/* 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: https://svn.scummvm.org:4444/svn/dreamweb/dreamweb.cpp $ * $Id: dreamweb.cpp 79 2011-06-05 08:26:54Z eriktorbjorn $ * */ #include "common/config-manager.h" #include "common/debug-channels.h" #include "common/events.h" #include "common/EventRecorder.h" #include "common/file.h" #include "common/func.h" #include "common/system.h" #include "common/timer.h" #include "common/util.h" #include "audio/mixer.h" #include "audio/decoders/raw.h" #include "graphics/palette.h" #include "graphics/surface.h" #include "dreamweb/dreamweb.h" #include "dreamweb/dreamgen.h" namespace DreamWeb { DreamWebEngine::DreamWebEngine(OSystem *syst, const DreamWebGameDescription *gameDesc) : Engine(syst), _gameDescription(gameDesc), _rnd("dreamweb") { _context.engine = this; // Setup mixer _mixer->setVolumeForSoundType(Audio::Mixer::kSFXSoundType, ConfMan.getInt("sfx_volume")); _mixer->setVolumeForSoundType(Audio::Mixer::kMusicSoundType, ConfMan.getInt("music_volume")); _mixer->setVolumeForSoundType(Audio::Mixer::kSpeechSoundType, ConfMan.getInt("speech_volume")); _vSyncInterrupt = false; _console = 0; DebugMan.addDebugChannel(kDebugAnimation, "Animation", "Animation Debug Flag"); DebugMan.addDebugChannel(kDebugSaveLoad, "SaveLoad", "Track Save/Load Function"); _outSaveFile = 0; _inSaveFile = 0; _speed = 1; _turbo = false; _oldMouseState = 0; _channel0 = 0; _channel1 = 0; _language = gameDesc->desc.language; } DreamWebEngine::~DreamWebEngine() { DebugMan.clearAllDebugChannels(); delete _console; } static void vSyncInterrupt(void *refCon) { DreamWebEngine *vm = (DreamWebEngine *)refCon; if (!vm->isPaused()) { vm->setVSyncInterrupt(true); } } void DreamWebEngine::setVSyncInterrupt(bool flag) { _vSyncInterrupt = flag; } void DreamWebEngine::waitForVSync() { processEvents(); if (!_turbo) { while (!_vSyncInterrupt) { _system->delayMillis(10); } setVSyncInterrupt(false); } _context.doshake(); _context.dofade(); _system->updateScreen(); } void DreamWebEngine::quit() { _context.data.byte(DreamGen::DreamGenContext::kQuitrequested) = 1; _context.data.byte(DreamGen::DreamGenContext::kLasthardkey) = 1; } void DreamWebEngine::processEvents() { Common::EventManager *event_manager = _system->getEventManager(); if (event_manager->shouldQuit()) { quit(); return; } if (_enableSavingOrLoading && _loadSavefile >= 0 && _loadSavefile <= 6) { debug(1, "loading save state %d", _loadSavefile); _context.data.byte(_context.kCurrentslot) = _loadSavefile; _loadSavefile = -1; _context.loadposition(); _context.data.byte(_context.kGetback) = 1; } soundHandler(); Common::Event event; int softKey, hardKey; while (event_manager->pollEvent(event)) { switch(event.type) { case Common::EVENT_RTL: quit(); break; case Common::EVENT_KEYDOWN: if (event.kbd.flags & Common::KBD_CTRL) { switch (event.kbd.keycode) { case Common::KEYCODE_d: _console->attach(); _console->onFrame(); break; case Common::KEYCODE_f: setSpeed(_speed != 20? 20: 1); break; case Common::KEYCODE_g: _turbo = !_turbo; break; case Common::KEYCODE_c: //skip statue puzzle _context.data.byte(DreamGen::DreamGenContext::kSymbolbotnum) = 3; _context.data.byte(DreamGen::DreamGenContext::kSymboltopnum) = 5; break; default: break; } return; //do not pass ctrl + key to the engine } // Some parts of the ASM code uses the hardware key // code directly. We don't have that code, so we fake // it for the keys where it's needed and assume it's // 0 (which is actually an invalid value, as far as I // know) otherwise. hardKey = 0; switch (event.kbd.keycode) { case Common::KEYCODE_ESCAPE: hardKey = 1; break; case Common::KEYCODE_SPACE: hardKey = 57; break; default: hardKey = 0; break; } _context.data.byte(DreamGen::DreamGenContext::kLasthardkey) = hardKey; // The