/* 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. * * MIT License: * * Copyright (c) 2009 Alexei Svitkine, Eugene Sandulenko * * Permission is hereby granted, free of charge, to any person * obtaining a copy of this software and associated documentation * files (the "Software"), to deal in the Software without * restriction, including without limitation the rights to use, * copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following * conditions: * * The above copyright notice and this permission notice shall be * included in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT * HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, * WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR * OTHER DEALINGS IN THE SOFTWARE. * */ #include "wage/wage.h" #include "wage/entities.h" #include "wage/script.h" #include "wage/world.h" #include "common/stream.h" namespace Wage { Script::Script(Common::SeekableReadStream *data) : _data(data) { convertToText(); } Script::~Script() { for (uint i = 0; i < _scriptText.size(); i++) { delete _scriptText[i]; } delete _data; } void Script::print() { for (uint i = 0; i < _scriptText.size(); i++) { debug(4, "%d [%04x]: %s", i, _scriptText[i]->offset, _scriptText[i]->line.c_str()); } } void Script::printLine(int offset) { for (uint i = 0; i < _scriptText.size(); i++) if (_scriptText[i]->offset >= offset) { debug(4, "%d [%04x]: %s", i, _scriptText[i]->offset, _scriptText[i]->line.c_str()); break; } } bool Script::execute(World *world, int loopCount, Common::String *inputText, Designed *inputClick, WageEngine *engine) { _world = world; _loopCount = loopCount; _inputText = inputText; _inputClick = inputClick; _engine = engine; _handled = false; Common::String input; if (inputText) input = *inputText; _data->seek(12); while (_data->pos() < _data->size()) { printLine(_data->pos()); byte command = _data->readByte(); switch(command) { case 0x80: // IF processIf(); break; case 0x87: // EXIT debug(6, "exit at offset %d", _data->pos() - 1); return true; case 0x89: // MOVE { Scene *currentScene = _world->_player->_currentScene; processMove(); if (_world->_player->_currentScene != currentScene) return true; break; } case 0x8B: // PRINT { Operand *op = readOperand(); // TODO check op type is string or number, or something good... _handled = true; _engine->appendText(op->toString().c_str()); delete op; byte d = _data->readByte(); if (d != 0xFD) warning("Operand 0x8B (PRINT) End Byte != 0xFD"); break; } case 0x8C: // SOUND { Operand *op = readOperand(); // TODO check op type is string. _handled = true; _engine->playSound(op->toString()); delete op; byte d = _data->readByte(); if (d != 0xFD) warning("Operand 0x8B (PRINT) End Byte != 0xFD"); break; } case 0x8E: // LET processLet(); break; case 0x95: // MENU { Operand *op = readStringOperand(); // allows empty menu // TODO check op type is string. _engine->setMenu(op->toString()); byte d = _data->readByte(); if (d != 0xFD) warning("Operand 0x8B (PRINT) End Byte != 0xFD"); } case 0x88: // END break; default: debug(0, "Unknown opcode: %d", _data->pos()); } } if (_world->_globalScript != this) { debug(1, "Executing global script..."); bool globalHandled = _world->_globalScript->execute(_world, _loopCount, &input, _inputClick, _engine); if (globalHandled) _handled = true; } else if (!input.empty()) { if (input.contains("north")) { _handled = _engine->handleMoveCommand(NORTH, "north"); } else if (input.contains("east")) { _handled = _engine->handleMoveCommand(EAST, "east"); } else