/* 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/kyra_v2.h" #include "kyra/screen_v2.h" #include "kyra/sound.h" #include "kyra/wsamovie.h" #include "common/func.h" namespace Kyra { void KyraEngine_v2::enterNewScene(uint16 newScene, int facing, int unk1, int unk2, int unk3) { if (_newChapterFile != _currentTalkFile) { _currentTalkFile = _newChapterFile; showMessageFromCCode(265, 150, 0); _screen->updateScreen(); openTalkFile(_currentTalkFile); showMessage(0, 207); _screen->updateScreen(); } _screen->hideMouse(); if (!unk3) { //updateSpecialItems(); //displayInvWsaLastFrame(); } if (unk1) { int x = _mainCharacter.x1; int y = _mainCharacter.y1; switch (facing) { case 0: y -= 6; break; case 2: x = 335; break; case 4: y = 147; break; case 6: x = -16; break; default: break; } moveCharacter(facing, x, y); } bool newSoundFile = false; if (_sceneList[newScene].sound != _lastMusicCommand) { newSoundFile = true; //XXX _sound->beginFadeOut(); } _unkFlag1 = false; if (!unk3) { _scriptInterpreter->initScript(&_sceneScriptState, &_sceneScriptData); _scriptInterpreter->startScript(&_sceneScriptState, 5); while (_scriptInterpreter->validScript(&_sceneScriptState)) _scriptInterpreter->runScript(&_sceneScriptState); } Common::for_each(_wsaSlots, _wsaSlots+ARRAYSIZE(_wsaSlots), Common::mem_fun(&WSAMovieV2::close)); _specialExitCount = 0; memset(_specialExitTable, -1, sizeof(_specialExitTable)); _mainCharacter.sceneId = newScene; _sceneList[newScene].flags &= ~1; loadScenePal(); unloadScene(); loadSceneMsc(); SceneDesc &scene = _sceneList[newScene]; _sceneExit1 = scene.exit1; _sceneExit2 = scene.exit2; _sceneExit3 = scene.exit3; _sceneExit4 = scene.exit4; if (newSoundFile) { //XXX while (snd_isPlaying()) ; snd_loadSoundFile(_sceneList[newScene].sound); } startSceneScript(unk3); if (_overwriteSceneFacing) { facing = _mainCharacter.facing; _overwriteSceneFacing = false; } enterNewSceneUnk1(facing, unk2, unk3); setTimer1DelaySecs(-1); _sceneScriptState.regs[3] = 1; enterNewSceneUnk2(unk3); _screen->showMouse(); _unk5 = 0; //setNextIdleAnimTimer(); _currentScene = newScene; } void KyraEngine_v2::enterNewSceneUnk1(int facing, int unk1, int unk2) { int x = 0, y = 0; int x2 = 0, y2 = 0; bool needProc = true; if (_mainCharX == -1 && _mainCharY == -1) { switch (facing+1) { case 1: case 2: case 8: x2 = _sceneEnterX3; y2 = _sceneEnterY3; break; case 3: x2 = _sceneEnterX4; y2 = _sceneEnterY4; break; case 4: case 5: case 6: x2 = _sceneEnterX1; y2 = _sceneEnterY1; break; case 7: x2 = _sceneEnterX2; y2 = _sceneEnterY2; break; default: x2 = y2 = -1; break; } if (x2 >= 316) x2 = 312; if (y2 >= 141) y2 = 139; if (x2 <= 4) x2 = 8; } if (_mainCharX >= 0) { x = x2 = _mainCharX; needProc = false; } if (_mainCharY >= 0) { y = y2 = _mainCharY; needProc = false; } _mainCharX = _mainCharY = -1; if (unk1 && needProc) { x = x2; y = y2; switch (facing) { case 0: y2 = 147; break; case 2: x2 = -16; break; case 4: y2 = y - 4; break; case 6: x2 = 335; break; default: break; } } x2 &= ~3; x &= ~3; y2 &= ~1; y &= ~1; _mainCharacter.facing = facing; _mainCharacter.x1 = _mainCharacter.x2 = x2; _mainCharacter.y1 = _mainCharacter.y2 = y2; initSceneAnims(unk2); if (!unk2) snd_playWanderScoreViaMap(_sceneList[_mainCharacter.sceneId].sound, 0); if (unk1 && !unk2 && _mainCharacter.animFrame != 32) moveCharacter(facing, x, y); } void