/* 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 "mohawk/livingbooks.h" #include "mohawk/resource.h" #include "mohawk/cursors.h" #include "mohawk/sound.h" #include "mohawk/video.h" #include "common/events.h" #include "common/EventRecorder.h" #include "common/fs.h" #include "common/archive.h" #include "engines/util.h" #include "gui/message.h" namespace Mohawk { // read a null-terminated string from a stream Common::String MohawkEngine_LivingBooks::readString(Common::SeekableSubReadStreamEndian *stream) { Common::String ret; while (!stream->eos()) { byte in = stream->readByte(); if (!in) break; ret += in; } return ret; } // read a rect from a stream Common::Rect MohawkEngine_LivingBooks::readRect(Common::SeekableSubReadStreamEndian *stream) { Common::Rect rect; // the V1 mac games have their rects in QuickDraw order if (isPreMohawk() && getPlatform() == Common::kPlatformMacintosh) { rect.top = stream->readSint16(); rect.left = stream->readSint16(); rect.bottom = stream->readSint16(); rect.right = stream->readSint16(); } else { rect.left = stream->readSint16(); rect.top = stream->readSint16(); rect.right = stream->readSint16(); rect.bottom = stream->readSint16(); } return rect; } MohawkEngine_LivingBooks::MohawkEngine_LivingBooks(OSystem *syst, const MohawkGameDescription *gamedesc) : MohawkEngine(syst, gamedesc) { _needsUpdate = false; _needsRedraw = false; _screenWidth = _screenHeight = 0; _curLanguage = 1; _curSelectedPage = 1; _alreadyShowedIntro = false; _code = NULL; _rnd = new Common::RandomSource(); g_eventRec.registerRandomSource(*_rnd, "livingbooks"); const Common::FSNode gameDataDir(ConfMan.get("path")); // Rugrats SearchMan.addSubDirectoryMatching(gameDataDir, "program"); SearchMan.addSubDirectoryMatching(gameDataDir, "Rugrats Adventure Game"); // CarmenTQ const Common::FSNode CTQPath = gameDataDir.getChild("95instal"); if (CTQPath.exists()) SearchMan.addDirectory(CTQPath.getPath(), CTQPath, 0, 4); } MohawkEngine_LivingBooks::~MohawkEngine_LivingBooks() { destroyPage(); delete _console; delete _gfx; delete _rnd; _bookInfoFile.clear(); } Common::Error MohawkEngine_LivingBooks::run() { MohawkEngine::run(); _console = new LivingBooksConsole(this); // Load the book info from the detected file loadBookInfo(getBookInfoFileName()); if (!_title.empty()) // Some games don't have the title stored debug("Starting Living Books Title \'%s\'", _title.c_str()); if (!_copyright.empty()) debug("Copyright: %s", _copyright.c_str()); if (!_screenWidth || !_screenHeight) error("Could not find xRes/yRes variables"); _gfx = new LBGraphics(this, _screenWidth, _screenHeight); if (getGameType() != GType_LIVINGBOOKSV1) _cursor = new LivingBooksCursorManager_v2(); else if (getPlatform() == Common::kPlatformMacintosh) _cursor = new MacCursorManager(getAppName()); else _cursor = new NECursorManager(getAppName()); _cursor->setDefaultCursor(); _cursor->showCursor(); if (!tryLoadPageStart(kLBIntroMode, 1)) error("Could not load intro page"); Common::Event event; while (!shouldQuit()) { while (_eventMan->pollEvent(event)) { LBItem *found = NULL; switch (event.type) { case Common::EVENT_MOUSEMOVE: _needsUpdate = true; break; case Common::EVENT_LBUTTONUP: if (_focus) _focus->handleMouseUp(event.mouse); break; case Common::EVENT_LBUTTONDOWN: for (uint16 i = 0; i < _items.size(); i++) if (_items[i]->contains(event.mouse)) found = _items[i]; if (found) found->handleMouseDown(event.mouse); break; case Common::EVENT_KEYDOWN: switch (event.kbd.keycode) { case Common::KEYCODE_d: if (event.kbd.flags & Common::KBD_CTRL) { _console->attach(); _console->onFrame(); } break; case Common::KEYCODE_SPACE: pauseGame(); break; case Common::KEYCODE_ESCAPE: if (_curMode == kLBIntroMode) if (!loadPage(kLBControlMode, 1, 1)) loadPage(kLBControlMode, 1, 0); break; case Common::KEYCODE_LEFT: prevPage(); break; case Common::KEYCODE_RIGHT: nextPage(); break; default: break; } break; default: break; } } updatePage(); if (_video->updateMovies()) _needsUpdate = true; if (_needsUpdate) { _system->updateScreen(); _needsUpdate = false; } // Cut down on CPU usage _system->delayMillis(10); // handle pending notifications while (_notifyEvents.size()) { NotifyEvent notifyEvent = _notifyEvents.pop(); handleNotify(notifyEvent); } } return Common::kNoError; } void MohawkEngine_LivingBooks::loadBookInfo(const Common::String &filename) { if (!_bookInfoFile.loadFromFile(filename)) error("Could not open %s as a config file", filename.c_str()); _title = getStringFromConfig("BookInfo", "title"); _copyright = getStringFromConfig("BookInfo", "copyright"); _numPages = getIntFromConfig("BookInfo", "nPages"); _numLanguages = getIntFromConfig("BookInfo", "nLanguages"); _screenWidth = getIntFromConfig("BookInfo", "xRes"); _screenHeight = getIntFromConfig("BookInfo", "yRes"); // nColors is here too, but it's always 256 anyway... // this is 1 in The New Kid on the Block, changes the hardcoded UI // v2 games changed the flag name to fPoetry if (getGameType() == GType_LIVINGBOOKSV1) _poetryMode = (getIntFromConfig("BookInfo", "poetry") == 1); else _poetryMode = (getIntFromConfig("BookInfo", "fPoetry") == 1); // The later Living Books games add some more options: // - fNeedPalette (always true?) // - fUse254ColorPalette (always true?) // - nKBRequired (4096, RAM requirement?) // - fDebugWindow (always 0?) } Common::String MohawkEngine_LivingBooks::stringForMode(LBMode mode) { Common::String language = getStringFromConfig("Languages", Common::String::format("Language%d", _curLanguage)); switch (mode) { case kLBIntroMode: return "Intro"; case kLBControlMode: return "Control"; case kLBCreditsMode: return "Credits"; case kLBPreviewMode: return "Preview"; case kLBReadMode: return language + ".Read"; case kLBPlayMode: return language + ".Play"; default: error("unknown game mode %d", (int)mode); } } void MohawkEngine_LivingBooks::destroyPage() { _sound->stopSound(); _gfx->clearCache(); _video->stopVideos(); _eventQueue.clear(); delete _code; _code = NULL; for (uint32 i = 0; i < _items.size(); i++) delete _items[i]; _items.clear(); for (uint32 i = 0; i < _mhk.size(); i++) delete _mhk[i]; _mhk.clear(); _notifyEvents.clear(); _focus = NULL; } bool MohawkEngine_LivingBooks::loadPage(LBMode mode, uint page, uint subpage) { destroyPage(); Common::String name = stringForMode(mode); Common::String base; if (subpage) base = Common::String::format("Page%d.%d", page, subpage); else base = Common::String::format("Page%d", page); Common::String filename; filename = getFileNameFromConfig(name, base); _readOnly = false; if (filename.empty()) { filename = getFileNameFromConfig(name, base + ".r"); _readOnly = true; } // TODO: fading between pages bool fade = false; if (filename.hasSuffix(" fade")) { fade = true; filename = Common::String(filename.c_str(), filename.size() - 5); } MohawkArchive *pageArchive = createMohawkArchive(); if (!filename.empty() && pageArchive->open(filename)) { _mhk.push_back(pageArchive); } else { delete pageArchive; debug(2, "Could not find page %d.%d for '%s'", page, subpage, name.c_str()); return false; } if (getFeatures() & GF_LB_10) { if (_readOnly) { error("found .r entry in Living Books 1.0 game"); } else { // some very early versions of the LB engine don't have // .r entries in their book info; instead, it is just hardcoded // like this (which would unfortunately break later games) _readOnly = (mode != kLBControlMode && mode != kLBPlayMode); } } debug(1, "Stack Version: %d", getResourceVersion()); _curMode = mode; _curPage = page; _curSubPage = subpage; _cursor->showCursor(); _gfx->setPalette(1000); if (hasResource(ID_BCOD, 1000)) _code = new LBCode(this); loadBITL(1000); for (uint32 i = 0; i < _items.size(); i++) _items[i]->init(); _phase = 0; _introDone = false; _needsRedraw = true; return true; } void MohawkEngine_LivingBooks::updatePage() { switch (_phase) { case 0: for (uint32 i = 0; i < _items.size(); i++) _items[i]->startPhase(0xFFFE); for (uint32 i = 0; i < _items.size(); i++) _items[i]->startPhase(0xFFFF); for (uint32 i = 0; i < _items.size(); i++) _items[i]->startPhase(_phase); if (_curMode == kLBControlMode) { // hard-coded control page startup LBItem *item; item = getItemById(10); if (item) item->togglePlaying(false); uint16 page = _curPage; if (getFeatures() & GF_LB_10) { // Living Books 1.0 had the meanings of these pages reversed if (page == 2) page = 3; else if (page == 3) page = 2; } switch (page) { case 1: debug(2, "updatePage() for control page 1 (menu)"); if (_poetryMode) { for (uint16 i = 0; i < _numPages; i++) { item = getItemById(1000 + i); if (item) item->setVisible(_curSelectedPage == i + 1); item = getItemById(1100 + i); if (item) item->setVisible(_curSelectedPage == i + 1); } } for (uint16 i = 0; i < _numLanguages; i++) { item = getItemById(100 + i); if (item) item->seek((i + 1 == _curLanguage) ? 0xFFFF : 1); item = getItemById(200 + i); if (item) item->setVisible(false); } item = getItemById(12); if (item) item->setVisible(false); if (_alreadyShowedIntro) { item = getItemById(10); if (item) { item->setVisible(false); item->seek(0xFFFF); } } else { _alreadyShowedIntro = true; item = getItemById(11); if (item) item->setVisible(false); } break; case 2: debug(2, "updatePage() for control page 2 (quit)"); item = getItemById(12); if (item) item->setVisible(false); item = getItemById(13); if (item) item->setVisible(false); break; case 3: debug(2, "updatePage() for control page 3 (options)"); for (uint i = 0; i < _numLanguages; i++) { item = getItemById(100 + i); if (item) item->setVisible(_curLanguage == i + 1); } for (uint i = 0; i < _numPages; i++) { item = getItemById(1000 + i); if (item) item->setVisible(_curSelectedPage == i + 1); item = getItemById(1100 + i); if (item) item->setVisible(_curSelectedPage == i + 1); } item = getItemById(202); if (item) item->setVisible(false); break; } } _phase++; break; case 1: for (uint32 i = 0; i < _items.size(); i++) _items[i]->startPhase(_phase); _phase++; break; case 2: if (!