/* ScummVM - Scumm Interpreter * Copyright (C) 2004-2005 The ScummVM project * * The ReInherit Engine is (C)2000-2003 by Daniel Balsom. * * 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. * * $Header$ * */ // Scene management module #include "saga/saga.h" #include "saga/gfx.h" #include "saga/animation.h" #include "saga/console.h" #include "saga/interface.h" #include "saga/events.h" #include "saga/isomap.h" #include "saga/objectmap.h" #include "saga/palanim.h" #include "saga/puzzle.h" #include "saga/render.h" #include "saga/rscfile_mod.h" #include "saga/script.h" #include "saga/text.h" #include "saga/sound.h" #include "saga/music.h" #include "saga/scene.h" #include "saga/stream.h" #include "saga/actor.h" namespace Saga { static int initSceneDoors[SCENE_DOORS_MAX] = { 0, 0xff, 0, 0, 0, 0, 0, 0, 0, 0, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff }; Scene::Scene(SagaEngine *vm) : _vm(vm), _initialized(false) { byte *scene_lut_p; size_t scene_lut_len; int result; int i; // Load scene module resource context _sceneContext = _vm->getFileContext(GAME_RESOURCEFILE, 0); if (_sceneContext == NULL) { warning("Scene::Scene(): Couldn't load scene resource context"); return; } // Load scene lookup table debug(3, "Loading scene LUT from resource %u.", RSC_ConvertID(_vm->getResourceDescription()->sceneLUTResourceId)); result = RSC_LoadResource(_sceneContext, RSC_ConvertID(_vm->getResourceDescription()->sceneLUTResourceId), &scene_lut_p, &scene_lut_len); if (result != SUCCESS) { warning("Scene::Scene(): Error: couldn't load scene LUT"); return; } if (scene_lut_len==0) { warning("Scene::Scene(): scene_lut_len==0"); return; } _sceneCount = scene_lut_len / 2; _sceneMax = _sceneCount - 1; _sceneLUT = (int *)malloc(_sceneMax * sizeof(*_sceneLUT)); if (_sceneLUT == NULL) { memoryError("Scene::Scene()"); } MemoryReadStreamEndian readS(scene_lut_p, scene_lut_len, IS_BIG_ENDIAN); for (i = 0; i < _sceneMax; i++) { _sceneLUT[i] = readS.readUint16(); debug(8, "sceneNumber %i has resourceId %i", i, _sceneLUT[i]); } free(scene_lut_p); _firstScene = _vm->getStartSceneNumber(); debug(3, "First scene set to %d.", _firstScene); debug(3, "LUT has %d entries.", _sceneMax); // Create scene module text list _textList = _vm->textCreateList(); if (_textList == NULL) { warning("Scene::Scene(): Error: Couldn't create scene text list"); return; } _sceneLoaded = false; _sceneNumber = 0; _sceneResourceId = 0; _inGame = false; _loadDescription = false; memset(&_sceneDescription, 0, sizeof(_sceneDescription)); _resListEntries = 0; _resList = NULL; _sceneProc = NULL; _objectMap = new ObjectMap(_vm); _actionMap = new ObjectMap(_vm); memset(&_bg, 0, sizeof(_bg)); memset(&_bgMask, 0, sizeof(_bgMask)); _initialized = true; } Scene::~Scene() { if (_initialized) { delete _actionMap; free(_sceneLUT); } } void Scene::startScene() { SceneQueueList::iterator queueIterator; LoadSceneParams *sceneQueue; EVENT event; if (_sceneLoaded) { error("Scene::start(): Error: Can't start game...scene already loaded"); } if (_inGame) { error("Scene::start(): Error: Can't start game...game already started"); } // Hide cursor during intro event.type = ONESHOT_EVENT; event.code = CURSOR_EVENT; event.op = EVENT_HIDE; _vm->_events->queue(&event); switch (_vm->getGameType()) { case GType_ITE: ITEStartProc(); break; case GType_IHNM: IHNMStartProc(); break; default: error("Scene::start(): Error: Can't start game... gametype not supported"); break; } // Load the head in scene queue queueIterator = _sceneQueue.begin(); if (queueIterator == _sceneQueue.end()) { return; } sceneQueue = queueIterator.operator->(); loadScene(sceneQueue); } void Scene::nextScene() { SceneQueueList::iterator queueIterator; LoadSceneParams *sceneQueue; if (!