/* 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 "common/events.h" #include "common/system.h" #include "graphics/palette.h" #include "graphics/surface.h" #include "sci/sci.h" #include "sci/engine/state.h" #include "sci/graphics/screen.h" #include "sci/graphics/palette.h" #include "sci/graphics/transitions.h" namespace Sci { //#define DISABLE_TRANSITIONS // uncomment to disable room transitions (for development only! helps in testing games quickly) GfxTransitions::GfxTransitions(GfxScreen *screen, GfxPalette *palette) : _screen(screen), _palette(palette) { init(); } GfxTransitions::~GfxTransitions() { delete[] _oldScreen; } // This table contains a mapping between oldIDs (prior SCI1LATE) and newIDs static const GfxTransitionTranslateEntry oldTransitionIDs[] = { { 0, SCI_TRANSITIONS_VERTICALROLL_FROMCENTER, false }, { 1, SCI_TRANSITIONS_HORIZONTALROLL_FROMCENTER, false }, { 2, SCI_TRANSITIONS_STRAIGHT_FROM_RIGHT, false }, { 3, SCI_TRANSITIONS_STRAIGHT_FROM_LEFT, false }, { 4, SCI_TRANSITIONS_STRAIGHT_FROM_BOTTOM, false }, { 5, SCI_TRANSITIONS_STRAIGHT_FROM_TOP, false }, { 6, SCI_TRANSITIONS_DIAGONALROLL_FROMCENTER, false }, { 7, SCI_TRANSITIONS_DIAGONALROLL_TOCENTER, false }, { 8, SCI_TRANSITIONS_BLOCKS, false }, { 9, SCI_TRANSITIONS_VERTICALROLL_TOCENTER, false }, { 10, SCI_TRANSITIONS_HORIZONTALROLL_TOCENTER, false }, { 11, SCI_TRANSITIONS_STRAIGHT_FROM_RIGHT, true }, { 12, SCI_TRANSITIONS_STRAIGHT_FROM_LEFT, true }, { 13, SCI_TRANSITIONS_STRAIGHT_FROM_BOTTOM, true }, { 14, SCI_TRANSITIONS_STRAIGHT_FROM_TOP, true }, { 15, SCI_TRANSITIONS_DIAGONALROLL_FROMCENTER, true }, { 16, SCI_TRANSITIONS_DIAGONALROLL_TOCENTER, true }, { 17, SCI_TRANSITIONS_BLOCKS, true }, { 18, SCI_TRANSITIONS_PIXELATION, false }, { 27, SCI_TRANSITIONS_PIXELATION , true }, { 30, SCI_TRANSITIONS_FADEPALETTE, false }, { 40, SCI_TRANSITIONS_SCROLL_RIGHT, false }, { 41, SCI_TRANSITIONS_SCROLL_LEFT, false }, { 42, SCI_TRANSITIONS_SCROLL_UP, false }, { 43, SCI_TRANSITIONS_SCROLL_DOWN, false }, { 100, SCI_TRANSITIONS_NONE, false }, { 255, 255, false } }; // this table defines the blackout-transition that needs to be done prior doing the actual transition static const GfxTransitionTranslateEntry blackoutTransitionIDs[] = { { SCI_TRANSITIONS_VERTICALROLL_FROMCENTER, SCI_TRANSITIONS_VERTICALROLL_TOCENTER, true }, { SCI_TRANSITIONS_HORIZONTALROLL_FROMCENTER, SCI_TRANSITIONS_HORIZONTALROLL_TOCENTER, true }, { SCI_TRANSITIONS_STRAIGHT_FROM_RIGHT, SCI_TRANSITIONS_STRAIGHT_FROM_LEFT, true }, { SCI_TRANSITIONS_STRAIGHT_FROM_LEFT, SCI_TRANSITIONS_STRAIGHT_FROM_RIGHT, true }, { SCI_TRANSITIONS_STRAIGHT_FROM_BOTTOM, SCI_TRANSITIONS_STRAIGHT_FROM_TOP, true }, { SCI_TRANSITIONS_STRAIGHT_FROM_TOP, SCI_TRANSITIONS_STRAIGHT_FROM_BOTTOM, true }, { SCI_TRANSITIONS_DIAGONALROLL_FROMCENTER, SCI_TRANSITIONS_DIAGONALROLL_TOCENTER, true }, { SCI_TRANSITIONS_DIAGONALROLL_TOCENTER, SCI_TRANSITIONS_DIAGONALROLL_FROMCENTER, true }, { SCI_TRANSITIONS_BLOCKS, SCI_TRANSITIONS_BLOCKS, true }, { SCI_TRANSITIONS_PIXELATION, SCI_TRANSITIONS_PIXELATION, true }, { SCI_TRANSITIONS_FADEPALETTE, SCI_TRANSITIONS_NONE, true }, { SCI_TRANSITIONS_SCROLL_RIGHT, SCI_TRANSITIONS_NONE, true }, { SCI_TRANSITIONS_SCROLL_LEFT, SCI_TRANSITIONS_NONE, true }, { SCI_TRANSITIONS_SCROLL_UP, SCI_TRANSITIONS_NONE, true }, { SCI_TRANSITIONS_SCROLL_DOWN, SCI_TRANSITIONS_NONE, true }, { SCI_TRANSITIONS_NONE_LONGBOW, SCI_TRANSITIONS_NONE, true }, { SCI_TRANSITIONS_NONE, SCI_TRANSITIONS_NONE, true }, { SCI_TRANSITIONS_VERTICALROLL_TOCENTER, SCI_TRANSITIONS_NONE, true }, { SCI_TRANSITIONS_HORIZONTALROLL_TOCENTER, SCI_TRANSITIONS_NONE, true }, { 255, 255, true } }; void GfxTransitions::init() { _oldScreen = new byte[_screen->getDisplayHeight() * _screen->getDisplayWidth()]; if (getSciVersion() >= SCI_VERSION_1_LATE) _translationTable = NULL; else _translationTable = oldTransitionIDs; // setup default transition _number = SCI_TRANSITIONS_HORIZONTALROLL_FROMCENTER; _blackoutFlag = false; } void GfxTransitions::setup(int16 number, bool blackoutFlag) { if (number != -1) { #ifndef DISABLE_TRANSITIONS _number = number; #else _number = SCI_TRANSITIONS_NONE; #endif _blackoutFlag = blackoutFlag; debugC(kDebugLevelGraphics, "Transition %d, blackout %d", number, blackoutFlag); } } bool GfxTransitions::doCreateFrame(uint32 shouldBeAtMsec) { uint32 msecPos = g_system->getMillis() - _transitionStartTime; if (shouldBeAtMsec > msecPos) return true; return false; } void GfxTransitions::updateScreenAndWait(uint32 shouldBeAtMsec) { Common::Event ev; while (g_system->getEventManager()->pollEvent(ev)) {} // discard all events g_system->updateScreen(); // if we have still some time left, delay accordingly uint32 msecPos = g_system->getMillis() - _transitionStartTime; if (shouldBeAtMsec > msecPos) g_system->delayMillis(shouldBeAtMsec - msecPos); } // will translate a number and return corresponding translationEntry const GfxTransitionTranslateEntry *GfxTransitions::translateNumber (int16 number, const GfxTransitionTranslateEntry *tablePtr) { while (1) { if (tablePtr->orgId == 255) return NULL; if (tablePtr->orgId == number) return tablePtr; tablePtr++; } } void GfxTransitions::doit(Common::Rect picRect) { const GfxTransitionTranslateEntry *translationEntry = _translationTable; _picRect = picRect; if (_translationTable) { // We need to translate the ID translationEntry = translateNumber(_number, _translationTable); if (translationEntry) { _number = translationEntry->newId; _blackoutFlag = translationEntry->blackoutFlag; } else { warning("Transitions: old ID %d not supported", _number); _number = SCI_TRANSITIONS_NONE; _blackoutFlag = false; } } if (_blackoutFlag) { // We need to find out what transition we are supposed to use for // blackout translationEntry = translateNumber(_number, blackoutTransitionIDs); if (translationEntry) { doTransition(translationEntry->newId, true); } else { warning("Transitions: ID %d not listed in blackoutTransitionIDs", _number); } } _palette->palVaryPrepareForTransition(); // Now we do the actual transition to the new screen doTransition(_number, false); _screen->_picNotValid = 0; } // This may get called twice, if blackoutFlag is set. It will get once called // with blackoutFlag set and another time with no blackoutFlag. void GfxTransitions::doTransition(int16 