_introDone) break; for (uint32 i = 0; i < _items.size(); i++) _items[i]->startPhase(_phase); _phase++; break; } while (_eventQueue.size()) { DelayedEvent delayedEvent = _eventQueue.pop(); for (uint32 i = 0; i < _items.size(); i++) { if (_items[i] != delayedEvent.item) continue; switch (delayedEvent.type) { case kLBDelayedEventDestroy: _items.remove_at(i); i--; delete delayedEvent.item; if (_focus == delayedEvent.item) _focus = NULL; break; case kLBDelayedEventSetNotVisible: _items[i]->setVisible(false); break; case kLBDelayedEventDone: _items[i]->done(true); break; } break; } } for (uint16 i = 0; i < _items.size(); i++) _items[i]->update(); if (_needsRedraw) { for (uint16 i = 0; i < _items.size(); i++) _items[i]->draw(); _needsRedraw = false; _needsUpdate = true; } } LBItem *MohawkEngine_LivingBooks::getItemById(uint16 id) { for (uint16 i = 0; i < _items.size(); i++) if (_items[i]->getId() == id) return _items[i]; return NULL; } void MohawkEngine_LivingBooks::setFocus(LBItem *focus) { _focus = focus; } void MohawkEngine_LivingBooks::setEnableForAll(bool enable, LBItem *except) { for (uint16 i = 0; i < _items.size(); i++) if (except != _items[i]) _items[i]->setEnabled(enable); } void MohawkEngine_LivingBooks::notifyAll(uint16 data, uint16 from) { for (uint16 i = 0; i < _items.size(); i++) _items[i]->notify(data, from); } void MohawkEngine_LivingBooks::queueDelayedEvent(DelayedEvent event) { _eventQueue.push(event); } // Only 1 VSRN resource per stack, Id 1000 uint16 MohawkEngine_LivingBooks::getResourceVersion() { Common::SeekableReadStream *versionStream = getResource(ID_VRSN, 1000); // FIXME: some V2 games have very strange version entries if (versionStream->size() != 2) debug(1, "Version Record size mismatch"); uint16 version = versionStream->readUint16BE(); delete versionStream; return version; } void MohawkEngine_LivingBooks::loadBITL(uint16 resourceId) { Common::SeekableSubReadStreamEndian *bitlStream = wrapStreamEndian(ID_BITL, resourceId); while (true) { Common::Rect rect = readRect(bitlStream); uint16 type = bitlStream->readUint16(); LBItem *res; switch (type) { case kLBPictureItem: res = new LBPictureItem(this, rect); break; case kLBAnimationItem: res = new LBAnimationItem(this, rect); break; case kLBPaletteItem: res = new LBPaletteItem(this, rect); break; case kLBGroupItem: res = new LBGroupItem(this, rect); break; case kLBSoundItem: res = new LBSoundItem(this, rect); break; case kLBLiveTextItem: res = new LBLiveTextItem(this, rect); break; case kLBMovieItem: res = new LBMovieItem(this, rect); break; case kLBMiniGameItem: res = new LBMiniGameItem(this, rect); break; default: warning("Unknown item type %04x", type); case 3: // often used for buttons res = new LBItem(this, rect); break; } res->readFrom(bitlStream); _items.push_back(res); if (bitlStream->size() == bitlStream->pos()) break; } } Common::SeekableSubReadStreamEndian *MohawkEngine_LivingBooks::wrapStreamEndian(uint32 tag, uint16 id) { Common::SeekableReadStream *dataStream = getResource(tag, id); return new Common::SeekableSubReadStreamEndian(dataStream, 0, dataStream->size(), isBigEndian(), DisposeAfterUse::YES); } Common::String MohawkEngine_LivingBooks::getStringFromConfig(const Common::String §ion, const Common::String &key) { Common::String x; _bookInfoFile.getKey(key, section, x); return removeQuotesFromString(x); } int MohawkEngine_LivingBooks::getIntFromConfig(const Common::String §ion, const Common::String &key) { return atoi(getStringFromConfig(section, key).c_str()); } Common::String MohawkEngine_LivingBooks::getFileNameFromConfig(const Common::String §ion, const Common::String &key) { Common::String string = getStringFromConfig(section, key); Common::String x; uint32 i = 0; if (string.hasPrefix("//")) { // skip "//CD-ROM Title/" prefixes which we don't care about i = 3; while (i < string.size() && string[i - 1] != '/') i++; } x = string.c_str() + i; return (getPlatform() == Common::kPlatformMacintosh) ? convertMacFileName(x) : convertWinFileName(x); } Common::String MohawkEngine_LivingBooks::removeQuotesFromString(const Common::String &string) { // The last char isn't necessarily a quote, the line could have "fade" in it // (which is then handled in loadPage). // Some versions wrap in quotations, some don't... Common::String tmp = string; for (uint32 i = 0; i < tmp.size(); i++) { if (tmp[i] == '\"') { tmp.deleteChar(i); i--; } } return tmp; } Common::String MohawkEngine_LivingBooks::convertMacFileName(const Common::String &string) { Common::String filename; for (uint32 i = 0; i < string.size(); i++) { if (i == 0 && string[i] == ':') // First character should be ignored (another colon) continue; if (string[i] == ':') filename += '/'; else filename += string[i]; } return filename; } Common::String MohawkEngine_LivingBooks::convertWinFileName(const Common::String &string) { Common::String filename; for (uint32 i = 0; i < string.size(); i++) { if (string[i] == '\\') filename += '/'; else filename += string[i]; } return filename; } MohawkArchive *MohawkEngine_LivingBooks::createMohawkArchive() const { return isPreMohawk() ? new LivingBooksArchive_v1() : new MohawkArchive(); } bool MohawkEngine_LivingBooks::isPreMohawk() const { return getGameType() == GType_LIVINGBOOKSV1 || (getGameType() == GType_LIVINGBOOKSV2 && getPlatform() == Common::kPlatformMacintosh); } void MohawkEngine_LivingBooks::addNotifyEvent(NotifyEvent event) { _notifyEvents.push(event); } bool MohawkEngine_LivingBooks::tryLoadPageStart(LBMode mode, uint page) { // try first subpage of the page if (loadPage(mode, page, 1)) return true; // then just the plain page if (loadPage(mode, page, 0)) return true; return false; } bool MohawkEngine_LivingBooks::tryDefaultPage() { if (_curMode == kLBCreditsMode || _curMode == kLBPreviewMode) { // go to options page if (getFeatures() & GF_LB_10) { if (loadPage(kLBControlMode, 2, 0)) return true; } else { if (loadPage(kLBControlMode, 3, 0)) return true; } } else { // go to menu page if (loadPage(kLBControlMode, 1, 1)) return true; if (loadPage(kLBControlMode, 1, 0)) return true; } return false; } void MohawkEngine_LivingBooks::prevPage() { if (_curPage > 1 && (tryLoadPageStart(_curMode, _curPage - 1))) return; if (tryDefaultPage()) return; error("Could not find page before %d.%d for mode %d", _curPage, _curSubPage, (int)_curMode); } void MohawkEngine_LivingBooks::nextPage() { // we try the next subpage first if (loadPage(_curMode, _curPage, _curSubPage + 1)) return; if (tryLoadPageStart(_curMode, _curPage + 1)) return; if (tryDefaultPage()) return; error("Could not find page after %d.%d for mode %d", _curPage, _curSubPage, (int)_curMode); } void MohawkEngine_LivingBooks::handleUIMenuClick(uint controlId) { LBItem *item; switch (controlId) { case 1: if (getFeatures() & GF_LB_10) { loadPage(kLBControlMode, 2, 0); } else { loadPage(kLBControlMode, 3, 0); } break; case 2: item = getItemById(10); if (item) item->destroySelf(); item = getItemById(11); if (item) item->destroySelf(); item = getItemById(199 + _curLanguage); if (item) { item->setVisible(true); item->togglePlaying(true); } break; case 3: item = getItemById(10); if (item) item->destroySelf(); item = getItemById(11); if (item) item->destroySelf(); item = getItemById(12); if (item) { item->setVisible(true); item->togglePlaying(true); } break; case 4: if (getFeatures() & GF_LB_10) { loadPage(kLBControlMode, 3, 0); } else { loadPage(kLBControlMode, 2, 0); } break; case 10: item = getItemById(10); if (item) item->destroySelf(); item = getItemById(11); if (item) item->setVisible(true); if (item) item->togglePlaying(false); break; case 11: item = getItemById(11); if (item) item->togglePlaying(true); break; case 12: // start game, in play mode loadPage(kLBPlayMode, 1, 0); break; default: if (controlId >= 100 && controlId < 100 + (uint)_numLanguages) { uint newLanguage = controlId - 99; if (newLanguage == _curLanguage) break; item = getItemById(99 + _curLanguage); if (item) item->seek(1); _curLanguage = newLanguage; } else if (controlId >= 200 && controlId < 200 + (uint)_numLanguages) { // start game, in read mode loadPage(kLBReadMode, 1, 0); } break; } } void MohawkEngine_LivingBooks::handleUIPoetryMenuClick(uint controlId) { LBItem *item; // the menu UI in New Kid on the Block is a hybrid of the normal menu // and the normal options screen // TODO: this is mostly untested switch (controlId) { case 2: case 3: handleUIOptionsClick(controlId); break; case 4: handleUIMenuClick(controlId); break; case 6: handleUIMenuClick(2); break; case 7: item = getItemById(10); if (item) item->destroySelf(); item = getItemById(11); if (item) item->destroySelf(); item = getItemById(12); if (item) { item->setVisible(true); item->togglePlaying(true); } break; case 0xA: item = getItemById(10); if (item) item->destroySelf(); item = getItemById(11); if (item) { item->setVisible(true); item->togglePlaying(true); } break; case 0xB: item = getItemById(12); if (item) item->togglePlaying(true); break; case 0xC: if (!tryLoadPageStart(kLBPlayMode, _curSelectedPage)) error("failed to load page %d", _curSelectedPage); break; default: if (controlId < 100) { handleUIMenuClick(controlId); } else { if (!tryLoadPageStart(kLBReadMode, _curSelectedPage)) error("failed to load page %d", _curSelectedPage); } } } void MohawkEngine_LivingBooks::handleUIQuitClick(uint controlId) { LBItem *item; switch (controlId) { case 1: case 2: // button clicked, run animation item = getItemById(10); if (item) item->destroySelf(); item = getItemById(11); if (item) item->destroySelf(); item = getItemById((controlId == 1) ? 