_sceneLoaded) { error("Scene::next(): Error: Can't advance scene...no scene loaded"); } if (_inGame) { error("Scene::next(): Error: Can't advance scene...game already started"); } endScene(); // Delete the current head in scene queue queueIterator = _sceneQueue.begin(); if (queueIterator == _sceneQueue.end()) { return; } queueIterator = _sceneQueue.erase(queueIterator); if (queueIterator == _sceneQueue.end()) { return; } // Load the head in scene queue sceneQueue = queueIterator.operator->(); loadScene(sceneQueue); } void Scene::skipScene() { SceneQueueList::iterator queueIterator; LoadSceneParams *sceneQueue = NULL; LoadSceneParams *skipQueue = NULL; assert(_initialized); if (!_sceneLoaded) { error("Scene::skip(): Error: Can't skip scene...no scene loaded"); } if (_inGame) { error("Scene::skip(): Error: Can't skip scene...game already started"); } // Walk down scene queue and try to find a skip target queueIterator = _sceneQueue.begin(); if (queueIterator == _sceneQueue.end()) { error("Scene::skip(): Error: Can't skip scene...no scenes in queue"); } ++queueIterator; while (queueIterator != _sceneQueue.end()) { sceneQueue = queueIterator.operator->(); assert(sceneQueue != NULL); if (sceneQueue->sceneSkipTarget) { skipQueue = sceneQueue; break; } ++queueIterator; } // If skip target found, remove preceding scenes and load if (skipQueue != NULL) { _sceneQueue.erase(_sceneQueue.begin(), queueIterator); endScene(); loadScene(skipQueue); } } void Scene::changeScene(uint16 sceneNumber, int actorsEntrance, SceneTransitionType transitionType) { LoadSceneParams sceneParams; sceneParams.actorsEntrance = actorsEntrance; sceneParams.loadFlag = kLoadBySceneNumber; sceneParams.sceneDescriptor = sceneNumber; sceneParams.transitionType = transitionType; sceneParams.sceneProc = NULL; sceneParams.sceneSkipTarget = false; endScene(); loadScene(&sceneParams); } void Scene::getSlopes(int &beginSlope, int &endSlope) { beginSlope = _vm->getSceneHeight() - _sceneDescription.beginSlope; endSlope = _vm->getSceneHeight() - _sceneDescription.endSlope; } int Scene::getBGInfo(SCENE_BGINFO *bginfo) { int x, y; assert(_initialized); bginfo->bg_buf = _bg.buf; bginfo->bg_buflen = _bg.buf_len; bginfo->bg_w = _bg.w; bginfo->bg_h = _bg.h; bginfo->bg_p = _bg.p; x = 0; y = 0; if (_bg.w < _vm->getDisplayWidth()) { x = (_vm->getDisplayWidth() - _bg.w) / 2; } if (_bg.h < _vm->getSceneHeight()) { y = (_vm->getSceneHeight() - _bg.h) / 2; } bginfo->bg_x = x; bginfo->bg_y = y; return SUCCESS; } int Scene::getBGPal(PALENTRY **pal) { assert(_initialized); *pal = _bg.pal; return SUCCESS; } int Scene::getBGMaskType(const Point &testPoint) { uint offset; if (!_bgMask.loaded) { return 0; } offset = testPoint.x + testPoint.y * _bgMask.w; if (offset >= _bgMask.buf_len) { error("Scene::getBGMaskType offset 0x%X exceed bufferLength 0x%X", offset, _bgMask.buf_len); } return (_bgMask.buf[offset] >> 4) & 0x0f; } bool Scene::validBGMaskPoint(const Point &testPoint) { if (!_bgMask.loaded) { error("Scene::validBGMaskPoint _bgMask not loaded"); } return !((testPoint.x < 0) || (testPoint.x >= _bgMask.w) || (testPoint.y < 0) || (testPoint.y >= _bgMask.h)); } bool Scene::canWalk(const Point &testPoint) { int maskType; if (!_bgMask.loaded) { return true; } if (!validBGMaskPoint(testPoint)) { return true; } maskType = getBGMaskType(testPoint); return getDoorState(maskType) == 0; } bool Scene::offscreenPath(Point &testPoint) { Point point; if (!