number, bool blackoutFlag) { if (number != SCI_TRANSITIONS_FADEPALETTE) { setNewPalette(blackoutFlag); } _transitionStartTime = g_system->getMillis(); switch (number) { case SCI_TRANSITIONS_VERTICALROLL_FROMCENTER: verticalRollFromCenter(blackoutFlag); break; case SCI_TRANSITIONS_VERTICALROLL_TOCENTER: verticalRollToCenter(blackoutFlag); break; case SCI_TRANSITIONS_HORIZONTALROLL_FROMCENTER: horizontalRollFromCenter(blackoutFlag); break; case SCI_TRANSITIONS_HORIZONTALROLL_TOCENTER: horizontalRollToCenter(blackoutFlag); break; case SCI_TRANSITIONS_DIAGONALROLL_TOCENTER: diagonalRollToCenter(blackoutFlag); break; case SCI_TRANSITIONS_DIAGONALROLL_FROMCENTER: diagonalRollFromCenter(blackoutFlag); break; case SCI_TRANSITIONS_STRAIGHT_FROM_RIGHT: case SCI_TRANSITIONS_STRAIGHT_FROM_LEFT: case SCI_TRANSITIONS_STRAIGHT_FROM_BOTTOM: case SCI_TRANSITIONS_STRAIGHT_FROM_TOP: straight(number, blackoutFlag); break; case SCI_TRANSITIONS_PIXELATION: pixelation(blackoutFlag); break; case SCI_TRANSITIONS_BLOCKS: blocks(blackoutFlag); break; case SCI_TRANSITIONS_FADEPALETTE: if (!blackoutFlag) { fadeOut(); setNewScreen(blackoutFlag); fadeIn(); } break; case SCI_TRANSITIONS_SCROLL_RIGHT: case SCI_TRANSITIONS_SCROLL_LEFT: case SCI_TRANSITIONS_SCROLL_UP: case SCI_TRANSITIONS_SCROLL_DOWN: scroll(number); break; case SCI_TRANSITIONS_NONE_LONGBOW: case SCI_TRANSITIONS_NONE: setNewScreen(blackoutFlag); break; default: warning("Transitions: ID %d not implemented", number); setNewScreen(blackoutFlag); } } void GfxTransitions::setNewPalette(bool blackoutFlag) { if (!blackoutFlag) _palette->setOnScreen(); } void GfxTransitions::setNewScreen(bool blackoutFlag) { if (!blackoutFlag) { _screen->copyRectToScreen(_picRect); g_system->updateScreen(); } } void GfxTransitions::copyRectToScreen(const Common::Rect rect, bool blackoutFlag) { if (!blackoutFlag) { _screen->copyRectToScreen(rect); } else { Graphics::Surface *surface = g_system->lockScreen(); if (!_screen->getUpscaledHires()) { surface->fillRect(rect, 0); } else { Common::Rect upscaledRect = rect; _screen->adjustToUpscaledCoordinates(upscaledRect.top, upscaledRect.left); _screen->adjustToUpscaledCoordinates(upscaledRect.bottom, upscaledRect.right); surface->fillRect(upscaledRect, 0); } g_system->unlockScreen(); } } // Note: don't do too many steps in here, otherwise cpu will crap out because of // the load void GfxTransitions::fadeOut() { byte oldPalette[3 * 256], workPalette[3 * 256]; int16 stepNr, colorNr; // Sierra did not fade in/out color 255 for sci1.1, but they used it in // several pictures (e.g. qfg3 demo/intro), so the fading looked weird int16 tillColorNr = getSciVersion() >= SCI_VERSION_1_1 ? 