12 : 13); if (item) { item->setVisible(true); item->togglePlaying(false); } break; case 10: case 11: item = getItemById(11); if (item) item->togglePlaying(true); break; case 12: // 'yes', I want to quit quitGame(); break; case 13: // 'no', go back to menu loadPage(kLBControlMode, 1, 0); break; } } void MohawkEngine_LivingBooks::handleUIOptionsClick(uint controlId) { LBItem *item; switch (controlId) { case 1: item = getItemById(10); if (item) item->destroySelf(); item = getItemById(202); if (item) { item->setVisible(true); item->togglePlaying(true); } break; case 2: // back item = getItemById(2); if (item) item->seek(1); if (_curSelectedPage == 1) { _curSelectedPage = _numPages; } else { _curSelectedPage--; } for (uint i = 0; i < _numPages; i++) { item = getItemById(1000 + i); if (item) item->setVisible(_curSelectedPage == i + 1); item = getItemById(1100 + i); if (item) item->setVisible(_curSelectedPage == i + 1); } break; case 3: // forward item = getItemById(3); if (item) item->seek(1); if (_curSelectedPage == _numPages) { _curSelectedPage = 1; } else { _curSelectedPage++; } for (uint i = 0; i < _numPages; i++) { item = getItemById(1000 + i); if (item) item->setVisible(_curSelectedPage == i + 1); item = getItemById(1100 + i); if (item) item->setVisible(_curSelectedPage == i + 1); } break; case 4: loadPage(kLBCreditsMode, 1, 0); break; case 5: loadPage(kLBPreviewMode, 1, 0); break; case 202: if (!tryLoadPageStart(kLBPlayMode, _curSelectedPage)) error("failed to load page %d", _curSelectedPage); break; } } void MohawkEngine_LivingBooks::handleNotify(NotifyEvent &event) { // hard-coded behavior (GUI/navigation) switch (event.type) { case kLBNotifyGUIAction: debug(2, "kLBNotifyGUIAction: %d", event.param); if (_curMode != kLBControlMode) break; // The scripting passes us the control ID as param, so we work // out which control was clicked, then run the relevant code. uint16 page; page = _curPage; if (getFeatures() & GF_LB_10) { // Living Books 1.0 had the meanings of these pages reversed if (page == 2) page = 3; else if (page == 3) page = 2; } switch (page) { case 1: // main menu if (_poetryMode) handleUIPoetryMenuClick(event.param); else handleUIMenuClick(event.param); break; case 2: // quit screen handleUIQuitClick(event.param); break; case 3: // options screen handleUIOptionsClick(event.param); break; } break; case kLBNotifyGoToControls: debug(2, "kLBNotifyGoToControls: %d", event.param); if (!loadPage(kLBControlMode, 1, 0)) error("couldn't load controls page"); break; case kLBNotifyChangePage: switch (event.param) { case 0xfffe: debug(2, "kLBNotifyChangePage: next page"); nextPage(); return; case 0xffff: debug(2, "kLBNotifyChangePage: previous page"); prevPage(); break; default: debug(2, "kLBNotifyChangePage: trying %d", event.param); if (!tryLoadPageStart(_curMode, event.param)) { if (!tryDefaultPage()) { error("failed to load default page after change to page %d (mode %d) failed", event.param, _curMode); } } break; } break; case kLBNotifyGotoQuit: debug(2, "kLBNotifyGotoQuit: %d", event.param); if (!loadPage(kLBControlMode, 2, 0)) error("couldn't load quit page"); break; case kLBNotifyIntroDone: debug(2, "kLBNotifyIntroDone: %d", event.param); if (event.param != 1) break; _introDone = true; // TODO: if !_readOnly, go to next page (-2 case above) // if in older one (not in e.g. 1.4 w/tortoise), // if mode is 6 (kLBPlayMode?), go to next page (-2 case) if curr page > nPages (i.e. the end) // else, nothing if (!_readOnly) break; nextPage(); break; case kLBNotifyChangeMode: if (getGameType() == GType_LIVINGBOOKSV1) { debug(2, "kLBNotifyChangeMode: %d", event.param); quitGame(); } else { debug(2, "kLBNotifyChangeMode: mode %d, page %d.%d", event.newMode, event.newPage, event.newSubpage); // TODO: what is entry.newUnknown? if (!event.newMode) event.newMode = _curMode; if (!loadPage((LBMode)event.newMode, event.newPage, event.newSubpage)) { if (event.newSubpage != 0 || !loadPage((LBMode)event.newMode, event.newPage, 1)) error("kLBNotifyChangeMode failed to move to mode %d, page %d.%d", event.newMode, event.newPage, event.newSubpage); } } break; case kLBNotifyCursorChange: debug(2, "kLBNotifyCursorChange: %d", event.param); // TODO: show/hide cursor according to parameter? break; case kLBNotifyPrintPage: debug(2, "kLBNotifyPrintPage: %d", event.param); warning("kLBNotifyPrintPage unimplemented"); break; case kLBNotifyQuit: debug(2, "kLBNotifyQuit: %d", event.param); quitGame(); break; default: error("Unknown notification %d (param 0x%04x)", event.type, event.param); } } LBAnimationNode::LBAnimationNode(MohawkEngine_LivingBooks *vm, LBAnimation *parent, uint16 scriptResourceId) : _vm(vm), _parent(parent) { loadScript(scriptResourceId); } LBAnimationNode::~LBAnimationNode() { for (uint32 i = 0; i < _scriptEntries.size(); i++) delete[] _scriptEntries[i].data; } void LBAnimationNode::loadScript(uint16 resourceId) { Common::SeekableSubReadStreamEndian *scriptStream = _vm->wrapStreamEndian(ID_SCRP, resourceId); reset(); while (byte opcodeId = scriptStream->readByte()) { byte size = scriptStream->readByte(); LBAnimScriptEntry entry; entry.opcode = opcodeId; entry.size = size; if (!size) { entry.data = NULL; } else { entry.data = new byte[entry.size]; scriptStream->read(entry.data, entry.size); } _scriptEntries.push_back(entry); } byte size = scriptStream->readByte(); if (size != 0 || scriptStream->pos() != scriptStream->size()) error("Failed to read script correctly"); delete scriptStream; } void LBAnimationNode::draw(const Common::Rect &_bounds) { if (!_currentCel) return; // this is also checked in SetCel, below if (_currentCel > _parent->getNumResources()) error("Animation cel %d was too high, this shouldn't happen!", _currentCel); int16 xOffset = _xPos + _bounds.left; int16 yOffset = _yPos + _bounds.top; uint16 resourceId = _parent->getResource(_currentCel - 1); if (!_vm->isPreMohawk()) { Common::Point offset = _parent->getOffset(_currentCel - 1); xOffset -= offset.x; yOffset -= offset.y; } _vm->_gfx->copyOffsetAnimImageToScreen(resourceId, xOffset, yOffset); } void LBAnimationNode::reset() { // TODO: this causes stupid flickering //if (_currentCel) // _vm->_needsRedraw = true; _currentCel = 0; _currentEntry = 0; _delay = 0; _xPos = 0; _yPos = 0; } NodeState LBAnimationNode::update(bool seeking) { if (_currentEntry == _scriptEntries.size()) return kLBNodeDone; if (_delay > 0 && --_delay) return kLBNodeRunning; while (_currentEntry < _scriptEntries.size()) { LBAnimScriptEntry &entry = _scriptEntries[_currentEntry]; _currentEntry++; debug(5, "Running script entry %d of %d", _currentEntry, _scriptEntries.size()); switch (entry.opcode) { case kLBAnimOpPlaySound: case kLBAnimOpWaitForSound: case kLBAnimOpReleaseSound: case kLBAnimOpResetSound: { uint16 soundResourceId = READ_BE_UINT16(entry.data); if (!soundResourceId) { error("Unhandled named wave file, tell clone2727 where you found this"); break; } assert(entry.size == 4); uint16 strLen = READ_BE_UINT16(entry.data + 2); if (strLen) warning("Named wave file encountered"); switch (entry.opcode) { case kLBAnimOpPlaySound: if (seeking) break; debug(4, "a: PlaySound(%0d)", soundResourceId); _parent->playSound(soundResourceId); break; case kLBAnimOpWaitForSound: if (seeking) break; debug(4, "b: WaitForSound(%0d)", soundResourceId); if (!_parent->soundPlaying(soundResourceId)) break; _currentEntry--; return kLBNodeWaiting; case kLBAnimOpReleaseSound: debug(4, "c: ReleaseSound(%0d)", soundResourceId); // TODO _vm->_sound->stopSound(soundResourceId); break; case kLBAnimOpResetSound: debug(4, "d: ResetSound(%0d)", soundResourceId); // TODO _vm->_sound->stopSound(soundResourceId); break; } } break; case kLBAnimOpSetTempo: case kLBAnimOpSetTempoDiv: { assert(entry.size == 2); uint16 tempo = (int16)READ_BE_UINT16(entry.data); // TODO: LB 3 uses fixed-point here. if (entry.opcode == kLBAnimOpSetTempo) { debug(4, "3: SetTempo(%d)", tempo); // TODO: LB 3 uses (tempo * 1000) / 60, while // the original divides the system time by 16. _parent->setTempo(tempo * 16); } else { // LB 3.0+ only. debug(4, "E: SetTempoDiv(%d)", tempo); _parent->setTempo(1000 / tempo); } } break; case kLBAnimOpWait: assert(entry.size == 0); debug(5, "6: Wait()"); return kLBNodeRunning; case kLBAnimOpMoveTo: { assert(entry.size == 4); int16 x = (int16)READ_BE_UINT16(entry.data); int16 y = (int16)READ_BE_UINT16(entry.data + 2); debug(4, "5: MoveTo(%d, %d)", x, y); _xPos = x; _yPos = y; _vm->_needsRedraw = true; } break; case kLBAnimOpDrawMode: { assert(entry.size == 2); uint16 mode = (int16)READ_BE_UINT16(entry.data); debug(4, "9: DrawMode(%d)", mode); // TODO } break; case kLBAnimOpSetCel: { assert(entry.size == 2); uint16 cel = (int16)READ_BE_UINT16(entry.data); debug(4, "7: SetCel(%d)", cel); _currentCel = cel; if (_currentCel > _parent->getNumResources()) error("SetCel set current cel to %d, but we only have %d cels", _currentCel, _parent->getNumResources()); _vm->_needsRedraw = true; } break; case kLBAnimOpNotify: { assert(entry.size == 2); uint16 data = (int16)READ_BE_UINT16(entry.data); if (seeking) break; debug(4, "2: Notify(%d)", data); _vm->notifyAll(data, _parent->getParentId()); } break; case kLBAnimOpSleepUntil: { assert(entry.size == 4); uint32 frame = READ_BE_UINT32(entry.data); debug(4, "8: SleepUntil(%d)", frame); if (frame > _parent->getCurrentFrame()) { // *not* kLBNodeWaiting _currentEntry--; return kLBNodeRunning; } } break; case kLBAnimOpDelay: { assert(entry.size == 4); uint32 delay = READ_BE_UINT32(entry.data); debug(4, "f: Delay(%d)", delay); _delay = delay; return kLBNodeRunning; } break; default: error("Unknown opcode id %02x (size %d)", entry.opcode, entry.size); break; } } return kLBNodeRunning; } bool LBAnimationNode::transparentAt(int x, int y) { if (!_currentCel) return true; uint16 resourceId = _parent->getResource(_currentCel - 1); if (!