_bgMask.loaded) { return false; } point.x = clamp( 0, testPoint.x, _bgMask.w - 1 ); point.y = clamp( 0, testPoint.y, _bgMask.h - 1 ); if (point == testPoint) { return false; } if (point.y >= _bgMask.h - 1) { point.y = _bgMask.h - 2; } testPoint = point; return true; } void Scene::getBGMaskInfo(int &width, int &height, byte *&buffer, size_t &bufferLength) { if (!_bgMask.loaded) { error("Scene::getBGMaskInfo _bgMask not loaded"); } width = _bgMask.w; height = _bgMask.h; buffer = _bgMask.buf; bufferLength = _bgMask.buf_len; } void Scene::setDoorState(int doorNumber, int doorState) { if ((doorNumber < 0) || (doorNumber >= SCENE_DOORS_MAX)) error("Scene::setDoorState wrong doorNumber"); _sceneDoors[doorNumber] = doorState; } int Scene::getDoorState(int doorNumber) { if ((doorNumber < 0) || (doorNumber >= SCENE_DOORS_MAX)) error("Scene::getDoorState wrong doorNumber"); return _sceneDoors[doorNumber]; } void Scene::initDoorsState() { memcpy(_sceneDoors, initSceneDoors, sizeof (_sceneDoors) ); } void Scene::loadScene(LoadSceneParams *loadSceneParams) { int result; int i; EVENT event; EVENT *q_event; static PALENTRY current_pal[PAL_ENTRIES]; if (_sceneLoaded) { error("Scene::loadScene(): Error, a scene is already loaded"); } _loadDescription = true; switch (loadSceneParams->loadFlag) { case kLoadByResourceId: _sceneNumber = 0; // original assign zero for loaded by resource id _sceneResourceId = loadSceneParams->sceneDescriptor; break; case kLoadBySceneNumber: _sceneNumber = loadSceneParams->sceneDescriptor; _sceneResourceId = getSceneResourceId(_sceneNumber); break; case kLoadByDescription: _sceneNumber = -1; _sceneResourceId = -1; assert(loadSceneParams->sceneDescription != NULL); assert(loadSceneParams->sceneDescription->resList != NULL); _loadDescription = false; _sceneDescription = *loadSceneParams->sceneDescription; _resList = loadSceneParams->sceneDescription->resList; _resListEntries = loadSceneParams->sceneDescription->resListCnt; break; } debug(3, "Loading scene number %u:", _sceneNumber); // Load scene descriptor and resource list resources if (_loadDescription) { debug(3, "Loading scene resource %u:", _sceneResourceId); if (loadSceneDescriptor(_sceneResourceId) != SUCCESS) { error("Scene::loadScene(): Error reading scene descriptor"); } if (loadSceneResourceList(_sceneDescription.resListRN) != SUCCESS) { error("Scene::loadScene(): Error reading scene resource list"); } } else { debug(3, "Loading memory scene resource."); } // Load resources from scene resource list for (i = 0; i < _resListEntries; i++) { result = RSC_LoadResource(_sceneContext, _resList[i].res_number, &_resList[i].res_data, &_resList[i].res_data_len); if (result != SUCCESS) { error("Scene::loadScene(): Error: Allocation failure loading scene resource list"); } } // Process resources from scene resource list if (processSceneResources() != SUCCESS) { error("Scene::loadScene(): Error loading scene resources"); } if (_sceneDescription.flags & kSceneFlagISO) { _outsetSceneNumber = _sceneNumber; } else { if (!(_bg.w < _vm->getDisplayWidth() || _bg.h < _vm->getSceneHeight())) _outsetSceneNumber = _sceneNumber; } _sceneLoaded = true; q_event = NULL; //fix placard bug //i guess we should remove RF_PLACARD flag - and use _interface->getMode() event.type = ONESHOT_EVENT; event.code = GRAPHICS_EVENT; event.op = EVENT_CLEARFLAG; event.param = RF_PLACARD; q_event = _vm->_events->chain(q_event, &event); if (loadSceneParams->transitionType == kTransitionFade || loadSceneParams->transitionType == kTransitionFadeNoInterface) { _vm->_interface->setFadeMode(kFadeOut); // Fade to black out _vm->_gfx->getCurrentPal(current_pal); event.type = IMMEDIATE_EVENT; event.code = PAL_EVENT; event.op = EVENT_PALTOBLACK; event.time = 0; event.duration = kNormalFadeDuration; event.data = current_pal; q_event = _vm->_events->queue(&event); if (loadSceneParams->transitionType != kTransitionFadeNoInterface) { // Activate user interface event.type = IMMEDIATE_EVENT; event.code = INTERFACE_EVENT; event.op = EVENT_ACTIVATE; event.time = 0; event.duration = 0; q_event = _vm->_events->chain(q_event, &event); } // set fade mode event.type = IMMEDIATE_EVENT; event.code = INTERFACE_EVENT; event.op = EVENT_SET_FADE_MODE; event.param = kNoFade; event.time = 0; event.duration = 0; q_event = _vm->_events->chain(q_event, &event); // Display scene background, but stay with black palette event.type = IMMEDIATE_EVENT; event.code = BG_EVENT; event.op = EVENT_DISPLAY; event.param = NO_SET_PALETTE; event.time = 0; event.duration = 0; q_event = _vm->_events->chain(q_event, &event); } // Start the scene pre script, but stay with black palette if (_sceneDescription.startScriptEntrypointNumber > 0) { event.type = ONESHOT_EVENT; event.code = SCRIPT_EVENT; event.op = EVENT_EXEC_BLOCKING; event.time = 0; event.param = _sceneDescription.scriptModuleNumber; event.param2 = _sceneDescription.startScriptEntrypointNumber; event.param3 = 0; // Action event.param4 = _sceneNumber; // Object event.param5 = loadSceneParams->actorsEntrance; // With Object event.param6 = 0; // Actor q_event = _vm->_events->chain(q_event, &event); } if (loadSceneParams->transitionType == kTransitionFade || loadSceneParams->transitionType == kTransitionFadeNoInterface) { // set fade mode event.type = IMMEDIATE_EVENT; event.code = INTERFACE_EVENT; event.op = EVENT_SET_FADE_MODE; event.param = kFadeIn; event.time = 0; event.duration = 0; q_event = _vm->_events->chain(q_event, &event); // Fade in from black to the scene background palette event.type = IMMEDIATE_EVENT; event.code = PAL_EVENT; event.op = EVENT_BLACKTOPAL; event.time = 0; event.duration = kNormalFadeDuration; event.data = _bg.pal; q_event = _vm->_events->chain(q_event, &event); // set fade mode event.type = IMMEDIATE_EVENT; event.code = INTERFACE_EVENT; event.op = EVENT_SET_FADE_MODE; event.param = kNoFade; event.time = 0; event.duration = 0; q_event = _vm->_events->chain(q_event, &event); } if (loadSceneParams->sceneProc == NULL) { if (!_inGame) { _inGame = true; _vm->_interface->setMode(kPanelMain); } _vm->_sound->stopVoice(); _vm->_sound->stopSound(); if (_sceneDescription.musicRN >= 0) { event.type = ONESHOT_EVENT; event.code = MUSIC_EVENT; event.param = _sceneDescription.musicRN; event.param2 = MUSIC_DEFAULT; event.op = EVENT_PLAY; event.time = 0; _vm->_events->queue(&event); } else { event.type = ONESHOT_EVENT; event.code = MUSIC_EVENT; event.op = EVENT_STOP; event.time = 0; _vm->_events->queue(&event); } // Set scene background event.type = ONESHOT_EVENT; event.code = BG_EVENT; event.op = EVENT_DISPLAY; event.param = SET_PALETTE; event.time = 0; _vm->_events->queue(&event); // Activate user interface event.type = ONESHOT_EVENT; event.code = INTERFACE_EVENT; event.op = EVENT_ACTIVATE; event.time = 0; _vm->_events->queue(&event); // Begin palette cycle animation if present event.type = ONESHOT_EVENT; event.code = PALANIM_EVENT; event.op = EVENT_CYCLESTART; event.time = 0; q_event = _vm->_events->queue(&event); // Show cursor event.type = ONESHOT_EVENT; event.code = CURSOR_EVENT; event.op = EVENT_SHOW; _vm->_events->chain(q_event, &event); // Start the scene main script if (_sceneDescription.sceneScriptEntrypointNumber > 0) { event.type = ONESHOT_EVENT; event.code = SCRIPT_EVENT; event.op = EVENT_EXEC_NONBLOCKING; event.time = 0; event.param = _sceneDescription.scriptModuleNumber; event.param2 = _sceneDescription.sceneScriptEntrypointNumber; event.param3 = kVerbEnter; // Action event.param4 = _sceneNumber; // Object event.param5 = loadSceneParams->actorsEntrance; // With Object event.param6 = 0; // Actor _vm->_events->queue(&event); } debug(3, "Scene started"); } else { loadSceneParams->sceneProc(SCENE_BEGIN, this); } // We probably don't want "followers" to go into scene -1 , 0. At the very // least we don't want garbage to be drawn that early in the ITE intro. if (_sceneNumber > 0 && _sceneNumber != ITE_SCENE_PUZZLE) _vm->_actor->updateActorsScene(loadSceneParams->actorsEntrance); if (_sceneNumber == ITE_SCENE_PUZZLE) _vm->_puzzle->execute(); if (_sceneDescription.flags & kSceneFlagShowCursor) _vm->_interface->activate(); } int Scene::loadSceneDescriptor(uint32 res_number) { byte *scene_desc_data; size_t scene_desc_len; int result; result = RSC_LoadResource(_sceneContext, res_number, &scene_desc_data, &scene_desc_len); if (result != SUCCESS) { warning("Scene::loadSceneDescriptor(): Error: couldn't load scene descriptor"); return FAILURE; } MemoryReadStreamEndian readS(scene_desc_data, scene_desc_len, IS_BIG_ENDIAN); _sceneDescription.flags = readS.readSint16(); _sceneDescription.resListRN = readS.readSint16(); _sceneDescription.endSlope = readS.readSint16(); _sceneDescription.beginSlope = readS.readSint16(); _sceneDescription.scriptModuleNumber = readS.readUint16(); _sceneDescription.sceneScriptEntrypointNumber = readS.readUint16(); _sceneDescription.startScriptEntrypointNumber = readS.readUint16(); _sceneDescription.musicRN = readS.readSint16(); RSC_FreeResource(scene_desc_data); return SUCCESS; } int Scene::loadSceneResourceList(uint32 reslist_rn) { byte *resource_list; size_t resource_list_len; int result; int i; // Load the scene resource table result = RSC_LoadResource(_sceneContext, reslist_rn, &resource_list, &resource_list_len); if (result != SUCCESS) { warning("Scene::loadSceneResourceList(): Error: couldn't load scene resource list"); return FAILURE; } MemoryReadStreamEndian readS(resource_list, resource_list_len, IS_BIG_ENDIAN); // Allocate memory for scene resource list _resListEntries = resource_list_len / SAGA_RESLIST_ENTRY_LEN; debug(3, "Scene resource list contains %d entries.", _resListEntries); _resList = (SCENE_RESLIST *)calloc(_resListEntries, sizeof(*_resList)); if (_resList == NULL) { memoryError("Scene::loadSceneResourceList()"); } // Load scene resource list from raw scene // resource table debug(3, "Loading scene resource list..."); for (i = 0; i < _resListEntries; i++) { _resList[i].res_number = readS.readUint16(); _resList[i].res_type = readS.readUint16(); } RSC_FreeResource(resource_list); return SUCCESS; } int Scene::processSceneResources() { byte *resourceData; uint16 resourceDataLength; const byte *pal_p; int i; // Process the scene resource list for (i = 0; i < _resListEntries; i++) { resourceData = _resList[i].res_data; resourceDataLength = _resList[i].res_data_len; switch (_resList[i].res_type) { case SAGA_BG_IMAGE: // Scene background resource if (_bg.loaded) { error("Scene::processSceneResources(): Multiple background resources encountered"); } debug(3, "Loading background resource."); _bg.res_buf = resourceData; _bg.res_len = resourceDataLength; _bg.loaded = 1; if (_vm->decodeBGImage(_bg.res_buf, _bg.res_len, &_bg.buf, &_bg.buf_len, &_bg.w, &_bg.h) != SUCCESS) { warning("Scene::ProcessSceneResources(): Error loading background resource: %u", _resList[i].res_number); return FAILURE; } pal_p = _vm->getImagePal(_bg.res_buf, _bg.res_len); memcpy(_bg.pal, pal_p, sizeof(_bg.pal)); break; case SAGA_BG_MASK: // Scene background mask resource if (_bgMask.loaded) { error("Scene::ProcessSceneResources(): Duplicate background mask resource encountered"); } debug(3, "Loading BACKGROUND MASK resource."); _bgMask.res_buf = resourceData; _bgMask.res_len = resourceDataLength; _bgMask.loaded = 1; _vm->decodeBGImage(_bgMask.res_buf, _bgMask.res_len, &_bgMask.buf, &_bgMask.buf_len, &_bgMask.w, &_bgMask.h); // At least in ITE the mask needs to be clipped. _bgMask.w = MIN(_bgMask.w, _vm->getDisplayWidth()); _bgMask.h = MIN(_bgMask.h, _vm->getClippedSceneHeight()); debug(4, "BACKGROUND MASK width=%d height=%d length=%d", _bgMask.w, _bgMask.h, _bgMask.buf_len); break; case SAGA_STRINGS: debug(3, "Loading scene strings resource..."); _vm->loadStrings(_sceneStrings, resourceData, resourceDataLength); break; case SAGA_OBJECT_MAP: debug(3, "Loading object map resource..."); _objectMap->load(resourceData, resourceDataLength); break; case SAGA_ACTION_MAP: debug(3, "Loading action map resource..."); _actionMap->load(resourceData, resourceDataLength); break; case SAGA_ISO_IMAGES: if (!(_sceneDescription.flags & kSceneFlagISO)) { error("Scene::ProcessSceneResources(): not Iso mode"); } debug(3, "Loading isometric images resource."); _vm->_isoMap->loadImages(resourceData, resourceDataLength); break; case SAGA_ISO_MAP: if (!(_sceneDescription.flags & kSceneFlagISO)) { error("Scene::ProcessSceneResources(): not Iso mode"); } debug(3, "Loading isometric map resource."); _vm->_isoMap->loadMap(resourceData, resourceDataLength); break; case SAGA_ISO_PLATFORMS: if (!(_sceneDescription.flags & kSceneFlagISO)) { error("Scene::ProcessSceneResources(): not Iso mode"); } debug(3, "Loading isometric platforms resource."); _vm->_isoMap->loadPlatforms(resourceData, resourceDataLength); break; case SAGA_ISO_METATILES: if (!(_sceneDescription.flags & kSceneFlagISO)) { error("Scene::ProcessSceneResources(): not Iso mode"); } debug(3, "Loading isometric metatiles resource."); _vm->_isoMap->loadMetaTiles(resourceData, resourceDataLength); break; case SAGA_ANIM_1: case SAGA_ANIM_2: case SAGA_ANIM_3: case SAGA_ANIM_4: case SAGA_ANIM_5: case SAGA_ANIM_6: case SAGA_ANIM_7: { uint16 animId = _resList[i].res_type - SAGA_ANIM_1; debug(3, "Loading animation resource animId=%i", animId); _vm->_anim->load(animId, resourceData, resourceDataLength); } break; case SAGA_ISO_MULTI: if (!(_sceneDescription.flags & kSceneFlagISO)) { error("Scene::ProcessSceneResources(): not Iso mode"); } debug(3, "Loading isometric multi resource."); _vm->_isoMap->loadMulti(resourceData, resourceDataLength); break; case SAGA_PAL_ANIM: debug(3, "Loading palette animation resource."); _vm->_palanim->loadPalAnim(resourceData, resourceDataLength); break; case SAGA_ENTRY: debug(3, "Loading entry list resource..."); loadSceneEntryList(resourceData, resourceDataLength); break; case SAGA_FACES: _vm->_interface->loadScenePortraits(_resList[i].res_number); break; case SAGA_PALETTE: { PALENTRY pal[PAL_ENTRIES]; byte *palPtr = resourceData; if (resourceDataLength < 3 * PAL_ENTRIES) error("Too small scene palette: %d", resourceDataLength); for (uint16 c = 0; c < PAL_ENTRIES; c++) { pal[c].red = *palPtr++; pal[c].green = *palPtr++; pal[c].blue = *palPtr++; } _vm->_gfx->setPalette(pal); } break; default: warning("Scene::ProcessSceneResources(): Encountered unknown resource type: %d", _resList[i].res_type); break; } } return SUCCESS; } void Scene::draw() { SURFACE *backBuffer; BUFFER_INFO buf_info; Point bgPoint(0, 0); assert(_initialized); backBuffer = _vm->_gfx->getBackBuffer(); _vm->_render->getBufferInfo(&buf_info); if (_sceneDescription.flags & kSceneFlagISO) { _vm->_isoMap->adjustScroll(false); _vm->_isoMap->draw(backBuffer); } else { bufToSurface(backBuffer, buf_info.bg_buf, _vm->getDisplayWidth(), _inGame ? _vm->getClippedSceneHeight() : buf_info.bg_buf_h, NULL, &bgPoint); } } void Scene::endScene() { int i; if (!