if (input.contains("south")) { _handled = _engine->handleMoveCommand(SOUTH, "south"); } else if (input.contains("west")) { _handled = _engine->handleMoveCommand(WEST, "west"); } else if (input.hasPrefix("take ")) { _handled = _engine->handleTakeCommand(&input.c_str()[5]); } else if (input.hasPrefix("get ")) { _handled = _engine->handleTakeCommand(&input.c_str()[4]); } else if (input.hasPrefix("pick up ")) { _handled = _engine->handleTakeCommand(&input.c_str()[8]); } else if (input.hasPrefix("drop ")) { _handled = _engine->handleDropCommand(&input.c_str()[5]); } else if (input.hasPrefix("aim ")) { _handled = _engine->handleAimCommand(&input.c_str()[4]); } else if (input.hasPrefix("wear ")) { _handled = _engine->handleWearCommand(&input.c_str()[5]); } else if (input.hasPrefix("put on ")) { _handled = _engine->handleWearCommand(&input.c_str()[7]); } else if (input.hasPrefix("offer ")) { _handled = _engine->handleOfferCommand(&input.c_str()[6]); } else if (input.contains("look")) { _handled = _engine->handleLookCommand(); } else if (input.contains("inventory")) { _handled = _engine->handleInventoryCommand(); } else if (input.contains("status")) { _handled = _engine->handleStatusCommand(); } else if (input.contains("rest") || input.equals("wait")) { _handled = _engine->handleRestCommand(); } else if (_engine->getOffer() != NULL && input.contains("accept")) { _handled = _engine->handleAcceptCommand(); } else { Chr *player = _world->_player; ObjArray *weapons = player->getWeapons(true); for (ObjArray::const_iterator weapon = weapons->begin(); weapon != weapons->end(); ++weapon) { if (_engine->tryAttack(*weapon, input)) { _handled = _engine->handleAttack(*weapon); break; } } delete weapons; } // TODO: weapons, offer, etc... } else if (_inputClick->_classType == OBJ) { Obj *obj = (Obj *)_inputClick; if (obj->_type != Obj::IMMOBILE_OBJECT) { _engine->takeObj(obj); } else { _engine->appendText(obj->_clickMessage.c_str()); } _handled = true; } return _handled; } Script::Operand *Script::readOperand() { byte operandType = _data->readByte(); debug(7, "%x: readOperand: 0x%x", _data->pos(), operandType); Context *cont = &_world->_player->_context; switch (operandType) { case 0xA0: // TEXT$ return new Operand(_inputText, TEXT_INPUT); case 0xA1: return new Operand(_inputClick, CLICK_INPUT); case 0xC0: // STORAGE@ return new Operand(_world->_storageScene, SCENE); case 0xC1: // SCENE@ return new Operand(_world->_player->_currentScene, SCENE); case 0xC2: // PLAYER@ return new Operand(_world->_player, CHR); case 0xC3: // MONSTER@ return new Operand(_engine->getMonster(), CHR); case 0xC4: // RANDOMSCN@ return new Operand(_world->_orderedScenes[_engine->_rnd->getRandomNumber(_world->_orderedScenes.size())], SCENE); case 0xC5: // RANDOMCHR@ return new Operand(_world->_orderedChrs[_engine->_rnd->getRandomNumber(_world->_orderedChrs.size())], CHR); case 0xC6: // RANDOMOBJ@ return new Operand(_world->_orderedObjs[_engine->_rnd->getRandomNumber(_world->_orderedObjs.size())], OBJ); case 0xB0: // VISITS# return new Operand(cont->_visits, NUMBER); case 0xB1: // RANDOM# for Star Trek, but VISITS# for some other games? return new Operand(1 + _engine->_rnd->getRandomNumber(100), NUMBER); case 0xB5: // RANDOM# // A random number between 1 and 100. return new Operand(1 + _engine->_rnd->getRandomNumber(100), NUMBER); case 0xB2: // LOOP# return new Operand(_loopCount, NUMBER); case 0xB3: // VICTORY# return new Operand(cont->_kills, NUMBER); case 0xB4: // BADCOPY# return new Operand(0, NUMBER); // \?