/* ScummVM - Scumm Interpreter * Copyright (C) 2001 Ludvig Strigeus * Copyright (C) 2001-2004 The ScummVM project * * 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. * * $Header$ * */ #include "stdafx.h" #include "common/config-manager.h" #include "scumm/actor.h" #include "scumm/charset.h" #include "scumm/intern.h" #include "scumm/object.h" #include "scumm/resource.h" #include "scumm/resource_v7he.h" #include "scumm/scumm.h" #include "scumm/sound.h" #include "scumm/verbs.h" #include "sound/mididrv.h" #include "sound/mixer.h" namespace Scumm { #define OPCODE(x) { &ScummEngine_v72he::x, #x } void ScummEngine_v72he::setupOpcodes() { static const OpcodeEntryV72he opcodes[256] = { /* 00 */ OPCODE(o6_pushByte), OPCODE(o6_pushWord), OPCODE(o72_pushDWord), OPCODE(o6_pushWordVar), /* 04 */ OPCODE(o72_addMessageToStack), OPCODE(o6_invalid), OPCODE(o6_invalid), OPCODE(o6_wordArrayRead), /* 08 */ OPCODE(o6_invalid), OPCODE(o6_invalid), OPCODE(o6_invalid), OPCODE(o6_wordArrayIndexedRead), /* 0C */ OPCODE(o6_dup), OPCODE(o6_not), OPCODE(o6_eq), OPCODE(o6_neq), /* 10 */ OPCODE(o6_gt), OPCODE(o6_lt), OPCODE(o6_le), OPCODE(o6_ge), /* 14 */ OPCODE(o6_add), OPCODE(o6_sub), OPCODE(o6_mul), OPCODE(o6_div), /* 18 */ OPCODE(o6_land), OPCODE(o6_lor), OPCODE(o6_pop), OPCODE(o72_isAnyOf), /* 1C */ OPCODE(o6_invalid), OPCODE(o6_invalid), OPCODE(o6_invalid), OPCODE(o6_invalid), /* 20 */ OPCODE(o6_invalid), OPCODE(o6_invalid), OPCODE(o6_invalid), OPCODE(o6_invalid), /* 24 */ OPCODE(o6_invalid), OPCODE(o6_invalid), OPCODE(o6_invalid), OPCODE(o6_invalid), /* 28 */ OPCODE(o6_invalid), OPCODE(o6_invalid), OPCODE(o6_invalid), OPCODE(o6_invalid), /* 2C */ OPCODE(o6_invalid), OPCODE(o6_invalid), OPCODE(o6_invalid), OPCODE(o6_invalid), /* 30 */ OPCODE(o6_invalid), OPCODE(o6_invalid), OPCODE(o6_invalid), OPCODE(o6_invalid), /* 34 */ OPCODE(o6_invalid), OPCODE(o6_invalid), OPCODE(o6_invalid), OPCODE(o6_invalid), /* 38 */ OPCODE(o6_invalid), OPCODE(o6_invalid), OPCODE(o6_invalid), OPCODE(o6_invalid), /* 3C */ OPCODE(o6_invalid), OPCODE(o6_invalid), OPCODE(o6_invalid), OPCODE(o6_invalid), /* 40 */ OPCODE(o6_invalid), OPCODE(o6_invalid), OPCODE(o6_invalid), OPCODE(o6_writeWordVar), /* 44 */ OPCODE(o6_invalid), OPCODE(o6_invalid), OPCODE(o6_invalid), OPCODE(o6_wordArrayWrite), /* 48 */ OPCODE(o6_invalid), OPCODE(o6_invalid), OPCODE(o6_invalid), OPCODE(o6_wordArrayIndexedWrite), /* 4C */ OPCODE(o6_invalid), OPCODE(o6_invalid), OPCODE(o6_invalid), OPCODE(o6_wordVarInc), /* 50 */ OPCODE(o72_unknown50), OPCODE(o6_invalid), OPCODE(o72_findObjectWithClassOf), OPCODE(o72_wordArrayInc), /* 54 */ OPCODE(o72_objectX), OPCODE(o72_objectY), OPCODE(o72_unknown56), OPCODE(o6_wordVarDec), /* 58 */ OPCODE(o72_getTimer), OPCODE(o72_setTimer), OPCODE(o72_unknown5A), OPCODE(o72_wordArrayDec), /* 5C */ OPCODE(o6_if), OPCODE(o6_ifNot), OPCODE(o72_startScript), OPCODE(o6_startScriptQuick), /* 60 */ OPCODE(o72_startObject), OPCODE(o72_drawObject), OPCODE(o72_printWizImage), OPCODE(o72_getArrayDimSize), /* 64 */ OPCODE(o72_getNumFreeArrays), OPCODE(o6_stopObjectCode), OPCODE(o6_stopObjectCode), OPCODE(o6_endCutscene), /* 