/* ScummVM - Graphic Adventure Engine * * ScummVM is the legal property of its developers, whose names * are too numerous to list here. Please refer to the COPYRIGHT * file distributed with this source distribution. * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. * */ #include "kyra/script_tim.h" #include "kyra/resource.h" #include "kyra/sound.h" #ifdef ENABLE_LOL #include "kyra/lol.h" #include "kyra/screen_lol.h" #endif // ENABLE_LOL #include "common/iff_container.h" #include "common/system.h" namespace Kyra { TIMInterpreter::TIMInterpreter(KyraEngine_v1 *engine, Screen_v2 *screen_v2, OSystem *system) : _vm(engine), _screen(screen_v2), _system(system), _currentTim(0) { #define COMMAND(x) { &TIMInterpreter::x, #x } #define COMMAND_UNIMPL() { 0, 0 } #define cmd_return(n) cmd_return_##n static const CommandEntry commandProcs[] = { // 0x00 COMMAND(cmd_initFunc0), COMMAND(cmd_stopCurFunc), COMMAND(cmd_initWSA), COMMAND(cmd_uninitWSA), // 0x04 COMMAND(cmd_initFunc), COMMAND(cmd_stopFunc), COMMAND(cmd_wsaDisplayFrame), COMMAND(cmd_displayText), // 0x08 COMMAND(cmd_loadVocFile), COMMAND(cmd_unloadVocFile), COMMAND(cmd_playVocFile), COMMAND_UNIMPL(), // 0x0C COMMAND(cmd_loadSoundFile), COMMAND(cmd_return(1)), COMMAND(cmd_playMusicTrack), COMMAND_UNIMPL(), // 0x10 COMMAND(cmd_return(1)), COMMAND(cmd_return(1)), COMMAND_UNIMPL(), COMMAND_UNIMPL(), // 0x14 COMMAND(cmd_setLoopIp), COMMAND(cmd_continueLoop), COMMAND(cmd_resetLoopIp), COMMAND(cmd_resetAllRuntimes), // 0x18 COMMAND(cmd_return(1)), COMMAND(cmd_execOpcode), COMMAND(cmd_initFuncNow), COMMAND(cmd_stopFuncNow), // 0x1C COMMAND(cmd_return(1)), COMMAND(cmd_return(1)), COMMAND(cmd_return(n1)) }; #undef cmd_return #undef COMMAND_UNIMPL #undef COMMAND _commands = commandProcs; _commandsSize = ARRAYSIZE(commandProcs); _langData = 0; _textDisplayed = false; _textAreaBuffer = new uint8[320*40]; assert(_textAreaBuffer); if ((_vm->gameFlags().platform == Common::kPlatformPC98 || _vm->gameFlags().isDemo) && _vm->game() == GI_LOL) _drawPage2 = 0; else _drawPage2 = 8; _animator = new TimAnimator(0, screen_v2, 0, false); _palDelayInc = _palDiff = _palDelayAcc = 0; _abortFlag = 0; _tim = 0; } TIMInterpreter::~TIMInterpreter() { delete[] _langData; delete[] _textAreaBuffer; delete _animator; } bool TIMInterpreter::callback(Common::IFFChunk &chunk) { switch (chunk._type) { case MKTAG('T','E','X','T'): _tim->text = new byte[chunk._size]; assert(_tim->text); if (chunk._stream->read(_tim->text, chunk._size) != chunk._size) error("Couldn't read TEXT chunk from file '%s'", _filename); break; case MKTAG('A','V','T','L'): _avtlChunkSize = chunk._size >> 1; _tim->avtl = new uint16[_avtlChunkSize]; assert(_tim->avtl); if (chunk._stream->read(_tim->avtl, chunk._size) != chunk._size) error("Couldn't read AVTL chunk from file '%s'", _filename); for (int i = _avtlChunkSize - 1; i >= 0; --i) _tim->avtl[i] = READ_LE_UINT16(&_tim->avtl[i]); break; default: warning("Unexpected chunk '%s' of size %d found in file '%s'", tag2str(chunk._type), chunk._size, _filename); } return false; } TIM *TIMInterpreter::load(const char *filename, const Common::Array *opcodes) { if (!