\?\?? case 0xFF: { // user variable int value = _data->readByte(); // TODO: Verify that we're using the right index. return new Operand(cont->_userVariables[value - 1], NUMBER); } case 0xD0: return new Operand(cont->_statVariables[PHYS_STR_BAS], NUMBER); case 0xD1: return new Operand(cont->_statVariables[PHYS_HIT_BAS], NUMBER); case 0xD2: return new Operand(cont->_statVariables[PHYS_ARM_BAS], NUMBER); case 0xD3: return new Operand(cont->_statVariables[PHYS_ACC_BAS], NUMBER); case 0xD4: return new Operand(cont->_statVariables[SPIR_STR_BAS], NUMBER); case 0xD5: return new Operand(cont->_statVariables[SPIR_HIT_BAS], NUMBER); case 0xD6: return new Operand(cont->_statVariables[SPIR_ARM_BAS], NUMBER); case 0xD7: return new Operand(cont->_statVariables[SPIR_ACC_BAS], NUMBER); case 0xD8: return new Operand(cont->_statVariables[PHYS_SPE_BAS], NUMBER); case 0xE0: return new Operand(cont->_statVariables[PHYS_STR_CUR], NUMBER); case 0xE1: return new Operand(cont->_statVariables[PHYS_HIT_CUR], NUMBER); case 0xE2: return new Operand(cont->_statVariables[PHYS_ARM_CUR], NUMBER); case 0xE3: return new Operand(cont->_statVariables[PHYS_ACC_CUR], NUMBER); case 0xE4: return new Operand(cont->_statVariables[SPIR_STR_CUR], NUMBER); case 0xE5: return new Operand(cont->_statVariables[SPIR_HIT_CUR], NUMBER); case 0xE6: return new Operand(cont->_statVariables[SPIR_ARM_CUR], NUMBER); case 0xE7: return new Operand(cont->_statVariables[SPIR_ACC_CUR], NUMBER); case 0xE8: return new Operand(cont->_statVariables[PHYS_SPE_CUR], NUMBER); default: if (operandType >= 0x20 && operandType < 0x80) { _data->seek(-1, SEEK_CUR); return readStringOperand(); } else { debug("Dunno what %x is (index=%d)!\n", operandType, _data->pos()-1); } return NULL; } } void Script::assign(byte operandType, int uservar, uint16 value) { Context *cont = &_world->_player->_context; switch (operandType) { case 0xFF: cont->_userVariables[uservar - 1] = value; break; case 0xD0: cont->_statVariables[PHYS_STR_BAS] = value; break; case 0xD1: cont->_statVariables[PHYS_HIT_BAS] = value; break; case 0xD2: cont->_statVariables[PHYS_ARM_BAS] = value; break; case 0xD3: cont->_statVariables[PHYS_ACC_BAS] = value; break; case 0xD4: cont->_statVariables[SPIR_STR_BAS] = value; break; case 0xD5: cont->_statVariables[SPIR_HIT_BAS] = value; break; case 0xD6: cont->_statVariables[SPIR_ARM_BAS] = value; break; case 0xD7: cont->_statVariables[SPIR_ACC_BAS] = value; break; case 0xD8: cont->_statVariables[PHYS_SPE_BAS] = value; break; case 0xE0: cont->_statVariables[PHYS_STR_CUR] = value; break; case 0xE1: cont->_statVariables[PHYS_HIT_CUR] = value; break; case 0xE2: cont->_statVariables[PHYS_ARM_CUR] = value; break; case 0xE3: cont->_statVariables[PHYS_ACC_CUR] = value; break; case 0xE4: cont->_statVariables[SPIR_STR_CUR] = value; break; case 0xE5: cont->_statVariables[SPIR_HIT_CUR] = value; break; case 0xE6: cont->_statVariables[SPIR_ARM_CUR] = value; break; case 0xE7: cont->_statVariables[SPIR_ACC_CUR] = value; break; case 0xE8: cont->_statVariables[PHYS_SPE_CUR] = value; break; default: debug("No idea what I'm supposed to assign! (%x at %d)!