/* 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 "common/algorithm.h" #include "common/rect.h" #include "xeen/character.h" #include "xeen/combat.h" #include "xeen/interface.h" #include "xeen/xeen.h" namespace Xeen { static const int MONSTER_GRID_X[48] = { 1, 1, 1, 0, -1, -1, -1, 1, 1, 1, 0, -1, -1, -1, 1, 1, 1, 0, -1, -1, -1, 1, 1, 1, 0, -1, -1, -1, 1, 1, 1, 0, -1, -1, -1, 1, 1, 1, 0, -1, -1, -1, 1, 1, 1, 0, -1, -1 }; static const int MONSTER_GRID_Y[48] = { 0, 0, 0, -1, 0, 0, 0, 0, 0, 0, -1, 0, 0, 0, 0, 0, 0, -1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 0, 0, 0, 0, 0, 0, 1, 0, 0, 0, 0, 0, 0, 1, 0, 0 }; static const int MONSTER_GRID3[48] = { -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, - 1, -1, -1, -1, -1, -1, -1, -1, -1, 1, 1, 1, 0, -1, -1, -1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1 }; static const int MONSTER_GRID_BITINDEX1[48] = { 1, 1, 1, 2, 3, 3, 3, 1, 1, 1, 2, 3, 3, 3, 1, 1, 1, 2, 3, 3, 3, 1, 1, 1, 0, 3, 3, 3, 1, 1, 1, 0, 3, 3, 3, 1, 1, 1, 0, 3, 3, 3, 1, 1, 1, 0, 3, 3 }; static const int MONSTER_GRID_BITINDEX2[48] = { 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 1, 1, 1, 0, 3, 3, 3, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 }; static const int ATTACK_TYPE_FX[23] = { 49, 18, 13, 14, 15, 17, 16, 0, 6, 1, 2, 3, 4, 5, 4, 9, 27, 29, 44, 51, 53, 61, 71 }; static const PowType MONSTER_SHOOT_POW[7] = { POW_MAGIC_ARROW, POW_SPARKLES, POW_FIREBALL, POW_MEGAVOLTS, POW_COLD_RAY, POW_SPRAY, POW_ENERGY_BLAST }; static const int COMBAT_SHOOTING[4] = { 1, 1, 2, 3 }; static const int DAMAGE_TYPE_EFFECTS[19] = { 3, 10, 4, 11, 1, 2, 5, 9, 5, 14, 5, 14, 10, 8, 3, 9, 2, 2, 3 }; static const int POW_WEAPON_VOCS[35] = { 0, 5, 4, 5, 5, 5, 5, 2, 4, 5, 3, 5, 4, 2, 3, 2, 2, 4, 5, 5, 5, 5, 5, 1, 3, 2, 5, 1, 1, 1, 0, 0, 0, 2, 2 }; static const int MONSTER_ITEM_RANGES[6] = { 10, 20, 50, 100, 100, 100 }; #define monsterSavingThrow(MONINDEX) (_vm->getRandomNumber(1, 50 + (MONINDEX)) <= (MONINDEX)) /*------------------------------------------------------------------------*/ Combat::Combat(XeenEngine *vm): _vm(vm), _missVoc("miss.voc") { Common::fill(&_attackMonsters[0], &_attackMonsters[26], 0); Common::fill(&_shootingRow[0], &_shootingRow[MAX_PARTY_COUNT], 0); Common::fill(&_monsterMap[0][0], &_monsterMap[32][32], 0); Common::fill(&_monsterMoved[0], &_monsterMoved[MAX_NUM_MONSTERS], false); Common::fill(&_rangeAttacking[0], &_rangeAttacking[MAX_NUM_MONSTERS], false); Common::fill(&_gmonHit[0], &_gmonHit[36], 0); Common::fill(&_missedShot[0], &_missedShot[MAX_PARTY_COUNT], 0); _globalCombat = 0; _whosTurn = -1; _itemFlag = false; _monstersAttacking = false; _combatMode = COMBATMODE_STARTUP; _attackDurationCtr = 0; _partyRan = false; _monster2Attack = -1; _whosSpeed = 0; _damageType = DT_PHYSICAL; _oldCharacter = nullptr; _shootType = ST_0; _monsterDamage = 0; _weaponDamage = 0; _weaponDie = _weaponDice = 0; _weaponElemMaterial = 0; _attackWeapon = nullptr; _attackWeaponId = 0; _hitChanceBonus = 0; _dangerPresent = false; _moveMonsters = false; _rangeType = RT_SINGLE; _combatTarget = 0; } void Combat::clearAttackers() { Common::fill(&_attackMonsters[0], &_attackMonsters[ATTACK_MONSTERS_COUNT], -1); } void Combat::clearBlocked() { Common::fill(_charsBlocked, _charsBlocked + PARTY_AND_MONSTERS, false); } void Combat::clearShooting() { Common::fill(_shootingRow, _shootingRow + MAX_PARTY_COUNT, 0); } void Combat::giveCharDamage(int damage, DamageType attackType, int charIndex) { EventsManager &events = *_vm->_events; Interface &intf = *_vm->_interface; Party &party = *_vm->_party; Sound &sound = *_vm->_sound; Windows &windows = *_vm->_windows; int endIndex = charIndex + 1; int selectedIndex = 0; bool breakFlag = false; windows.closeAll(); int idx = (int)party._activeParty.size(); if (_combatTarget == 2) { for (idx = 0; idx < (int)party._activeParty.size(); ++idx) { Character &c = party._activeParty[idx]; Condition condition = c.worstCondition(); if (!(condition >= UNCONSCIOUS && condition <= ERADICATED)) { if (!charIndex) { charIndex = idx + 1; } else { selectedIndex = idx + 1; --charIndex; break; } } } } if (idx == (int)party._activeParty.size()) { if (!_combatTarget) charIndex = 0; } for (;;) { for (; charIndex < (_combatTarget ? endIndex : (int)party._activeParty.size()); ++charIndex) { Character &c = party._activeParty[charIndex]; c._conditions[ASLEEP] = 0; // Force attacked character to be awake int frame = 0, fx = 0; switch (attackType) { case DT_PHYSICAL: fx = 29; break; case DT_MAGICAL: frame = 6; fx = 27; break; case DT_FIRE: damage -= party._fireResistence; frame = 1; fx = 22; break; case DT_ELECTRICAL: damage -= party._electricityResistence; frame = 2; fx = 23; break; case DT_COLD: damage -= party._coldResistence; frame = 3; fx = 24; break; case DT_POISON: damage -= party._poisonResistence; frame = 4; fx = 26; break; case DT_ENERGY: frame = 5; fx = 25; break; case DT_SLEEP: fx = 38; break; default: break; } // All attack types other than physical allow for saving // throws to reduce the damage if (attackType != DT_PHYSICAL) { while (c.charSavingThrow(attackType) && damage > 0) damage /= 2; } // Draw the attack effect on the character sprite sound.playFX(fx); intf._charPowSprites.draw(0, frame, Common::Point(Res.CHAR_FACES_X[charIndex], 150)); windows[33].update(); // Reduce damage if power shield active, and set it zero // if the damage amount has become negative.. you wouldn't // want attacks healing the characters if (party._powerShield) damage -= party._powerShield; if (damage < 0) damage = 0; if (attackType == DT_SLEEP) { damage = c._currentHp; c._conditions[DEAD] = 1; } // Subtract the hit points from the character c.subtractHitPoints(damage); if (selectedIndex) break; } // Break check and if not, move to other index if (!selectedIndex || breakFlag) break; charIndex = selectedIndex - 1; breakFlag = true; } events.ipause(5); intf.drawParty(true); party.checkPartyDead(); } void Combat::doCharDamage(Character &c, int charNum, int monsterDataIndex) { Debugger &debugger = *g_vm->_debugger; EventsManager &events = *_vm->_events; Interface &intf = *_vm->_interface; Map &map = *_vm->_map; Party &party = *_vm->_party; Sound &sound = *_vm->_sound; Windows &windows = *_vm->_windows; MonsterStruct &monsterData = map._monsterData[monsterDataIndex]; // Attacked characters are automatically woken up c._conditions[ASLEEP] = 0; // Figure out the damage amount int damage = 0; for (int idx = 0; idx < monsterData._strikes; ++idx) damage += _vm->getRandomNumber(1, monsterData._dmgPerStrike); int fx = 29, frame = 0; if (monsterData._attackType != DT_PHYSICAL) { if (c.charSavingThrow(monsterData._attackType)) damage /= 2; switch (monsterData._attackType) { case DT_MAGICAL: frame = 6; fx = 27; break; case DT_FIRE: damage -= party._fireResistence; frame = 1; fx = 22; break; case DT_ELECTRICAL: damage -= party._electricityResistence; frame = 2; fx = 23; break; case DT_COLD: damage -= party._coldResistence; frame = 3; fx = 24; break; case DT_POISON: damage -= party._poisonResistence; frame = 4; fx = 26; break; case DT_ENERGY: frame = 5; fx = 25; break; default: break; } while (damage > 0 && c.charSavingThrow(monsterData._attackType)) damage /= 2; } sound.playFX(fx); intf._charPowSprites.draw(0, frame, Common::Point(Res.CHAR_FACES_X[charNum], 150)); windows[33].update(); damage = MAX(damage - party._powerShield, 0); if (damage > 0 && monsterData._specialAttack && !c.charSavingThrow(DT_PHYSICAL)) { switch (monsterData._specialAttack) { case SA_POISON: if (!++c._conditions[POISONED]) c._conditions[POISONED] = -1; sound.playFX(26); break; case SA_DISEASE: if (!++c._conditions[DISEASED]) c._conditions[DISEASED] = -1; sound.playFX(26); break; case SA_INSANE: if (!++c._conditions[INSANE]) c._conditions[INSANE] = -1; sound.playFX(28); break; case SA_SLEEP: if (!++c._conditions[ASLEEP]) c._conditions[ASLEEP] = -1; sound.playFX(36); break; case SA_CURSEITEM: c._items.curseUncurse(true); sound.playFX(37); break; case SA_DRAINSP: c._currentSp = 0; sound.playFX(37); break; case SA_CURSE: if (!++c._conditions[CURSED]) c._conditions[CURSED] = -1; sound.playFX(37); break; case SA_PARALYZE: if (!++c._conditions[PARALYZED]) c._conditions[PARALYZED] = -1; sound.playFX(37); break; case SA_UNCONSCIOUS: if (!++c._conditions[UNCONSCIOUS]) c._conditions[UNCONSCIOUS] = -1; sound.playFX(37); break; case SA_CONFUSE: if (!++c._conditions[CONFUSED]) c._conditions[CONFUSED] = -1; sound.playFX(28); break; case SA_BREAKWEAPON: for (int idx = 0; idx < INV_ITEMS_TOTAL; ++idx) { XeenItem &weapon = c._weapons[idx]; if (weapon._id < XEEN_SLAYER_SWORD && weapon._id != 0 && weapon._frame != 0) { weapon._state._broken = true; weapon._frame = 0; } } sound.playFX(37); break; case SA_WEAKEN: if (!++c._conditions[WEAK]) c._conditions[WEAK] = -1; sound.playFX(36); break; case SA_ERADICATE: if (!++c._conditions[ERADICATED]) c._conditions[ERADICATED] = -1; c._items.breakAllItems(); sound.playFX(37); if (c._currentHp > 0) c._currentHp = 0; break; case SA_AGING: ++c._tempAge; sound.playFX(37); break; case SA_DEATH: if (!++c._conditions[DEAD]) c._conditions[DEAD] = -1; sound.playFX(38); if (c._currentHp > 0) c._currentHp = 0; break; case SA_STONE: if (!++c._conditions[STONED]) c._conditions[STONED] = -1; sound.playFX(38); if (c._currentHp > 0) c._currentHp = 0; break; default: break; } } if (debugger._invincible) // Invincibility mode is on, so reset conditions that were set c.clearConditions(); else // Standard gameplay, deal out the damage c.subtractHitPoints(damage); events.ipause(2); intf.drawParty(true); } void Combat::moveMonsters() { Interface &intf = *_vm->_interface; Map &map = *_vm->_map; Party &party = *_vm->_party; if (!_moveMonsters) return; intf._tillMove = 0; if (intf._charsShooting) return; Common::fill(&_monsterMap[0][0], &_monsterMap[32][32], 0); Common::fill(&_monsterMoved[0], &_monsterMoved[MAX_NUM_MONSTERS], false); Common::fill(&_rangeAttacking[0], &_rangeAttacking[MAX_NUM_MONSTERS], false); Common::fill(&_gmonHit[0], &_gmonHit[36], -1); _dangerPresent = false; for (uint idx = 0; idx < map._mobData._monsters.size(); ++idx) { MazeMonster &monster = map._mobData._monsters[idx]; // WORKAROUND: Original only checked on y, but some monsters have an invalid X instead if ((uint)monster._position.x < 32 && (uint)monster._position.y < 32) { assert((uint)monster._position.x < 32); _monsterMap[monster._position.y][monster._position.x]++; } } for (int loopNum = 0; loopNum < 2; ++loopNum) { int arrIndex = -1; for (int yDiff = 3; yDiff >= -3; --yDiff) { for (int xDiff = -3; xDiff <= 3; ++xDiff) { Common::Point pt = party._mazePosition + Common::Point(xDiff, yDiff); ++arrIndex; for (int idx = 0; idx < (int)map._mobData._monsters.size(); ++idx) { MazeMonster &monster = map._mobData._monsters[idx]; MonsterStruct &monsterData = *monster._monsterData; if (pt == monster._position) { _dangerPresent = true; if ((monster._isAttacking || _vm->_mode == MODE_SLEEPING) && !_monsterMoved[idx]) { if (party._mazePosition.x == pt.x || party._mazePosition.y == pt.y) { // Check for range attacks if (monsterData._rangeAttack && !_rangeAttacking[idx] && _attackMonsters[0] != idx && _attackMonsters[1] != idx && _attackMonsters[2] != idx && monster._damageType == DT_PHYSICAL) { // Setup monster for attacking setupMonsterAttack(monster._spriteId, pt); _rangeAttacking[idx] = true; } } switch (party._mazeDirection) { case DIR_NORTH: case DIR_SOUTH: if (monsterCanMove(pt, Res.MONSTER_GRID_BITMASK[MONSTER_GRID_BITINDEX1[arrIndex]], MONSTER_GRID_X[arrIndex], MONSTER_GRID_Y[arrIndex], idx)) { // Move the monster moveMonster(idx, Common::Point(MONSTER_GRID_X[arrIndex], MONSTER_GRID_Y[arrIndex])); } else { if (monsterCanMove(pt, Res.MONSTER_GRID_BITMASK[MONSTER_GRID_BITINDEX2[arrIndex]], arrIndex >= 21 && arrIndex <= 27 ? MONSTER_GRID3[arrIndex] : 0, arrIndex >= 21 && arrIndex <= 27 ? 0 : MONSTER_GRID3[arrIndex], idx)) { if (arrIndex >= 21 && arrIndex <= 27) { moveMonster(idx, Common::Point(MONSTER_GRID3[arrIndex], 0)); } else { moveMonster(idx, Common::Point(0, MONSTER_GRID3[arrIndex])); } } } break; case DIR_EAST: case DIR_WEST: if (monsterCanMove(pt, Res.MONSTER_GRID_BITMASK[MONSTER_GRID_BITINDEX2[arrIndex]], arrIndex >= 21 && arrIndex <= 27 ? MONSTER_GRID3[arrIndex] : 0, arrIndex >= 21 && arrIndex <= 27 ? 