_vm->isPreMohawk()) { Common::Point offset = _parent->getOffset(_currentCel - 1); x += offset.x; y += offset.y; } // TODO: only check pixels if necessary return _vm->_gfx->imageIsTransparentAt(resourceId, true, x - _xPos, y - _yPos); } LBAnimation::LBAnimation(MohawkEngine_LivingBooks *vm, LBAnimationItem *parent, uint16 resourceId) : _vm(vm), _parent(parent) { Common::SeekableSubReadStreamEndian *aniStream = _vm->wrapStreamEndian(ID_ANI, resourceId); if (aniStream->size() != 30) warning("ANI Record size mismatch"); uint16 version = aniStream->readUint16(); if (version != 1) warning("ANI version not 1"); _bounds = _vm->readRect(aniStream); _clip = _vm->readRect(aniStream); // TODO: what is colorId for? uint32 colorId = aniStream->readUint32(); uint32 sprResourceId = aniStream->readUint32(); uint32 sprResourceOffset = aniStream->readUint32(); debug(5, "ANI bounds: (%d, %d), (%d, %d)", _bounds.left, _bounds.top, _bounds.right, _bounds.bottom); debug(5, "ANI clip: (%d, %d), (%d, %d)", _clip.left, _clip.top, _clip.right, _clip.bottom); debug(5, "ANI color id: %d", colorId); debug(5, "ANI SPRResourceId: %d, offset %d", sprResourceId, sprResourceOffset); if (aniStream->pos() != aniStream->size()) error("Still %d bytes at the end of anim stream", aniStream->size() - aniStream->pos()); delete aniStream; if (sprResourceOffset) error("Cannot handle non-zero ANI offset yet"); Common::SeekableSubReadStreamEndian *sprStream = _vm->wrapStreamEndian(ID_SPR, sprResourceId); uint16 numBackNodes = sprStream->readUint16(); uint16 numFrontNodes = sprStream->readUint16(); uint32 shapeResourceID = sprStream->readUint32(); uint32 shapeResourceOffset = sprStream->readUint32(); uint32 scriptResourceID = sprStream->readUint32(); uint32 scriptResourceOffset = sprStream->readUint32(); uint32 scriptResourceLength = sprStream->readUint32(); debug(5, "SPR# stream: %d front, %d background", numFrontNodes, numBackNodes); debug(5, "Shape ID %d (offset 0x%04x), script ID %d (offset 0x%04x, length %d)", shapeResourceID, shapeResourceOffset, scriptResourceID, scriptResourceOffset, scriptResourceLength); Common::Array scriptIDs; for (uint16 i = 0; i < numFrontNodes; i++) { uint32 unknown1 = sprStream->readUint32(); uint32 unknown2 = sprStream->readUint32(); uint32 unknown3 = sprStream->readUint32(); uint16 scriptID = sprStream->readUint32(); uint32 unknown4 = sprStream->readUint32(); uint32 unknown5 = sprStream->readUint32(); scriptIDs.push_back(scriptID); debug(6, "Front node %d: script ID %d", i, scriptID); if (unknown1 != 0 || unknown2 != 0 || unknown3 != 0 || unknown4 != 0 || unknown5 != 0) error("Anim node %d had non-zero unknowns %08x, %08x, %08x, %08x, %08x", i, unknown1, unknown2, unknown3, unknown4, unknown5); } if (numBackNodes) error("Ignoring %d back nodes", numBackNodes); if (sprStream->pos() != sprStream->size()) error("Still %d bytes at the end of sprite stream", sprStream->size() - sprStream->pos()); delete sprStream; loadShape(shapeResourceID); _nodes.push_back(new LBAnimationNode(_vm, this, scriptResourceID)); for (uint16 i = 0; i < scriptIDs.size(); i++) _nodes.push_back(new LBAnimationNode(_vm, this, scriptIDs[i])); _currentFrame = 0; _currentSound = 0xffff; _running = false; _tempo = 1; } LBAnimation::~LBAnimation() { for (uint32 i = 0; i < _nodes.size(); i++) delete _nodes[i]; if (_currentSound != 0xffff) _vm->_sound->stopSound(_currentSound); } void LBAnimation::loadShape(uint16 resourceId) { if (resourceId == 0) return; Common::SeekableSubReadStreamEndian *shapeStream = _vm->wrapStreamEndian(ID_SHP, resourceId); if (_vm->isPreMohawk()) { if (shapeStream->size() < 6) error("V1 SHP Record size too short (%d)", shapeStream->size()); uint16 u0 = shapeStream->readUint16(); if (u0 != 3) error("V1 SHP Record u0 is %04x, not 3", u0); uint16 u1 = shapeStream->readUint16(); if (u1 != 0) error("V1 SHP Record u1 is %04x, not 0", u1); uint16 idCount = shapeStream->readUint16(); debug(8, "V1 SHP: idCount: %d", idCount); if (shapeStream->size() != (idCount * 2) + 6) error("V1 SHP Record size mismatch (%d)", shapeStream->size()); for (uint16 i = 0; i < idCount; i++) { _shapeResources.push_back(shapeStream->readUint16()); debug(8, "V1 SHP: BMAP Resource Id %d: %d", i, _shapeResources[i]); } } else { uint16 idCount = shapeStream->readUint16(); debug(8, "SHP: idCount: %d", idCount); if (shapeStream->size() != (idCount * 6) + 2) error("SHP Record size mismatch (%d)", shapeStream->size()); for (uint16 i = 0; i < idCount; i++) { _shapeResources.push_back(shapeStream->readUint16()); int16 x = shapeStream->readSint16(); int16 y = shapeStream->readSint16(); _shapeOffsets.push_back(Common::Point(x, y)); debug(8, "SHP: tBMP Resource Id %d: %d, at (%d, %d)", i, _shapeResources[i], x, y); } } for (uint16 i = 0; i < _shapeResources.size(); i++) _vm->_gfx->preloadImage(_shapeResources[i]); delete shapeStream; } void LBAnimation::draw() { for (uint32 i = 0; i < _nodes.size(); i++) _nodes[i]->draw(_bounds); } bool LBAnimation::update() { if (!_running) return false; if (_vm->_system->getMillis() <= _lastTime + (uint32)_tempo) return false; // the second check is to try 'catching up' with lagged animations, might be crazy if (_lastTime == 0 || (_vm->_system->getMillis()) > _lastTime + (uint32)(_tempo * 2)) _lastTime = _vm->_system->getMillis(); else _lastTime += _tempo; if (_currentSound != 0xffff && !_vm->_sound->isPlaying(_currentSound)) { _currentSound = 0xffff; } NodeState state = kLBNodeDone; for (uint32 i = 0; i < _nodes.size(); i++) { NodeState s = _nodes[i]->update(); if (s == kLBNodeWaiting) { state = kLBNodeWaiting; if (i != 0) warning("non-primary node was waiting"); break; } if (s == kLBNodeRunning) state = kLBNodeRunning; } if (state == kLBNodeRunning) { _currentFrame++; } else if (state == kLBNodeDone) { if (_currentSound == 0xffff) { _running = false; return true; } } return false; } void LBAnimation::start() { _lastTime = 0; _running = true; } void LBAnimation::seek(uint16 pos) { _lastTime = 0; _currentFrame = 0; for (uint32 i = 0; i < _nodes.size(); i++) _nodes[i]->reset(); for (uint16 n = 0; n < pos; n++) { bool ranSomething = false; // nodes don't wait while seeking for (uint32 i = 0; i < _nodes.size(); i++) ranSomething |= (_nodes[i]->update(true) != kLBNodeDone); _currentFrame++; if (!ranSomething) { _running = false; break; } } } void LBAnimation::stop() { _running = false; if (_currentSound != 0xffff) { _vm->_sound->stopSound(_currentSound); _currentSound = 0xffff; } } void LBAnimation::playSound(uint16 resourceId) { _currentSound = resourceId; _vm->_sound->playSound(_currentSound); } bool LBAnimation::soundPlaying(uint16 resourceId) { return _currentSound == resourceId && _vm->_sound->isPlaying(_currentSound); } bool LBAnimation::transparentAt(int x, int y) { for (uint32 i = 0; i < _nodes.size(); i++) if (!_nodes[i]->transparentAt(x - _bounds.left, y - _bounds.top)) return false; return true; } void LBAnimation::setTempo(uint16 tempo) { _tempo = tempo; } uint16 LBAnimation::getParentId() { return _parent->getId(); } LBScriptEntry::LBScriptEntry() { state = 0; argvParam = NULL; argvTarget = NULL; } LBScriptEntry::~LBScriptEntry() { delete[] argvParam; delete[] argvTarget; for (uint i = 0; i < subentries.size(); i++) delete subentries[i]; } LBItem::LBItem(MohawkEngine_LivingBooks *vm, Common::Rect rect) : _vm(vm), _rect(rect) { _phase = 0; _loopMode = 0; _delayMin = 0; _delayMax = 0; _timingMode = kLBAutoNone; _periodMin = 0; _periodMax = 0; _controlMode = kLBControlNone; _soundMode = 0; _neverEnabled = true; _enabled = false; _visible = true; _playing = false; _globalEnabled = true; _globalVisible = true; _nextTime = 0; _startTime = 0; _loops = 0; _isAmbient = false; } LBItem::~LBItem() { for (uint i = 0; i < _scriptEntries.size(); i++) delete _scriptEntries[i]; } void LBItem::readFrom(Common::SeekableSubReadStreamEndian *stream) { _resourceId = stream->readUint16(); _itemId = stream->readUint16(); uint16 size = stream->readUint16(); _desc = _vm->readString(stream); debug(2, "Item: size %d, resource %d, id %d", size, _resourceId, _itemId); debug(2, "Coords: %d, %d, %d, %d", _rect.left, _rect.top, _rect.right, _rect.bottom); debug(2, "String: '%s'", _desc.c_str()); if (!_itemId) error("Item had invalid item id"); int endPos = stream->pos() + size; if (endPos > stream->size()) error("Item is larger (should end at %d) than stream (size %d)", endPos, stream->size()); while (true) { if (stream->pos() == endPos) break; uint oldPos = stream->pos(); uint16 dataType = stream->readUint16(); uint16 dataSize = stream->readUint16(); debug(4, "Data type %04x, size %d", dataType, dataSize); readData(dataType, dataSize, stream); if ((uint)stream->pos() != oldPos + 4 + (uint)dataSize) error("Failed to read correct number of bytes (off by %d) for data type %04x (size %d)", (int)stream->pos() - (int)(oldPos + 4 + (uint)dataSize), dataType, dataSize); if (stream->pos() > endPos) error("Read off the end (at %d) of data (ends at %d)", stream->pos(), endPos); assert(!stream->eos()); } } LBScriptEntry *LBItem::parseScriptEntry(uint16 type, uint16 &size, Common::SeekableSubReadStreamEndian *stream, bool isSubentry) { if (size < 6) error("Script entry of type 0x%04x was too small (%d)", type, size); uint16 expectedEndSize = 0; LBScriptEntry *entry = new LBScriptEntry; entry->type = type; if (isSubentry) { expectedEndSize = size - (stream->readUint16() + 2); entry->event = 0xffff; } else entry->event = stream->readUint16(); entry->opcode = stream->readUint16(); entry->param = stream->readUint16(); debug(4, "Script entry: type 0x%04x, event 0x%04x, opcode 0x%04x, param 0x%04x", entry->type, entry->event, entry->opcode, entry->param); size -= 6; // TODO: read as bytes, if this is correct (but beware endianism) byte conditionTag = (entry->event & 0xff00) >> 8; entry->event = entry->event & 0xff; if (type == kLBMsgListScript && entry->opcode == kLBOpRunSubentries) { debug(4, "%d script subentries:", entry->param); entry->argc = 0; for (uint i = 0; i < entry->param; i++) { LBScriptEntry *subentry = parseScriptEntry(type, size, stream, true); entry->subentries.push_back(subentry); // subentries are aligned if (i + 1 < entry->param && size % 2 == 1) { stream->skip(1); size--; } } } else if (type == kLBMsgListScript) { if (size < 2) error("Script entry of type 0x%04x was too small (%d)", type, size); entry->argc = stream->readUint16(); size -= 2; uint16 targetingType = entry->argc; if (targetingType == 0x3f3f || targetingType == 0xffff) { entry->argc = 0; uint16 count = stream->readUint16(); size -= 2; debug(4, "%d targets with targeting type %04x", count, targetingType); // FIXME: targeting by name for (uint i = 0; i < count; i++) { Common::String target = _vm->readString(stream); warning("ignoring target '%s' in script entry", target.c_str()); size -= target.size() + 1; } } if (entry->argc) { entry->argvParam = new uint16[entry->argc]; entry->argvTarget = new uint16[entry->argc]; debug(4, "With %d targets:", entry->argc); if (size < (entry->argc * 4)) error("Script entry of type 0x%04x was too small (%d)", type, size); for (uint i = 0; i < entry->argc; i++) { entry->argvParam[i] = stream->readUint16(); entry->argvTarget[i] = stream->readUint16(); debug(4, "Target %d, param 0x%04x", entry->argvTarget[i], entry->argvParam[i]); } size -= (entry->argc * 4); } } if (type == kLBMsgListScript && entry->opcode == 0xfffb) { uint16 u1 = stream->readUint16(); uint16 u2 = stream->readUint16(); uint16 u3 = stream->readUint16(); warning("unknown 0xfffb: %04x, %04x, %04x", u1, u2, u3); size -= 6; } if (type == kLBMsgListScript && entry->opcode == 0xfffd) { uint16 u1 = stream->readUint16(); uint16 u2 = stream->readUint16(); warning("unknown 0xfffd: %04x, %04x", u1, u2); size -= 4; } if (type == kLBNotifyScript && entry->opcode == kLBNotifyChangeMode && _vm->getGameType() != GType_LIVINGBOOKSV1) { if (size < 8) { error("%d unknown bytes in notify entry kLBNotifyChangeMode", size); } entry->newUnknown = stream->readUint16(); entry->newMode = stream->readUint16(); entry->newPage = stream->readUint16(); entry->newSubpage = stream->readUint16(); debug(4, "kLBNotifyChangeMode: unknown %04x, mode %d, page %d.