rest of the keys are converted to ASCII. This // is fairly restrictive, and eventually we may want // to let through more keys. I think this is mostly to // keep weird glyphs out of savegame names. softKey = 0; if (event.kbd.keycode >= Common::KEYCODE_a && event.kbd.keycode <= Common::KEYCODE_z) { softKey = event.kbd.ascii & ~0x20; } else if (event.kbd.keycode == Common::KEYCODE_MINUS || event.kbd.keycode == Common::KEYCODE_SPACE || (event.kbd.keycode >= Common::KEYCODE_0 && event.kbd.keycode <= Common::KEYCODE_9)) { softKey = event.kbd.ascii; } else if (event.kbd.keycode >= Common::KEYCODE_KP0 && event.kbd.keycode <= Common::KEYCODE_KP9) { softKey = event.kbd.keycode - Common::KEYCODE_KP0 + '0'; } else if (event.kbd.keycode == Common::KEYCODE_KP_MINUS) { softKey = '-'; } else if (event.kbd.keycode == Common::KEYCODE_BACKSPACE || event.kbd.keycode == Common::KEYCODE_DELETE) { softKey = 8; } else if (event.kbd.keycode == Common::KEYCODE_RETURN || event.kbd.keycode == Common::KEYCODE_KP_ENTER) { softKey = 13; } if (softKey) keyPressed(softKey); break; default: break; } } } Common::Error DreamWebEngine::run() { syncSoundSettings(); _console = new DreamWebConsole(this); _loadSavefile = Common::ConfigManager::instance().getInt("save_slot"); getTimerManager()->installTimerProc(vSyncInterrupt, 1000000 / 70, this); _context.__start(); _context.data.byte(DreamGen::DreamGenContext::kQuitrequested) = 0; getTimerManager()->removeTimerProc(vSyncInterrupt); return Common::kNoError; } void DreamWebEngine::setSpeed(uint speed) { debug(0, "setting speed %u", speed); _speed = speed; getTimerManager()->removeTimerProc(vSyncInterrupt); getTimerManager()->installTimerProc(vSyncInterrupt, 1000000 / 70 / speed, this); } void DreamWebEngine::openFile(const Common::String &name) { processEvents(); closeFile(); if (_file.open(name)) return; _inSaveFile = _system->getSavefileManager()->openForLoading(name); if (_inSaveFile) return; error("cannot open file %s", name.c_str()); } uint32 DreamWebEngine::skipBytes(uint32 bytes) { if (!_file.seek(bytes, SEEK_CUR)) error("seek failed"); return _file.pos(); } uint32 DreamWebEngine::readFromFile(uint8 *dst, unsigned size) { processEvents(); if (_file.isOpen()) return _file.read(dst, size); if (_inSaveFile) return _inSaveFile->read(dst, size); error("file was not opened (read before open)"); } void DreamWebEngine::closeFile() { processEvents(); if (_file.isOpen()) _file.close(); delete _inSaveFile; _inSaveFile = 0; delete _outSaveFile; _outSaveFile = 0; } void DreamWebEngine::openSaveFileForWriting(const Common::String &name) { processEvents(); delete _outSaveFile; _outSaveFile = _system->getSavefileManager()->openForSaving(name); } bool DreamWebEngine::openSaveFileForReading(const Common::String &name) { processEvents(); delete _inSaveFile; _inSaveFile = _system->getSavefileManager()->openForLoading(name); return _inSaveFile != 0; } uint DreamWebEngine::writeToSaveFile(const uint8 *data, uint size) { processEvents(); if (!_outSaveFile) error("save file was not opened for writing"); return _outSaveFile->write(data, size); } uint DreamWebEngine::readFromSaveFile(uint8 *data, uint size) { processEvents(); if (!_inSaveFile) error("save file was not opened for reading"); return _inSaveFile->read(data, size); } void DreamWebEngine::keyPressed(uint16 ascii) { debug(2, "key pressed = %04x", ascii); uint8* keybuf = _context.data.ptr(5912, 16); //fixme: some hardcoded offsets are not added as consts uint16 in = (_context.data.word(DreamGen::DreamGenContext::kBufferin) + 1) & 0x0f; uint16 out = _context.data.word(DreamGen::DreamGenContext::kBufferout); if (in == out) { warning("keyboard buffer is full"); return; } _context.data.word(DreamGen::DreamGenContext::kBufferin) = in; keybuf[in] = ascii; } void DreamWebEngine::mouseCall() { processEvents(); Common::EventManager *eventMan = _system->getEventManager(); Common::Point pos = eventMan->getMousePos(); if (pos.x > 298) pos.x = 298; if (pos.x < 15) pos.x = 15; if (pos.y < 15) pos.y = 15; if (pos.y > 184) pos.y = 184; _context.cx = pos.x; _context.dx = pos.y; unsigned state = eventMan->getButtonState(); _context.bx = state == _oldMouseState? 