KyraEngine_v2::enterNewSceneUnk2(int unk1) { _unk3 = -1; if (_mainCharX == -1 && _mainCharY == -1 && _mainCharacter.sceneId != 61 && !queryGameFlag(0x1F1) && !queryGameFlag(0x192) && !queryGameFlag(0x193) && _mainCharacter.sceneId != 70 && !queryGameFlag(0x159) && _mainCharacter.sceneId != 37) { _mainCharacter.animFrame = _characterFrameTable[_mainCharacter.facing]; updateCharacterAnim(0); refreshAnimObjectsIfNeed(); } if (!unk1) { runSceneScript4(0); //XXX sub_27158 } _unk4 = 0; _unk3 = -1; } int KyraEngine_v2::trySceneChange(int *moveTable, int unk1, int updateChar) { bool running = true; bool unkFlag = false; int8 updateType = -1; int changedScene = 0; const int *moveTableStart = moveTable; _unk4 = 0; while (running && !_quitFlag) { if (*moveTable >= 0 && *moveTable <= 7) { _mainCharacter.facing = getOppositeFacingDirection(*moveTable); unkFlag = true; } else { if (*moveTable == 8) { running = false; } else { ++moveTable; unkFlag = false; } } if (checkSceneChange()) { running = false; changedScene = 1; } if (unk1) { // TODO: check this again int inputFlag = checkInput(0/*dword_324C5*/); if (inputFlag == 198 || inputFlag == 199) { running = false; _unk4 = 1; } } if (!unkFlag || !running) continue; int ret = 0; if (moveTable == moveTableStart || moveTable[1] == 8) ret = updateCharPos(0); else ret = updateCharPos(moveTable); if (ret) ++moveTable; ++updateType; if (!updateType) { update(); } else if (updateType == 1) { refreshAnimObjectsIfNeed(); updateType = -1; } } if (updateChar) _mainCharacter.animFrame = _characterFrameTable[_mainCharacter.facing]; updateCharacterAnim(0); refreshAnimObjectsIfNeed(); if (!changedScene && !_unk4) { //XXX } return changedScene; } int KyraEngine_v2::checkSceneChange() { SceneDesc &curScene = _sceneList[_mainCharacter.sceneId]; int charX = _mainCharacter.x1, charY = _mainCharacter.y1; int facing = 0; int process = 0; if (_screen->getLayer(charX, charY) == 1 && _unk3 == -6) { facing = 0; process = 1; } else if (charX >= 316 && _unk3 == -5) { facing = 2; process = 1; } else if (charY >= 142 && _unk3 == -4) { facing = 4; process = 1; } else if (charX <= 4 && _unk3 == -3) { facing = 6; process = 1; } if (!process) return 0; uint16 newScene = 0xFFFF; switch (facing) { case 0: newScene = curScene.exit1; break; case 2: newScene = curScene.exit2; break; case 4: newScene = curScene.exit3; break; case 6: newScene = curScene.exit4; break; default: newScene = _mainCharacter.sceneId; break; } if (newScene == 0xFFFF) return 0; enterNewScene(newScene, facing, 1, 1, 0); return 1; } void KyraEngine_v2::unloadScene() { _scriptInterpreter->unloadScript(&_sceneScriptData); freeSceneShapePtrs(); freeSceneAnims(); } void KyraEngine_v2::loadScenePal() { uint16 sceneId = _mainCharacter.sceneId; memcpy(_screen->getPalette(1), _screen->getPalette(0), 768); char filename[14]; strcpy(filename, _sceneList[sceneId].filename); strcat(filename, ".COL"); _screen->loadBitmap(filename, 3, 3, 0); memcpy(_screen->getPalette(1), _screen->getCPagePtr(3), 384); memset(_screen->getPalette(1), 0, 3); memcpy(_scenePal, _screen->getCPagePtr(3)+336, 432); } void KyraEngine_v2::loadSceneMsc() { uint16 sceneId = _mainCharacter.sceneId; char filename[14]; strcpy(filename, _sceneList[sceneId].filename); strcat(filename, ".MSC"); _screen->loadBitmap(filename, 3, 5, 0); } void