\n", operandType, _data->pos()-1); } } Script::Operand *Script::readStringOperand() { Common::String *str; bool allDigits = true; str = new Common::String(); while (true) { byte c = _data->readByte(); if (c >= 0x20 && c < 0x80) *str += c; else break; if (c < '0' || c > '9') allDigits = false; } _data->seek(-1, SEEK_CUR); if (allDigits && str->size() > 0) { int r = atol(str->c_str()); delete str; return new Operand(r, NUMBER); } else { // TODO: This string could be a room name or something like that. return new Operand(str, STRING); } } const char *Script::readOperator() { byte cmd = _data->readByte(); debug(7, "readOperator: 0x%x", cmd); switch (cmd) { case 0x81: return "="; case 0x82: return "<"; case 0x83: return ">"; case 0x8f: return "+"; case 0x90: return "-"; case 0x91: return "*"; case 0x92: return "/"; case 0x93: return "=="; case 0x94: return ">>"; case 0xfd: return ";"; default: warning("UNKNOWN OP %x", cmd); } return NULL; } void Script::processIf() { int logicalOp = 0; // 0 => initial, 1 => and, 2 => or bool result = true; bool done = false; do { Operand *lhs = readOperand(); const char *op = readOperator(); Operand *rhs = readOperand(); bool condResult = eval(lhs, op, rhs); delete lhs; delete rhs; if (logicalOp == 1) { result = (result && condResult); } else if (logicalOp == 2) { result = (result || condResult); } else { // logicalOp == 0 result = condResult; } byte logical = _data->readByte(); if (logical == 0x84) { logicalOp = 1; // and } else if (logical == 0x85) { logicalOp = 2; // or } else if (logical == 0xFE) { done = true; // then } } while (!done); if (result == false) { skipBlock(); } } void Script::skipIf() { do { Operand *lhs = readOperand(); readOperator(); Operand *rhs = readOperand(); delete lhs; delete rhs; } while (_data->readByte() != 0xFE); } void Script::skipBlock() { int nesting = 1; while (true) { byte op = _data->readByte(); if (_data->eos()) return; if (op == 0x80) { // IF nesting++; skipIf(); } else if (op == 0x88 || op == 0x87) { // END or EXIT nesting--; if (nesting == 0) { return; } } else switch (op) { case 0x8B: // PRINT case 0x8C: // SOUND case 0x8E: // LET case 0x95: // MENU while (_data->readByte() != 0xFD) ; } } } enum { kCompEqNumNum, kCompEqObjScene, kCompEqChrScene, kCompEqObjChr, kCompEqChrChr, kCompEqSceneScene, kCompEqStringTextInput, kCompEqTextInputString, kCompEqNumberTextInput, kCompEqTextInputNumber, kCompLtNumNum, kCompLtStringTextInput, kCompLtTextInputString, kCompLtObjChr, kCompLtChrObj, kCompLtObjScene, kCompGtNumNum, kCompGtStringString, kCompGtChrScene, kMoveObjChr, kMoveObjScene, kMoveChrScene }; struct Comparator { char op; OperandType o1; OperandType o2; int cmp; } static comparators[] = { { '=', NUMBER, NUMBER, kCompEqNumNum }, { '=', OBJ, SCENE, kCompEqObjScene }, { '=', CHR, SCENE, kCompEqChrScene }, { '=', OBJ, CHR, kCompEqObjChr }, { '=', CHR, CHR, kCompEqChrChr }, { '=', SCENE, SCENE, kCompEqSceneScene }, { '=', STRING, TEXT_INPUT, kCompEqStringTextInput }, { '=', TEXT_INPUT, STRING, kCompEqTextInputString }, { '=', NUMBER, TEXT_INPUT, kCompEqNumberTextInput }, { '=', TEXT_INPUT, NUMBER, kCompEqTextInputNumber }, { '<', NUMBER, NUMBER, kCompLtNumNum }, { '<', STRING, TEXT_INPUT, kCompLtStringTextInput }, { '<', TEXT_INPUT, STRING, kCompLtTextInputString }, { '<', OBJ, CHR, kCompLtObjChr }, { '<', CHR, OBJ, kCompLtChrObj }, { '<', OBJ, SCENE, kCompLtObjScene }, { '<', CHR, CHR, kCompEqChrChr }, // Same logic as = { '<', SCENE, SCENE, kCompEqSceneScene }, { '>', NUMBER, NUMBER, kCompGtNumNum }, { '>', TEXT_INPUT, STRING, kCompLtTextInputString }, // Same logic as < //FIXME: this prevents the below cases from working due to exact //matches taking precedence over conversions... //{ '>', STRING, STRING, kCompGtStringString }, // Same logic as < { '>', OBJ, CHR, kCompLtObjChr }, // Same logic as < { '>', OBJ, SCENE, kCompLtObjScene }, // Same logic as < { '>', CHR, SCENE, kCompGtChrScene }, { 'M', OBJ, CHR, kMoveObjChr }, { 'M', OBJ, SCENE, kMoveObjScene }, { 'M', CHR, SCENE, kMoveChrScene }, { 0, OBJ, OBJ, 0 } }; bool Script::compare(Operand *o1, Operand *o2, int comparator) { switch(comparator) { case kCompEqNumNum: return o1->_value.number == o2->_value.number; case kCompEqObjScene: for (ObjList::const_iterator it = o2->_value.scene->_objs.begin(); it != o2->_value.scene->_objs.end(); ++it) if (*it == o1->_value.obj) return true; return false; case kCompEqChrScene: for (ChrList::const_iterator it = o2->_value.scene->_chrs.begin(); it != o2->_value.scene->_chrs.end(); ++it) if (*it == o1->_value.chr) return true; return false; case kCompEqObjChr: for (ObjArray::const_iterator it = o2->_value.chr->_inventory.begin(); it != o2->_value.chr->_inventory.end(); ++it) if (*it == o1->_value.obj) return true; return false; case kCompEqChrChr: return o1->_value.chr == o2->_value.chr; case kCompEqSceneScene: return o1->_value.scene == o2->_value.scene; case kCompEqStringTextInput: if (_inputText == NULL) { return false; } else { Common::String s1(*_inputText), s2(*o1->_value.string); s1.toLowercase(); s2.toLowercase(); return s1.contains(s2); } case kCompEqTextInputString: return compare(o2, o1, kCompEqStringTextInput); case kCompEqNumberTextInput: if (_inputText == NULL) { return false; } else { Common::String s1(*_inputText), s2(o1->toString()); s1.toLowercase(); s2.toLowercase(); return s1.contains(s2); } case kCompEqTextInputNumber: if (_inputText == NULL) { return false; } else { Common::String s1(*_inputText), s2(o2->toString()); s1.toLowercase(); s2.toLowercase(); return s1.contains(s2); } case kCompLtNumNum: return o1->_value.number < o2->_value.number; case kCompLtStringTextInput: return !compare(o1, o2, kCompEqStringTextInput); case kCompLtTextInputString: return !compare(o2, o1, kCompEqStringTextInput); case kCompLtObjChr: return o1->_value.obj->_currentOwner != o2->_value.chr; case kCompLtChrObj: return compare(o2, o1, kCompLtObjChr); case kCompLtObjScene: return o1->_value.obj->_currentScene != o2->_value.scene; case kCompGtNumNum: return o1->_value.number > o2->_value.number; case kCompGtStringString: return o1->_value.string == o2->_value.string; case kCompGtChrScene: return (o1->_value.chr != NULL && o1->_value.chr->_currentScene != o2->_value.scene); case kMoveObjChr: if (o1->_value.obj->_currentOwner != o2->_value.chr) { _world->move(o1->_value.obj, o2->_value.chr); _handled = true; // TODO: Is this correct? } break; case kMoveObjScene: if (o1->_value.obj->_currentScene != o2->_value.scene) { _world->move(o1->_value.obj, o2->_value.scene); // Note: This shouldn't call setHandled() - see // Sultan's Palace 'Food and Drink' scene. } break; case kMoveChrScene: _world->move(o1->_value.chr, o2->_value.scene); _handled = true; // TODO: Is this correct? break; } return false; } bool Script::evaluatePair(Operand *lhs, const char *op, Operand *rhs) { for (int cmp = 0; comparators[cmp].op != 0; cmp++) { if (comparators[cmp].op != op[0]) continue; if (comparators[cmp].o1 == lhs->_type && comparators[cmp].o2 == rhs->_type) return compare(lhs, rhs, comparators[cmp].cmp); } // Now, try partial matches. Operand *c1, *c2; for (int cmp = 0; comparators[cmp].op != 0; cmp++) { if (comparators[cmp].op != op[0]) continue; if (comparators[cmp].o1 == lhs->_type && (c2 = convertOperand(rhs, comparators[cmp].o2)) != NULL) { bool res = compare(lhs, c2, comparators[cmp].cmp); delete