_vm->resource()->exists(filename)) return 0; Common::SeekableReadStream *stream = _vm->resource()->createReadStream(filename); if (!stream) error("Couldn't open TIM file '%s'", filename); _avtlChunkSize = 0; _filename = filename; _tim = new TIM; assert(_tim); memset(_tim, 0, sizeof(TIM)); _tim->procFunc = -1; _tim->opcodes = opcodes; IFFParser iff(*stream); Common::Functor1Mem c(this, &TIMInterpreter::callback); iff.parse(c); if (!_tim->avtl) error("No AVTL chunk found in file: '%s'", filename); if (stream->err()) error("Read error while parsing file '%s'", filename); delete stream; const int num = (_avtlChunkSize < TIM::kCountFuncs) ? _avtlChunkSize : (int)TIM::kCountFuncs; for (int i = 0; i < num; ++i) _tim->func[i].avtl = _tim->avtl + _tim->avtl[i]; Common::strlcpy(_tim->filename, filename, 13); _tim->isLoLOutro = (_vm->game() == GI_LOL) && !scumm_stricmp(filename, "LOLFINAL.TIM"); _tim->lolCharacter = 0; TIM *r = _tim; _tim = 0; return r; } void TIMInterpreter::unload(TIM *&tim) const { if (!tim) return; delete[] tim->text; delete[] tim->avtl; delete tim; tim = 0; } void TIMInterpreter::setLangData(const char *filename) { delete[] _langData; _langData = _vm->resource()->fileData(filename, 0); } int TIMInterpreter::exec(TIM *tim, bool loop) { if (!tim) return 0; _currentTim = tim; if (!_currentTim->func[0].ip) { _currentTim->func[0].ip = _currentTim->func[0].avtl; _currentTim->func[0].nextTime = _currentTim->func[0].lastTime = _system->getMillis(); } do { update(); for (_currentFunc = 0; _currentFunc < TIM::kCountFuncs; ++_currentFunc) { TIM::Function &cur = _currentTim->func[_currentFunc]; if (_currentTim->procFunc != -1) execCommand(28, &_currentTim->procParam); update(); checkSpeechProgress(); bool running = true; int cnt = 0; while (cur.ip && cur.nextTime <= _system->getMillis() && running) { if (cnt++ > 0) { if (_currentTim->procFunc != -1) execCommand(28, &_currentTim->procParam); update(); } int8 opcode = int8(cur.ip[2] & 0xFF); switch (execCommand(opcode, cur.ip + 3)) { case -1: loop = false; running = false; _currentFunc = 11; break; case -2: running = false; break; case -3: _currentTim->procFunc = _currentFunc; _currentTim->dlgFunc = -1; break; case 22: cur.loopIp = 0; break; default: break; } if (cur.ip) { cur.ip += cur.ip[0]; cur.lastTime = cur.nextTime; cur.nextTime += cur.ip[1] * _vm->tickLength(); } } } } while (loop && !_vm->shouldQuit()); return _currentTim->clickedButton; } void TIMInterpreter::refreshTimersAfterPause(uint32 elapsedTime) { if (!_currentTim) return; for (int i = 0; i < TIM::kCountFuncs; i++) { if (_currentTim->func[i].lastTime) _currentTim->func[i].lastTime += elapsedTime; if (_currentTim->func[i].nextTime) _currentTim->func[i].nextTime += elapsedTime; } } void TIMInterpreter::displayText(uint16 textId, int16 flags) { char *text = getTableEntry(textId); if (_textDisplayed) { _screen->copyBlockToPage(0, 0, 160, 320, 40, _textAreaBuffer); _textDisplayed = false; } if (!text) return; if (!text[0]) return; char filename[16]; memset(filename, 0, sizeof(filename)); if (text[0] == '$') { const char *end = strchr(text+1, '$'); if (end) memcpy(filename, text+1, end-1-text); } const bool sjisMode = (_vm->gameFlags().lang == Common::JA_JPN && _vm->gameFlags().use16ColorMode); if (filename[0] && (_vm->speechEnabled() || !