KyraEngine_v2::startSceneScript(int unk1) { uint16 sceneId = _mainCharacter.sceneId; char filename[14]; strcpy(filename, _sceneList[sceneId].filename); if (sceneId == 68 && (queryGameFlag(0x1BC) || queryGameFlag(0x1DC))) strcpy(filename, "DOORX"); strcat(filename, ".CPS"); _screen->loadBitmap(filename, 3, 3, 0); resetScaleTable(); _useCharPal = false; memset(_charPalTable, 0, sizeof(_charPalTable)); memset(_layerFlagTable, 0, sizeof(_layerFlagTable)); memset(_specialSceneScriptState, 0, sizeof(_specialSceneScriptState)); _sceneEnterX1 = 160; _sceneEnterY1 = 0; _sceneEnterX2 = 296; _sceneEnterY2 = 72; _sceneEnterX3 = 160; _sceneEnterY3 = 128; _sceneEnterX4 = 24; _sceneEnterY4 = 72; _sceneCommentString = "Undefined scene comment string!"; _scriptInterpreter->initScript(&_sceneScriptState, &_sceneScriptData); strcpy(filename, _sceneList[sceneId].filename); strcat(filename, "."); strcat(filename, _scriptLangExt[_lang]); assert(_res->getFileSize(filename)); _scriptInterpreter->loadScript(filename, &_sceneScriptData, &_opcodes); runSceneScript7(); _scriptInterpreter->startScript(&_sceneScriptState, 0); _sceneScriptState.regs[0] = sceneId; _sceneScriptState.regs[5] = unk1; while (_scriptInterpreter->validScript(&_sceneScriptState)) _scriptInterpreter->runScript(&_sceneScriptState); memcpy(_gamePlayBuffer, _screen->getCPagePtr(3), 46080); for (int i = 0; i < 10; ++i) { _scriptInterpreter->initScript(&_sceneSpecialScripts[i], &_sceneScriptData); _scriptInterpreter->startScript(&_sceneSpecialScripts[i], i+8); _sceneSpecialScriptsTimer[i] = 0; } _sceneEnterX1 &= ~3; _sceneEnterX2 &= ~3; _sceneEnterX3 &= ~3; _sceneEnterX4 &= ~3; _sceneEnterY1 &= ~1; _sceneEnterY2 &= ~1; _sceneEnterY3 &= ~1; _sceneEnterY4 &= ~1; } void KyraEngine_v2::runSceneScript2() { _scriptInterpreter->initScript(&_sceneScriptState, &_sceneScriptData); _sceneScriptState.regs[4] = _itemInHand; _scriptInterpreter->startScript(&_sceneScriptState, 2); while (_scriptInterpreter->validScript(&_sceneScriptState)) _scriptInterpreter->runScript(&_sceneScriptState); } void KyraEngine_v2::runSceneScript4(int unk1) { _sceneScriptState.regs[4] = _itemInHand; _sceneScriptState.regs[5] = unk1; _scriptInterpreter->startScript(&_sceneScriptState, 4); while (_scriptInterpreter->validScript(&_sceneScriptState)) _scriptInterpreter->runScript(&_sceneScriptState); } void KyraEngine_v2::runSceneScript6() { _scriptInterpreter->initScript(&_sceneScriptState, &_sceneScriptData); _sceneScriptState.regs[0] = _mainCharacter.sceneId; _sceneScriptState.regs[1] = _mouseX; _sceneScriptState.regs[2] = _mouseY; _sceneScriptState.regs[4] = _itemInHand; _scriptInterpreter->startScript(&_sceneScriptState, 6); while (_scriptInterpreter->validScript(&_sceneScriptState)) _scriptInterpreter->runScript(&_sceneScriptState); } void KyraEngine_v2::runSceneScript7() { int oldPage = _screen->_curPage; _screen->_curPage = 2; _scriptInterpreter->startScript(&_sceneScriptState, 7); while (_scriptInterpreter->validScript(&_sceneScriptState)) _scriptInterpreter->runScript(&_sceneScriptState); _screen->_curPage = oldPage; } void KyraEngine_v2::initSceneAnims(int unk1) { for (int i = 0; i < ARRAYSIZE(_animObjects); ++i) _animObjects[i].enabled = 0; bool animInit = false; AnimObj *animState = &_animObjects[0]; if (_mainCharacter.animFrame != 32) _mainCharacter.animFrame = _characterFrameTable[_mainCharacter.facing]; animState->enabled = 1; animState->xPos1 = _mainCharacter.x1; animState->yPos1 = _mainCharacter.y1; animState->shapePtr = _defaultShapeTable[_mainCharacter.animFrame]; animState->shapeIndex1 = animState->shapeIndex2 = _mainCharacter.animFrame; int frame = _mainCharacter.animFrame - 9; int shapeX = _shapeDescTable[frame].xAdd; int shapeY = _shapeDescTable[frame].yAdd; animState->xPos2 = _mainCharacter.x1; animState->yPos2 = _mainCharacter.y1; _charScaleX = _charScaleY = getScale(_mainCharacter.x1, _mainCharacter.y1); int shapeXScaled = (shapeX * _charScaleX) >> 8; int shapeYScaled = (shapeY * _charScaleY) >> 8; animState->xPos2 += shapeXScaled; animState->yPos2 += shapeYScaled; animState->xPos3 = animState->xPos2; animState->yPos3 = animState->yPos2; animState->needRefresh = 1; animState->unk8 = 1; _animList = 0; AnimObj *charAnimState = animState; for (int i = 0; i < 10; ++i) { animState = &_animObjects[i+1]; animState->enabled = 0; animState->needRefresh = 0; animState->unk8 = 0; if (_sceneAnims[i].flags & 1) { animState->enabled = 1; animState->needRefresh = 1; animState->unk8 = 1; } animState->animFlags = _sceneAnims[i].flags & 8; if (_sceneAnims[i].flags & 2) animState->flags = 0x800; else animState->flags = 0; if (_sceneAnims[i].flags & 4) animState->flags |= 1; animState->xPos1 = _sceneAnims[i].x; animState->yPos1 = _sceneAnims[i].y; if (_sceneAnims[i].flags & 0x20) animState->shapePtr = _sceneShapeTable[_sceneAnims[i].shapeIndex]; else animState->shapePtr = 0; if (_sceneAnims[i].flags & 0x40) { animState->shapeIndex3 = _sceneAnims[i].shapeIndex; animState->animNum = i; } else { animState->shapeIndex3 = 0xFFFF; animState->animNum = 0xFFFF; } animState->shapeIndex2 = 0xFFFF; animState->xPos3 = animState->xPos2 = _sceneAnims[i].x2; animState->yPos3 = animState->yPos2 = _sceneAnims[i].y2; animState->width = _sceneAnims[i].width; animState->height = _sceneAnims[i].height; animState->width2 = animState->height2 = _sceneAnims[i].specialSize; if (_sceneAnims[i].flags & 1) { if (animInit) { _animList = addToAnimListSorted(_animList, animState); } else { _animList = initAnimList(_animList, animState); animInit = true; } } } if (animInit) { _animList = addToAnimListSorted(_animList, charAnimState); } else { _animList = initAnimList(_animList, charAnimState); animInit = true; } for (int i = 0; i < 30; ++i) { animState = &_animObjects[i+11]; uint16 shapeIndex = _itemList[i].id; if (shapeIndex == 0xFFFF || _itemList[i].sceneId != _mainCharacter.sceneId) { animState->enabled = 0; animState->needRefresh = 0; animState->unk8 = 0; } else { animState->xPos1 = _itemList[i].x; animState->yPos1 = _itemList[i].y; animState->shapePtr = _defaultShapeTable[64+shapeIndex]; animState->shapeIndex1 = animState->shapeIndex2 = shapeIndex+64; animState->xPos2 = _itemList[i].x; animState->yPos2 = _itemList[i].y; int objectScale = getScale(animState->xPos2, animState->yPos2); const uint8 *shape = getShapePtr(animState->shapeIndex1); animState->xPos2 -= (_screen->getShapeScaledWidth(shape, objectScale) >> 1); animState->yPos2 -= (_screen->getShapeScaledHeight(shape, objectScale) >> 1); animState->xPos3 = animState->xPos2; animState->yPos3 = animState->yPos2; animState->enabled = 1; animState->needRefresh = 1; animState->unk8 = 1; if (animInit) { _animList = addToAnimListSorted(_animList, animState); } else { _animList = initAnimList(_animList, animState); animInit = true; } } } _animObjects[0].unk8 = 1; _animObjects[0].needRefresh = 1; for (int i = 1; i < 41; ++i) { if (_animObjects[i].enabled) { _animObjects[i].needRefresh = 1; _animObjects[i].unk8 = 1; } } restorePage3(); drawAnimObjects(); _screen->hideMouse(); initSceneScreen(unk1); _screen->showMouse(); refreshAnimObjects(0); } void KyraEngine_v2::initSceneScreen(int unk1) { if (_unkSceneScreenFlag1) { _screen->copyRegion(0, 0, 0, 0, 320, 144, 2, 0); return; } if (_noScriptEnter) { memset(_screen->getPalette(0), 0, 384); _screen->setScreenPalette(_screen->getPalette(0)); } _screen->copyRegion(0, 0, 0, 0, 320, 144, 2, 0); if (_noScriptEnter) memcpy(_screen->getPalette(0), _screen->getPalette(1), 384); updateCharPal(0); _scriptInterpreter->startScript(&_sceneScriptState, 3); _sceneScriptState.regs[5] = unk1; while (_scriptInterpreter->validScript(&_sceneScriptState)) _scriptInterpreter->runScript(&_sceneScriptState); } void KyraEngine_v2::updateSpecialSceneScripts() { uint32 nextTime = _system->getMillis() + _tickLength; const int startScript = _lastProcessedSceneScript; while (_system->getMillis() <= nextTime) { if (_sceneSpecialScriptsTimer[_lastProcessedSceneScript] <= _system->getMillis() && !_specialSceneScriptState[_lastProcessedSceneScript]) { _specialSceneScriptRunFlag = true; while (_specialSceneScriptRunFlag && _sceneSpecialScriptsTimer[_lastProcessedSceneScript] <= _system->getMillis()) _specialSceneScriptRunFlag = _scriptInterpreter->runScript(&_sceneSpecialScripts[_lastProcessedSceneScript]) != 0; } if (!_scriptInterpreter->validScript(&_sceneSpecialScripts[_lastProcessedSceneScript])) { _scriptInterpreter->startScript(&_sceneSpecialScripts[_lastProcessedSceneScript], 8+_lastProcessedSceneScript); _specialSceneScriptRunFlag = false; } ++_lastProcessedSceneScript; if (_lastProcessedSceneScript >= 10) _lastProcessedSceneScript = 0; if (_lastProcessedSceneScript == startScript) return; } } void KyraEngine_v2::freeSceneShapePtrs() { for (int i = 0; i < ARRAYSIZE(_sceneShapeTable); ++i) delete [] _sceneShapeTable[i]; memset(_sceneShapeTable, 0, sizeof(_sceneShapeTable)); } void KyraEngine_v2::freeSceneAnims() { Common::for_each(_sceneAnimMovie, _sceneAnimMovie+ARRAYSIZE(_sceneAnimMovie), Common::mem_fun(&WSAMovieV2::close)); } #pragma mark - #pragma mark - Pathfinder #pragma mark - int KyraEngine_v2::findWay(int x, int y, int toX, int toY, int *moveTable, int moveTableSize) { debugC(9, kDebugLevelMain, "KyraEngine_v2::findWay(%d, %d, %d, %d, %p, %d)", x, y, toX, toY, (const void *)moveTable, moveTableSize); x &= ~3; toX &= ~3; y &= ~1; toY &= ~1; int size = KyraEngine::findWay(x, y, toX, toY, moveTable, moveTableSize); if (size) { /* int temp = pathfinderUnk1(moveTable); temp = pathfinderUnk3(temp, x, y); pathfinderUnk5(moveTable, temp, x, y, moveTableSize); */ } return getMoveTableSize(moveTable); } bool KyraEngine_v2::lineIsPassable(int x, int y) { debugC(9, kDebugLevelMain, "KyraEngine_v2::lineIsPassable(%d, %d)", x, y); static int unkTable[] = { 1, 1, 1, 1, 1, 2, 4, 6, 8 }; if (_pathfinderFlag & 2) { if (x >= 320) return false; } if (_pathfinderFlag & 4) { if (y >= 144) return false; } if (_pathfinderFlag & 8) { if (x < 0) return false; } if (y > 143) return false; int unk1 = unkTable[getScale(x, y) >> 5]; if (y < 0) y = 0; x -= unk1 >> 1; if (x < 0) x = 0; int x2 = x + unk1; if (x2 > 320) x2 = 320; for (;x < x2; ++x) if (!