c2; return res; } else if (comparators[cmp].o2 == rhs->_type && (c1 = convertOperand(lhs, comparators[cmp].o1)) != NULL) { bool res = compare(c1, rhs, comparators[cmp].cmp); delete c1; return res; } } // Now, try double conversion. for (int cmp = 0; comparators[cmp].op != 0; cmp++) { if (comparators[cmp].op != op[0]) continue; if (comparators[cmp].o1 == lhs->_type || comparators[cmp].o2 == rhs->_type) continue; if ((c1 = convertOperand(lhs, comparators[cmp].o1)) != NULL) { if ((c2 = convertOperand(rhs, comparators[cmp].o2)) != NULL) { bool res = compare(c1, c2, comparators[cmp].cmp); delete c1; delete c2; return res; } delete c1; } } warning("UNHANDLED CASE: [lhs=%d/%s, op=%s rhs=%d/%s]", lhs->_type, lhs->toString().c_str(), op, rhs->_type, rhs->toString().c_str()); return false; } bool Script::eval(Operand *lhs, const char *op, Operand *rhs) { bool result = false; if (lhs->_type == CLICK_INPUT || rhs->_type == CLICK_INPUT) { return evalClickCondition(lhs, op, rhs); } else if (!strcmp(op, "==") || !strcmp(op, ">>")) { // TODO: check if >> can be used for click inputs and if == can be used for other things // exact string match if (lhs->_type == TEXT_INPUT) { if ((rhs->_type != STRING && rhs->_type != NUMBER) || _inputText == NULL) { result = false; } else { result = _inputText->equalsIgnoreCase(rhs->toString()); } } else if (rhs->_type == TEXT_INPUT) { if ((lhs->_type != STRING && lhs->_type != NUMBER) || _inputText == NULL) { result = false; } else { result = _inputText->equalsIgnoreCase(lhs->toString()); } } else { error("UNHANDLED CASE: [lhs=%d/%s, rhs=%d/%s]", lhs->_type, lhs->toString().c_str(), rhs->_type, rhs->toString().c_str()); } if (!strcmp(op, ">>")) { result = !result; } return result; } else { return evaluatePair(lhs, op, rhs); } return false; } Script::Operand *Script::convertOperand(Operand *operand, int type) { if (operand->_type == type) error("Incorrect conversion to type %d", type); if (type == SCENE) { if (operand->_type == STRING || operand->_type == NUMBER) { Common::String key(operand->toString()); key.toLowercase(); if (_world->_scenes.contains(key)) return new Operand(_world->_scenes[key], SCENE); } } else if (type == OBJ) { if (operand->_type == STRING || operand->_type == NUMBER) { Common::String key = operand->toString(); key.toLowercase(); if (_world->_objs.contains(key)) return new Operand(_world->_objs[key], OBJ); } else if (operand->_type == CLICK_INPUT) { if (_inputClick->_classType == OBJ) return new Operand(_inputClick, OBJ); } } else if (type == CHR) { if (operand->_type == STRING || operand->_type == NUMBER) { Common::String key = operand->toString(); key.toLowercase(); if (_world->_chrs.contains(key)) return new Operand(_world->_chrs[key], CHR); } else if (operand->_type == CLICK_INPUT) { if (_inputClick->_classType == CHR) return new Operand(_inputClick, CHR); } } return NULL; } bool Script::evalClickEquality(Operand *lhs, Operand *rhs, bool partialMatch) { bool result = false; if (lhs->_value.obj == NULL || rhs->_value.obj == NULL) { result = false; } else if (lhs->_value.obj == rhs->_value.obj) { result = true; } else if (rhs->_type == STRING) { Common::String str = rhs->toString(); str.toLowercase(); debug(9, "evalClickEquality(%s, %s, %d)", lhs->_value.designed->_name.c_str(), rhs->_value.designed->_name.c_str(), partialMatch); debug(9, "l: %d r: %d (ch: %d ob: %d)", lhs->_type, rhs->_type, CHR, OBJ); debug(9, "class: %d", lhs->_value.inputClick->_classType); if (lhs->_value.inputClick->_classType == CHR || lhs->_value.inputClick->_classType == OBJ) { Common::String name = lhs->_value.designed->_name; name.toLowercase(); if (partialMatch) result = name.contains(str); else result = name.equals(str); } debug(9, "result: %d", result); } return result; } bool Script::evalClickCondition(Operand *lhs, const char *op, Operand *rhs) { // TODO: check if >> can be used for click inputs if (strcmp(op, "==") && strcmp(op, "=") && strcmp(op, "<") && strcmp(op, ">")) { error("Unknown operation '%s' for Script::evalClickCondition", op); } bool partialMatch = strcmp(op, "=="); bool result; if (lhs->_type == CLICK_INPUT) { result = evalClickEquality(lhs, rhs, partialMatch); } else { result = evalClickEquality(rhs, lhs, partialMatch); } if (!strcmp(op, "<") || !strcmp(op, ">")) { // CLICK$readByte(); if (skip != 0x8a) error("Incorrect operator for MOVE: %02x", skip); Operand *to = readOperand(); skip = _data->readByte(); if (skip != 0xfd) error("No end for MOVE: %02x", skip); evaluatePair(what, "M", to); delete what; delete to; } void Script::processLet() { const char *lastOp = NULL; int16 result = 0; int operandType = _data->readByte(); int uservar = 0; if (operandType == 0xff) { uservar = _data->readByte(); } byte eq = _data->readByte(); // skip "=" operator debug(7, "processLet: 0x%x, uservar: 0x%x, eq: 0x%x", operandType, uservar, eq); do { Operand *operand = readOperand(); // TODO assert that value is NUMBER int16 value = operand->_value.number; delete operand; if (lastOp != NULL) { if (lastOp[0] == '+') result += value; else if (lastOp[0] == '-') result -= value; else if (lastOp[0] == '/') result = (int16)(value == 0 ? 0 : result / value); else if (lastOp[0] == '*') result *= value; } else { result = value; } lastOp = readOperator(); if (lastOp[0] == ';') break; } while (true); //System.out.println("processLet " + buildStringFromOffset(oldIndex - 1, index - oldIndex + 1) + "}"); assign(operandType, uservar, result); } enum { BLOCK_START, BLOCK_END, STATEMENT, OPERATOR, OPCODE }; struct Mapping { const char *cmd; int type; } mapping[] = { { "IF{", STATEMENT }, // 0x80 { "=", OPERATOR }, { "<", OPERATOR }, { ">", OPERATOR }, { "}AND{", OPCODE }, { "}OR{", OPCODE }, { "\?\?\?(0x86)", OPCODE }, { "EXIT\n", BLOCK_END }, { "END\n", BLOCK_END }, // 0x88 { "MOVE{", STATEMENT }, { "}TO{", OPCODE }, { "PRINT{", STATEMENT }, { "SOUND{", STATEMENT }, { "\?\?\?(0x8d)", OPCODE }, { "LET{", STATEMENT }, { "+", OPERATOR }, { "-", OPERATOR }, // 0x90 { "*", OPERATOR }, { "/", OPERATOR }, { "==", OPERATOR }, { ">>", OPERATOR }, { "MENU{", STATEMENT }, { "\?\?\?(0x96)", OPCODE }, { "\?\?\?(0x97)", OPCODE }, { "\?\?\?(0x98)", OPCODE }, // 0x98 { "\?\?\?(0x99)", OPCODE }, { "\?\?\?(0x9a)", OPCODE }, { "\?\?\?(0x9b)", OPCODE }, { "\?\?\?(0x9c)", OPCODE }, { "\?\?\?(0x9d)", OPCODE }, { "\?\?\?(0x9e)", OPCODE }, { "\?\?\?(0x9f)", OPCODE }, { "TEXT$", OPCODE }, // 0xa0 { "CLICK$", OPCODE }, { "\?\?\?(0xa2)", OPCODE }, { "\?\?\?(0xa3)", OPCODE }, { "\?\?\?(0xa4)", OPCODE }, { "\?\?\?(0xa5)", OPCODE }, { "\?\?\?(0xa6)", OPCODE }, { "\?\?\?(0xa7)", OPCODE }, { "\?\?\?(0xa8)", OPCODE }, // 0xa8 { "\?\?\?(0xa9)", OPCODE }, { "\?\?\?(0xaa)", OPCODE }, { "\?\?\?(0xab)", OPCODE }, { "\?\?\?(0xac)", OPCODE }, { "\?\?\?(0xad)", OPCODE }, { "\?\?\?(0xae)", OPCODE }, { "\?\?\?