%d", entry->newUnknown, entry->newMode, entry->newPage, entry->newSubpage); size -= 8; } if (entry->opcode == kLBOpSendExpression) { if (size < 4) error("not enough bytes (%d) in kLBOpSendExpression, event 0x%04x", size, entry->event); entry->offset = stream->readUint32(); debug(4, "kLBOpSendExpression: offset %08x", entry->offset); size -= 4; } if (entry->opcode == 0xffff) { if (size < 4) error("didn't get enough bytes (%d) to read message in script entry", size); uint16 msgId = stream->readUint16(); uint16 msgLen = stream->readUint16(); size -= 4; if (msgId == kLBSetPlayInfo) { if (size != 20) error("wah, more than just the kLBSetPlayInfo in here"); // FIXME warning("ignoring kLBSetPlayInfo"); size -= 20; stream->skip(20); return entry; } if (msgId != kLBCommand) error("expected a command in script entry, got 0x%04x", msgId); if (msgLen != size - (entry->event == kLBEventNotified ? 4 : 0) && !conditionTag) error("script entry msgLen %d is not equal to size %d", msgLen, size); Common::String command = _vm->readString(stream); if (command.size() + 1 > size) { error("failed to read command in script entry: msgLen %d, command '%s' (%d chars)", msgLen, command.c_str(), command.size()); } size -= command.size() + 1; entry->command = command; debug(4, "script entry command '%s'", command.c_str()); } if (entry->event == kLBEventNotified) { if (size < 4) error("not enough bytes (%d) in kLBEventNotified, opcode 0x%04x", size, entry->opcode); entry->matchFrom = stream->readUint16(); entry->matchNotify = stream->readUint16(); debug(4, "kLBEventNotified: matches %04x (from %04x)", entry->matchNotify, entry->matchFrom); size -= 4; } if (isSubentry) { // TODO: subentries may be aligned, so this check is a bit too relaxed if (size != expectedEndSize && size != expectedEndSize + 1) error("expected %d bytes left at end of subentry, but had %d", expectedEndSize, size); return entry; } if (conditionTag == 1) { Common::String condition = _vm->readString(stream); if (condition.size() == 0) { size--; if (!size) error("failed to read condition (null byte, then ran out of stream)"); condition = _vm->readString(stream); } if (condition.size() + 1 > size) error("failed to read condition (ran out of stream)"); size -= (condition.size() + 1); entry->conditions.push_back(condition); debug(4, "script entry condition '%s'", condition.c_str()); } else if (conditionTag == 2) { // FIXME stream->skip(4); size -= 4; } if (size == 1) { // FIXME: this is alignment, but why? stream->skip(1); size--; } else if (size) error("failed to read script entry correctly (%d bytes left): type 0x%04x, event 0x%04x, opcode 0x%04x, param 0x%04x", size, entry->type, entry->event, entry->opcode, entry->param); return entry; } void LBItem::readData(uint16 type, uint16 size, Common::SeekableSubReadStreamEndian *stream) { switch (type) { case kLBMsgListScript: case kLBNotifyScript: _scriptEntries.push_back(parseScriptEntry(type, size, stream)); break; case kLBSetPlayInfo: { if (size != 20) error("kLBSetPlayInfo had wrong size (%d)", size); _loopMode = stream->readUint16(); _delayMin = stream->readUint16(); _delayMax = stream->readUint16(); _timingMode = stream->readUint16(); if (_timingMode > 7) error("encountered timing mode %04x", _timingMode); _periodMin = stream->readUint16(); _periodMax = stream->readUint16(); _relocPoint.x = stream->readSint16(); _relocPoint.y = stream->readSint16(); _controlMode = stream->readUint16(); _soundMode = stream->readUint16(); debug(2, "kLBSetPlayInfo: loop mode %d (%d to %d), timing mode %d (%d to %d), reloc (%d, %d), control mode %04x, sound mode %04x", _loopMode, _delayMin, _delayMax, _timingMode, _periodMin, _periodMax, _relocPoint.x, _relocPoint.y, _controlMode, _soundMode); } break; case kLBSetPlayPhase: if (size != 2) error("SetPlayPhase had wrong size (%d)", size); _phase = stream->readUint16(); debug(2, "kLBSetPlayPhase: %d", _phase); break; case kLBUnknown6F: { if (size != 18) error("0x6f had wrong size (%d)", size); uint u1 = stream->readUint16(); uint u2 = stream->readUint16(); uint event = stream->readUint16(); uint opcode = stream->readUint16(); uint param = stream->readUint16(); uint u6 = stream->readUint16(); uint u7 = stream->readUint16(); uint u8 = stream->readUint16(); uint u9 = stream->readUint16(); // FIXME: this is scripting stuff warning("0x6f: unknown: item %s, unknowns: %04x, %04x, event %04x, opcode %04x, param %04x, unknowns %04x, %04x, %04x, %04x", _desc.c_str(), u1, u2, event, opcode, param, u6, u7, u8, u9); } break; case kLBCommand: { Common::String command = _vm->readString(stream); if (size != command.size() + 1) error("failed to read command string"); runCommand(command); } break; case kLBSetNotVisible: assert(size == 0); _visible = false; break; case kLBGlobalDisable: assert(size == 0); _globalEnabled = false; break; case kLBGlobalSetNotVisible: assert(size == 0); _globalVisible = false; break; case kLBSetAmbient: assert(size == 0); _isAmbient = true; break; case kLBUnknown7D: { if (size != 10) error("0x7d had wrong size (%d)", size); uint u1 = stream->readUint16(); uint key = stream->readUint16(); uint u3 = stream->readUint16(); uint target = stream->readUint16(); byte event = stream->readByte(); byte u4 = stream->readByte(); // FIXME: this is scripting stuff: what to run when key is pressed warning("0x7d: unknown: item %s, unknown %04x, key %04x, unknown %04x, target %d, event %02x, unknown %02x", _desc.c_str(), u1, key, u3, target, event, u4); } break; case kLBUnknown80: { assert(size == 2); uint id = stream->readUint16(); warning("0x80: unknown: item %s, id %04x", _desc.c_str(), id); // FIXME } break; case kLBUnknown194: { assert(size == 4); uint offset = stream->readUint32(); if (!_vm->_code) error("no BCOD?"); _vm->_code->runCode(this, offset); } break; default: error("Unknown message %04x (size 0x%04x)", type, size); //for (uint i = 0; i < size; i++) // debugN("%02x ", stream->readByte()); //debugN("\n"); break; } } void LBItem::destroySelf() { if (!this->_itemId) error("destroySelf() on an item which was already dead"); _vm->queueDelayedEvent(DelayedEvent(this, kLBDelayedEventDestroy)); _itemId = 0; } void LBItem::setEnabled(bool enabled) { if (enabled && _neverEnabled && !_playing) { if (_timingMode == kLBAutoUserIdle) { setNextTime(_periodMin, _periodMax); debug(2, "Enable time startup"); } } _neverEnabled = false; _enabled = enabled; } void LBItem::setGlobalEnabled(bool enabled) { bool wasEnabled = !_neverEnabled && _enabled && _globalEnabled; _globalEnabled = enabled; if (wasEnabled != (!_neverEnabled && _enabled && _globalEnabled)) setEnabled(enabled); } bool LBItem::contains(Common::Point point) { if (_playing && _loopMode == 0xFFFF) stop(); if (!_playing && _timingMode == kLBAutoUserIdle) setNextTime(_periodMin, _periodMax); return _visible && _globalVisible && _rect.contains(point); } void LBItem::update() { if (_phase != 0x7FFF && (_neverEnabled || !_enabled || !_globalEnabled)) return; if (_nextTime == 0 || _nextTime > (uint32)(_vm->_system->getMillis() / 16)) return; if (togglePlaying(_playing, true)) { _nextTime = 0; } else if (_loops == 0 && _timingMode == kLBAutoUserIdle) { debug(9, "Looping in update()"); setNextTime(_periodMin, _periodMax); } } void LBItem::handleMouseDown(Common::Point pos) { if (_neverEnabled || !_enabled || !_globalEnabled) return; _vm->setFocus(this); runScript(kLBEventMouseDown); runScript(kLBEventMouseTrackIn); } void LBItem::handleMouseMove(Common::Point pos) { // TODO: handle drag } void LBItem::handleMouseUp(Common::Point pos) { _vm->setFocus(NULL); runScript(kLBEventMouseUp); runScript(kLBEventMouseUpIn); } bool LBItem::togglePlaying(bool playing, bool restart) { if (playing) { _vm->queueDelayedEvent(DelayedEvent(this, kLBDelayedEventDone)); return true; } if (((!_neverEnabled && _enabled && _globalEnabled) || _phase == 0x7FFF) && !_playing) { _playing = togglePlaying(true, restart); if (_playing) { _nextTime = 0; _startTime = _vm->_system->getMillis() / 16; if (_loopMode == 0xFFFF || _loopMode == 0xFFFE) _loops = 0xFFFF; else _loops = _loopMode; if (_controlMode >= kLBControlHideMouse) { debug(2, "Hiding cursor"); _vm->_cursor->hideCursor(); // TODO: lock sound? if (_controlMode >= kLBControlPauseItems) { debug(2, "Disabling all"); _vm->setEnableForAll(false, this); } } runScript(kLBEventStarted); notify(0, _itemId); } } return _playing; } void LBItem::done(bool onlyNotify) { if (onlyNotify) { if (_relocPoint.x || _relocPoint.y) { _rect.translate(_relocPoint.x, _relocPoint.y); // TODO: does drag box need adjusting? } if (_loops && --_loops) { debug(9, "Real looping (now 0x%04x left)", _loops); setNextTime(_delayMin, _delayMax, _startTime); } else done(false); return; } _playing = false; _loops = 0; _startTime = 0; if (_controlMode >= kLBControlHideMouse) { debug(2, "Showing cursor"); _vm->_cursor->showCursor(); // TODO: unlock sound? if (_controlMode >= kLBControlPauseItems) { debug(2, "Enabling all"); _vm->setEnableForAll(true, this); } } if (_timingMode == kLBAutoUserIdle) { debug(9, "Looping in done() - %d to %d", _periodMin, _periodMax); setNextTime(_periodMin, _periodMax); } runScript(kLBEventDone); notify(0xFFFF, _itemId); } void LBItem::setVisible(bool visible) { if (visible == _visible) return; _visible = visible; _vm->_needsRedraw = true; } void LBItem::setGlobalVisible(bool visible) { bool wasEnabled = _visible && _globalVisible; _globalVisible = visible; if (wasEnabled != (_visible && _globalVisible)) _vm->_needsRedraw = true; } void LBItem::startPhase(uint phase) { if (_phase == phase) setEnabled(true); switch (phase) { case 0xFFFE: if (_timingMode == kLBAutoLoad) { debug(2, "Phase load: time startup"); setNextTime(_periodMin, _periodMax); } break; case 0xFFFF: runScript(kLBEventPhaseCreate); if (_timingMode == kLBAutoCreate) { debug(2, "Phase create: time startup"); setNextTime(_periodMin, _periodMax); } break; case 0: runScript(kLBEventPhaseInit); if (_timingMode == kLBAutoInit) { debug(2, "Phase init: time startup"); setNextTime(_periodMin, _periodMax); } break; case 1: runScript(kLBEventPhaseIntro); if (_timingMode == kLBAutoIntro || _timingMode == kLBAutoUserIdle) { debug(2, "Phase intro: time startup"); setNextTime(_periodMin, _periodMax); } break; case 2: runScript(kLBEventPhaseMain); if (_timingMode == kLBAutoUserIdle || _timingMode == kLBAutoMain) { debug(2, "Phase main: time startup"); setNextTime(_periodMin, _periodMax); } break; } } void LBItem::stop() { if (!