/* 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 "lure/res.h" #include "lure/disk.h" #include "lure/scripts.h" #include "common/endian.h" namespace Lure { extern const int actionNumParams[NPC_JUMP_ADDRESS+1] = {0, 1, 0, 1, 1, 1, 1, 1, 1, 1, 2, 2, 1, 1, 1, 1, 1, 1, 2, 0, 1, 0, 1, 1, 1, 1, 0, 0, 2, 1, 1, 0, 0, 1, 1, 2, 2, 5, 2, 2, 1}; // Barman related frame lists static const uint16 basicPolish[] = {8+13,8+14,8+15,8+16,8+17,8+18,8+17,8+16,8+15,8+14, 8+15,8+16,8+17,8+18,8+17,8+16,8+15,8+14,8+13,0}; static const uint16 sidsFetch[] = {12+1,12+2,12+3,12+4,12+5,12+6,12+5,12+6,12+5,12+4,12+3,12+7,12+8,0}; static const uint16 nelliesScratch[] = {11+1,11+2,11+3,11+4,11+5,11+4,11+5,11+4,11+5,11+4,11+3,11+2,11+1,0}; static const uint16 nelliesFetch[] = {1,2,3,4,5,4,5,4,3,2,6,7,0}; static const uint16 ewansFetch[] = {13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,0}; static const uint16 ewanExtraGraphic1[]= { 28,29,30,31,32,33,34,35,36,37, 38,39,40,41,42,43,44,45,46,47, 48, 40,39,38,37,36,35,34,33,32,31,30,29,28, 0}; static const uint16 ewanExtraGraphic2[] = { 1,2,3,4,5,6,7,8,9, 10,11,12,13,14,15,16,17,18,19, 20,21,22,23,24,0}; static const BarEntry default_barList[3] = { {29, SID_ID, {{0, 0}, {0, 0}, {0, 0}, {0, 0}}, {&basicPolish[0], &sidsFetch[0], NULL, NULL}, 13, NULL}, {32, NELLIE_ID, {{0, 0}, {0, 0}, {0, 0}, {0, 0}}, {&nelliesScratch[0], &nelliesFetch[0], NULL, NULL}, 14, NULL}, {35, EWAN_ID, {{0, 0}, {0, 0}, {0, 0}, {0, 0}}, {&ewansFetch[0], &ewansFetch[0], &ewanExtraGraphic1[0], &ewanExtraGraphic2[0]}, 16, NULL} }; extern const RoomTranslationRecord roomTranslations[] = { {0x1E, 0x13}, {0x07, 0x08}, {0x1C, 0x12}, {0x26, 0x0F}, {0x27, 0x0F}, {0x28, 0x0F}, {0x29, 0x0F}, {0x22, 0x0A}, {0x23, 0x13}, {0x24, 0x14}, {0x31, 0x2C}, {0x2F, 0x2C}, {0, 0}}; // Room data holding class RoomData::RoomData(RoomResource *rec, MemoryBlock *pathData) { roomNumber = READ_LE_UINT16(&rec->roomNumber); hdrFlags = rec->hdrFlags; actions = READ_LE_UINT32(&rec->actions) & 0xfffffff; flags = (READ_LE_UINT32(&rec->actions) >> 24) & 0xf0; descId = READ_LE_UINT16(&rec->descId); sequenceOffset = READ_LE_UINT16(&rec->sequenceOffset); numLayers = READ_LE_UINT16(&rec->numLayers); paths.load(pathData->data() + (roomNumber - 1) * ROOM_PATHS_SIZE); for (int ctr = 0; ctr < 4; ++ctr) layers[ctr] = READ_LE_UINT16(&rec->layers[ctr]); clippingXStart = READ_LE_UINT16(&rec->clippingXStart); clippingXEnd = READ_LE_UINT16(&rec->clippingXEnd); exitTime = READ_LE_UINT32(&rec->exitTime); areaFlag = rec->areaFlag; walkBounds.left = READ_LE_UINT16(&rec->walkBounds.xs); walkBounds.right = READ_LE_UINT16(&rec->walkBounds.xe); walkBounds.top = READ_LE_UINT16(&rec->walkBounds.ys); walkBounds.bottom = READ_LE_UINT16(&rec->walkBounds.ye); } // Room exit hotspot area holding class RoomExitHotspotData::RoomExitHotspotData(RoomExitHotspotResource *rec) { hotspotId = READ_LE_UINT16(&rec->hotspotId); xs = READ_LE_UINT16(&rec->xs); ys = READ_LE_UINT16(&rec->ys); xe = READ_LE_UINT16(&rec->xe); ye = READ_LE_UINT16(&rec->ye); cursorNum = rec->cursorNum; destRoomNumber = READ_LE_UINT16(&rec->destRoomNumber); } // Room exit class RoomExitData::RoomExitData(RoomExitResource *rec) { xs = READ_LE_INT16(&rec->xs); ys = READ_LE_INT16(&rec->ys); xe = READ_LE_INT16(&rec->xe); ye = READ_LE_INT16(&rec->ye); sequenceOffset = READ_LE_UINT16(&rec->sequenceOffset); roomNumber = rec->newRoom; x = READ_LE_INT16(&rec->newRoomX); y = READ_LE_INT16(&rec->newRoomY); switch (rec->direction) { case 0x80: direction = UP; break; case 0x40: direction = DOWN; break; case 0x20: direction = LEFT; break; case 0x10: direction = RIGHT; break; default: direction = NO_DIRECTION; break; } } bool RoomExitData::insideRect(int16 xp, int16 yp) { return ((xp >= xs) && (xp < xe) && (yp >= ys) && (yp < ye)); } RoomExitData *RoomExitList::checkExits(int16 xp, int16 yp) { iterator i; for (i = begin(); i != end(); i++) { RoomExitData *rec = *i; if (rec->insideRect(xp, yp)) { return rec; } } return NULL; } // Room paths bool RoomPathsData::isOccupied(int x, int y) { if ((x < 0) || (y < 0) || (x >= ROOM_PATHS_WIDTH) || (y >= ROOM_PATHS_HEIGHT)) // Off screen, so flag as not occupied return false; return (_data[y * 5 + (x >> 3)] & (0x80 >> (x % 8))) != 0; } bool RoomPathsData::isOccupied(int x, int y, int width) { for (int blockCtr = 0; blockCtr < width; ++blockCtr) { if (isOccupied(x + 8 * blockCtr, y)) return true; } return false; } void RoomPathsData::setOccupied(int x, int y, int width) { if ((x < 0) || (y < 0) || (x >= ROOM_PATHS_WIDTH) || (y >= ROOM_PATHS_HEIGHT)) return; byte *p = &_data[y * 5 + (x / 8)]; byte bitMask = 0x80 >> (x % 8); for (int bitCtr = 0; bitCtr < width; ++bitCtr) { *p |= bitMask; bitMask >>= 1; if (bitMask == 0) { ++p; bitMask = 0x80; } } } void RoomPathsData::clearOccupied(int x, int y, int width) { if ((x < 0) || (y < 0) || (x >= ROOM_PATHS_WIDTH) || (y >= ROOM_PATHS_HEIGHT)) return; byte *p = &_data[y * 5 + (x / 8)]; byte bitMask = 0x80 >> (x % 8); for (int bitCtr = 0; bitCtr < width; ++bitCtr) { *p &= ~bitMask; bitMask >>= 1; if (bitMask == 0) { ++p; bitMask = 0x80; } } } // decompresses the bit-packed data for which parts of a room are occupied // into a byte array. It also adds a column and row of padding around the // edges of the screen, and extends occupied areas to adjust for the width // of the chracter void RoomPathsData::decompress(RoomPathsDecompressedData &dataOut, int characterWidth) { byte *pIn = &_data[ROOM_PATHS_SIZE - 1]; uint16 *pOut = &dataOut[DECODED_PATHS_WIDTH * DECODED_PATHS_HEIGHT - 1]; byte v; int paddingCtr; int charWidth = characterWidth >> 3; int charCtr = 0; bool charState = false; // Handle padding for last row, including left/right edge padding, as // well as the right column of the second row for (paddingCtr = 0; paddingCtr < (DECODED_PATHS_WIDTH + 1); ++paddingCtr) *pOut-- = 0; for (int y = 0; y < ROOM_PATHS_HEIGHT; ++y) { charState = false; for (int x = 0; x < (ROOM_PATHS_WIDTH / 8); ++x) { // Get next byte, which containing bits for 8 blocks v = *pIn--; for (int bitCtr = 0; bitCtr < 8; ++bitCtr) { bool isSet = (v & 1) != 0; v >>= 1; if (charState) { // Handling occupied characters adjusted for character width if (isSet) // Reset character counter charCtr = charWidth; *pOut-- = 0xffff; charState = (--charCtr != 0); } else { // Normal decompression if (!isSet) { // Flag block is available for walking on *pOut-- = 0; } else { // Flag block is occupied *pOut-- = 0xffff; // Handling for adjusting for character widths charCtr = charWidth - 1; charState = charCtr >= 0; } } } } // Store 2 words to allow off-screen row-start/prior row end *pOut-- = 0; *pOut-- = 0; charState = false; } // Handle padding for final top row - no need for end column, as end of prior // row provided padding for it for (paddingCtr = 0; paddingCtr < (ROOM_PATHS_WIDTH + 1); ++paddingCtr) *pOut-- = 0; } // Room data class void RoomDataList::saveToStream(WriteStream *stream) { RoomDataList::iterator i; for (i = begin(); i != end(); ++i) { RoomData *rec = *i; stream->writeByte(rec->flags); const byte *pathData = rec->paths.data(); stream->write(pathData, ROOM_PATHS_HEIGHT * ROOM_PATHS_WIDTH); } } void RoomDataList::loadFromStream(ReadStream *stream) { RoomDataList::iterator i; byte data[ROOM_PATHS_HEIGHT * ROOM_PATHS_WIDTH]; for (i = begin(); i != end(); ++i) { RoomData *rec = *i; rec->flags = stream->readByte(); stream->read(data, ROOM_PATHS_HEIGHT * ROOM_PATHS_WIDTH); rec->paths.load(data); } } // Room exit joins class RoomExitJoinData::RoomExitJoinData(RoomExitJoinResource *rec) { hotspots[0].hotspotId = READ_LE_UINT16(&rec->hotspot1Id); hotspots[0].currentFrame = rec->h1CurrentFrame; hotspots[0].destFrame = rec->h1DestFrame; hotspots[0].openSound = rec->h1OpenSound; hotspots[0].closeSound = rec->h1CloseSound; hotspots[1].hotspotId = READ_LE_UINT16(&rec->hotspot2Id); hotspots[1].currentFrame = rec->h2CurrentFrame; hotspots[1].destFrame = rec->h2DestFrame; hotspots[1].openSound = rec->h2OpenSound; hotspots[1].closeSound = rec->h2CloseSound; blocked = rec->blocked; } void RoomExitJoinList::saveToStream(WriteStream *stream) { for (RoomExitJoinList::iterator i = begin(); i != end(); ++i) { RoomExitJoinData *rec = *i; stream->writeUint16LE(rec->hotspots[0].hotspotId); stream->writeUint16LE(rec->hotspots[1].hotspotId); stream->writeByte(rec->hotspots[0].currentFrame); stream->writeByte(rec->hotspots[0].destFrame); stream->writeByte(rec->hotspots[1].currentFrame); stream->writeByte(rec->hotspots[1].destFrame); stream->writeByte(rec->blocked); } // Write end of list marker stream->writeUint16LE(0xffff); } void RoomExitJoinList::loadFromStream(ReadStream *stream) { for (RoomExitJoinList::iterator i = begin(); i != end(); ++i) { RoomExitJoinData *rec = *i; uint16 hotspot1Id = stream->readUint16LE(); if (hotspot1Id == 0xffff) error("Invalid room exit join list"); uint16 hotspot2Id = stream->readUint16LE(); if ((rec->hotspots[0].hotspotId != hotspot1Id) || (rec->hotspots[1].hotspotId != hotspot2Id)) break; rec->hotspots[0].currentFrame = stream->readByte(); rec->hotspots[0].destFrame = stream->readByte(); rec->hotspots[1].currentFrame = stream->readByte(); rec->hotspots[1].destFrame = stream->readByte(); rec->blocked = stream->readByte(); } // Read final end of list marker stream->readUint16LE(); } // Hotspot action record HotspotActionData::HotspotActionData(HotspotActionResource *rec) { action = (Action) rec->action; // FIXME: some compilers may add padding to properly align the second member sequenceOffset = READ_LE_UINT16(((byte *)rec) + 1); } uint16 HotspotActionList::getActionOffset(Action action) { iterator i; for (i = begin(); i != end(); ++i) { HotspotActionData *rec = *i; if (rec->action == action) return rec->sequenceOffset; } return 0; } // Hotspot data HotspotData::HotspotData(HotspotResource *rec) { hotspotId = READ_LE_UINT16(&rec->hotspotId); nameId = READ_LE_UINT16(&rec->nameId); descId = READ_LE_UINT16(&rec->descId); descId2 = READ_LE_UINT16(&rec->descId2); actions = READ_LE_UINT32(&rec->actions); actionsOffset = READ_LE_UINT16(&rec->actionsOffset); flags = (byte) (actions >> 24) & 0xf0; actions &= 0xfffffff; roomNumber = READ_LE_UINT16(&rec->roomNumber); layer = rec->layer; scriptLoadFlag = rec->scriptLoadFlag; loadOffset = READ_LE_UINT16(&rec->loadOffset); startX = READ_LE_UINT16(&rec->startX); startY = READ_LE_UINT16(&rec->startY); width = READ_LE_UINT16(&rec->width); height = READ_LE_UINT16(&rec->height); widthCopy = READ_LE_UINT16(&rec->widthCopy); heightCopy = READ_LE_UINT16(&rec->heightCopy); yCorrection = READ_LE_UINT16(&rec->yCorrection); walkX = READ_LE_UINT16(&rec->walkX); walkY = READ_LE_UINT16(&rec->walkY); talkX = rec->talkX; talkY = rec->talkY; colourOffset = READ_LE_UINT16(&rec->colourOffset); animRecordId = READ_LE_UINT16(&rec->animRecordId); hotspotScriptOffset = READ_LE_UINT16(&rec->hotspotScriptOffset); talkScriptOffset = READ_LE_UINT16(&rec->talkScriptOffset); tickProcId = READ_LE_UINT16(&rec->tickProcId); tickTimeout = READ_LE_UINT16(&rec->tickTimeout); tickScriptOffset = READ_LE_UINT16(&rec->tickScriptOffset); npcSchedule = READ_LE_UINT16(&rec->npcSchedule); characterMode = (CharacterMode) READ_LE_UINT16(&rec->characterMode); delayCtr = READ_LE_UINT16(&rec->delayCtr); flags2 = READ_LE_UINT16(&rec->flags2); headerFlags = READ_LE_UINT16(&rec->hdrFlags); // Initialise runtime fields actionCtr = 0; blockedState = BS_NONE; blockedFlag = false; coveredFlag = VB_INITIAL; talkMessageId = 0; talkerId = 0; talkDestCharacterId = 0; talkCountdown = 0; useHotspotId = 0; pauseCtr = 0; actionHotspotId = 0; talkOverride = 0; talkGate = 0; scriptHotspotId = 0; } void HotspotData::saveToStream(WriteStream *stream) { // Write out the basic fields stream->writeUint16LE(nameId); stream->writeUint16LE(descId); stream->writeUint16LE(descId2); stream->writeUint32LE(actions); stream->writeByte(flags); stream->writeByte(flags2); stream->writeByte(headerFlags); stream->writeSint16LE(startX); stream->writeSint16LE(startY); stream->writeUint16LE(roomNumber); stream->writeUint16LE(width); stream->writeUint16LE(height); stream->writeUint16LE(widthCopy); stream->writeUint16LE(heightCopy); stream->writeUint16LE(yCorrection); stream->writeUint16LE(hotspotScriptOffset); stream->writeUint16LE(tickProcId); stream->writeUint16LE(tickTimeout); stream->writeUint16LE(tickScriptOffset); stream->writeUint16LE(characterMode); stream->writeUint16LE(delayCtr); stream->writeUint16LE(animRecordId); // Write out the runtime fields stream->writeUint16LE(actionCtr); stream->writeUint16LE(blockedState); stream->writeByte((byte)blockedFlag); stream->writeByte((byte)coveredFlag); stream->writeUint16LE(talkMessageId); stream->writeUint16LE(talkerId); stream->writeUint16LE(talkDestCharacterId); stream->writeUint16LE(talkCountdown); stream->writeUint16LE(pauseCtr); stream->writeUint16LE(useHotspotId); stream->writeUint16LE(scriptHotspotId); stream->writeUint16LE(talkGate); stream->writeUint16LE(actionHotspotId); stream->writeUint16LE(talkOverride); } void HotspotData::loadFromStream(ReadStream *stream) { // Read in the basic fields nameId = stream->readUint16LE(); descId = stream->readUint16LE(); descId2 = stream->readUint16LE(); actions = stream->readUint32LE(); flags = stream->readByte(); flags2 = stream->readByte(); headerFlags = stream->readByte(); startX = stream->readSint16LE(); startY = stream->readSint16LE(); roomNumber = stream->readUint16LE(); width = stream->readUint16LE(); height = stream->readUint16LE(); widthCopy = stream->readUint16LE(); heightCopy = stream->readUint16LE(); yCorrection = stream->readUint16LE(); hotspotScriptOffset = stream->readUint16LE(); tickProcId = stream->readUint16LE(); tickTimeout = stream->readUint16LE(); tickScriptOffset = stream->readUint16LE(); characterMode = (CharacterMode) stream->readUint16LE(); delayCtr = stream->readUint16LE(); animRecordId = stream->readUint16LE(); // Read in the runtime fields actionCtr = stream->readUint16LE(); blockedState = (BlockedState)stream->readUint16LE(); blockedFlag = stream->readByte() != 0; coveredFlag = (VariantBool)stream->readByte(); talkMessageId = stream->readUint16LE(); talkerId = stream->readUint16LE(); talkDestCharacterId = stream->readUint16LE(); talkCountdown = stream->readUint16LE(); pauseCtr = stream->readUint16LE(); useHotspotId = stream->readUint16LE(); scriptHotspotId = stream->readUint16LE(); talkGate = stream->readUint16LE(); actionHotspotId = stream->readUint16LE(); talkOverride = stream->readUint16LE(); } // Hotspot data list void HotspotDataList::saveToStream(WriteStream *stream) { iterator i; for (i = begin(); i != end(); ++i) { HotspotData *hotspot = *i; stream->writeUint16LE(hotspot->hotspotId); hotspot->saveToStream(stream); } stream->writeUint16LE(0); } void HotspotDataList::loadFromStream(ReadStream *stream) { Resources &res = Resources::getReference(); iterator i; uint16 hotspotId = stream->readUint16LE(); while (hotspotId != 0) { HotspotData *hotspot = res.getHotspot(hotspotId); assert(hotspot); hotspot->loadFromStream(stream); hotspotId = stream->readUint16LE(); } } // Hotspot override data HotspotOverrideData::HotspotOverrideData(HotspotOverrideResource *rec) { hotspotId = READ_LE_UINT16(&rec->hotspotId); xs = READ_LE_UINT16(&rec->xs); ys = READ_LE_UINT16(&rec->ys); xe = READ_LE_UINT16(&rec->xe); ye = READ_LE_UINT16(&rec->ye); } // Hotspot animation movement frame MovementData::MovementData(MovementResource *rec) { frameNumber = READ_LE_UINT16(&rec->frameNumber); xChange = READ_LE_UINT16(&rec->xChange); yChange = READ_LE_UINT16(&rec->yChange); } // List of movement frames bool MovementDataList::getFrame(uint16 currentFrame, int16 &xChange, int16 &yChange, uint16 &nextFrame) { if (empty()) return false; bool foundFlag = false; iterator i; for (i = begin(); i != end(); ++i) { MovementData *rec = *i; if (foundFlag || (i == begin())) { xChange = rec->xChange; yChange = rec->yChange; nextFrame = rec->frameNumber; if (foundFlag) return true; } if (rec->frameNumber == currentFrame) foundFlag = true; } return true; } // Hotspot animation data HotspotAnimData::HotspotAnimData(HotspotAnimResource *rec) { animRecordId = READ_LE_UINT16(&rec->animRecordId); animId = READ_LE_UINT16(&rec->animId); flags = READ_LE_UINT16(&rec->flags); upFrame = rec->upFrame; downFrame = rec->downFrame; leftFrame = rec->leftFrame; rightFrame = rec->rightFrame; } // Hotspot action lists HotspotActionList::HotspotActionList(uint16 id, byte *data) { recordId = id; uint16 numItems = READ_LE_UINT16(data); data += 2; HotspotActionResource *actionRec = (HotspotActionResource *) data; for (int actionCtr = 0; actionCtr < numItems; ++actionCtr, GET_NEXT(actionRec, HotspotActionResource)) { HotspotActionData *actionEntry = new HotspotActionData(actionRec); push_back(actionEntry); } } HotspotActionList *HotspotActionSet::getActions(uint16 recordId) { HotspotActionSet::iterator i; for (i = begin(); i != end(); ++i) { HotspotActionList *list = *i; if (list->recordId == recordId) return list; } return NULL; } // The following class holds the set of offsets for a character's talk set TalkHeaderData::TalkHeaderData(uint16 charId, uint16 *entries) { uint16 *src, *dest; characterId = charId; // Get number of entries _numEntries = 0; src = entries; while (READ_LE_UINT16(src) != 0xffff) { ++src; ++_numEntries; } // Duplicate the list _data = (uint16 *) Memory::alloc(_numEntries * sizeof(uint16)); src = entries; dest = _data; for (int ctr = 0; ctr < _numEntries; ++ctr, ++src, ++dest) *dest = READ_LE_UINT16(src); } TalkHeaderData::~TalkHeaderData() { free(_data); } uint16 TalkHeaderData::getEntry(int index) { if (index >= _numEntries) error("Invalid talk index %d specified for hotspot %xh", _numEntries, characterId); return _data[index]; } // The following class holds a single talking entry TalkEntryData::TalkEntryData(TalkDataResource *rec) { preSequenceId = READ_LE_UINT16(&rec->preSequenceId); descId = READ_LE_UINT16(&rec->descId); postSequenceId = READ_LE_UINT16(&rec->postSequenceId); } // The following class acts as a container for all the talk entries and // responses for a single record Id TalkData::TalkData(uint16 id) { recordId = id; } TalkData::~TalkData() { entries.clear(); responses.clear(); } TalkEntryData *TalkData::getResponse(int index) { TalkEntryList::iterator i = responses.begin(); int v = index; while (v-- > 0) { if (i == responses.end()) error("Invalid talk response index %d specified", index); ++i; } return *i; } // The following class handles a set of coordinates a character should walk to // if they're to exit a room to a designated secondary room RoomExitCoordinates::RoomExitCoordinates(RoomExitCoordinateEntryResource *rec) { int ctr; for (ctr = 0; ctr < ROOM_EXIT_COORDINATES_NUM_ENTRIES; ++ctr) { uint16 tempY = READ_LE_UINT16(&rec->entries[ctr].y); _entries[ctr].x = READ_LE_UINT16(&rec->entries[ctr].x); _entries[ctr].y = tempY & 0xfff; _entries[ctr].roomNumber = READ_LE_UINT16(&rec->entries[ctr].roomNumber); _entries[ctr].hotspotIndexId = (tempY >> 12) << 4; } for (ctr = 0; ctr < ROOM_EXIT_COORDINATES_NUM_ROOMS; ++ctr) _roomIndex[ctr] = rec->roomIndex[ctr]; } RoomExitCoordinates &RoomExitCoordinatesList::getEntry(uint16 roomNumber) { RoomExitCoordinatesList::iterator i = begin(); while (--roomNumber > 0) ++i; return **i; } RoomExitCoordinateData &RoomExitCoordinates::getData(uint16 destRoomNumber) { return _entries[_roomIndex[destRoomNumber - 1]]; } // The following classes hold any sequence offsets that are being delayed SequenceDelayData::SequenceDelayData(uint16 delay, uint16 seqOffset, bool canClearFlag) { OSystem &system = *g_system; // The delay is in number of seconds timeoutCtr = system.getMillis() + delay * 1000; sequenceOffset = seqOffset; canClear = canClearFlag; } SequenceDelayData *SequenceDelayData::load(uint32 delay, uint16 seqOffset, bool canClearFlag) { SequenceDelayData *result = new SequenceDelayData(); result->sequenceOffset = seqOffset; result->timeoutCtr = delay; result->canClear = canClearFlag; return result; } void SequenceDelayList::add(uint16 delay, uint16 seqOffset, bool canClear) { SequenceDelayData *entry = new SequenceDelayData(delay, seqOffset, canClear); push_front(entry); } void SequenceDelayList::tick() { Resources &res = Resources::getReference(); uint32 currTime = g_system->getMillis(); SequenceDelayList::iterator i; for (i = begin(); i != end(); i++) { SequenceDelayData *entry = *i; if (currTime >= entry->timeoutCtr) { // Timeout reached - delete entry from list and execute the sequence uint16 seqOffset = entry->sequenceOffset; // FIXME: At current speed the player can enter the cave a bit too quickly ahead of Goewin. // Use a hard-coded check to make sure Goewin is in the room if (seqOffset == 0xebd) { Hotspot *goewinHotspot = res.getActiveHotspot(GOEWIN_ID); if (goewinHotspot->roomNumber() != 38) return; } erase(i); Script::execute(seqOffset); return; } } } void SequenceDelayList::clear(bool forceClear) { SequenceDelayList::iterator i = begin(); while (i != end()) { SequenceDelayData *entry = *i; if (entry->canClear || forceClear) i = erase(i); else ++i; } } void SequenceDelayList::saveToStream(WriteStream *stream) { uint32 currTime = g_system->getMillis(); SequenceDelayList::iterator i; for (i = begin(); i != end(); ++i) { SequenceDelayData *entry = *i; stream->writeUint16LE(entry->sequenceOffset); stream->writeUint32LE((currTime > entry->timeoutCtr ) ? 