255 : 254; g_system->getPaletteManager()->grabPalette(oldPalette, 0, 256); for (stepNr = 100; stepNr >= 0; stepNr -= 10) { for (colorNr = 1; colorNr <= tillColorNr; colorNr++) { if (_palette->colorIsFromMacClut(colorNr)) { workPalette[colorNr * 3 + 0] = oldPalette[colorNr * 3]; workPalette[colorNr * 3 + 1] = oldPalette[colorNr * 3 + 1]; workPalette[colorNr * 3 + 2] = oldPalette[colorNr * 3 + 2]; } else { workPalette[colorNr * 3 + 0] = oldPalette[colorNr * 3] * stepNr / 100; workPalette[colorNr * 3 + 1] = oldPalette[colorNr * 3 + 1] * stepNr / 100; workPalette[colorNr * 3 + 2] = oldPalette[colorNr * 3 + 2] * stepNr / 100; } } g_system->getPaletteManager()->setPalette(workPalette + 3, 1, tillColorNr); g_sci->getEngineState()->wait(2); } } // Note: don't do too many steps in here, otherwise cpu will crap out because of // the load void GfxTransitions::fadeIn() { int16 stepNr; // Sierra did not fade in/out color 255 for sci1.1, but they used it in // several pictures (e.g. qfg3 demo/intro), so the fading looked weird int16 tillColorNr = getSciVersion() >= SCI_VERSION_1_1 ? 255 : 254; for (stepNr = 0; stepNr <= 100; stepNr += 10) { _palette->kernelSetIntensity(1, tillColorNr + 1, stepNr, true); g_sci->getEngineState()->wait(2); } } // Pixelates the new picture over the old one - works against the whole screen. // TODO: it seems this needs to get applied on _picRect only if possible void GfxTransitions::pixelation(bool blackoutFlag) { uint16 mask = 0x40, stepNr = 0; Common::Rect pixelRect; uint32 msecCount = 0; do { mask = (mask & 1) ? (mask >> 1) ^ 0xB400 : mask >> 1; if (mask >= _screen->getWidth() * _screen->getHeight()) continue; pixelRect.left = mask % _screen->getWidth(); pixelRect.right = pixelRect.left + 1; pixelRect.top = mask / _screen->getWidth(); pixelRect.bottom = pixelRect.top + 1; pixelRect.clip(_picRect); if (!pixelRect.isEmpty()) copyRectToScreen(pixelRect, blackoutFlag); if ((stepNr & 0x3FF) == 0) { msecCount += 9; updateScreenAndWait(msecCount); } stepNr++; } while (mask != 0x40); } // Like pixelation but uses 8x8 blocks - works against the whole screen. // TODO: it seems this needs to get applied on _picRect only if possible void GfxTransitions::blocks(bool blackoutFlag) { uint16 mask = 0x40, stepNr = 0; Common::Rect blockRect; uint32 msecCount = 0; do { mask = (mask & 1) ? (mask >> 1) ^ 0x240 : mask >> 1; if (mask >= 40 * 25) continue; blockRect.left = (mask % 40) << 3; blockRect.right = blockRect.left + 8; blockRect.top = (mask / 40) << 3; blockRect.bottom = blockRect.top + 8; blockRect.clip(_picRect); if (!blockRect.isEmpty()) copyRectToScreen(blockRect, blackoutFlag); if ((stepNr & 7) == 0) { msecCount += 5; updateScreenAndWait(msecCount); } stepNr++; } while (mask != 0x40); } // Directly shows new screen starting up/down/left/right and going to the // opposite direction - works on _picRect area only void GfxTransitions::straight(int16 number, bool blackoutFlag) { int16 stepNr = 0; Common::Rect newScreenRect = _picRect; uint32 msecCount = 0; switch (number) { case SCI_TRANSITIONS_STRAIGHT_FROM_RIGHT: newScreenRect.left = newScreenRect.right - 1; while (newScreenRect.left >= _picRect.left) { copyRectToScreen(newScreenRect, blackoutFlag); if ((stepNr & 1) == 0) { msecCount += 2; updateScreenAndWait(msecCount); } stepNr++; newScreenRect.translate(-1, 0); } break; case SCI_TRANSITIONS_STRAIGHT_FROM_LEFT: newScreenRect.right = newScreenRect.left + 1; while (newScreenRect.right <= _picRect.right) { copyRectToScreen(newScreenRect, blackoutFlag); if ((stepNr & 1) == 0) { msecCount += 