_playing) return; _loops = 0; seek(0xFFFF); done(true); } void LBItem::notify(uint16 data, uint16 from) { if (_timingMode == kLBAutoSync) { // TODO: is this correct? if (_periodMin == data && _periodMax == from) { debug(2, "Handling notify 0x%04x (from %d)", data, from); setNextTime(0, 0); } } runScript(kLBEventNotified, data, from); } void LBItem::runScript(uint event, uint16 data, uint16 from) { for (uint i = 0; i < _scriptEntries.size(); i++) { LBScriptEntry *entry = _scriptEntries[i]; if (entry->event != event) continue; if (event == kLBEventNotified) { if ((entry->matchFrom && entry->matchFrom != from) || entry->matchNotify != data) continue; } bool conditionsMatch = true; for (uint n = 0; n < entry->conditions.size(); n++) { if (!checkCondition(entry->conditions[n])) { conditionsMatch = false; break; } } if (!conditionsMatch) continue; if (entry->type == kLBNotifyScript) { debug(2, "Notify: event 0x%04x, opcode 0x%04x, param 0x%04x", entry->event, entry->opcode, entry->param); if (entry->opcode == kLBNotifyGUIAction) _vm->addNotifyEvent(NotifyEvent(entry->opcode, _itemId)); else if (entry->opcode == kLBNotifyChangeMode && _vm->getGameType() != GType_LIVINGBOOKSV1) { NotifyEvent notifyEvent(entry->opcode, entry->param); notifyEvent.newUnknown = entry->newUnknown; notifyEvent.newMode = entry->newMode; notifyEvent.newPage = entry->newPage; notifyEvent.newSubpage = entry->newSubpage; _vm->addNotifyEvent(notifyEvent); } else _vm->addNotifyEvent(NotifyEvent(entry->opcode, entry->param)); } else runScriptEntry(entry); } } void LBItem::runScriptEntry(LBScriptEntry *entry) { if (entry->state == 0xffff) return; uint start = 0; uint count = entry->argc; // zero targets = apply to self if (!count) count = 1; switch (entry->param) { case 0xfffe: // Run once (disable self after run). entry->state = 0xffff; break; case 0xffff: break; case 0: case 1: case 2: start = entry->state; entry->state++; if (entry->state >= count) { switch (entry->param) { case 0: // Disable.. entry->state = 0xffff; return; case 1: // Stay at the end. entry->state = count - 1; break; case 2: // Loop. entry->state = 0; break; } } count = 1; break; case 3: // Pick random target. start = _vm->_rnd->getRandomNumberRng(0, count); count = 1; break; default: warning("Weird param for script entry (type 0x%04x, event 0x%04x, opcode 0x%04x, param 0x%04x)", entry->type, entry->event, entry->opcode, entry->param); } for (uint n = start; n < count; n++) { LBItem *target; debug(2, "Script run: type 0x%04x, event 0x%04x, opcode 0x%04x, param 0x%04x", entry->type, entry->event, entry->opcode, entry->param); if (entry->argc) { uint16 targetId = entry->argvTarget[n]; // TODO: is this type, perhaps? uint16 param = entry->argvParam[n]; target = _vm->getItemById(targetId); if (!target) { debug(2, "Target %04x (%04x) doesn't exist, skipping", targetId, param); continue; } debug(2, "Target: %04x (%04x) '%s'", targetId, param, target->_desc.c_str()); } else { target = this; debug(2, "Self-target on '%s'", _desc.c_str()); } // an opcode in the form 0x1xx means to run the script for event 0xx if ((entry->opcode & 0xff00) == 0x0100) { // FIXME: pass on param target->runScript(entry->opcode & 0xff); break; } switch (entry->opcode) { case kLBOpNone: warning("ignoring kLBOpNone (event 0x%04x, param 0x%04x, target '%s')", entry->event, entry->param, target->_desc.c_str()); break; case kLBOpXShow: // TODO: should be setVisible(true) - not a delayed event - // when we're doing the param 1/2/3 stuff above? // and in modern LB this is perhaps just a direct target->setVisible(true).. if (_vm->getGameType() != GType_LIVINGBOOKSV1) warning("kLBOpXShow on '%s' is probably broken", target->_desc.c_str()); _vm->queueDelayedEvent(DelayedEvent(this, kLBDelayedEventSetNotVisible)); break; case kLBOpTogglePlay: target->togglePlaying(false, true); break; case kLBOpSetNotVisible: target->setVisible(false); break; case kLBOpSetVisible: target->setVisible(true); break; case kLBOpDestroy: target->destroySelf(); break; case kLBOpRewind: target->seek(1); break; case kLBOpStop: target->stop(); break; case kLBOpDisable: target->setEnabled(false); break; case kLBOpEnable: target->setEnabled(true); break; case kLBOpGlobalSetNotVisible: target->setGlobalVisible(false); break; case kLBOpGlobalSetVisible: target->setGlobalVisible(true); break; case kLBOpGlobalDisable: target->setGlobalEnabled(false); break; case kLBOpGlobalEnable: target->setGlobalEnabled(true); break; case kLBOpSeekToEnd: target->seek(0xFFFF); break; case kLBOpMute: case kLBOpUnmute: // FIXME warning("ignoring kLBOpMute/Unmute (event 0x%04x, param 0x%04x, target '%s')", entry->event, entry->param, target->_desc.c_str()); break; case kLBOpLoad: case kLBOpPreload: case kLBOpUnload: // FIXME warning("ignoring kLBOpLoad/Preload/Unload (event 0x%04x, param 0x%04x, target '%s')", entry->event, entry->param, target->_desc.c_str()); break; case kLBOpSeekToPrev: case kLBOpSeekToNext: // FIXME warning("ignoring kLBOpSeekToPrev/Next (event 0x%04x, param 0x%04x, target '%s')", entry->event, entry->param, target->_desc.c_str()); break; case kLBOpDragBegin: case kLBOpDragEnd: // FIXME warning("ignoring kLBOpDragBegin/End (event 0x%04x, param 0x%04x, target '%s')", entry->event, entry->param, target->_desc.c_str()); break; case kLBOpScriptDisable: case kLBOpScriptEnable: // FIXME warning("ignoring kLBOpScriptDisable/Enable (event 0x%04x, param 0x%04x, target '%s')", entry->event, entry->param, target->_desc.c_str()); break; case kLBOpUnknown1C: // FIXME warning("ignoring kLBOpUnknown1C (event 0x%04x, param 0x%04x, target '%s')", entry->event, entry->param, target->_desc.c_str()); break; case kLBOpSendExpression: if (!_vm->_code) error("no BCOD?"); _vm->_code->runCode(this, entry->offset); break; case kLBOpRunSubentries: for (uint i = 0; i < entry->subentries.size(); i++) { LBScriptEntry *subentry = entry->subentries[i]; runScriptEntry(subentry); } break; case kLBOpRunCommand: runCommand(entry->command); break; default: error("Unknown script opcode (type 0x%04x, event 0x%04x, opcode 0x%04x, param 0x%04x, target '%s')", entry->type, entry->event, entry->opcode, entry->param, target->_desc.c_str()); } } } void LBItem::setNextTime(uint16 min, uint16 max) { setNextTime(min, max, _vm->_system->getMillis() / 16); } void LBItem::setNextTime(uint16 min, uint16 max, uint32 start) { _nextTime = start + _vm->_rnd->getRandomNumberRng((uint)min, (uint)max); debug(9, "nextTime is now %d frames away", _nextTime - (uint)(_vm->_system->getMillis() / 16)); } bool LBValue::operator==(const LBValue &x) const { if (type != x.type) return false; switch (type) { case kLBValueString: return string == x.string; case kLBValueInteger: return integer == x.integer; default: error("Unknown type when testing for equality"); } } bool LBValue::operator!=(const LBValue &x) const { return !(*this == x); } enum LBTokenType { kLBNoToken, kLBNameToken, kLBStringToken, kLBOperatorToken, kLBIntegerToken, kLBEndToken }; static Common::String readToken(const Common::String &source, uint &pos, LBTokenType &type) { Common::String token; type = kLBNoToken; bool done = false; while (pos < source.size() && !done) { if (type == kLBStringToken) { if (source[pos] == '"') { pos++; return token; } token += source[pos]; pos++; continue; } switch (source[pos]) { case ' ': pos++; done = true; break; case ')': if (type == kLBNoToken) { type = kLBEndToken; return Common::String(); } done = true; break; case ';': if (type == kLBNoToken) { pos++; type = kLBEndToken; return Common::String(); } done = true; break; case '@': // FIXME error("found @ in string '%s', not supported yet", source.c_str()); case '+': case '-': case '!': case '=': case '>': case '<': if (type == kLBNoToken) type = kLBOperatorToken; if (type == kLBOperatorToken) token += source[pos]; else done = true; break; case '"': if (type == kLBNoToken) type = kLBStringToken; else done = true; break; case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': if (type == kLBNoToken) type = kLBIntegerToken; if (type == kLBNameToken || type == kLBIntegerToken) token += source[pos]; else done = true; break; default: if (type == kLBNoToken) type = kLBNameToken; if (type == kLBNameToken) token += source[pos]; else done = true; break; } if (!done) pos++; } if (type == kLBStringToken) error("readToken: ran out of input while parsing string from '%s'", source.c_str()); if (!token.size()) { assert(type == kLBNoToken); type = kLBEndToken; } return token; } LBValue LBItem::parseValue(const Common::String &source, uint &pos) { LBTokenType type, postOpType; Common::String preOp, postOp; Common::String str = readToken(source, pos, type); if (type == kLBOperatorToken) { preOp = str; str = readToken(source, pos, type); } LBValue value; if (type == kLBStringToken) { value.type = kLBValueString; value.string = str; } else if (type == kLBIntegerToken) { value.type = kLBValueInteger; value.integer = atoi(str.c_str()); } else if (type == kLBNameToken) { value = _vm->_variables[str]; } else { error("expected string/integer as value in '%s', got '%s'", source.c_str(), str.c_str()); } uint