0 : entry->timeoutCtr - currTime); stream->writeByte(entry->canClear); } stream->writeUint16LE(0); } void SequenceDelayList::loadFromStream(ReadStream *stream) { clear(true); uint16 seqOffset; uint32 currTime = g_system->getMillis(); while ((seqOffset = stream->readUint16LE()) != 0) { uint32 delay = currTime + stream->readUint32LE(); bool canClear = stream->readByte() != 0; push_back(SequenceDelayData::load(delay, seqOffset, canClear)); } } // The following classes hold the NPC schedule classes CharacterScheduleEntry::CharacterScheduleEntry(Action theAction, ...) { _parent = NULL; _action = theAction; va_list u_Arg; va_start(u_Arg, theAction); for (int paramCtr = 0; paramCtr < actionNumParams[_action]; ++paramCtr) _params[paramCtr] = (uint16) va_arg(u_Arg, int); va_end(u_Arg); _numParams = actionNumParams[_action]; } CharacterScheduleEntry::CharacterScheduleEntry(CharacterScheduleSet *parentSet, CharacterScheduleResource *&rec) { _parent = parentSet; if ((rec->action == 0) || (READ_LE_UINT16(&rec->action) > NPC_JUMP_ADDRESS)) error("Invalid action encountered reading NPC schedule"); _action = (Action) READ_LE_UINT16(&rec->action); _numParams = actionNumParams[_action]; for (int index = 0; index < _numParams; ++index) _params[index] = READ_LE_UINT16(&rec->params[index]); rec = (CharacterScheduleResource *) ((byte *) rec + (_numParams + 1) * sizeof(uint16)); } uint16 CharacterScheduleEntry::param(int index) { if ((index < 0) || (index >= numParams())) error("Invalid parameter index %d on handling action %d", index, _action); return _params[index]; } void CharacterScheduleEntry::setDetails(Action theAction, ...) { _action = theAction; _numParams = actionNumParams[_action]; va_list list; va_start(list, theAction); for (int paramCtr = 0; paramCtr < actionNumParams[_action]; ++paramCtr) _params[paramCtr] = (uint16) va_arg(list, int); va_end(list); } void CharacterScheduleEntry::setDetails2(Action theAction, int numParamEntries, uint16 *paramList) { _action = theAction; _numParams = numParamEntries; assert((numParamEntries >= 0) && (numParamEntries < (MAX_TELL_COMMANDS * 3))); for (int paramCtr = 0; paramCtr < numParamEntries; ++paramCtr) _params[paramCtr] = paramList[paramCtr]; } CharacterScheduleEntry *CharacterScheduleEntry::next() { if (_parent) { CharacterScheduleSet::iterator i; for (i = _parent->begin(); i != _parent->end(); ++i) { if (*i == this) { ++i; CharacterScheduleEntry *result = (i == _parent->end()) ? NULL : *i; return result; } } } return NULL; } uint16 CharacterScheduleEntry::id() { return (_parent == NULL) ? 0 : _parent->getId(this); } CharacterScheduleSet::CharacterScheduleSet(CharacterScheduleResource *rec, uint16 setId) { // Load up all the entries in the schedule while (rec->action != 0) { CharacterScheduleEntry *r = new CharacterScheduleEntry(this, rec); push_back(r); } _id = setId; } // Given a support data entry identifier, locates that entry in the list of data sets CharacterScheduleEntry *CharacterScheduleList::getEntry(uint16 id, CharacterScheduleSet *currentSet) { // Respond to the special no entry with no record if (id == 0xffff) return NULL; // Handle jumps within a current set versus external jumps if ((id >> 10) == 0) { // Jump within current set if (currentSet == NULL) error("Local support data jump encountered outside of a support data sequence"); } else { // Inter-set jump - locate the appropriate set int index = (id >> 10) - 1; iterator i = begin(); while ((i != end()) && (index > 0)) { ++i; --index; } if (i == end()) error("Invalid index %d specified for support data set", id >> 8); currentSet = *i; } // Get the indexed instruction in the specified set int instructionIndex = id & 0x3ff; CharacterScheduleSet::iterator i = currentSet->begin(); while ((i != currentSet->end()) && (instructionIndex > 0)) { ++i; --instructionIndex; } if (i == currentSet->end()) error("Invalid index %d specified within support data set", id & 0x3ff); return *i; } uint16 CharacterScheduleSet::getId(CharacterScheduleEntry *rec) { // Return an Id for the entry based on the id of the set combined with the // index of the specific entry uint16 result = _id << 10; iterator i; for (i = begin(); i != end(); ++i, ++result) if (*i == rec) break; if (i == end()) error("Parent child relationship missing in character schedule set"); return result; } // This classes is used to store a list of random action sets - one set per room RandomActionSet::RandomActionSet(uint16 *&offset) { _roomNumber = READ_LE_UINT16(offset++); uint16 actionDetails = READ_LE_UINT16(offset++); _numActions = (actionDetails & 0xff); assert(_numActions <= 8); _types = new RandomActionType[_numActions]; _ids = new uint16[_numActions]; for (int actionIndex = 0; actionIndex < _numActions; ++actionIndex) { _ids[actionIndex] = READ_LE_UINT16(offset++); _types[actionIndex] = (actionDetails & (0x100 << actionIndex)) != 0 ? REPEATABLE : REPEAT_ONCE; } } RandomActionSet::~RandomActionSet() { delete [] _types; delete [] _ids; } RandomActionSet *RandomActionList::getRoom(uint16 roomNumber) { iterator i; for (i = begin(); i != end(); ++i) { RandomActionSet *v = *i; if (v->roomNumber() == roomNumber) return v; } return NULL; } void RandomActionSet::saveToStream(Common::WriteStream *stream) { stream->writeByte(numActions()); for (int actionIndex = 0; actionIndex < _numActions; ++actionIndex) stream->writeByte((byte)_types[actionIndex]); } void RandomActionSet::loadFromStream(Common::ReadStream *stream) { int amount = stream->readByte(); assert(amount == _numActions); for (int actionIndex = 0; actionIndex < _numActions; ++actionIndex) _types[actionIndex] = (RandomActionType)stream->readByte(); } void RandomActionList::saveToStream(Common::WriteStream *stream) { for (iterator i = begin(); i != end(); ++i) (*i)->saveToStream(stream); } void RandomActionList::loadFromStream(Common::ReadStream *stream) { for (iterator i = begin(); i != end(); ++i) (*i)->loadFromStream(stream); } // This class handles an indexed hotspot entry - which is used by the NPC code to // determine whether exiting a room to another given room has an exit hotspot or not RoomExitIndexedHotspotData::RoomExitIndexedHotspotData(RoomExitIndexedHotspotResource *rec) { roomNumber = rec->roomNumber; hotspotIndex = rec->hotspotIndex; hotspotId = READ_LE_UINT16(&rec->hotspotId); } uint16 RoomExitIndexedHotspotList::getHotspot(uint16 roomNumber, uint8 hotspotIndexId) { iterator i; for (i = begin(); i != end(); ++i) { RoomExitIndexedHotspotData *entry = *i; if ((entry->roomNumber == roomNumber) && (entry->hotspotIndex == hotspotIndexId)) return entry->hotspotId; } // No hotspot return 0xffff; } // Paused character list methods PausedCharacter::PausedCharacter(uint16 SrcCharId, uint16 DestCharId) { srcCharId = SrcCharId; destCharId = DestCharId; counter = IDLE_COUNTDOWN_SIZE; charHotspot = Resources::getReference().getHotspot(DestCharId); assert(charHotspot); } void PausedCharacterList::reset(uint16 hotspotId) { iterator i; for (i = begin(); i != end(); ++i) { PausedCharacter *rec = *i; if (rec->srcCharId == hotspotId) { rec->counter = 1; if (rec->destCharId < START_EXIT_ID) rec->charHotspot->pauseCtr = 1; } } } void PausedCharacterList::countdown() { iterator i = begin(); while (i != end()) { PausedCharacter *rec = *i; --rec->counter; // Handle reflecting counter to hotspot if (rec->destCharId < START_EXIT_ID) rec->charHotspot->pauseCtr = rec->counter + 1; // If counter has reached zero, remove entry from list if (rec->counter == 0) i = erase(i); else ++i; } } void PausedCharacterList::scan(Hotspot &h) { iterator i; if (h.blockedState() != BS_NONE) { for (i = begin(); i != end(); ++i) { PausedCharacter *rec = *i; if (rec->srcCharId == h.hotspotId()) { rec->counter = IDLE_COUNTDOWN_SIZE; if (rec->destCharId < START_EXIT_ID) rec->charHotspot->pauseCtr = IDLE_COUNTDOWN_SIZE; } } } } int PausedCharacterList::check(uint16 charId, int numImpinging, uint16 *impingingList) { Resources &res = Resources::getReference(); PausedCharacterList::iterator i; int result = 0; Hotspot *charHotspot = res.getActiveHotspot(charId); assert(charHotspot); for (int index = 0; index < numImpinging; ++index) { Hotspot *hotspot = res.getActiveHotspot(impingingList[index]); if ((!hotspot) || (!hotspot->currentActions().isEmpty() && (hotspot->currentActions().top().action() == EXEC_HOTSPOT_SCRIPT))) // Entry is skipped if hotspot not present or is executing hotspot script continue; // Scan through the pause list to see if there's a record for the // calling character and the impinging list entry bool foundEntry = false; for (i = res.pausedList().begin(); !foundEntry && (i != res.pausedList().end()); ++i) { PausedCharacter *rec = *i; foundEntry = (rec->srcCharId == charId) && (rec->destCharId == hotspot->hotspotId()); } if (foundEntry) // There was, so move to next impinging character entry continue; if ((hotspot->hotspotId() == PLAYER_ID) && !hotspot->coveredFlag()) { hotspot->updateMovement(); return 1; } // Add a new paused character entry PausedCharacter *entry = new PausedCharacter(charId, hotspot->hotspotId()); res.pausedList().push_back(entry); charHotspot->setBlockedState(BS_INITIAL); if (hotspot->hotspotId() < START_EXIT_ID) { if ((charHotspot->characterMode() == CHARMODE_PAUSED) || ((charHotspot->pauseCtr() == 