(0xaf)", OPCODE }, { "VISITS#", OPCODE }, // 0xb0 // The number of scenes the player has visited, including repeated visits. { "RANDOM#", OPCODE }, // RANDOM# for Star Trek, but VISITS# for some other games? { "LOOP#", OPCODE }, // The number of commands the player has given in the current scene. { "VICTORY#", OPCODE }, // The number of characters killed. { "BADCOPY#", OPCODE }, { "RANDOM#", OPCODE }, // A random number between 1 and 100. { "\?\?\?(0xb6)", OPCODE }, { "\?\?\?(0xb7)", OPCODE }, { "\?\?\?(0xb8)", OPCODE }, // 0xb8 { "\?\?\?(0xb9)", OPCODE }, { "\?\?\?(0xba)", OPCODE }, { "\?\?\?(0xbb)", OPCODE }, { "\?\?\?(0xbc)", OPCODE }, { "\?\?\?(0xbd)", OPCODE }, { "\?\?\?(0xbe)", OPCODE }, { "\?\?\?(0xbf)", OPCODE }, { "STORAGE@", OPCODE }, // 0xc0 { "SCENE@", OPCODE }, { "PLAYER@", OPCODE }, { "MONSTER@", OPCODE }, { "RANDOMSCN@", OPCODE }, { "RANDOMCHR@", OPCODE }, { "RANDOMOBJ@", OPCODE }, { "\?\?\?(0xc7)", OPCODE }, { "\?\?\?(0xc8)", OPCODE }, // 0xc8 { "\?\?\?(0xc9)", OPCODE }, { "\?\?\?(0xca)", OPCODE }, { "\?\?\?(0xcb)", OPCODE }, { "\?\?\?(0xcc)", OPCODE }, { "\?\?\?(0xcd)", OPCODE }, { "\?\?\?(0xce)", OPCODE }, { "\?\?\?(0xcf)", OPCODE }, { "PHYS.STR.BAS#", OPCODE }, // 0xd0 { "PHYS.HIT.BAS#", OPCODE }, { "PHYS.ARM.BAS#", OPCODE }, { "PHYS.ACC.BAS#", OPCODE }, { "SPIR.STR.BAS#", OPCODE }, { "SPIR.HIT.BAS#", OPCODE }, { "SPIR.ARM.BAS#", OPCODE }, { "SPIR.ACC.BAS#", OPCODE }, { "PHYS.SPE.BAS#", OPCODE }, // 0xd8 { "\?\?\?(0xd9)", OPCODE }, { "\?\?\?(0xda)", OPCODE }, { "\?\?\?(0xdb)", OPCODE }, { "\?\?\?(0xdc)", OPCODE }, { "\?\?\?(0xdd)", OPCODE }, { "\?\?\?(0xde)", OPCODE }, { "\?\?\?(0xdf)", OPCODE }, { "PHYS.STR.CUR#", OPCODE }, // 0xe0 { "PHYS.HIT.CUR#", OPCODE }, { "PHYS.ARM.CUR#", OPCODE }, { "PHYS.ACC.CUR#", OPCODE }, { "SPIR.STR.CUR#", OPCODE }, { "SPIR.HIT.CUR#", OPCODE }, { "SPIR.ARM.CUR#", OPCODE }, { "SPIR.ACC.CUR#", OPCODE }, { "PHYS.SPE.CUR#", OPCODE }, // 0xe8 { "\?\?\?(0xe9)", OPCODE }, { "\?\?\?(0xea)", OPCODE }, { "\?\?\?(0xeb)", OPCODE }, { "\?\?\?(0xec)", OPCODE }, { "\?\?\?(0xed)", OPCODE }, { "\?\?\?(0xee)", OPCODE }, { "\?\?\?(0xef)", OPCODE }, { "\?\?\?(0xf0)", OPCODE }, { "\?\?\?(0xf1)", OPCODE }, { "\?\?\?(0xf2)", OPCODE }, { "\?\?\?(0xf3)", OPCODE }, { "\?\?\?(0xf4)", OPCODE }, { "\?\?\?(0xf5)", OPCODE }, { "\?\?\?(0xf6)", OPCODE }, { "\?\?\?(0xf7)", OPCODE }, { "\?\?\?(0xf8)", OPCODE }, // 0xa8 { "\?\?\?(0xf9)", OPCODE }, { "\?\?\?(0xfa)", OPCODE }, { "\?\?\?(0xfb)", OPCODE }, { "\?\?\?(0xfc)", OPCODE }, { "}\n", OPCODE }, { "}THEN\n", BLOCK_START }, { "\?\?\?(0xff)", OPCODE } // Uservar }; void Script::convertToText() { _data->seek(12); int indentLevel = 0; ScriptText *scr = new ScriptText; scr->offset = _data->pos(); while(true) { int c = _data->readByte(); if (_data->eos()) break; if (c < 0x80) { if (c < 0x20) error("Unknown code 0x%02x at %d", c, _data->pos()); do { scr->line += c; c = _data->readByte(); } while (c < 0x80); _data->seek(-1, SEEK_CUR); } else if (c == 0xff) { int value = _data->readByte(); value -= 1; scr->line += (char)('A' + (value / 9)); scr->line += (char)('0' + (value % 9) + 1); scr->line += '#'; } else { const char *cmd = mapping[c - 0x80].cmd; int type = mapping[c - 0x80].type; if (type == STATEMENT) { for (int i = 0; i < indentLevel; i++) scr->line += ' '; } else if (type == BLOCK_START) { indentLevel += 2; } else if (type == BLOCK_END) { indentLevel -= 2; for (int i = 0; i < indentLevel; i++) scr->line += ' '; } scr->line += cmd; if (strchr(cmd, '\n')) { scr->line.deleteLastChar(); _scriptText.push_back(scr); scr = new ScriptText; scr->offset = _data->pos(); } } } if (scr->line.size()) _scriptText.push_back(scr); else delete scr; } } // End of namespace Wage