readAheadPos = pos; postOp = readToken(source, readAheadPos, postOpType); if (postOpType != kLBEndToken) { if (postOpType != kLBOperatorToken) error("expected operator after '%s' in '%s', got '%s'", str.c_str(), source.c_str(), postOp.c_str()); // might be a comparison operator, caller will handle other cases if valid if (postOp == "-" || postOp == "+") { pos = readAheadPos; LBValue nextValue = parseValue(source, pos); if (value.type != kLBValueInteger || nextValue.type != kLBValueInteger) error("expected integer for arthmetic operator in '%s'", source.c_str()); if (postOp == "+") value.integer += nextValue.integer; else if (postOp == "-") value.integer -= nextValue.integer; } } if (preOp.size()) { if (preOp == "!") { if (value.type == kLBValueInteger) value.integer = !value.integer; else error("expected integer after ! operator in '%s'", source.c_str()); } else { error("expected valid operator before '%s' in '%s', got '%s'", str.c_str(), source.c_str(), preOp.c_str()); } } return value; } void LBItem::runCommand(const Common::String &command) { uint pos = 0; LBTokenType type; debug(2, "running command '%s'", command.c_str()); while (pos < command.size()) { Common::String varname = readToken(command, pos, type); if (type != kLBNameToken) error("expected name as lvalue of command '%s', got '%s'", command.c_str(), varname.c_str()); Common::String op = readToken(command, pos, type); if (type != kLBOperatorToken || (op != "=" && op != "++" && op != "--")) error("expected assignment/postincrement/postdecrement operator for command '%s', got '%s'", command.c_str(), op.c_str()); if (op == "=") { LBValue value = parseValue(command, pos); _vm->_variables[varname] = value; } else { if (_vm->_variables[varname].type != kLBValueInteger) error("expected integer after postincrement/postdecrement operator in '%s'", command.c_str()); if (op == "++") _vm->_variables[varname].integer++; else if (op == "--") _vm->_variables[varname].integer--; } if (pos < command.size() && command[pos] == ';') pos++; } } bool LBItem::checkCondition(const Common::String &condition) { uint pos = 0; LBTokenType type; debug(3, "checking condition '%s'", condition.c_str()); if (condition.size() <= pos || condition[pos] != '(') error("bad condition '%s' (started wrong)", condition.c_str()); pos++; LBValue value1 = parseValue(condition, pos); Common::String op = readToken(condition, pos, type); if (type == kLBEndToken) { if (condition.size() != pos + 1 || condition[pos] != ')') error("bad condition '%s' (ended wrong)", condition.c_str()); if (value1.type == kLBValueInteger) return value1.integer; else error("expected comparison operator for condition '%s'", condition.c_str()); } if (type != kLBOperatorToken || (op != "!=" && op != "==" && op != ">" && op != "<" && op != ">=" && op != "<=")) error("expected comparison operator for condition '%s', got '%s'", condition.c_str(), op.c_str()); LBValue value2 = parseValue(condition, pos); if (condition.size() != pos + 1 || condition[pos] != ')') error("bad condition '%s' (ended wrong)", condition.c_str()); if (op == "!=") return (value1 != value2); else if (op == "==") return (value1 == value2); if (value1.type != kLBValueInteger || value2.type != kLBValueInteger) error("evaluation operator %s in condition '%s' expected two integer operands!", op.c_str(), condition.c_str()); if (op == ">") return (value1.integer > value2.integer); else if (op == ">=") return (value1.integer >= value2.integer); else if (op == "<") return (value1.integer < value2.integer); else if (op == "<=") return (value1.integer <= value2.integer); return false; // unreachable } LBSoundItem::LBSoundItem(MohawkEngine_LivingBooks *vm, Common::Rect rect) : LBItem(vm, rect) { debug(3, "new LBSoundItem"); _running = false; } LBSoundItem::~LBSoundItem() { if (_running) _vm->_sound->stopSound(_resourceId); } void LBSoundItem::update() { if (_running && !_vm->_sound->isPlaying(_resourceId)) { _running = false; done(true); } LBItem::update(); } bool LBSoundItem::togglePlaying(bool playing, bool restart) { if (!playing) return LBItem::togglePlaying(playing, restart); if (_running) { _running = false; _vm->_sound->stopSound(_resourceId); } if (_neverEnabled || !_enabled || !_globalEnabled) return false; _running = true; _vm->_sound->playSound(_resourceId, Audio::Mixer::kMaxChannelVolume, false); return true; } void LBSoundItem::stop() { if (_running) { _running = false; _vm->_sound->stopSound(_resourceId); } LBItem::stop(); } LBGroupItem::LBGroupItem(MohawkEngine_LivingBooks *vm, Common::Rect rect) : LBItem(vm, rect) { debug(3, "new LBGroupItem"); _starting = false; } void LBGroupItem::readData(uint16 type, uint16 size, Common::SeekableSubReadStreamEndian *stream) { switch (type) { case kLBGroupData: { _groupEntries.clear(); uint16 count = stream->readUint16(); debug(3, "Group data: %d entries", count); if (size != 2 + count * 4) error("kLBGroupData was wrong size (%d, for %d entries)", size, count); for (uint i = 0; i < count; i++) { GroupEntry entry; // TODO: is type important for any game? at the moment, we ignore it entry.entryType = stream->readUint16(); entry.entryId = stream->readUint16(); _groupEntries.push_back(entry); debug(3, "group entry: id %d, type %d", entry.entryId, entry.entryType); } } break; default: LBItem::readData(type, size, stream); } } void LBGroupItem::setEnabled(bool enabled) { if (_starting) { _starting = false; LBItem::setEnabled(enabled); } else { for (uint i = 0; i < _groupEntries.size(); i++) { LBItem *item = _vm->getItemById(_groupEntries[i].entryId); if (item) item->setEnabled(enabled); } } } void LBGroupItem::setGlobalEnabled(bool enabled) { for (uint i = 0; i < _groupEntries.size(); i++) { LBItem *item = _vm->getItemById(_groupEntries[i].entryId); if (item) item->setGlobalEnabled(enabled); } } bool LBGroupItem::contains(Common::Point point) { return false; } bool LBGroupItem::togglePlaying(bool playing, bool restart) { for (uint i = 0; i < _groupEntries.size(); i++) { LBItem *item = _vm->getItemById(_groupEntries[i].entryId); if (item) item->togglePlaying(playing, restart); } return false; } void LBGroupItem::seek(uint16 pos) { for (uint i = 0; i < _groupEntries.size(); i++) { LBItem *item = _vm->getItemById(_groupEntries[i].entryId); if (item) item->seek(pos); } } void LBGroupItem::setVisible(bool visible) { for (uint i = 0; i < _groupEntries.size(); i++) { LBItem *item = _vm->getItemById(_groupEntries[i].entryId); if (item) item->setVisible(visible); } } void LBGroupItem::setGlobalVisible(bool visible) { for (uint i = 0; i < _groupEntries.size(); i++) { LBItem *item = _vm->getItemById(_groupEntries[i].entryId); if (item) item->setGlobalVisible(visible); } } void LBGroupItem::startPhase(uint phase) { _starting = true; LBItem::startPhase(phase); _starting = false; } void LBGroupItem::stop() { for (uint i = 0; i < _groupEntries.size(); i++) { LBItem *item = _vm->getItemById(_groupEntries[i].entryId); if (item) item->stop(); } } LBPaletteItem::LBPaletteItem(MohawkEngine_LivingBooks *vm, Common::Rect rect) : LBItem(vm, rect) { debug(3, "new LBPaletteItem"); _fadeInStart = 0; _palette = NULL; } LBPaletteItem::~LBPaletteItem() { delete[] _palette; } void LBPaletteItem::readData(uint16 type, uint16 size, Common::SeekableSubReadStreamEndian *stream) { switch (type) { case kLBPaletteXData: { assert(size >= 8); _fadeInPeriod = stream->readUint16(); _fadeInStep = stream->readUint16(); _drawStart = stream->readUint16(); _drawCount = stream->readUint16(); if (_drawStart + _drawCount > 256) error("encountered palette trying to set more than 256 colors"); assert(size == 8 + _drawCount * 4); // TODO: _drawCount is really more like _drawEnd, so once we're sure that // there's really no use for the palette entries before _drawCount, we // might want to just discard them here, at load time. _palette = new byte[_drawCount * 3]; for (uint i = 0; i < _drawCount; i++) { _palette[i*3 + 0] = stream->readByte(); _palette[i*3 + 1] = stream->readByte(); _palette[i*3 + 2] = stream->readByte(); stream->readByte(); } } break; default: LBItem::readData(type, size, stream); } } bool LBPaletteItem::togglePlaying(bool playing, bool restart) { // TODO: this likely isn't the right place if (playing) { _fadeInStart = _vm->_system->getMillis(); _fadeInCurrent = 0; return true; } return LBItem::togglePlaying(playing, restart); } void LBPaletteItem::update() { if (_fadeInStart) { if (!_palette) error("LBPaletteItem had no palette on startup"); uint32 elapsedTime = _vm->_system->getMillis() - _fadeInStart; uint32 divTime = elapsedTime / _fadeInStep; if (divTime > _fadeInPeriod) divTime = _fadeInPeriod; if (_fadeInCurrent != divTime) { _fadeInCurrent = divTime; // TODO: actual fading-in if (_visible && _globalVisible) { _vm->_system->getPaletteManager()->setPalette(_palette + _drawStart * 3, _drawStart, _drawCount - _drawStart); _vm->_needsRedraw = true; } } if (elapsedTime >= (uint32)_fadeInPeriod * (uint32)_fadeInStep) { // TODO: correct? _fadeInStart = 0; } } LBItem::update(); } LBLiveTextItem::LBLiveTextItem(MohawkEngine_LivingBooks *vm, Common::Rect rect) : LBItem(vm, rect) { _currentPhrase = 0xFFFF; _currentWord = 0xFFFF; debug(3, "new LBLiveTextItem"); } void LBLiveTextItem::readData(uint16 type, uint16 size, Common::SeekableSubReadStreamEndian *stream) { switch (type) { case kLBLiveTextData: { stream->read(_backgroundColor, 4); // unused? stream->read(_foregroundColor, 4); stream->read(_highlightColor, 4); _paletteIndex = stream->readUint16(); uint16 phraseCount = stream->readUint16(); uint16 wordCount = stream->readUint16(); debug(3, "LiveText has %d words in %d phrases, palette index 0x%04x", wordCount, phraseCount, _paletteIndex); debug(3, "LiveText colors: background %02x%02x%02x%02x, foreground %02x%02x%02x%02x, highlight %02x%02x%02x%02x", _backgroundColor[0], _backgroundColor[1], _backgroundColor[2], _backgroundColor[3], _foregroundColor[0], _foregroundColor[1], _foregroundColor[2], _foregroundColor[3], _highlightColor[0], _highlightColor[1], _highlightColor[2], _highlightColor[3]); if (size != 18 + 14 * wordCount + 18 * phraseCount) error("Bad Live Text data size (got %d, wanted %d words and %d