0 : MONSTER_GRID3[arrIndex], idx)) { if (arrIndex >= 21 && arrIndex <= 27) { moveMonster(idx, Common::Point(MONSTER_GRID3[arrIndex], 0)); } else { moveMonster(idx, Common::Point(0, MONSTER_GRID3[arrIndex])); } } else if (monsterCanMove(pt, Res.MONSTER_GRID_BITMASK[MONSTER_GRID_BITINDEX1[arrIndex]], MONSTER_GRID_X[arrIndex], MONSTER_GRID_Y[arrIndex], idx)) { moveMonster(idx, Common::Point(MONSTER_GRID_X[arrIndex], MONSTER_GRID_Y[arrIndex])); } default: break; } } } } } } } monsterOvercome(); if (_monstersAttacking) monstersAttack(); } void Combat::monstersAttack() { EventsManager &events = *_vm->_events; Interface &intf = *_vm->_interface; Map &map = *_vm->_map; Party &party = *_vm->_party; Sound &sound = *_vm->_sound; PowType powNum = POW_INVALID; MonsterStruct *monsterData = nullptr; OutdoorDrawList &outdoorList = intf._outdoorList; IndoorDrawList &indoorList = intf._indoorList; for (int idx = 0; idx < 36; ++idx) { if (_gmonHit[idx] != -1) { monsterData = &map._monsterData[_gmonHit[idx]]; powNum = MONSTER_SHOOT_POW[monsterData->_attackType]; if (powNum != POW_MAGIC_ARROW) break; } } _powSprites.load(Common::String::format("pow%d.icn", (int)powNum)); sound.playFX(ATTACK_TYPE_FX[monsterData->_attackType]); for (int charNum = 0; charNum < MAX_PARTY_COUNT; ++charNum) { if (!_shootingRow[charNum]) continue; if (map._isOutdoors) { outdoorList._attackImgs1[charNum]._scale = 3; outdoorList._attackImgs2[charNum]._scale = 7; outdoorList._attackImgs3[charNum]._scale = 11; outdoorList._attackImgs4[charNum]._scale = 15; outdoorList._attackImgs1[charNum]._sprites = nullptr; outdoorList._attackImgs2[charNum]._sprites = nullptr; outdoorList._attackImgs3[charNum]._sprites = nullptr; outdoorList._attackImgs4[charNum]._sprites = nullptr; switch (_shootingRow[charNum]) { case 1: outdoorList._attackImgs1[charNum]._sprites = &_powSprites; break; case 2: outdoorList._attackImgs2[charNum]._sprites = &_powSprites; break; default: outdoorList._attackImgs3[charNum]._sprites = &_powSprites; break; } } else { indoorList._attackImgs1[charNum]._scale = 3; indoorList._attackImgs2[charNum]._scale = 7; indoorList._attackImgs3[charNum]._scale = 11; indoorList._attackImgs4[charNum]._scale = 15; indoorList._attackImgs1[charNum]._sprites = nullptr; indoorList._attackImgs2[charNum]._sprites = nullptr; indoorList._attackImgs3[charNum]._sprites = nullptr; indoorList._attackImgs4[charNum]._sprites = nullptr; switch (_shootingRow[charNum]) { case 1: indoorList._attackImgs1[charNum]._sprites = &_powSprites; break; case 2: indoorList._attackImgs2[charNum]._sprites = &_powSprites; break; default: indoorList._attackImgs3[charNum]._sprites = &_powSprites; break; } } } // Wait whilst the attacking effect is done do { intf.draw3d(true); events.pollEventsAndWait(); } while (!_vm->shouldExit() && intf._isAttacking); endAttack(); if (_vm->_mode != MODE_COMBAT) { // Combat wasn't previously active, but it is now. Set up // the combat party from the currently active party setupCombatParty(); } for (int idx = 0; idx < 36; ++idx) { if (_gmonHit[idx] != -1) doMonsterTurn(_gmonHit[idx]); } _monstersAttacking = false; if (_vm->_mode != MODE_SLEEPING) { for (uint charNum = 0; charNum < party._activeParty.size(); ++charNum) { Condition condition = party._activeParty[charNum].worstCondition(); if (condition != ASLEEP && (condition < PARALYZED || condition == NO_CONDITION)) { _vm->_mode = MODE_1; break; } } } } void Combat::setupMonsterAttack(int monsterDataIndex, const Common::Point &pt) { Party &party = *_vm->_party; for (int idx = 0; idx < 36; ++idx) { if (_gmonHit[idx] == -1) { int result = stopAttack(pt - party._mazePosition); if (result) { _monstersAttacking = true; _gmonHit[idx] = monsterDataIndex; if (result != 1) { for (int charNum = 0; charNum < MAX_PARTY_COUNT; ++charNum) { if (!_shootingRow[charNum]) { _shootingRow[charNum] = COMBAT_SHOOTING[result - 1]; break; } } } } break; } } } bool Combat::monsterCanMove(const Common::Point &pt, int wallShift, int xDiff, int yDiff, int monsterId) { Map &map = *_vm->_map; MazeMonster &monster = map._mobData._monsters[monsterId]; MonsterStruct &monsterData = *monster._monsterData; Common::Point tempPos = pt; if (map._isOutdoors) { tempPos += Common::Point(xDiff, yDiff); wallShift = 4; } int v = map.mazeLookup(tempPos, wallShift); if (!map._isOutdoors) { return v <= map.mazeData()._difficulties._wallNoPass; } else { SurfaceType surfaceType; switch (v) { case 0: case 2: case 3: case 4: case 5: case 6: case 8: case 11: case 13: case 14: surfaceType = (SurfaceType)map.mazeData()._surfaceTypes[map._currentSurfaceId]; if (surfaceType == SURFTYPE_WATER || surfaceType == SURFTYPE_DWATER) { return monsterData._flying || monster._spriteId == 59; } else if (surfaceType == SURFTYPE_SPACE) { return monsterData._flying; } else { return _vm->_files->_ccNum || monster._spriteId != 59; } default: return v <= map.mazeData()._difficulties._wallNoPass; } } } void Combat::moveMonster(int monsterId, const Common::Point &moveDelta) { Map &map = *_vm->_map; MazeMonster &monster = map._mobData._monsters[monsterId]; Common::Point newPos = monster._position + moveDelta; assert((uint)newPos.x < 32 && (uint)newPos.y < 32); if (_monsterMap[newPos.y][newPos.x] < 3 && monster._damageType == DT_PHYSICAL && _moveMonsters) { // Adjust monster's position ++_monsterMap[newPos.y][newPos.x]; --_monsterMap[monster._position.y][monster._position.x]; monster._position = newPos; _monsterMoved[monsterId] = true; } } void Combat::endAttack() { Interface &intf = *_vm->_interface; Map &map = *_vm->_map; Party &party = *_vm->_party; intf._isAttacking = false; IndoorDrawList &indoorList = intf._indoorList; OutdoorDrawList &outdoorList = intf._outdoorList; for (uint idx = 0; idx < party._activeParty.size(); ++idx) { if (map._isOutdoors) { outdoorList._attackImgs1[idx]._scale = 0; outdoorList._attackImgs2[idx]._scale = 0; outdoorList._attackImgs3[idx]._scale = 0; outdoorList._attackImgs4[idx]._scale = 0; outdoorList._attackImgs1[idx]._sprites = nullptr; outdoorList._attackImgs2[idx]._sprites = nullptr; outdoorList._attackImgs3[idx]._sprites = nullptr; outdoorList._attackImgs4[idx]._sprites = nullptr; } else { indoorList._attackImgs1[idx]._scale = 0; indoorList._attackImgs2[idx]._scale = 0; indoorList._attackImgs3[idx]._scale = 0; indoorList._attackImgs4[idx]._scale = 0; indoorList._attackImgs1[idx]._sprites = nullptr; indoorList._attackImgs2[idx]._sprites = nullptr; indoorList._attackImgs3[idx]._sprites = nullptr; indoorList._attackImgs4[idx]._sprites = nullptr; } } clearShooting(); } void Combat::monsterOvercome() { Map &map = *_vm->_map; for (uint idx = 0; idx < map._mobData._monsters.size(); ++idx) { MazeMonster &monster = map._mobData._monsters[idx]; int dataIndex = monster._spriteId; if (monster._damageType != DT_PHYSICAL && monster._damageType != DT_DRAGONSLEEP) { // Do a saving throw for monster if (dataIndex <= _vm->getRandomNumber(1, dataIndex + 50)) monster._damageType = DT_PHYSICAL; } } } void Combat::doMonsterTurn(int monsterId) { Interface &intf = *_vm->_interface; Map &map = *_vm->_map; Party &party = *_vm->_party; Sound &sound = *_vm->_sound; if (!