_sceneLoaded) return; debug(3, "Ending scene..."); if (_sceneProc != NULL) { _sceneProc(SCENE_END, this); } // _vm->_script->abortAllThreads(); _vm->_script->_skipSpeeches = false; // Copy current screen to render buffer so inset rooms will get proper background SURFACE *back_buf = _vm->_gfx->getBackBuffer(); BUFFER_INFO rbuf_info; _vm->_render->getBufferInfo(&rbuf_info); bufToBuffer(rbuf_info.bg_buf, rbuf_info.bg_buf_w, rbuf_info.bg_buf_h, (byte *)back_buf->pixels, back_buf->w, back_buf->h, NULL, NULL); // Free scene background if (_bg.loaded) { free(_bg.buf); _bg.loaded = 0; } // Free scene background mask if (_bgMask.loaded) { free(_bgMask.buf); _bgMask.loaded = 0; } // Free scene resource list for (i = 0; i < _resListEntries; i++) { RSC_FreeResource(_resList[i].res_data); } if (_loadDescription) { free(_resList); } // Free animation info list _vm->_anim->reset(); _vm->_palanim->freePalAnim(); _objectMap->freeMem(); _actionMap->freeMem(); _entryList.freeMem(); _sceneStrings.freeMem(); _vm->_isoMap->freeMem(); _vm->_events->clearList(); _vm->textClearList(_textList); _sceneLoaded = false; } void Scene::cmdSceneChange(int argc, const char **argv) { int scene_num = 0; scene_num = atoi(argv[1]); if ((scene_num < 1) || (scene_num > _sceneMax)) { _vm->_console->DebugPrintf("Invalid scene number.\n"); return; } clearSceneQueue(); changeScene(scene_num, 0, kTransitionNoFade); } void Scene::cmdSceneInfo() { const char *fmt = "%-20s %d\n"; _vm->_console->DebugPrintf(fmt, "Scene number:", _sceneNumber); _vm->_console->DebugPrintf(fmt, "Descriptor ResourceId:", _sceneResourceId); _vm->_console->DebugPrintf("-------------------------\n"); _vm->_console->DebugPrintf(fmt, "Flags:", _sceneDescription.flags); _vm->_console->DebugPrintf(fmt, "Resource list R#:", _sceneDescription.resListRN); _vm->_console->DebugPrintf(fmt, "End slope:", _sceneDescription.endSlope); _vm->_console->DebugPrintf(fmt, "Begin slope:", _sceneDescription.beginSlope); _vm->_console->DebugPrintf(fmt, "scriptModuleNumber:", _sceneDescription.scriptModuleNumber); _vm->_console->DebugPrintf(fmt, "sceneScriptEntrypointNumber:", _sceneDescription.sceneScriptEntrypointNumber); _vm->_console->DebugPrintf(fmt, "startScriptEntrypointNumber:", _sceneDescription.startScriptEntrypointNumber); _vm->_console->DebugPrintf(fmt, "Music R#", _sceneDescription.musicRN); } void Scene::cmdActionMapInfo() { _actionMap->cmdInfo(); } void Scene::cmdObjectMapInfo() { _objectMap->cmdInfo(); } void Scene::loadSceneEntryList(const byte* resourcePointer, size_t resourceLength) { int i; _entryList.entryListCount = resourceLength / 8; MemoryReadStreamEndian readS(resourcePointer, resourceLength, IS_BIG_ENDIAN); if (_entryList.entryList) error("Scene::loadSceneEntryList entryList != NULL"); _entryList.entryList = (SceneEntry *) malloc(_entryList.entryListCount * sizeof(*_entryList.entryList)); if (_entryList.entryList == NULL) { memoryError("Scene::loadSceneEntryList"); } for (i = 0; i < _entryList.entryListCount; i++) { _entryList.entryList[i].location.x = readS.readSint16(); _entryList.entryList[i].location.y = readS.readSint16(); _entryList.entryList[i].location.z = readS.readSint16(); _entryList.entryList[i].facing = readS.readUint16(); } } } // End of namespace Saga