOScreen::width() const { return _vm->_isScreenDoubled ? this->w / 2 : this->w; } uint16 Scalpel3DOScreen::height() const { return _vm->_isScreenDoubled ? this->h / 2 : this->h; } void Scalpel3DOScreen::rawBlitFrom(const Graphics::Surface &src, const Common::Point &pt) { Common::Rect srcRect(0, 0, src.w, src.h); Common::Rect destRect(pt.x, pt.y, pt.x + src.w, pt.y + src.h); addDirtyRect(destRect); copyRectToSurface(src, destRect.left, destRect.top, srcRect); } } // End of namespace Scalpel } // End of namespace Sherlock