2; updateScreenAndWait(msecCount); } stepNr++; newScreenRect.translate(1, 0); } break; case SCI_TRANSITIONS_STRAIGHT_FROM_BOTTOM: newScreenRect.top = newScreenRect.bottom - 1; while (newScreenRect.top >= _picRect.top) { copyRectToScreen(newScreenRect, blackoutFlag); msecCount += 4; updateScreenAndWait(msecCount); stepNr++; newScreenRect.translate(0, -1); } break; case SCI_TRANSITIONS_STRAIGHT_FROM_TOP: newScreenRect.bottom = newScreenRect.top + 1; while (newScreenRect.bottom <= _picRect.bottom) { copyRectToScreen(newScreenRect, blackoutFlag); msecCount += 4; updateScreenAndWait(msecCount); stepNr++; newScreenRect.translate(0, 1); } break; } } void GfxTransitions::scrollCopyOldToScreen(Common::Rect screenRect, int16 x, int16 y) { byte *oldScreenPtr = _oldScreen; int16 screenWidth = _screen->getDisplayWidth(); if (_screen->getUpscaledHires()) { _screen->adjustToUpscaledCoordinates(screenRect.top, screenRect.left); _screen->adjustToUpscaledCoordinates(screenRect.bottom, screenRect.right); _screen->adjustToUpscaledCoordinates(y, x); } oldScreenPtr += screenRect.left + screenRect.top * screenWidth; g_system->copyRectToScreen(oldScreenPtr, screenWidth, x, y, screenRect.width(), screenRect.height()); } // Scroll old screen (up/down/left/right) and insert new screen that way - works // on _picRect area only. void GfxTransitions::scroll(int16 number) { int16 stepNr = 0; Common::Rect oldMoveRect = _picRect; Common::Rect oldScreenRect = _picRect; Common::Rect newMoveRect = _picRect; Common::Rect newScreenRect = _picRect; uint32 msecCount = 0; _screen->copyFromScreen(_oldScreen); switch (number) { case SCI_TRANSITIONS_SCROLL_LEFT: newScreenRect.right = newScreenRect.left; newMoveRect.left = newMoveRect.right; while (oldMoveRect.left < oldMoveRect.right) { oldMoveRect.right--; oldScreenRect.left++; newScreenRect.right++; newMoveRect.left--; if ((stepNr & 1) == 0) { msecCount += 5; if (doCreateFrame(msecCount)) { if (oldMoveRect.right > oldMoveRect.left) scrollCopyOldToScreen(oldScreenRect, oldMoveRect.left, oldMoveRect.top); _screen->copyRectToScreen(newScreenRect, newMoveRect.left, newMoveRect.top); updateScreenAndWait(msecCount); } } stepNr++; } break; case SCI_TRANSITIONS_SCROLL_RIGHT: newScreenRect.left = newScreenRect.right; while (oldMoveRect.left < oldMoveRect.right) { oldMoveRect.left++; oldScreenRect.right--; newScreenRect.left--; if ((stepNr & 1) == 0) { msecCount += 5; if (doCreateFrame(msecCount)) { if (oldMoveRect.right > oldMoveRect.left) scrollCopyOldToScreen(oldScreenRect, oldMoveRect.left, oldMoveRect.top); _screen->copyRectToScreen(newScreenRect, newMoveRect.left, newMoveRect.top); updateScreenAndWait(msecCount); } } stepNr++; } break; case SCI_TRANSITIONS_SCROLL_UP: newScreenRect.bottom = newScreenRect.top; newMoveRect.top = newMoveRect.bottom; while (oldMoveRect.top < oldMoveRect.bottom) { oldMoveRect.top++; oldScreenRect.top++; newScreenRect.bottom++; newMoveRect.top--; msecCount += 5; if (doCreateFrame(msecCount)) { if (oldMoveRect.top < oldMoveRect.bottom) scrollCopyOldToScreen(oldScreenRect, _picRect.left, _picRect.top); _screen->copyRectToScreen(newScreenRect, newMoveRect.left, newMoveRect.top); updateScreenAndWait(msecCount); } } break; case