_vm->gameFlags().isTalkie)) _vm->sound()->voicePlay(filename, 0, 255, 255, !_vm->gameFlags().isTalkie); if (text[0] == '$') text = strchr(text + 1, '$') + 1; if (!_vm->gameFlags().use16ColorMode) setupTextPalette((flags < 0) ? 1 : flags, 0); if (flags < 0) { static const uint8 colorMap[] = { 0x00, 0xF0, 0xFE, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 }; _screen->setFont(sjisMode ? Screen::FID_SJIS_FNT : Screen::FID_8_FNT); _screen->setTextColorMap(colorMap); _screen->_charWidth = -2; } _screen->_charOffset = -4; _screen->copyRegionToBuffer(0, 0, 160, 320, 40, _textAreaBuffer); _textDisplayed = true; char backupChar = 0; char *str = text; int heightAdd = 0; while (str[0] && _vm->textEnabled()) { char *nextLine = strchr(str, '\r'); backupChar = 0; if (nextLine) { backupChar = nextLine[0]; nextLine[0] = '\0'; } int width = _screen->getTextWidth(str); if (flags >= 0) { if (_vm->gameFlags().use16ColorMode) { static const uint8 colorMap[] = { 0xE1, 0xE1, 0xC1, 0xA1, 0x81, 0x61 }; _screen->printText(str, (320 - width) >> 1, 160 + heightAdd, colorMap[flags], 0x00); } else { _screen->printText(str, (320 - width) >> 1, 160 + heightAdd, 0xF0, 0x00); } } else { _screen->printText(str, (320 - width) >> 1, 188, 0xF0, 0x00); } heightAdd += _screen->getFontHeight(); str += strlen(str); if (backupChar) { nextLine[0] = backupChar; ++str; } } _screen->_charOffset = 0; if (flags < 0) { static const uint8 colorMap[] = { 0x00, 0xF0, 0xF1, 0xF2, 0xF3, 0xF4, 0xF5, 0xF6, 0xF7, 0xF8, 0xF9, 0xFA, 0x00, 0x00, 0x00, 0x00 }; _screen->setFont(sjisMode ? Screen::FID_SJIS_FNT : Screen::FID_INTRO_FNT); _screen->setTextColorMap(colorMap); _screen->_charWidth = 0; } } void TIMInterpreter::displayText(uint16 textId, int16 flags, uint8 color) { if (!_vm->textEnabled() && !(textId & 0x8000)) return; char *text = getTableEntry(textId & 0x7FFF); if (flags > 0) _screen->copyBlockToPage(0, 0, 0, 320, 40, _textAreaBuffer); if (flags == 255) return; _screen->setFont((_vm->gameFlags().lang == Common::JA_JPN && _vm->gameFlags().use16ColorMode) ? Screen::FID_SJIS_FNT : Screen::FID_INTRO_FNT); static const uint8 colorMap[] = { 0x00, 0xA0, 0xA1, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 }; _screen->setTextColorMap(colorMap); _screen->_charWidth = 0; if (!_vm->gameFlags().use16ColorMode) _screen->_charOffset = -4; if (!flags) _screen->copyRegionToBuffer(0, 0, 0, 320, 40, _textAreaBuffer); char backupChar = 0; char *str = text; int y = 0; if (_vm->gameFlags().use16ColorMode) { if (color == 0xDA) color = 0xA1; else if (color == 0xF2) color = 0xE1; else if (flags < 0) color = 0xE1; else color = 0xC1; } while (str[0]) { char *nextLine = strchr(str, '\r'); backupChar = 0; if (nextLine) { backupChar = nextLine[0]; nextLine[0] = '\0'; } int width = _screen->getTextWidth(str); if (flags >= 0) _screen->printText(str, (320 - width) >> 1, y, color, 0x00); else _screen->printText(str, 0, y, color, 0x00); y += (_vm->gameFlags().use16ColorMode ? 