phrases)", size, wordCount, phraseCount); _words.clear(); for (uint i = 0; i < wordCount; i++) { LiveTextWord word; word.bounds = _vm->readRect(stream); word.soundId = stream->readUint16(); // TODO: unknowns uint16 unknown1 = stream->readUint16(); uint16 unknown2 = stream->readUint16(); debug(4, "Word: (%d, %d) to (%d, %d), sound %d, unknowns %04x, %04x", word.bounds.left, word.bounds.top, word.bounds.right, word.bounds.bottom, word.soundId, unknown1, unknown2); _words.push_back(word); } _phrases.clear(); for (uint i = 0; i < phraseCount; i++) { LiveTextPhrase phrase; phrase.wordStart = stream->readUint16(); phrase.wordCount = stream->readUint16(); phrase.highlightStart = stream->readUint16(); phrase.startId = stream->readUint16(); phrase.highlightEnd = stream->readUint16(); phrase.endId = stream->readUint16(); // The original stored the values in uint32's so we need to swap here if (_vm->isBigEndian()) { SWAP(phrase.highlightStart, phrase.startId); SWAP(phrase.highlightEnd, phrase.endId); } uint32 unknown1 = stream->readUint16(); uint16 unknown2 = stream->readUint32(); if (unknown1 != 0 || unknown2 != 0) error("Unexpected unknowns %08x/%04x in LiveText word", unknown1, unknown2); debug(4, "Phrase: start %d, count %d, start at %d (from %d), end at %d (from %d)", phrase.wordStart, phrase.wordCount, phrase.highlightStart, phrase.startId, phrase.highlightEnd, phrase.endId); _phrases.push_back(phrase); } } break; default: LBItem::readData(type, size, stream); } } bool LBLiveTextItem::contains(Common::Point point) { if (!LBItem::contains(point)) return false; point.x -= _rect.left; point.y -= _rect.top; for (uint i = 0; i < _words.size(); i++) { if (_words[i].bounds.contains(point)) return true; } return false; } void LBLiveTextItem::paletteUpdate(uint16 word, bool on) { _vm->_needsRedraw = true; // Sometimes the last phrase goes out-of-bounds, the original engine // only checks the words which are valid in the palette updating code. if (word >= _words.size()) return; if (_resourceId) { // with a resource, we draw a bitmap in draw() rather than changing the palette return; } if (on) { _vm->_system->getPaletteManager()->setPalette(_highlightColor, _paletteIndex + word, 1); } else { _vm->_system->getPaletteManager()->setPalette(_foregroundColor, _paletteIndex + word, 1); } } void LBLiveTextItem::update() { if (_currentWord != 0xFFFF) { uint16 soundId = _words[_currentWord].soundId; if (soundId && !_vm->_sound->isPlaying(soundId)) { paletteUpdate(_currentWord, false); _currentWord = 0xFFFF; } } LBItem::update(); } void LBLiveTextItem::draw() { // this is only necessary when we are drawing using a bitmap if (!_resourceId) return; if (_currentWord != 0xFFFF) { uint yPos = 0; if (_currentWord > 0) { for (uint i = 0; i < _currentWord; i++) { yPos += (_words[i].bounds.bottom - _words[i].bounds.top); } } drawWord(_currentWord, yPos); return; } if (_currentPhrase == 0xFFFF) return; uint wordStart = _phrases[_currentPhrase].wordStart; uint wordCount = _phrases[_currentPhrase].wordCount; if (wordStart + wordCount > _words.size()) error("phrase %d was invalid (%d words, from %d, out of only %d total)", _currentPhrase, wordCount, wordStart, _words.size()); uint yPos = 0; for (uint i = 0; i < wordStart + wordCount; i++) { if (i >= wordStart) drawWord(i, yPos); yPos += (_words[i].bounds.bottom - _words[i].bounds.top); } } void LBLiveTextItem::drawWord(uint word, uint yPos) { Common::Rect srcRect(0, yPos, _words[word].bounds.right - _words[word].bounds.left, yPos + _words[word].bounds.bottom - _words[word].bounds.top); Common::Rect dstRect = _words[word].bounds; dstRect.translate(_rect.left, _rect.top); _vm->_gfx->copyAnimImageSectionToScreen(_resourceId, srcRect, dstRect); } void LBLiveTextItem::handleMouseDown(Common::Point pos) { if (_neverEnabled || !_enabled || !_globalEnabled || _playing) return LBItem::handleMouseDown(pos); pos.x -= _rect.left; pos.y -= _rect.top; for (uint i = 0; i < _words.size(); i++) { if (_words[i].bounds.contains(pos)) { if (_currentWord != 0xFFFF) { paletteUpdate(_currentWord, false); _currentWord = 0xFFFF; } uint16 soundId = _words[i].soundId; if (!soundId) { // TODO: can we be smarter here, using timing? warning("ignoring click due to no soundId"); return; } _currentWord = i; _vm->_sound->playSound(soundId); paletteUpdate(_currentWord, true); return; } } return LBItem::handleMouseDown(pos); } bool LBLiveTextItem::togglePlaying(bool playing, bool restart) { if (!playing) return LBItem::togglePlaying(playing, restart); if (_neverEnabled || !_enabled || !_globalEnabled) return _playing; // TODO: handle this properly _vm->_sound->stopSound(); _currentWord = 0xFFFF; _currentPhrase = 0xFFFF; return true; } void LBLiveTextItem::stop() { // TODO: stop sound, refresh palette LBItem::stop(); } void LBLiveTextItem::notify(uint16 data, uint16 from) { if (_neverEnabled || !_enabled || !_globalEnabled || !_playing) return LBItem::notify(data, from); if (_currentWord != 0xFFFF) { // TODO: handle this properly _vm->_sound->stopSound(); paletteUpdate(_currentWord, false); _currentWord = 0xFFFF; } for (uint i = 0; i < _phrases.size(); i++) { if (_phrases[i].highlightStart == data && _phrases[i].startId == from) { debug(2, "Enabling phrase %d", i); for (uint j = 0; j < _phrases[i].wordCount; j++) { paletteUpdate(_phrases[i].wordStart + j, true); } _currentPhrase = i; // TODO: not sure this is the correct logic if (i == _phrases.size() - 1) { _currentPhrase = 0xFFFF; done(true); } } else if (_phrases[i].highlightEnd == data && _phrases[i].endId == from) { debug(2, "Disabling phrase %d", i); for (uint j = 0; j < _phrases[i].wordCount; j++) { paletteUpdate(_phrases[i].wordStart + j, false); } _currentPhrase = 0xFFFF; } } LBItem::notify(data, from); } LBPictureItem::LBPictureItem(MohawkEngine_LivingBooks *vm, Common::Rect rect) : LBItem(vm, rect) { debug(3, "new LBPictureItem"); } void LBPictureItem::readData(uint16 type, uint16 size, Common::SeekableSubReadStreamEndian *stream) { switch (type) { case kLBSetDrawMode: { assert(size == 2); // TODO: this probably sets whether points are always contained (0x10) // or whether the bitmap contents are checked (00, or anything else?) uint16 val = stream->readUint16(); debug(2, "LBPictureItem: kLBSetDrawMode: %04x", val); } break; default: LBItem::readData(type, size, stream); } } bool LBPictureItem::contains(Common::Point point) { if (!LBItem::contains(point)) return false; // TODO: only check pixels if necessary return !_vm->_gfx->imageIsTransparentAt(_resourceId, false, point.x - _rect.left, point.y - _rect.top); } void LBPictureItem::init() { _vm->_gfx->preloadImage(_resourceId); } void LBPictureItem::draw() { if (!_visible || !_globalVisible) return; _vm->_gfx->copyAnimImageToScreen(_resourceId, _rect.left, _rect.top); } LBAnimationItem::LBAnimationItem(MohawkEngine_LivingBooks *vm, Common::Rect rect) : LBItem(vm, rect) { _anim = NULL; _running = false; debug(3, "new LBAnimationItem"); } LBAnimationItem::~LBAnimationItem() { delete _anim; } void LBAnimationItem::setEnabled(bool enabled) { if (_running) { if (enabled && _neverEnabled) _anim->start(); else if (!_neverEnabled && !enabled && _enabled && _globalEnabled) if (_running) { _anim->stop(); } } return LBItem::setEnabled(enabled); } bool LBAnimationItem::contains(Common::Point point) { return LBItem::contains(point) && !_anim->transparentAt(point.x, point.y); } void LBAnimationItem::update() { if (!_neverEnabled && _enabled && _globalEnabled && _running) { bool wasDone = _anim->update(); if (wasDone) done(true); } LBItem::update(); } bool LBAnimationItem::togglePlaying(bool playing, bool restart) { if (playing) { if (!_neverEnabled && _enabled && _globalEnabled) { if (restart) seek(1); _running = true; _anim->start(); } return _running; } return LBItem::togglePlaying(playing, restart); } void LBAnimationItem::done(bool onlyNotify) { if (!onlyNotify) { _anim->stop(); } LBItem::done(onlyNotify); } void LBAnimationItem::init() { _anim = new LBAnimation(_vm, this, _resourceId); } void LBAnimationItem::stop() { if (_running) { _anim->stop(); seek(0xFFFF); } _running = false; LBItem::stop(); } void LBAnimationItem::seek(uint16 pos) { _anim->seek(pos); } void LBAnimationItem::startPhase(uint phase) { if (phase == _phase) seek(1); LBItem::startPhase(phase); } void LBAnimationItem::draw() { if (!_visible || !_globalVisible) return; _anim->draw(); } LBMovieItem::LBMovieItem(MohawkEngine_LivingBooks *vm, Common::Rect rect) : LBItem(vm, rect) { debug(3, "new LBMovieItem"); } LBMovieItem::~LBMovieItem() { } void LBMovieItem::update() { if (_playing) { VideoHandle videoHandle = _vm->_video->findVideoHandle(_resourceId); if (_vm->_video->endOfVideo(videoHandle)) done(true); } LBItem::update(); } bool LBMovieItem::togglePlaying(bool playing, bool restart) { if (playing) { if ((!_neverEnabled && _enabled && _globalEnabled) || _phase == 0x7FFF) { _vm->_video->playMovie(_resourceId, _rect.left, _rect.top); return true; } } return LBItem::togglePlaying(playing, restart); } LBMiniGameItem::LBMiniGameItem(MohawkEngine_LivingBooks *vm, Common::Rect rect) : LBItem(vm, rect) { debug(3, "new LBMiniGameItem"); } LBMiniGameItem::~LBMiniGameItem() { } bool LBMiniGameItem::togglePlaying(bool playing, bool restart) { // HACK: Since we don't support any of these hardcoded mini games yet, // just skip to the most logical page. For optional minigames, this // will return the player to the previous page. For mandatory minigames, // this will send the player to the next page. // TODO: Document mini games from Arthur's Reading Race uint16 destPage; // Figure out what minigame we have and bring us back to a page where // the player can continue if (_desc == "Kitch") // Green Eggs and Ham: Kitchen minigame destPage = 4; else if (_desc == "Eggs") // Green Eggs and Ham: Eggs minigame destPage = 5; else if (_desc == "Fall") // Green Eggs and Ham: Fall minigame destPage = 13; else error("Unknown minigame '%s'", _desc.c_str()); GUI::MessageDialog dialog(Common::String::format("The '%s' minigame is not supported yet.", _desc.c_str())); dialog.runModal(); _vm->addNotifyEvent(NotifyEvent(kLBNotifyChangePage, destPage)); return false; } } // End of namespace Mohawk