SCI_TRANSITIONS_SCROLL_DOWN: newScreenRect.top = newScreenRect.bottom; while (oldMoveRect.top < oldMoveRect.bottom) { oldMoveRect.top++; oldScreenRect.bottom--; newScreenRect.top--; msecCount += 5; if (doCreateFrame(msecCount)) { if (oldMoveRect.top < oldMoveRect.bottom) scrollCopyOldToScreen(oldScreenRect, oldMoveRect.left, oldMoveRect.top); _screen->copyRectToScreen(newScreenRect, _picRect.left, _picRect.top); updateScreenAndWait(msecCount); } } break; } // Copy over final position just in case _screen->copyRectToScreen(newScreenRect); g_system->updateScreen(); } // Vertically displays new screen starting from center - works on _picRect area // only void GfxTransitions::verticalRollFromCenter(bool blackoutFlag) { Common::Rect leftRect = Common::Rect(_picRect.left + (_picRect.width() / 2) -1, _picRect.top, _picRect.left + (_picRect.width() / 2), _picRect.bottom); Common::Rect rightRect = Common::Rect(leftRect.right, _picRect.top, leftRect.right + 1, _picRect.bottom); uint32 msecCount = 0; while ((leftRect.left >= _picRect.left) || (rightRect.right <= _picRect.right)) { if (leftRect.left < _picRect.left) leftRect.translate(1, 0); if (rightRect.right > _picRect.right) rightRect.translate(-1, 0); copyRectToScreen(leftRect, blackoutFlag); leftRect.translate(-1, 0); copyRectToScreen(rightRect, blackoutFlag); rightRect.translate(1, 0); msecCount += 3; updateScreenAndWait(msecCount); } } // Vertically displays new screen starting from edges - works on _picRect area // only void GfxTransitions::verticalRollToCenter(bool blackoutFlag) { Common::Rect leftRect = Common::Rect(_picRect.left, _picRect.top, _picRect.left + 1, _picRect.bottom); Common::Rect rightRect = Common::Rect(_picRect.right - 1, _picRect.top, _picRect.right, _picRect.bottom); uint32 msecCount = 0; while (leftRect.left < rightRect.right) { copyRectToScreen(leftRect, blackoutFlag); leftRect.translate(1, 0); copyRectToScreen(rightRect, blackoutFlag); rightRect.translate(-1, 0); msecCount += 3; updateScreenAndWait(msecCount); } } // Horizontally displays new screen starting from center - works on _picRect // area only void GfxTransitions::horizontalRollFromCenter(bool blackoutFlag) { Common::Rect upperRect = Common::Rect(_picRect.left, _picRect.top + (_picRect.height() / 2) - 1, _picRect.right, _picRect.top + (_picRect.height() / 2)); Common::Rect lowerRect = Common::Rect(upperRect.left, upperRect.bottom, upperRect.right, upperRect.bottom + 1); uint32 msecCount = 0; while ((upperRect.top >= _picRect.top) || (lowerRect.bottom <= _picRect.bottom)) { if (upperRect.top < _picRect.top) upperRect.translate(0, 1); if (lowerRect.bottom > _picRect.bottom) lowerRect.translate(0, -1); copyRectToScreen(upperRect, blackoutFlag); upperRect.translate(0, -1); copyRectToScreen(lowerRect, blackoutFlag); lowerRect.translate(0, 1); msecCount += 4; updateScreenAndWait(msecCount); } } // Horizontally displays new screen starting from upper and lower edge - works // on _picRect area only void GfxTransitions::horizontalRollToCenter(bool blackoutFlag) { Common::Rect upperRect = Common::Rect(_picRect.left, _picRect.top, _picRect.right, _picRect.top + 1); Common::Rect lowerRect = Common::Rect(upperRect.left, _picRect.bottom - 1, upperRect.right, _picRect.bottom); uint32 msecCount = 0; while (upperRect.top < lowerRect.bottom) { copyRectToScreen(upperRect, blackoutFlag); upperRect.translate(0, 1); copyRectToScreen(lowerRect, blackoutFlag); lowerRect.translate(0, -1); msecCount += 4; updateScreenAndWait(msecCount); } } // Diagonally displays new screen starting from center - works on _picRect area // only. Assumes that height of rect is larger than width. void GfxTransitions::diagonalRollFromCenter(bool blackoutFlag) { int16 halfHeight = _picRect.height() / 2; Common::Rect upperRect(_picRect.left + halfHeight - 2, _picRect.top + halfHeight, _picRect.right - halfHeight + 1, _picRect.top + halfHeight + 1); Common::Rect lowerRect(upperRect.left, upperRect.top, upperRect.right, upperRect.bottom); Common::Rect leftRect(upperRect.left, upperRect.top, upperRect.left + 1, lowerRect.bottom); Common::Rect rightRect(upperRect.right, upperRect.top, upperRect.right + 1, lowerRect.bottom); uint32 msecCount = 0; while ((upperRect.top >= _picRect.top) || (lowerRect.bottom <= _picRect.bottom)) { if (upperRect.top < _picRect.top) { upperRect.translate(0, 1); leftRect.top++; rightRect.top++; } if (lowerRect.bottom > _picRect.bottom) { lowerRect.translate(0, -1); leftRect.bottom--; rightRect.bottom--; } if (leftRect.left < _picRect.left) { leftRect.translate(1, 0); upperRect.left++; lowerRect.left++; } if (rightRect.right > _picRect.right) { rightRect.translate(-1, 0); upperRect.right--; lowerRect.right--; } copyRectToScreen(upperRect, blackoutFlag); upperRect.translate(0, -1); upperRect.left--; upperRect.right++; copyRectToScreen(lowerRect, blackoutFlag); lowerRect.translate(0, 1); lowerRect.left--; lowerRect.right++; copyRectToScreen(leftRect, blackoutFlag); leftRect.translate(-1, 0); leftRect.top--; leftRect.bottom++; copyRectToScreen(rightRect, blackoutFlag); rightRect.translate(1, 0); rightRect.top--; rightRect.bottom++; msecCount += 4; updateScreenAndWait(msecCount); } } // Diagonally displays new screen starting from edges - works on _picRect area // only. Assumes that height of rect is larger than width. void GfxTransitions::diagonalRollToCenter(bool blackoutFlag) { Common::Rect upperRect(_picRect.left, _picRect.top, _picRect.right, _picRect.top + 1); Common::Rect lowerRect(_picRect.left, _picRect.bottom - 1, _picRect.right, _picRect.bottom); Common::Rect leftRect(_picRect.left, _picRect.top, _picRect.left + 1, _picRect.bottom); Common::Rect rightRect(_picRect.right - 1, _picRect.top, _picRect.right, _picRect.bottom); uint32 msecCount = 0; while (upperRect.top < lowerRect.bottom) { copyRectToScreen(upperRect, blackoutFlag); upperRect.translate(0, 1); upperRect.left++; upperRect.right--; copyRectToScreen(lowerRect, blackoutFlag); lowerRect.translate(0, -1); lowerRect.left++; lowerRect.right--; copyRectToScreen(leftRect, blackoutFlag); leftRect.translate(1, 0); copyRectToScreen(rightRect, blackoutFlag); rightRect.translate(-1, 0); msecCount += 4; updateScreenAndWait(msecCount); } } } // End of namespace Sci