0: state; _oldMouseState = state; _context.flags._c = false; } void DreamWebEngine::fadeDos() { _context.ds = _context.es = _context.data.word(DreamGen::DreamGenContext::kBuffers); return; //fixme later waitForVSync(); //processEvents will be called from vsync uint8 *dst = _context.es.ptr(DreamGen::DreamGenContext::kStartpal, 768); getPalette(dst, 0, 64); for(int fade = 0; fade < 64; ++fade) { for(int c = 0; c < 768; ++c) { //original sources decrement 768 values -> 256 colors if (dst[c]) { --dst[c]; } } setPalette(dst, 0, 64); waitForVSync(); } } void DreamWebEngine::setPalette() { processEvents(); unsigned n = (uint16)_context.cx; uint8 *src = _context.ds.ptr(_context.si, n * 3); setPalette(src, _context.al, n); _context.si += n * 3; _context.cx = 0; } void DreamWebEngine::getPalette(uint8 *data, uint start, uint count) { _system->getPaletteManager()->grabPalette(data, start, count); while(count--) *data++ >>= 2; } void DreamWebEngine::setPalette(const uint8 *data, uint start, uint count) { assert(start + count <= 256); uint8 fixed[768]; for(uint i = 0; i < count * 3; ++i) { fixed[i] = data[i] << 2; } _system->getPaletteManager()->setPalette(fixed, start, count); } void DreamWebEngine::blit(const uint8 *src, int pitch, int x, int y, int w, int h) { if (y + h > 200) h = 200 - y; if (x + w > 320) w = 320 - x; if (h <= 0 || w <= 0) return; _system->copyRectToScreen(src, pitch, x, y, w, h); } void DreamWebEngine::printUnderMonitor() { _context.es = _context.data.word(DreamGen::DreamGenContext::kWorkspace); _context.di = DreamGen::DreamGenContext::kScreenwidth * 43 + 76; _context.si = _context.di + 8 * DreamGen::DreamGenContext::kScreenwidth; Graphics::Surface *s = _system->lockScreen(); if (!s) error("lockScreen failed"); for(uint y = 0; y < 104; ++y) { uint8 *src = (uint8 *)s->getBasePtr(76, 43 + 8 + y); uint8 *dst = _context.es.ptr(_context.di, 170); for(uint x = 0; x < 170; ++x) { if (*src < 231) *dst++ = *src++; else { ++dst; ++src; } } _context._add(_context.di, DreamGen::DreamGenContext::kScreenwidth); _context._add(_context.si, DreamGen::DreamGenContext::kScreenwidth); } _context.cx = 0; _system->unlockScreen(); } void DreamWebEngine::cls() { _system->fillScreen(0); } void DreamWebEngine::playSound(uint8 channel, uint8 id, uint8 loops) { debug(1, "playSound(%u, %u, %u)", channel, id, loops); int bank = 0; bool speech = false; Audio::Mixer::SoundType type = channel == 0? Audio::Mixer::kMusicSoundType: Audio::Mixer::kSFXSoundType; if (id >= 12) { id -= 12; bank = 1; if (id == 50) { speech = true; type = Audio::Mixer::kSpeechSoundType; } } const SoundData &data = _soundData[bank]; Audio::SeekableAudioStream *raw; if (!speech) { if (id >= data.samples.size() || data.samples[id].size == 0) { warning("invalid sample #%u played", id); return; } const Sample &sample = data.samples[id]; uint8 *buffer = (uint8 *)malloc(sample.size); if (!buffer) error("out of memory: cannot allocate memory for sound(%u bytes)", sample.size); memcpy(buffer, data.data.begin() + sample.offset, sample.size); raw = Audio::makeRawStream( buffer, sample.size, 22050, Audio::FLAG_UNSIGNED); } else { uint8 *buffer = (uint8 *)malloc(_speechData.size()); memcpy(buffer, _speechData.begin(), _speechData.size()); if (!buffer) error("out of memory: cannot