16 : (_screen->getFontHeight() - 4)); str += strlen(str); if (backupChar) { nextLine[0] = backupChar; ++str; } } } void TIMInterpreter::setupTextPalette(uint index, int fadePalette) { static const uint16 palTable[] = { 0x00, 0x00, 0x00, 0x64, 0x64, 0x64, 0x61, 0x51, 0x30, 0x29, 0x48, 0x64, 0x00, 0x4B, 0x3B, 0x64, 0x1E, 0x1E, }; for (int i = 0; i < 15; ++i) { uint8 *palette = _screen->getPalette(0).getData() + (240 + i) * 3; uint8 c1 = (((15 - i) << 2) * palTable[index*3+0]) / 100; uint8 c2 = (((15 - i) << 2) * palTable[index*3+1]) / 100; uint8 c3 = (((15 - i) << 2) * palTable[index*3+2]) / 100; palette[0] = c1; palette[1] = c2; palette[2] = c3; } if (!fadePalette && !_palDiff) { _screen->setScreenPalette(_screen->getPalette(0)); } else { _screen->getFadeParams(_screen->getPalette(0), fadePalette, _palDelayInc, _palDiff); _palDelayAcc = 0; } } int TIMInterpreter::initAnimStruct(int index, const char *filename, int x, int y, int, int offscreenBuffer, uint16 wsaFlags) { Movie *wsa = 0; const bool isLoLDemo = _vm->gameFlags().isDemo && _vm->game() == GI_LOL; if (isLoLDemo || _vm->gameFlags().platform == Common::kPlatformPC98 || _currentTim->isLoLOutro) _drawPage2 = 0; else _drawPage2 = 8; uint16 wsaOpenFlags = 0; if (isLoLDemo) { if (!(wsaFlags & 0x10)) wsaOpenFlags |= 1; } else { if (wsaFlags & 0x10) wsaOpenFlags |= 2; wsaOpenFlags |= 1; if (offscreenBuffer == 2) wsaOpenFlags = 1; } Common::String file = Common::String::format("%s.WSA", filename); if (_vm->resource()->exists(file.c_str())) { if (isLoLDemo) wsa = new WSAMovie_v1(_vm); else wsa = new WSAMovie_v2(_vm); assert(wsa); wsa->open(file.c_str(), wsaOpenFlags, (index == 1) ? &_screen->getPalette(0) : 0); } if (wsa && wsa->opened()) { if (isLoLDemo) { if (x == -1) { int16 t = int8(320 - wsa->width()); uint8 v = int8(t & 0x00FF) - int8((t & 0xFF00) >> 8); v >>= 1; x = v; } if (y == -1) { int16 t = int8(200 - wsa->height()); uint8 v = int8(t & 0x00FF) - int8((t & 0xFF00) >> 8); v >>= 1; y = v; } } else { if (x == -1) x = 0; if (y == -1) y = 0; } if (wsaFlags & 2) { _screen->fadePalette(_screen->getPalette(1), 15, 0); _screen->clearPage(_drawPage2); if (_drawPage2) _screen->checkedPageUpdate(8, 4); _screen->updateScreen(); } if (wsaFlags & 4) { file = Common::String::format("%s.CPS", filename); if (_vm->resource()->exists(file.c_str())) { _screen->loadBitmap(file.c_str(), 3, 3, &_screen->getPalette(0)); _screen->copyRegion(0, 0, 0, 0, 320, 200, 2, _drawPage2, Screen::CR_NO_P_CHECK); if (_drawPage2) _screen->checkedPageUpdate(8, 4); _screen->updateScreen(); } wsa->displayFrame(0, 0, x, y, 0, 0, 0); } if (wsaFlags & 2) _screen->fadePalette(_screen->getPalette(0), 30, 0); } else { if (wsaFlags & 2) { _screen->fadePalette(_screen->getPalette(1), 15, 0); _screen->clearPage(_drawPage2); if (_drawPage2) _screen->checkedPageUpdate(8, 4); _screen->updateScreen(); } file = Common::String::format("%s.CPS", filename); if (_vm->resource()->exists(file.c_str())) { _screen->loadBitmap(file.c_str(), 3, 3, &_screen->getPalette(0)); _screen->copyRegion(0, 0, 0, 0, 320, 200, 2, _drawPage2, Screen::CR_NO_P_CHECK); if (_drawPage2) _screen->checkedPageUpdate(8, 4); _screen->updateScreen(); } if (wsaFlags & 2) _screen->fadePalette(_screen->getPalette(0), 30, 0); } _animator->init(index, wsa, x, y, wsaFlags, 0); return index + 1; } int TIMInterpreter::freeAnimStruct(int index) { _animator->reset(index, true); return 1; } char *TIMInterpreter::getTableEntry(uint idx) { if (!