_screen->getShapeFlag1(x, y)) return false; return true; } bool KyraEngine_v2::directLinePassable(int x, int y, int toX, int toY) { while (x != toX && y != toY) { int facing = getFacingFromPointToPoint(x, y, toX, toY); x += _addXPosTable[facing]; y += _addYPosTable[facing]; if (!_screen->getShapeFlag1(x, y)) return false; } return true; } int KyraEngine_v2::pathfinderUnk1(int *moveTable) { bool breakLoop = false; int *moveTableCur = moveTable; int oldEntry = *moveTableCur, curEntry = *moveTableCur; int oldX = 0, newX = 0, oldY = 0, newY = 0; int lastEntry = 0; lastEntry = pathfinderUnk2(lastEntry, 0, 0); while (*moveTableCur != 8) { oldEntry = curEntry; while (true) { curEntry = *moveTableCur; if (curEntry >= 0 && curEntry <= 7) break; if (curEntry == 8) { breakLoop = true; break; } else { ++moveTableCur; } } if (breakLoop) break; oldX = newX; oldY = newY; newX += _addXPosTable[curEntry]; newY += _addYPosTable[curEntry]; int temp = ABS(curEntry - oldEntry); if (temp > 4) { temp = 8 - temp; } if (temp > 1 || oldEntry != curEntry) lastEntry = pathfinderUnk2(lastEntry, oldX, oldY); ++moveTableCur; } lastEntry = pathfinderUnk2(lastEntry, newX, newY); _pathfinderUnkTable1[lastEntry*2+0] = -1; _pathfinderUnkTable1[lastEntry*2+1] = -1; return lastEntry; } int KyraEngine_v2::pathfinderUnk2(int index, int v1, int v2) { _pathfinderUnkTable1[index<<1] = v1; _pathfinderUnkTable1[(index<<1)+1] = v2; ++index; if (index >= 199) --index; return index; } int KyraEngine_v2::pathfinderUnk3(int tableLen, int x, int y) { int x1 = 0, y1 = 0; int x2 = 0, y2 = 0; int lastEntry = 0; int index2 = tableLen-1, index1 = 0; while (index2 > index1) { x1 = _pathfinderUnkTable1[index1*2+0] + x; y1 = _pathfinderUnkTable1[index1*2+1] + y; x2 = _pathfinderUnkTable1[index2*2+0] + x; y2 = _pathfinderUnkTable1[index2*2+0] + x; if (directLinePassable(x1, y1, x2, y2)) { lastEntry = pathfinderUnk4(lastEntry, index2); if (tableLen-1 == index2) break; index1 = index2; index2 = tableLen-1; } else if (index1+1 == index2) { lastEntry = pathfinderUnk4(lastEntry, index2); index1 = index2; index2 = tableLen-1; } else { --index2; } } return lastEntry; } int KyraEngine_v2::pathfinderUnk4(int index, int v) { _pathfinderUnkTable2[index] = v; ++index; if (index >= 199) --index; return index; } void KyraEngine_v2::pathfinderUnk5(int *moveTable, int tableLen, int x, int y, int moveTableSize) { int x1 = 0, y1 = 0; int x2 = 0, y2 = 0; int index1 = 0, index2 = 0; int sizeLeft = moveTableSize; for (int i = 0; i < tableLen; ++i) { index2 = _pathfinderUnkTable2[i]; x1 = _pathfinderUnkTable1[index1*2+0] + x; y1 = _pathfinderUnkTable1[index1*2+1] + y; x2 = _pathfinderUnkTable1[index2*2+0] + x; y2 = _pathfinderUnkTable1[index2*2+0] + x; int wayLen = findWay(x1, y1, x2, y2, moveTable, sizeLeft); moveTable += wayLen; sizeLeft -= wayLen; // unlike the original we want to be sure that the size left is correct index1 = index2; } } void KyraEngine_v2::fadeScenePal(int srcIndex, int delayTime) { uint8 *dst = _screen->getPalette(0) + 336; const uint8 *src = _scenePal + (srcIndex << 4)*3; memcpy(dst, src, 48); _screen->fadePalette(_screen->getPalette(0), delayTime, &_updateFunctor); } } // end of namespace Kyra