_monstersAttacking) { int monsterIndex; switch (_whosTurn - _combatParty.size()) { case 0: monsterIndex = _attackMonsters[0]; intf._indoorList[156]._scale = 0; break; case 1: monsterIndex = _attackMonsters[1]; intf._indoorList[150]._scale = 0; break; case 2: default: monsterIndex = _attackMonsters[2]; intf._indoorList[153]._scale = 0; } assert(monsterIndex != -1); MazeMonster &monster = map._mobData._monsters[monsterIndex]; MonsterStruct &monsterData = *monster._monsterData; if (monster._damageType != DT_PHYSICAL) return; monster._frame = 8; monster._postAttackDelay = 3; monster._field9 = 0; intf.draw3d(true); intf.draw3d(true); sound.playSound(Common::String::format("%s.voc", monsterData._attackVoc.c_str())); monsterId = monster._spriteId; } MonsterStruct &monsterData = map._monsterData[monsterId]; bool flag = false; for (int attackNum = 0; attackNum < monsterData._numberOfAttacks; ++attackNum) { int charNum = -1; bool isHated = false; if (monsterData._hatesClass != -1) { if (monsterData._hatesClass == HATES_ALL_CLASSES) // Monster hates all classes goto loop; for (uint charIndex = 0; charIndex < _combatParty.size(); ++charIndex) { Character &c = *_combatParty[charIndex]; Condition cond = c.worstCondition(); if (cond >= PARALYZED && cond <= ERADICATED) continue; isHated = false; switch (monsterData._hatesClass) { case CLASS_KNIGHT: case CLASS_PALADIN: case CLASS_ARCHER: case CLASS_CLERIC: case CLASS_SORCERER: case CLASS_ROBBER: case CLASS_NINJA: case CLASS_BARBARIAN: case CLASS_DRUID: case CLASS_RANGER: isHated = c._class == monsterData._hatesClass; break; case HATES_DWARF: isHated = c._race == DWARF; break; default: break; } if (isHated) { charNum = charIndex; break; } } } if (!isHated) { // No particularly hated foe, so decide which character to start with // Note: Original had a whole switch statement depending on party size, that boiled down to // picking a random character in all cases anyway charNum = _vm->getRandomNumber(0, _combatParty.size() - 1); } // Attacking loop do { if (!flag) { Condition cond = _combatParty[charNum]->worstCondition(); if (cond >= PARALYZED && cond <= ERADICATED) { Common::Array ableChars; bool skip = false; for (uint idx = 0; idx < _combatParty.size() && !skip; ++idx) { switch (_combatParty[idx]->worstCondition()) { case PARALYZED: case UNCONSCIOUS: //if (flag) // skip = true; break; case DEAD: case STONED: case ERADICATED: break; default: ableChars.push_back(idx); break; } } if (!skip) { if (ableChars.size() == 0) { party._dead = true; _vm->_mode = MODE_1; return; } charNum = ableChars[_vm->getRandomNumber(0, ableChars.size() - 1)]; } } } // Unconditional if to get around goto initialization errors if (true) { Character &c = *_combatParty[charNum]; if (monsterData._attackType != DT_PHYSICAL || c._conditions[ASLEEP]) { doCharDamage(c, charNum, monsterId); } else { int v = _vm->getRandomNumber(1, 20); if (v == 1) { // Critical Save sound.playFX(6); } else { if (v == 20) // Critical failure doCharDamage(c, charNum, monsterId); v += monsterData._hitChance / 4 + _vm->getRandomNumber(1, monsterData._hitChance); int ac = c.getArmorClass() + (!_charsBlocked[charNum] ? 10 : c.getCurrentLevel() / 2 + 15); if (ac > v) { sound.playFX(6); } else { doCharDamage(c, charNum, monsterId); } } } if (flag) break; } loop: flag = true; } while (++charNum < (int)_combatParty.size()); } intf.drawParty(true); } int Combat::stopAttack(const Common::Point &diffPt) { Map &map = *_vm->_map; Party &party = *_vm->_party; Direction dir = party._mazeDirection; const Common::Point &mazePos = party._mazePosition; if (map._isOutdoors) { if (diffPt.x > 0) { for (int x = 1; x <= diffPt.x; ++x) { int v = map.mazeLookup(Common::Point(mazePos.x + x, mazePos.y), 0, 8); if (v) return 0; } return (dir == DIR_EAST) ? diffPt.x + 1 : 1; } else if (diffPt.x < 0) { for (int x = diffPt.x; x < 0; ++x) { int v = map.mazeLookup(Common::Point(mazePos.x + x, mazePos.y), 4); switch (v) { case 0: case 2: case 4: case 5: case 8: case 11: case 13: case 14: break; default: return 0; } } return dir == DIR_WEST ? diffPt.x * -1 + 1 : 1; } else if (diffPt.y <= 0) { for (int y = diffPt.y; y < 0; ++y) { int v = map.mazeLookup(Common::Point(mazePos.x, mazePos.y + y), 4); switch (v) { case 0: case 2: case 4: case 5: case 8: case 11: case 13: case 14: break; default: return 0; } } return party._mazeDirection == DIR_SOUTH ? diffPt.y * -1 + 1 : 1; } else { for (int y = 1; y <= diffPt.y; ++y) { int v = map.mazeLookup(Common::Point(mazePos.x, mazePos.y + y), 4); switch (v) { case 0: case 2: case 4: case 5: case 8: case 11: case 13: case 14: break; default: return 0; } } return dir == DIR_NORTH ? diffPt.y + 1 : 1; } } else { // Indoors if (diffPt.x > 0) { for (int x = 1; x <= diffPt.x; ++x) { int v = map.mazeLookup(Common::Point(mazePos.x + x, mazePos.y), 0, 8); if (v) return 0; } return dir == DIR_EAST ? diffPt.x + 1 : 1; } else if (diffPt.x < 0) { for (int x = diffPt.x; x < 0; ++x) { int v = map.mazeLookup(Common::Point(mazePos.x + x, mazePos.y), 0, 0x800); if (v) return 0; } return dir == DIR_WEST ? diffPt.x * -1 + 1 : 1; } else if (diffPt.y <= 0) { for (int y = diffPt.y; y < 0; ++y) { int v = map.mazeLookup(Common::Point(mazePos.x, mazePos.y + y), 0, 0x8000); if (v) return 0; } return dir == DIR_SOUTH ? diffPt.y * -1 + 1 : 1; } else { for (int y = 1; y <= diffPt.y; ++y) { int v = map.mazeLookup(Common::Point(mazePos.x, mazePos.y + y), 0, 0x80); if (v) return 0; } return dir == DIR_NORTH ? diffPt.y + 1 : 1; } } } void