_langData) return 0; else return (char *)(_langData + READ_LE_UINT16(_langData + (idx<<1))); } const char *TIMInterpreter::getCTableEntry(uint idx) const { if (!_langData) return 0; else return (const char *)(_langData + READ_LE_UINT16(_langData + (idx<<1))); } int TIMInterpreter::execCommand(int cmd, const uint16 *param) { if (cmd < 0 || cmd >= _commandsSize) { warning("Calling unimplemented TIM command %d from file '%s'", cmd, _currentTim->filename); return 0; } if (_commands[cmd].proc == 0) { warning("Calling unimplemented TIM command %d from file '%s'", cmd, _currentTim->filename); return 0; } debugC(5, kDebugLevelScript, "TIMInterpreter::%s(%p)", _commands[cmd].desc, (const void *)param); return (this->*_commands[cmd].proc)(param); } int TIMInterpreter::cmd_initFunc0(const uint16 *param) { for (int i = 0; i < TIM::kWSASlots; ++i) memset(&_currentTim->wsa[i], 0, sizeof(TIM::WSASlot)); _currentTim->func[0].ip = _currentTim->func[0].avtl; _currentTim->func[0].lastTime = _system->getMillis(); return 1; } int TIMInterpreter::cmd_stopCurFunc(const uint16 *param) { if (_currentFunc < TIM::kCountFuncs) _currentTim->func[_currentFunc].ip = 0; if (!_currentFunc) _finished = true; return -2; } void TIMInterpreter::stopAllFuncs(TIM *tim) { for (int i = 0; i < TIM::kCountFuncs; ++i) tim->func[i].ip = 0; } int TIMInterpreter::cmd_initWSA(const uint16 *param) { const int index = param[0]; TIM::WSASlot &slot = _currentTim->wsa[index]; slot.x = int16(param[2]); slot.y = int16(param[3]); slot.offscreen = param[4]; slot.wsaFlags = param[5]; const char *filename = (const char *)(_currentTim->text + READ_LE_UINT16(_currentTim->text + (param[1]<<1))); slot.anim = initAnimStruct(index, filename, slot.x, slot.y, 10, slot.offscreen, slot.wsaFlags); return 1; } int TIMInterpreter::cmd_uninitWSA(const uint16 *param) { const int index = param[0]; TIM::WSASlot &slot = _currentTim->wsa[index]; if (!slot.anim) return 0; if (slot.offscreen) { _animator->reset(index, false); slot.anim = 0; } else { //XXX _animator->reset(index, true); memset(&slot, 0, sizeof(TIM::WSASlot)); } return 1; } int TIMInterpreter::cmd_initFunc(const uint16 *param) { uint16 func = *param; assert(func < TIM::kCountFuncs); if (_currentTim->func[func].avtl) _currentTim->func[func].ip = _currentTim->func[func].avtl; else _currentTim->func[func].avtl = _currentTim->func[func].ip = _currentTim->avtl + _currentTim->avtl[func]; return 1; } int TIMInterpreter::cmd_stopFunc(const uint16 *param) { uint16 func = *param; assert(func < TIM::kCountFuncs); _currentTim->func[func].ip = 0; return 1; } int TIMInterpreter::cmd_wsaDisplayFrame(const uint16 *param) { _animator->displayFrame(param[0], _drawPage2, param[1]); return 1; } int TIMInterpreter::cmd_displayText(const uint16 *param) { if (_currentTim->isLoLOutro) displayText(param[0], param[1], 0xF2); else displayText(param[0], param[1]); return 1; } int TIMInterpreter::cmd_loadVocFile(const uint16 *param) { const int stringId = param[0]; const int index = param[1]; _vocFiles[index] = (const char *)(_currentTim->text + READ_LE_UINT16(_currentTim->text + (stringId << 1))); if (index == 2 && _currentTim->isLoLOutro && _vm->gameFlags().isTalkie) { _vocFiles[index] = "CONGRATA.VOC"; switch (_currentTim->lolCharacter) { case 0: _vocFiles[index].setChar('K', 7); break; case 1: _vocFiles[index].setChar('A', 7); break; case 2: _vocFiles[index].setChar('M', 7); break; case 3: _vocFiles[index].setChar('C', 7); break; default: break; } } for (int i = 0; i < 4; ++i) _vocFiles[index].deleteLastChar(); return 1; } int TIMInterpreter::cmd_unloadVocFile(const uint16 *param) { const int index = param[0]; _vocFiles[index].clear(); return 1; } int TIMInterpreter::cmd_playVocFile(const uint16 *param) { const int index = param[0]; const int volume = (param[1] * 255) / 100; if (index < ARRAYSIZE(_vocFiles) && !_vocFiles[index].empty()) _vm->sound()->voicePlay(_vocFiles[index].c_str(), 0, volume, 255, true); else if (index == 7 && !_vm->gameFlags().isTalkie) _vm->sound()->playTrack(index); else _vm->sound()->playSoundEffect(index); return 1; } int TIMInterpreter::cmd_loadSoundFile(const uint16 *param) { const char *file = (const char *)(_currentTim->text + READ_LE_UINT16(_currentTim->text + (param[0]<<1))); _vm->sound()->loadSoundFile(file); if (_vm->game() == GI_LOL) _vm->sound()->loadSfxFile(file); return 1; } int TIMInterpreter::cmd_playMusicTrack(const uint16 *param) { _vm->sound()->playTrack(param[0]); return 1; } int TIMInterpreter::cmd_setLoopIp(const uint16 *param) { _currentTim->func[_currentFunc].loopIp = _currentTim->func[_currentFunc].ip; return 1; } int TIMInterpreter::cmd_continueLoop(const uint16 *param) { TIM::Function &func = _currentTim->func[_currentFunc]; if (!func.loopIp) return -2; func.ip = func.loopIp; uint16 factor = param[0]; if (factor) { const uint32 random = _vm->_rnd.getRandomNumberRng(0, 0x8000); uint32 waitTime = (random * factor) / 0x8000; func.nextTime += waitTime * _vm->tickLength(); } return -2; } int TIMInterpreter::cmd_resetLoopIp(const uint16 *param) { _currentTim->func[_currentFunc].loopIp = 0; return 1; } int TIMInterpreter::cmd_resetAllRuntimes(const uint16 *param) { for (int i = 0; i < TIM::kCountFuncs; ++i) { if (_currentTim->func[i].ip) _currentTim->func[i].nextTime = _system->getMillis(); } return 1; } int TIMInterpreter::cmd_execOpcode(const uint16 *param) { const uint16 opcode = *param++; if (!_currentTim->opcodes) { warning("Trying to execute TIM opcode %d without opcode list (file '%s')", opcode, _currentTim->filename); return 0; } if (opcode > _currentTim->opcodes->size()) { warning("Calling unimplemented TIM opcode(0x%.02X/%d) from file '%s'", opcode, opcode, _currentTim->filename); return 0; } if (!(*_currentTim->opcodes)[opcode]->isValid()) { warning("Calling unimplemented TIM opcode(0x%.02X/%d) from file '%s'", opcode, opcode, _currentTim->filename); return 0; } return (*(*_currentTim->opcodes)[opcode])(_currentTim, param); } int TIMInterpreter::cmd_initFuncNow(const uint16 *param) { uint16 func = *param; assert(func < TIM::kCountFuncs); _currentTim->func[func].ip = _currentTim->func[func].avtl; _currentTim->func[func].lastTime = _currentTim->func[func].nextTime = _system->getMillis(); return 1; } int TIMInterpreter::cmd_stopFuncNow(const uint16 *param) { uint16 func = *param; assert(func < TIM::kCountFuncs); _currentTim->func[func].ip = 0; _currentTim->func[func].lastTime = _currentTim->func[func].nextTime = _system->getMillis(); return 1; } // TODO: Consider moving to another file #ifdef ENABLE_LOL // LOL version of the TIM interpreter TIMInterpreter_LoL::TIMInterpreter_LoL(LoLEngine *engine, Screen_v2 *screen_v2, OSystem *system) : TIMInterpreter(engine, screen_v2, system), _vm(engine) { #define COMMAND(x) { &TIMInterpreter_LoL::x, #x } #define COMMAND_UNIMPL() { 0, 0 } #define cmd_return(n) cmd_return_##n static const CommandEntry commandProcs[] = { // 0x00 COMMAND(cmd_initFunc0), COMMAND(cmd_stopAllFuncs), COMMAND(cmd_initWSA), COMMAND(cmd_uninitWSA), // 0x04 COMMAND(cmd_initFunc), COMMAND(cmd_stopFunc), COMMAND(cmd_wsaDisplayFrame), COMMAND_UNIMPL(), // 0x08 COMMAND(cmd_loadVocFile), COMMAND(cmd_unloadVocFile), COMMAND(cmd_playVocFile), COMMAND_UNIMPL(), // 0x0C COMMAND(cmd_loadSoundFile), COMMAND(cmd_return(1)), COMMAND(cmd_playMusicTrack), COMMAND_UNIMPL(), // 0x10 COMMAND(cmd_return(1)), COMMAND(cmd_return(1)), COMMAND_UNIMPL(), COMMAND_UNIMPL(), // 0x14 COMMAND(cmd_setLoopIp), COMMAND(cmd_continueLoop), COMMAND(cmd_resetLoopIp), COMMAND(cmd_resetAllRuntimes), // 0x18 COMMAND(cmd_return(1)), COMMAND(cmd_execOpcode), COMMAND(cmd_initFuncNow), COMMAND(cmd_stopFuncNow), // 0x1C COMMAND(cmd_processDialogue), COMMAND(cmd_dialogueBox), COMMAND(cmd_return(n1)) }; #undef cmd_return #undef COMMAND_UNIMPL #undef COMMAND _commands = commandProcs; _commandsSize = ARRAYSIZE(commandProcs); _screen = engine->_screen; delete _animator; _animator = new TimAnimator(engine, screen_v2, system, true); _drawPage2 = 0; } int TIMInterpreter_LoL::initAnimStruct(int index, const char *filename, int x, int y, int frameDelay, int, uint16 wsaFlags) { Movie *wsa = 0; uint16 wsaOpenFlags = 0; if (wsaFlags & 0x10) wsaOpenFlags |= 2; if (wsaFlags & 8) wsaOpenFlags |= 1; Common::String file = Common::String::format("%s.WSA", filename); if (_vm->resource()->exists(file.c_str())) { wsa = new WSAMovie_v2(_vm); assert(wsa); wsa->open(file.c_str(), wsaOpenFlags, &_screen->getPalette(3)); } if (!_vm->_flags.use16ColorMode) { if (wsaFlags & 1) { if (_screen->_fadeFlag != 1) _screen->fadeClearSceneWindow(10); _screen->getPalette(3).copy(_screen->getPalette(0), 128, 128); } else if (wsaFlags & 2) { _screen->fadeToBlack(10); } } if (wsa && (wsaFlags & 7)) wsa->displayFrame(0, 0, x, y, 0, 0, 0); if (wsaFlags & 3) { if (_vm->_flags.use16ColorMode) { _vm->setPaletteBrightness(_screen->getPalette(0), _vm->_brightness, _vm->_lampEffect); } else { _screen->loadSpecialColors(_screen->getPalette(3)); _screen->fadePalette(_screen->getPalette(3), 10); } _screen->_fadeFlag = 0; } _animator->init(index, wsa, x, y, wsaFlags, frameDelay); return index + 1; } int TIMInterpreter_LoL::freeAnimStruct(int index) { _animator->reset(index, true); return 1; } void TIMInterpreter_LoL::advanceToOpcode(int opcode) { TIM::Function *f = &_currentTim->func[_currentTim->dlgFunc]; uint16 len = f->ip[0]; while ((f->ip[2] & 0xFF) != opcode) { if ((f->ip[2] & 0xFF) == 1) { f->ip[0] = len; break; } len = f->ip[0]; f->ip += len; } f->nextTime = _system->getMillis(); } void