allocate memory for sound(%u bytes)", _speechData.size()); raw = Audio::makeRawStream( buffer, _speechData.size(), 22050, Audio::FLAG_UNSIGNED); } Audio::AudioStream *stream; if (loops > 1) { stream = new Audio::LoopingAudioStream(raw, loops < 255? loops: 0); } else stream = raw; if (_mixer->isSoundHandleActive(_channelHandle[channel])) _mixer->stopHandle(_channelHandle[channel]); _mixer->playStream(type, &_channelHandle[channel], stream); } bool DreamWebEngine::loadSpeech(const Common::String &filename) { if (ConfMan.getBool("speech_mute")) return false; Common::File file; if (!file.open("speech/" + filename)) return false; debug(1, "loadSpeech(%s)", filename.c_str()); uint size = file.size(); _speechData.resize(size); file.read(_speechData.begin(), size); file.close(); return true; } void DreamWebEngine::soundHandler() { _context.data.byte(_context.kSubtitles) = ConfMan.getBool("subtitles"); _context.push(_context.ax); _context.volumeadjust(); _context.ax = _context.pop(); uint volume = _context.data.byte(DreamGen::DreamGenContext::kVolume); //.vol file loaded into soundbuf:0x4000 //volume table at (volume * 0x100 + 0x3f00) //volume value could be from 1 to 7 //1 - 0x10-0xff //2 - 0x1f-0xdf //3 - 0x2f-0xd0 //4 - 0x3e-0xc1 //5 - 0x4d-0xb2 //6 - 0x5d-0xa2 //7 - 0x6f-0x91 if (volume >= 8) volume = 7; volume = (8 - volume) * Audio::Mixer::kMaxChannelVolume / 8; _mixer->setChannelVolume(_channelHandle[0], volume); uint8 ch0 = _context.data.byte(DreamGen::DreamGenContext::kCh0playing); if (ch0 == 255) ch0 = 0; uint8 ch1 = _context.data.byte(DreamGen::DreamGenContext::kCh1playing); if (ch1 == 255) ch1 = 0; uint8 ch0loop = _context.data.byte(DreamGen::DreamGenContext::kCh0repeat); if (_channel0 != ch0) { _channel0 = ch0; if (ch0) { playSound(0, ch0, ch0loop); } } if (_channel1 != ch1) { _channel1 = ch1; if (ch1) { playSound(1, ch1, 1); } } if (!_mixer->isSoundHandleActive(_channelHandle[0])) { _context.data.byte(DreamGen::DreamGenContext::kCh0playing) = 255; _channel0 = 0; } if (!_mixer->isSoundHandleActive(_channelHandle[1])) { _context.data.byte(DreamGen::DreamGenContext::kCh1playing) = 255; _channel1 = 0; } } void DreamWebEngine::loadSounds(uint bank, const Common::String &filename) { debug(1, "loadSounds(%u, %s)", bank, filename.c_str()); Common::File file; if (!file.open(filename)) { warning("cannot open %s", filename.c_str()); return; } uint8 header[0x60]; file.read(header, sizeof(header)); uint tablesize = READ_LE_UINT16(header + 0x32); debug(1, "table size = %u", tablesize); SoundData &soundData = _soundData[bank]; soundData.samples.resize(tablesize / 6); uint total = 0; for(uint i = 0; i < tablesize / 6; ++i) { uint8 entry[6]; Sample &sample = soundData.samples[i]; file.read(entry, sizeof(entry)); sample.offset = entry[0] * 0x4000 + READ_LE_UINT16(entry + 1); sample.size = READ_LE_UINT16(entry + 3) * 0x800; total += sample.size; debug(1, "offset: %08x, size: %u", sample.offset, sample.size); } soundData.data.resize(total); file.read(soundData.data.begin(), total); file.close(); } uint8 DreamWebEngine::modifyChar(uint8 c) const { if (c < 128) return c; switch(_language) { case Common::DE_DEU: switch(c) { case 129: return 'Z' + 3; case 132: return 'Z' + 1; case 142: return 'Z' + 4; case 154: return 'Z' + 6; case 225: return 'A' - 1; case 153: return 'Z' + 5; case 148: return 'Z' + 2; default: return c; } case Common::ES_ESP: switch(c) { case 160: return 'Z' + 1; case 130: return 'Z' + 2; case 161: return 'Z' + 3; case 162: return 'Z' + 4; case 163: return 'Z' + 5; case 164: return 'Z' + 6; case 165: return ',' - 1; case 168: return 'A' - 1; case 173: return 'A' - 4; case 129: return 'A' - 5; default: return c; } default: return c; } } } // End of namespace DreamWeb