Combat::setupCombatParty() { Party &party = *_vm->_party; _combatParty.clear(); for (uint idx = 0; idx < party._activeParty.size(); ++idx) _combatParty.push_back(&party._activeParty[idx]); } void Combat::setSpeedTable() { Map &map = *_vm->_map; Common::Array charSpeeds; bool hasSpeed = _whosSpeed != -1; int oldSpeed = hasSpeed && _whosSpeed < (int)_speedTable.size() ? _speedTable[_whosSpeed] : 0; // Set up speeds for party membres int maxSpeed = 0; for (uint charNum = 0; charNum < _combatParty.size(); ++charNum) { Character &c = *_combatParty[charNum]; charSpeeds.push_back(c.getStat(SPEED)); maxSpeed = MAX(charSpeeds[charNum], maxSpeed); } // Add in speeds of attacking monsters for (int monsterNum = 0; monsterNum < 3; ++monsterNum) { if (_attackMonsters[monsterNum] != -1) { MazeMonster &monster = map._mobData._monsters[_attackMonsters[monsterNum]]; MonsterStruct &monsterData = *monster._monsterData; charSpeeds.push_back(monsterData._speed); maxSpeed = MAX(maxSpeed, monsterData._speed); } else { charSpeeds.push_back(0); } } // Populate the _speedTable list with the character/monster indexes // in order of attacking speed _speedTable.clear(); for (; maxSpeed > 0; --maxSpeed) { for (uint idx = 0; idx < charSpeeds.size(); ++idx) { if (charSpeeds[idx] == maxSpeed) _speedTable.push_back(idx); } } if (hasSpeed) { if (_speedTable.empty()) { _whosSpeed = 0; } else if (_whosSpeed >= (int)_speedTable.size() || _speedTable[_whosSpeed] != oldSpeed) { for (_whosSpeed = 0; _whosSpeed < (int)charSpeeds.size(); ++_whosSpeed) { if (oldSpeed == _speedTable[_whosSpeed]) break; } if (_whosSpeed == (int)charSpeeds.size()) error("Could not reset next speedy character. Beep beep."); } } } bool Combat::allHaveGone() const { int monsCount = (_attackMonsters[0] != -1 ? 1 : 0) + (_attackMonsters[1] != -1 ? 1 : 0) + (_attackMonsters[2] != -1 ? 1 : 0); for (uint idx = 0; idx < (_combatParty.size() + monsCount); ++idx) { if (!_charsGone[idx]) { if (idx >= _combatParty.size()) { return false; } else { Condition condition = _combatParty[idx]->worstCondition(); if (condition < PARALYZED || condition == NO_CONDITION) return false; } } } return true; } bool Combat::charsCantAct() const { for (uint idx = 0; idx < _combatParty.size(); ++idx) { if (!_combatParty[idx]->isDisabledOrDead()) return false; } return true; } Common::String Combat::getMonsterDescriptions() { Map &map = *_vm->_map; Common::String lines[3]; // Get names of monsters attacking, if any for (int idx = 0; idx < 3; ++idx) { if (_attackMonsters[idx] != -1) { MazeMonster &monster = map._mobData._monsters[_attackMonsters[idx]]; MonsterStruct &monsterData = *monster._monsterData; int textColor = monster.getTextColor(); Common::String format = "\n\v020\f%2u%s\fd"; format.setChar('2' + idx, 3); lines[idx] = Common::String::format(format.c_str(), textColor, monsterData._name.c_str()); } } if (_attackDurationCtr == 2 && _attackMonsters[2] != -1) { _monster2Attack = _attackMonsters[2]; } if (_attackDurationCtr == 1 && _attackMonsters[1] != -1) { _monster2Attack = _attackMonsters[1]; } else { _monster2Attack = _attackMonsters[0]; _attackDurationCtr = 0; } return Common::String::format(Res.COMBAT_DETAILS, lines[0].c_str(), lines[1].c_str(), lines[2].c_str()); } void Combat::attack(Character &c, RangeType rangeType) { Interface &intf = *_vm->_interface; Map &map = *_vm->_map; Party &party = *_vm->_party; int damage = _monsterDamage; if (_monster2Attack == -1) return; MazeMonster &monster = map._mobData._monsters[_monster2Attack]; int monsterDataIndex = monster._spriteId; MonsterStruct &monsterData = map._monsterData[monsterDataIndex]; if (rangeType != RT_SINGLE) { if (_shootType != ST_1 || _damageType == DT_MAGIC_ARROW) { if (!monsterData._magicResistence || monsterData._magicResistence <= _vm->getRandomNumber(1, 100 + _oldCharacter->getCurrentLevel())) { if (_monsterDamage != 0) { attack2(damage, rangeType); } else { switch (_damageType) { case DT_SLEEP: if (monsterData._monsterType == MONSTER_ANIMAL || monsterData._monsterType == MONSTER_HUMANOID) { if (_vm->getRandomNumber(1, 50 + monsterDataIndex) > monsterDataIndex) monster._damageType = DT_SLEEP; } break; case DT_FINGEROFDEATH: if ((monsterData._monsterType == MONSTER_ANIMAL || monsterData._monsterType == MONSTER_HUMANOID) && !monsterSavingThrow(monsterDataIndex)) { damage = MIN(monster._hp, 50); attack2(damage, RT_ALL); } break; case DT_HOLYWORD: if (monsterData._monsterType == MONSTER_UNDEAD) { attack2(monster._hp, RT_ALL); } break; case DT_MASS_DISTORTION: attack2(MAX(monster._hp / 2, 1), RT_ALL); break; case DT_UNDEAD: if (monsterData._monsterType == MONSTER_UNDEAD) damage = 25; else rangeType = RT_ALL; attack2(damage, rangeType); break; case DT_BEASTMASTER: if ((monsterData._monsterType == MONSTER_ANIMAL || monsterData._monsterType == MONSTER_HUMANOID) && !monsterSavingThrow(monsterDataIndex)) { monster._damageType = DT_BEASTMASTER; } break; case DT_DRAGONSLEEP: if (monsterData._monsterType == MONSTER_DRAGON && !monsterSavingThrow(monsterDataIndex)) monster._damageType = DT_DRAGONSLEEP; break; case DT_GOLEMSTOPPER: if (monsterData._monsterType == MONSTER_GOLEM) { attack2(100, rangeType); } break; case DT_HYPNOTIZE: if ((monsterData._monsterType == MONSTER_ANIMAL || monsterData._monsterType == MONSTER_HUMANOID) && !monsterSavingThrow(monsterDataIndex)) { monster._damageType = _damageType; } break; case DT_INSECT_SPRAY: if (monsterData._monsterType == MONSTER_INSECT) { attack2(25, rangeType); } break; case DT_MAGIC_ARROW: attack2(8, rangeType); break; default: break; } } } } else { _pow.resetElementals(); damage = 0; for (uint charIndex = 0; charIndex < party._activeParty.size(); ++charIndex) { Character &ch = party._activeParty[charIndex]; if (_shootingRow[charIndex] && !