TIMInterpreter_LoL::resetDialogueState(TIM *tim) { if (!tim) return; tim->procFunc = 0; tim->procParam = _vm->_dialogueNumButtons ? _vm->_dialogueNumButtons : 1; tim->clickedButton = 0; tim->dlgFunc = -1; } void TIMInterpreter_LoL::update() { _vm->update(); } void TIMInterpreter_LoL::checkSpeechProgress() { if (_vm->speechEnabled() && _currentTim->procParam > 1 && _currentTim->func[_currentFunc].loopIp) { if (_vm->snd_updateCharacterSpeech() != 2) { _currentTim->func[_currentFunc].loopIp = 0; _currentTim->dlgFunc = _currentFunc; advanceToOpcode(21); _currentTim->dlgFunc = -1; _animator->reset(5, false); } } } char *TIMInterpreter_LoL::getTableString(int id) { return _vm->getLangString(id); } int TIMInterpreter_LoL::execCommand(int cmd, const uint16 *param) { if (cmd < 0 || cmd >= _commandsSize) { warning("Calling unimplemented TIM command %d from file '%s'", cmd, _currentTim->filename); return 0; } if (_commands[cmd].proc == 0) { warning("Calling unimplemented TIM command %d from file '%s'", cmd, _currentTim->filename); return 0; } debugC(5, kDebugLevelScript, "TIMInterpreter::%s(%p)", _commands[cmd].desc, (const void *)param); return (this->*_commands[cmd].proc)(param); } int TIMInterpreter_LoL::cmd_stopAllFuncs(const uint16 *param) { while (_currentTim->dlgFunc == -1 && _currentTim->clickedButton == 0 && !_vm->shouldQuit()) { update(); _currentTim->clickedButton = _vm->processDialogue(); } for (int i = 0; i < TIM::kCountFuncs; ++i) _currentTim->func[i].ip = 0; return -1; } int TIMInterpreter_LoL::cmd_setLoopIp(const uint16 *param) { if (_vm->speechEnabled()) { if (_vm->snd_updateCharacterSpeech() == 2) _currentTim->func[_currentFunc].loopIp = _currentTim->func[_currentFunc].ip; else advanceToOpcode(21); } else { _currentTim->func[_currentFunc].loopIp = _currentTim->func[_currentFunc].ip; } return 1; } int TIMInterpreter_LoL::cmd_continueLoop(const uint16 *param) { TIM::Function &func = _currentTim->func[_currentFunc]; if (!func.loopIp) return -2; func.ip = func.loopIp; if (_vm->snd_updateCharacterSpeech() != 2) { uint16 factor = param[0]; if (factor) { const uint32 random = _vm->_rnd.getRandomNumberRng(0, 0x8000); uint32 waitTime = (random * factor) / 0x8000; func.nextTime += waitTime * _vm->tickLength(); } } return -2; } int TIMInterpreter_LoL::cmd_processDialogue(const uint16 *param) { int res = _vm->processDialogue(); if (!res || !_currentTim->procParam) return res; _vm->snd_stopSpeech(false); _currentTim->func[_currentTim->procFunc].loopIp = 0; _currentTim->dlgFunc = _currentTim->procFunc; _currentTim->procFunc = -1; _currentTim->clickedButton = res; _animator->reset(5, false); if (_currentTim->procParam) advanceToOpcode(21); return res; } int TIMInterpreter_LoL::cmd_dialogueBox(const uint16 *param) { uint16 func = *param; assert(func < TIM::kCountFuncs); _currentTim->procParam = func; _currentTim->clickedButton = 0; const char *tmpStr[3]; int cnt = 0; for (int i = 1; i < 4; i++) { if (param[i] != 0xFFFF) { tmpStr[i-1] = getTableString(param[i]); cnt++; } else { tmpStr[i-1] = 0; } } _vm->setupDialogueButtons(cnt, tmpStr[0], tmpStr[1], tmpStr[2]); _vm->gui_notifyButtonListChanged(); return -3; } #endif // ENABLE_LOL } // End of namespace Kyra