0) && (charHotspot->characterMode() == CHARMODE_NONE))) { if (hotspot->characterMode() != CHARMODE_WAIT_FOR_INTERACT) hotspot->resource()->scriptHotspotId = charId; } hotspot->setPauseCtr(IDLE_COUNTDOWN_SIZE); } result = 2; if (charHotspot->currentActions().isEmpty()) charHotspot->currentActions().addFront(START_WALKING, charHotspot->roomNumber()); else charHotspot->currentActions().top().setAction(START_WALKING); } return result; } // Wrapper class for the barman lists BarmanLists::BarmanLists() { for (int index = 0; index < 3; ++index) _barList[index] = default_barList[index]; } BarEntry &BarmanLists::getDetails(uint16 roomNumber) { for (int index = 0; index < 3; ++index) if (_barList[index].roomNumber == roomNumber) return _barList[index]; error("Invalid room %d specified for barman details retrieval", roomNumber); } void BarmanLists::saveToStream(Common::WriteStream *stream) { for (int index = 0; index < 2; ++index) { uint16 value = (_barList[index].currentCustomer - &_barList[index].customers[0]) / sizeof(BarEntry); stream->writeUint16LE(value); for (int ctr = 0; ctr < NUM_SERVE_CUSTOMERS; ++ctr) { stream->writeUint16LE(_barList[index].customers[ctr].hotspotId); stream->writeByte(_barList[index].customers[ctr].serveFlags); } } } void BarmanLists::loadFromStream(Common::ReadStream *stream) { for (int index = 0; index < 2; ++index) { int16 value = stream->readUint16LE(); _barList[index].currentCustomer = (value == 0) ? NULL : &_barList[index].customers[value]; for (int ctr = 0; ctr < NUM_SERVE_CUSTOMERS; ++ctr) { _barList[index].customers[ctr].hotspotId = stream->readUint16LE(); _barList[index].customers[ctr].serveFlags = stream->readByte(); } } } // String list resource class void StringList::load(MemoryBlock *data) { _data = Memory::allocate(data->size()); _data->copyFrom(data); _numEntries = READ_LE_UINT16(_data->data()); char *p = (char *) _data->data() + sizeof(uint16); _entries = (char **) Memory::alloc(_numEntries * sizeof(char *)); for (int index = 0; index < _numEntries; ++index) { _entries[index] = p; p += strlen(p) + 1; } } void StringList::clear() { if (_numEntries != 0) { Memory::dealloc(_entries); delete _data; _numEntries = 0; } } // Field list and miscellaneous variables ValueTableData::ValueTableData() { reset(); } void ValueTableData::reset() { _numGroats = 0; _playerNewPos.roomNumber = 0; _playerNewPos.position.x = 0; _playerNewPos.position.y = 0; _hdrFlagMask = 1; for (uint16 index = 0; index < NUM_VALUE_FIELDS; ++index) _fieldList[index] = 0; } bool ValueTableData::isKnownField(uint16 fieldIndex) { return ((fieldIndex <= 10) && (fieldIndex != 6)) || (fieldIndex == 15) || ((fieldIndex >= 18) && (fieldIndex <= 20)); } uint16 ValueTableData::getField(uint16 fieldIndex) { if (fieldIndex > NUM_VALUE_FIELDS) error("Invalid field index specified %d", fieldIndex); // if (!isKnownField(fieldIndex)) // warning("Unknown field index %d in GET_FIELD opcode", fieldIndex); return _fieldList[fieldIndex]; } uint16 ValueTableData::getField(FieldName fieldName) { return getField((uint16) fieldName); } void ValueTableData::setField(uint16 fieldIndex, uint16 value) { if (fieldIndex > NUM_VALUE_FIELDS) error("Invalid field index specified %d", fieldIndex); _fieldList[fieldIndex] = value; // if (!isKnownField(fieldIndex)) // warning("Unknown field index %d in SET_FIELD opcode", fieldIndex); } void ValueTableData::setField(FieldName fieldName, uint16 value) { setField((uint16) fieldName, value); } void ValueTableData::saveToStream(Common::WriteStream *stream) { // Write out the special fields stream->writeUint16LE(_numGroats); stream->writeSint16LE(_playerNewPos.position.x); stream->writeSint16LE(_playerNewPos.position.y); stream->writeUint16LE(_playerNewPos.roomNumber); stream->writeByte(_hdrFlagMask); // Write out the special fields for (int index = 0; index < NUM_VALUE_FIELDS; ++index) stream->writeUint16LE(_fieldList[index]); } void ValueTableData::loadFromStream(Common::ReadStream *stream) { // Load special fields _numGroats = stream->readUint16LE(); _playerNewPos.position.x = stream->readSint16LE(); _playerNewPos.position.y = stream->readSint16LE(); _playerNewPos.roomNumber = stream->readUint16LE(); _hdrFlagMask = stream->readByte(); // Read in the field list for (int index = 0; index < NUM_VALUE_FIELDS; ++index) _fieldList[index] = stream->readUint16LE(); } } // end of namespace Lure