_missedShot[charIndex]) { if (!hitMonster(ch, rangeType)) { ++_missedShot[charIndex]; } else { damage = _monsterDamage ? _monsterDamage : _weaponDamage; _shootingRow[charIndex] = 0; attack2(damage, RT_HIT); if (map._isOutdoors) { intf._outdoorList._attackImgs1[charIndex]._scale = 0; intf._outdoorList._attackImgs1[charIndex]._sprites = nullptr; intf._outdoorList._attackImgs2[charIndex]._scale = 0; intf._outdoorList._attackImgs2[charIndex]._sprites = nullptr; intf._outdoorList._attackImgs3[charIndex]._scale = 0; intf._outdoorList._attackImgs3[charIndex]._sprites = nullptr; intf._outdoorList._attackImgs4[charIndex]._scale = 0; intf._outdoorList._attackImgs4[charIndex]._sprites = nullptr; } else { intf._indoorList._attackImgs1[charIndex]._scale = 0; intf._indoorList._attackImgs1[charIndex]._sprites = nullptr; intf._indoorList._attackImgs2[charIndex]._scale = 0; intf._indoorList._attackImgs2[charIndex]._sprites = nullptr; intf._indoorList._attackImgs3[charIndex]._scale = 0; intf._indoorList._attackImgs3[charIndex]._sprites = nullptr; intf._indoorList._attackImgs4[charIndex]._scale = 0; intf._indoorList._attackImgs4[charIndex]._sprites = nullptr; } if (_monster2Attack == -1) return; } } } } } else { _damageType = DT_PHYSICAL; int divisor = 0; switch (c._class) { case CLASS_BARBARIAN: divisor = 4; break; case CLASS_KNIGHT: case CLASS_NINJA: divisor = 5; break; case CLASS_PALADIN: case CLASS_ARCHER: case CLASS_ROBBER: case CLASS_RANGER: divisor = 6; break; case CLASS_CLERIC: case CLASS_DRUID: divisor = 7; break; case CLASS_SORCERER: divisor = 8; break; default: error("Invalid class"); } int numberOfAttacks = c.getCurrentLevel() / divisor + 1; damage = 0; while (numberOfAttacks-- > 0) { if (hitMonster(c, RT_SINGLE)) damage += getMonsterDamage(c); } for (int itemIndex = 0; itemIndex < INV_ITEMS_TOTAL; ++itemIndex) { XeenItem &weapon = c._weapons[itemIndex]; if (weapon.isEquipped()) { switch (weapon._state._counter) { case EFFECTIVE_DRAGON: if (monsterData._monsterType == MONSTER_DRAGON) damage *= 3; break; case EFFECTIVE_UNDEAD : if (monsterData._monsterType == MONSTER_UNDEAD) damage *= 3; break; case EFFECTIVE_GOLEM: if (monsterData._monsterType == MONSTER_GOLEM) damage *= 3; break; case EFFECTIVE_INSECT: if (monsterData._monsterType == MONSTER_INSECT) damage *= 3; break; case EFFEctIVE_MONSTERS: if (monsterData._monsterType == MONSTER_MONSTERS) damage *= 3; break; case EFFECTIVE_ANIMAL: if (monsterData._monsterType == MONSTER_ANIMAL) damage *= 3; break; default: break; } } } attack2(damage, rangeType); } setSpeedTable(); } void Combat::attack2(int damage, RangeType rangeType) { Interface &intf = *_vm->_interface; Map &map = *_vm->_map; Party &party = *_vm->_party; Sound &sound = *_vm->_sound; int ccNum = _vm->_files->_ccNum; MazeMonster &monster = map._mobData._monsters[_monster2Attack]; MonsterStruct &monsterData = *monster._monsterData; bool monsterDied = false; if (!ccNum && damage && rangeType != RT_SINGLE && monster._spriteId == 89) damage = 0; if (!damage) { sound.playSound(_missVoc, 1); sound.playFX(6); } else { if (!ccNum && monster._spriteId == 89) damage += 100; if (monster._damageType == DT_SLEEP || monster._damageType == DT_DRAGONSLEEP) monster._damageType = DT_PHYSICAL; if ((rangeType == RT_SINGLE || _damageType == DT_PHYSICAL) && _attackWeaponId < XEEN_SLAYER_SWORD) { if (monsterData._phsyicalResistence != 0) { if (monsterData._phsyicalResistence == 100) { // Completely immune to the damage damage = 0; } else { // Reduce the damage based on physical resistance damage = damage * (100 - monsterData._phsyicalResistence) / 100; } } } if (damage) { _pow[_attackDurationCtr]._duration = 3; _pow[_attackDurationCtr]._active = _damageType == DT_PHYSICAL && (rangeType == RT_HIT || rangeType == RT_SINGLE); monster._frame = 11; monster._postAttackDelay = 5; } int monsterResist = getMonsterResistence(rangeType); damage += monsterResist; if (monsterResist > 0) { _pow[_attackDurationCtr]._elemFrame = XeenItem::getElementalCategory(_weaponElemMaterial); _pow[_attackDurationCtr]._elemScale = getDamageScale(monsterResist); } else if (rangeType != RT_HIT) { _pow[_attackDurationCtr]._elemFrame = 0; } if (rangeType != RT_SINGLE && rangeType != RT_HIT) { monster._effect2 = DAMAGE_TYPE_EFFECTS[_damageType]; monster._effect1 = 0; } if (rangeType != RT_SINGLE && monsterSavingThrow(monster._spriteId)) { switch (_damageType) { case DT_FINGEROFDEATH: case DT_MASS_DISTORTION: damage = 5; break; case DT_SLEEP: case DT_HOLYWORD: case DT_UNDEAD: case DT_BEASTMASTER: case DT_DRAGONSLEEP: case DT_GOLEMSTOPPER: case DT_HYPNOTIZE: case DT_INSECT_SPRAY: case DT_MAGIC_ARROW: break; default: damage /= 2; break; } } if (damage < 1) { sound.playSound(_missVoc, 1); sound.playFX(6); } else { _pow[_attackDurationCtr]._scale = getDamageScale(damage); intf.draw3d(true); sound.stopSound(); File powVoc(Common::String::format("pow%d.voc", POW_WEAPON_VOCS[_attackWeaponId])); sound.playFX(60 + POW_WEAPON_VOCS[_attackWeaponId]); sound.playSound(powVoc, 1); if (monster._hp > damage) { monster._hp -= damage; } else { monster._hp = 0; monsterDied = true; } } } intf.draw3d(true); if (monsterDied) { if (!ccNum) { if (_monster2Attack == 20 && party._mazeId == 41) party._gameFlags[0][11] = true; if (_monster2Attack == 8 && party._mazeId == 78) { party._gameFlags[0][60] = true; party._questFlags[0][23] = false; for (uint idx = 0; idx < party._activeParty.size(); ++idx) party._activeParty[idx].setAward(42, true); if (_monster2Attack == 27 && party._mazeId == 29) party._gameFlags[0][104] = true; } } giveExperience(monsterData._experience); if (party._mazeId != 85) { party._treasure._gold = monsterData._gold; party._treasure._gems = monsterData._gems; if (!ccNum && monster._spriteId == 89) { // Xeen's Scepter of Temporal Distortion party._treasure._weapons[0]._id = 90; party._treasure._weapons[0]._material = 0; party._treasure._weapons[0]._state.clear(); party._treasure._hasItems = true; party._questItems[8]++; } int itemDrop = monsterData._itemDrop; if (itemDrop) { if (MONSTER_ITEM_RANGES[itemDrop] >= _vm->getRandomNumber(1, 100)) { Character tempChar; int category = tempChar.makeItem(itemDrop, 0, 0); switch (category) { case CATEGORY_WEAPON: for (int idx = 0; idx < MAX_TREASURE_ITEMS; ++idx) { if (party._treasure._weapons[idx].empty()) { party._treasure._weapons[idx] = tempChar._weapons[0]; party._treasure._hasItems = true; break; } } break; case CATEGORY_ARMOR: for (int idx = 0; idx < MAX_TREASURE_ITEMS; ++idx) { if (party._treasure._armor[idx].empty()) { party._treasure._armor[idx] = tempChar._armor[0]; party._treasure._hasItems = true; break; } } break; case CATEGORY_ACCESSORY: for (int idx = 0; idx < MAX_TREASURE_ITEMS; ++idx) { if (party._treasure._accessories[idx].empty()) { party._treasure._accessories[idx] = tempChar._accessories[0]; party._treasure._hasItems = true; break; } } break; case CATEGORY_MISC: for (int idx = 0; idx < MAX_TREASURE_ITEMS; ++idx) { if (party._treasure._accessories[idx].empty()) { party._treasure._accessories[idx] = tempChar._accessories[0]; party._treasure._hasItems = true; break; } } break; } } } } monster._position = Common::Point(0x80, 0x80); _pow[_attackDurationCtr]._duration = 0; _monster2Attack = -1; intf.draw3d(true); if (_attackMonsters[0] != -1) { _monster2Attack = _attackMonsters[0]; _attackDurationCtr = 0; } } } void Combat::block() { _charsBlocked[_whosTurn] = true; } void Combat::quickFight() { Spells &spells = *_vm->_spells; Character *c = _combatParty[_whosTurn]; switch (c->_quickOption) { case QUICK_ATTACK: attack(*c, RT_SINGLE); break; case QUICK_SPELL: if (c->_currentSpell != -1) { spells.castSpell(c, (MagicSpell)Res.SPELLS_ALLOWED[c->getSpellsCategory()][c->_currentSpell]); } break; case QUICK_BLOCK: block(); break; case QUICK_RUN: run(); break; default: break; } } void Combat::run() { Map &map = *_vm->_map; Sound &sound = *_vm->_sound; if (_vm->getRandomNumber(1, 100) < map.mazeData()._difficulties._chance2Run) { // Remove the character from the combat party _combatParty.remove_at(_whosTurn); setSpeedTable(); --_whosSpeed; _whosTurn = -1; _partyRan = true; sound.playFX(51); } } bool Combat::hitMonster(Character &c, RangeType rangeType) { Map &map = *_vm->_map; getWeaponDamage(c, rangeType); int chance = c.statBonus(c.getStat(ACCURACY)) + _hitChanceBonus; int divisor = 0; switch (c._class) { case CLASS_KNIGHT: case CLASS_BARBARIAN: divisor = 1; break; case CLASS_PALADIN : case CLASS_ARCHER: case CLASS_ROBBER: case CLASS_NINJA: case CLASS_RANGER: divisor = 2; break; case CLASS_CLERIC: case CLASS_DRUID: divisor = 3; break; case CLASS_SORCERER: divisor = 4; break; default: break; } chance += c.getCurrentLevel() / divisor; chance -= c._conditions[CURSED]; // Add on a random amount int v; do { v = _vm->getRandomNumber(1, 20); chance += v; } while (v == 20); assert(_monster2Attack != -1); MazeMonster &monster = map._mobData._monsters[_monster2Attack]; MonsterStruct &monsterData = *monster._monsterData; if (monster._damageType != DT_PHYSICAL) chance += 20; return chance >= (monsterData._armorClass + 10); } void Combat::getWeaponDamage(Character &c, RangeType rangeType) { Party &party = *_vm->_party; _attackWeapon = nullptr; _weaponDie = _weaponDice = 0; _weaponDamage = 0; _hitChanceBonus = 0; _weaponElemMaterial = 0; for (int idx = 0; idx < INV_ITEMS_TOTAL; ++idx) { XeenItem &weapon = c._weapons[idx]; bool flag; if (rangeType != RT_SINGLE) { flag = weapon._frame == 4; } else { flag = weapon._frame == 1 || weapon._frame == 13; } if (flag) { if (!weapon.isBad()) { _attackWeapon = &weapon; if (weapon._material < 37) { _weaponElemMaterial = weapon._material; } else if (weapon._material < 59) { _hitChanceBonus = Res.METAL_DAMAGE_PERCENT[weapon._material - 37]; _weaponDamage = Res.METAL_DAMAGE[weapon._material - 37]; } } _hitChanceBonus += party._heroism; _attackWeaponId = weapon._id; _weaponDice = Res.WEAPON_DAMAGE_BASE[_attackWeaponId]; _weaponDie = Res.WEAPON_DAMAGE_MULTIPLIER[_attackWeaponId]; for (int diceIdx = 0; diceIdx < _weaponDice; ++diceIdx) _weaponDamage += _vm->getRandomNumber(1, _weaponDie); } } if (_weaponDamage < 1) _weaponDamage = 0; if (party._difficulty == ADVENTURER) { _hitChanceBonus += 5; _weaponDamage *= 3; } } int Combat::getMonsterDamage(Character &c) { return MAX(c.statBonus(c.getStat(MIGHT)) + _weaponDamage, 1); } int Combat::getDamageScale(int v) { if (v < 10) return 5; else if (v < 100) return 0; else return 0x8000; } int Combat::getMonsterResistence(RangeType rangeType) { Map &map = *_vm->_map; assert(_monster2Attack != -1); MazeMonster &monster = map._mobData._monsters[_monster2Attack]; MonsterStruct &monsterData = *monster._monsterData; int resistence = 0, damage = 0; if (rangeType != RT_SINGLE && rangeType != RT_HIT) { switch (_damageType) { case DT_PHYSICAL: resistence = monsterData._phsyicalResistence; break; case DT_MAGICAL: resistence = monsterData._magicResistence; break; case DT_FIRE: resistence = monsterData._fireResistence; break; case DT_ELECTRICAL: resistence = monsterData._electricityResistence; break; case DT_COLD: resistence = monsterData._coldResistence; break; case DT_POISON: resistence = monsterData._poisonResistence; break; case DT_ENERGY: resistence = monsterData._energyResistence; break; default: break; } } else { int material = _weaponElemMaterial; damage = Res.ELEMENTAL_DAMAGE[material]; if (material != 0) { if (material < 9) resistence = monsterData._fireResistence; else if (material < 16) resistence = monsterData._electricityResistence; else if (material < 21) resistence = monsterData._coldResistence; else if (material < 26) resistence = monsterData._poisonResistence; else if (material < 34) resistence = monsterData._energyResistence; else resistence = monsterData._magicResistence; } } if (resistence != 0) { if (resistence == 100) return 0; else return ((100 - resistence) * damage) / 100; } return damage; } void Combat::giveExperience(int experience) { Party &party = *_vm->_party; bool inCombat = _vm->_mode == MODE_COMBAT; int count = 0; // Two loops: first to figure out how many active characters there are, // and the second to distribute the experience between them for (int loopNum = 0; loopNum < 2; ++loopNum) { for (uint charIndex = 0; charIndex < (inCombat ? _combatParty.size() : party._activeParty.size()); ++charIndex) { Character &c = inCombat ? *_combatParty[charIndex] : party._activeParty[charIndex]; Condition condition = c.worstCondition(); if (condition != DEAD && condition != STONED && condition != ERADICATED) { if (loopNum == 0) { ++count; } else { int exp = experience / count; if (c._level._permanent < 15 && _vm->getGameID() != GType_Clouds) exp *= 2; c._experience += exp; } } } } } void Combat::rangedAttack(PowType powNum) { Interface &intf = *_vm->_interface; Map &map = *_vm->_map; Party &party = *_vm->_party; Sound &sound = *_vm->_sound; if (_damageType == DT_POISON_VOLLEY) { _damageType = DT_POISON; _shootType = ST_1; Common::fill(&_shootingRow[0], &_shootingRow[MAX_ACTIVE_PARTY], 1); } else if (powNum == POW_ARROW) { _shootType = ST_1; bool flag = false; if (_damageType == DT_PHYSICAL) { for (uint idx = 0; idx < party._activeParty.size(); ++idx) { Character &c = party._activeParty[idx]; if (c.hasMissileWeapon()) { _shootingRow[idx] = 1; flag = true; } } } else { _shootingRow[0] = 1; flag = true; } if (!flag) { sound.playFX(21); return; } sound.playFX(49); } else { _shootingRow[0] = 1; _shootType = ST_0; } intf._charsShooting = true; _powSprites.load(Common::String::format("pow%d.icn", (int)powNum)); int attackDurationCtr = _attackDurationCtr; int monster2Attack = _monster2Attack; bool attackedFlag = false; Common::Array attackMonsters; for (int idx = 0; idx < 3; ++idx) { if (_attackMonsters[idx] != -1) attackMonsters.push_back(_attackMonsters[idx]); } _attackDurationCtr = -1; if (_monster2Attack != -1) { _attackDurationCtr = attackDurationCtr - 1; if (attackMonsters.empty()) attackMonsters.resize(1); attackMonsters[0] = monster2Attack; } for (uint idx = 0; idx < party._activeParty.size(); ++idx) { if (_shootingRow[idx]) { if (map._isOutdoors) { intf._outdoorList._attackImgs1[idx]._scale = 0; intf._outdoorList._attackImgs2[idx]._scale = 4; intf._outdoorList._attackImgs3[idx]._scale = 8; intf._outdoorList._attackImgs4[idx]._scale = 12; intf._outdoorList._attackImgs1[idx]._sprites = &_powSprites; intf._outdoorList._attackImgs2[idx]._sprites = nullptr; intf._outdoorList._attackImgs3[idx]._sprites = nullptr; intf._outdoorList._attackImgs4[idx]._sprites = nullptr; } else { intf._indoorList._attackImgs1[idx]._scale = 0; intf._indoorList._attackImgs2[idx]._scale = 4; intf._indoorList._attackImgs3[idx]._scale = 8; intf._indoorList._attackImgs4[idx]._scale = 12; intf._indoorList._attackImgs1[idx]._sprites = &_powSprites; intf._indoorList._attackImgs2[idx]._sprites = nullptr; intf._indoorList._attackImgs3[idx]._sprites = nullptr; intf._indoorList._attackImgs4[idx]._sprites = nullptr; } } } intf.draw3d(true); // Iterate through the three possible monster positions in the first row for (uint monIdx = 0; monIdx < 3; ++monIdx) { ++_attackDurationCtr; if (monIdx < attackMonsters.size()) { Common::fill(&_missedShot[0], &_missedShot[MAX_PARTY_COUNT], false); _monster2Attack = attackMonsters[monIdx]; attack(*_oldCharacter, RT_GROUP); attackedFlag = true; if (_rangeType == RT_SINGLE) // Only single shot, so exit now that the attack is done goto finished; } } if (attackedFlag && _rangeType == RT_GROUP) // Finished group attack, so exit goto finished; if (map._isOutdoors) { map.getCell(7); switch (map._currentWall) { case 1: case 3: case 6: case 7: case 9: case 10: case 12: sound.playFX(46); goto finished; default: break; } } else { int cell = map.getCell(2); if (cell >= map.mazeData()._difficulties._wallNoPass) { sound.playFX(46); goto finished; } } if (!intf._isAttacking) goto finished; intf.draw3d(true); // Start handling second teir of monsters in the back attackMonsters.clear(); for (uint idx = 3; idx < 6; ++idx) { if (_attackMonsters[idx] != -1) attackMonsters.push_back(_attackMonsters[idx]); } // Iterate through the three possible monster positions in the second row for (uint monIdx = 0; monIdx < 3; ++monIdx) { ++_attackDurationCtr; if (monIdx < attackMonsters.size()) { Common::fill(&_missedShot[0], &_missedShot[MAX_PARTY_COUNT], false); _monster2Attack = attackMonsters[monIdx]; attack(*_oldCharacter, RT_GROUP); attackedFlag = true; if (_rangeType == RT_SINGLE) // Only single shot, so exit now that the attack is done goto finished; } } if (attackedFlag && _rangeType == RT_GROUP) // Finished group attack, so exit goto finished; if (map._isOutdoors) { map.getCell(14); switch (map._currentWall) { case 1: case 3: case 6: case 7: case 9: case 10: case 12: sound.playFX(46); goto finished; default: break; } } else { int cell = map.getCell(7); if (cell >= map.mazeData()._difficulties._wallNoPass) { sound.playFX(46); goto finished; } } if (!intf._isAttacking) goto finished; intf.draw3d(true); // Start handling third teir of monsters in the back attackMonsters.clear(); for (uint idx = 6; idx < 9; ++idx) { if (_attackMonsters[idx] != -1) attackMonsters.push_back(_attackMonsters[idx]); } // Iterate through the three possible monster positions in the third row for (uint monIdx = 0; monIdx < 3; ++monIdx) { ++_attackDurationCtr; if (monIdx < attackMonsters.size()) { Common::fill(&_missedShot[0], &_missedShot[MAX_PARTY_COUNT], false); _monster2Attack = attackMonsters[monIdx]; attack(*_oldCharacter, RT_GROUP); attackedFlag = true; if (_rangeType == RT_SINGLE) // Only single shot, so exit now that the attack is done goto finished; } } if (attackedFlag && _rangeType == RT_GROUP) // Finished group attack, so exit goto finished; if (map._isOutdoors) { map.getCell(27); switch (map._currentWall) { case 1: case 3: case 6: case 7: case 9: case 10: case 12: sound.playFX(46); goto finished; default: break; } } else { int cell = map.getCell(14); if (cell >= map.mazeData()._difficulties._wallNoPass) { sound.playFX(46); goto finished; } } if (!intf._isAttacking) goto finished; intf.draw3d(true); // Fourth tier attackMonsters.clear(); for (uint idx = 9; idx < 12; ++idx) { if (_attackMonsters[idx] != -1) attackMonsters.push_back(_attackMonsters[idx]); } // Iterate through the three possible monster positions in the fourth row for (uint monIdx = 0; monIdx < 3; ++monIdx) { ++_attackDurationCtr; if (monIdx < attackMonsters.size()) { Common::fill(&_missedShot[0], &_missedShot[MAX_PARTY_COUNT], false); _monster2Attack = attackMonsters[monIdx]; attack(*_oldCharacter, RT_GROUP); attackedFlag = true; if (_rangeType == RT_SINGLE) // Only single shot, so exit now that the attack is done goto finished; } } if (!(attackedFlag && _rangeType == RT_GROUP)) goto done; finished: endAttack(); done: clearShooting(); _monster2Attack = monster2Attack; _attackDurationCtr = attackDurationCtr; party.giveTreasure(); } void Combat::shootRangedWeapon() { _rangeType = RT_ALL; _damageType = DT_PHYSICAL; rangedAttack(POW_ARROW); } bool Combat::areMonstersPresent() const { for (int idx = 0; idx < 26; ++idx) { if (_attackMonsters[idx] != -1) return true; } return false; } } // End of namespace Xeen