68 */ OPCODE(o6_cutscene), OPCODE(o6_stopMusic), OPCODE(o6_freezeUnfreeze), OPCODE(o6_cursorCommand), /* 6C */ OPCODE(o6_breakHere), OPCODE(o6_ifClassOfIs), OPCODE(o6_setClass), OPCODE(o6_getState), /* 70 */ OPCODE(o60_setState), OPCODE(o6_setOwner), OPCODE(o6_getOwner), OPCODE(o6_jump), /* 74 */ OPCODE(o70_startSound), OPCODE(o6_stopSound), OPCODE(o6_startMusic), OPCODE(o6_stopObjectScript), /* 78 */ OPCODE(o6_panCameraTo), OPCODE(o6_actorFollowCamera), OPCODE(o6_setCameraAt), OPCODE(o6_loadRoom), /* 7C */ OPCODE(o6_stopScript), OPCODE(o6_walkActorToObj), OPCODE(o6_walkActorTo), OPCODE(o6_putActorAtXY), /* 80 */ OPCODE(o6_putActorAtObject), OPCODE(o6_faceActor), OPCODE(o6_animateActor), OPCODE(o6_doSentence), /* 84 */ OPCODE(o70_pickupObject), OPCODE(o6_loadRoomWithEgo), OPCODE(o6_invalid), OPCODE(o6_getRandomNumber), /* 88 */ OPCODE(o6_getRandomNumberRange), OPCODE(o6_invalid), OPCODE(o6_getActorMoving), OPCODE(o6_isScriptRunning), /* 8C */ OPCODE(o70_getActorRoom), OPCODE(o6_getObjectX), OPCODE(o6_getObjectY), OPCODE(o6_getObjectOldDir), /* 90 */ OPCODE(o6_getActorWalkBox), OPCODE(o6_getActorCostume), OPCODE(o6_findInventory), OPCODE(o6_getInventoryCount), /* 94 */ OPCODE(o6_getVerbFromXY), OPCODE(o6_beginOverride), OPCODE(o6_endOverride), OPCODE(o6_setObjectName), /* 98 */ OPCODE(o6_isSoundRunning), OPCODE(o6_setBoxFlags), OPCODE(o6_invalid), OPCODE(o70_resourceRoutines), /* 9C */ OPCODE(o60_roomOps), OPCODE(o72_actorOps), OPCODE(o72_verbOps), OPCODE(o6_getActorFromXY), /* A0 */ OPCODE(o72_findObject), OPCODE(o6_pseudoRoom), OPCODE(o6_getActorElevation), OPCODE(o6_getVerbEntrypoint), /* A4 */ OPCODE(o72_arrayOps), OPCODE(o6_saveRestoreVerbs), OPCODE(o6_drawBox), OPCODE(o6_pop), /* A8 */ OPCODE(o6_getActorWidth), OPCODE(o60_wait), OPCODE(o6_getActorScaleX), OPCODE(o6_getActorAnimCounter1), /* AC */ OPCODE(o6_invalid), OPCODE(o6_isAnyOf), OPCODE(o70_quitPauseRestart), OPCODE(o6_isActorInBox), /* B0 */ OPCODE(o6_delay), OPCODE(o6_delaySeconds), OPCODE(o6_delayMinutes), OPCODE(o6_stopSentence), /* B4 */ OPCODE(o6_printLine), OPCODE(o6_printCursor), OPCODE(o6_printDebug), OPCODE(o6_printSystem), /* B8 */ OPCODE(o6_printActor), OPCODE(o6_printEgo), OPCODE(o6_talkActor), OPCODE(o6_talkEgo), /* BC */ OPCODE(o72_dimArray), OPCODE(o6_stopObjectCode), OPCODE(o6_startObjectQuick), OPCODE(o6_startScriptQuick2), /* C0 */ OPCODE(o72_dim2dimArray), OPCODE(o72_traceStatus), OPCODE(o6_invalid), OPCODE(o6_invalid), /* C4 */ OPCODE(o6_abs), OPCODE(o6_distObjectObject), OPCODE(o6_distObjectPt), OPCODE(o6_distPtPt), /* C8 */ OPCODE(o60_kernelGetFunctions), OPCODE(o70_kernelSetFunctions), OPCODE(o6_delayFrames), OPCODE(o6_pickOneOf), /* CC */ OPCODE(o6_pickOneOfDefault), OPCODE(o6_stampObject), OPCODE(o72_drawWizImage), OPCODE(o72_unknownCF), /* D0 */ OPCODE(o6_getDateTime), OPCODE(o6_stopTalking), OPCODE(o6_getAnimateVariable), OPCODE(o6_invalid), /* D4 */ OPCODE(o6_shuffle), OPCODE(o72_jumpToScript), OPCODE(o6_band), OPCODE(o6_bor), /* D8 */ OPCODE(o6_isRoomScriptRunning), OPCODE(o60_closeFile), OPCODE(o72_openFile), OPCODE(o72_readFile), /* DC */ OPCODE(o72_writeFile), OPCODE(o72_findAllObjects), OPCODE(o72_deleteFile), OPCODE(o60_rename), /* E0 */ OPCODE(o60_soundOps), OPCODE(o72_getPixel), OPCODE(o60_localizeArray), OPCODE(o72_pickVarRandom), /* E4 */ OPCODE(o6_setBoxSet), OPCODE(o6_invalid), OPCODE(o6_invalid), OPCODE(o6_invalid), /* E8 */ OPCODE(o6_invalid), OPCODE(o60_seekFilePos), OPCODE(o72_redimArray), OPCODE(o60_readFilePos), /* EC */ OPCODE(o72_unknownEC), OPCODE(o72_unknownED), OPCODE(o70_stringLen), OPCODE(o72_unknownEF), /* F0 */ OPCODE(o72_unknownF0), OPCODE(o72_unknownF1), OPCODE(o72_checkGlobQueue), OPCODE(o72_readINI), /* F4 */ OPCODE(o72_writeINI), OPCODE(o72_unknownF5), OPCODE(o72_unknownF6), OPCODE(o6_invalid), /* F8 */ OPCODE(o72_unknownF8), OPCODE(o72_setFilePath), OPCODE(o72_unknownFA), OPCODE(o70_polygonOps), /* FC */ OPCODE(o70_polygonHit), OPCODE(o6_invalid), OPCODE(o6_invalid), OPCODE(o6_invalid), }; _opcodesV72he = opcodes; } void ScummEngine_v72he::executeOpcode(byte i) { OpcodeProcV72he op = _opcodesV72he[i].proc; (this->*op) (); } const char *ScummEngine_v72he::getOpcodeDesc(byte i) { return _opcodesV72he[i].desc; } static int arrayDataSizes[] = {0, 1, 4, 8, 8, 16, 32}; ScummEngine_v72he::ArrayHeader *ScummEngine_v72he::defineArray(int array, int type, int dim2start, int dim2end, int dim1start, int dim1end) { int id; int size; ArrayHeader *ah; assert(dim2start >= 0 && dim2start <= dim2end); assert(dim1start >= 0 && dim1start <= dim1end); assert(0 <= type && type <= 6); if (type == kBitArray || type == kNibbleArray) type = kByteArray; nukeArray(array); id = findFreeArrayId(); debug(5,"defineArray (array %d, dim2start %d, dim2end %d dim1start %d dim1end %d", id, dim2start, dim2end, dim1start, dim1end); if (array & 0x80000000) { error("Can't define bit variable as array pointer"); } size = arrayDataSizes[type]; writeVar(array, id); size *= dim2end - dim2start + 1; size *= dim1end - dim1start + 1; size >>= 3; ah = (ArrayHeader *)createResource(rtString, id, size + sizeof(ArrayHeader)); ah->type = TO_LE_32(type); ah->dim1start = TO_LE_32(dim1start); ah->dim1end = TO_LE_32(dim1end); ah->dim2start = TO_LE_32(dim2start); ah->dim2end = TO_LE_32(dim2end); return ah; } int ScummEngine_v72he::readArray(int array, int idx2, int idx1) { debug(5, "readArray (array %d, idx2 %d, idx1 %d)", readVar(array), idx2, idx1); if (readVar(array) == 0) error("readArray: Reference to zeroed array pointer"); ArrayHeader *ah = (ArrayHeader *)getResourceAddress(rtString, readVar(array)); if (ah == NULL || ah->data == NULL) error("readArray: invalid array %d (%d)", array, readVar(array)); if (idx2 < (int)FROM_LE_32(ah->dim2start) || idx2 > (int)FROM_LE_32(ah->dim2end) || idx1 < (int)FROM_LE_32(ah->dim1start) || idx1 > (int)FROM_LE_32(ah->dim1end)) { error("readArray: array %d out of bounds: [%d, %d] exceeds [%d..%d, %d..%d]", array, idx1, idx2, FROM_LE_32(ah->dim1start), FROM_LE_32(ah->dim1end), FROM_LE_32(ah->dim2start), FROM_LE_32(ah->dim2end)); } const int offset = (FROM_LE_32(ah->dim1end) - FROM_LE_32(ah->dim1start) + 1) * (idx2 - FROM_LE_32(ah->dim2start)) - FROM_LE_32(ah->dim1start) + idx1; switch (FROM_LE_32(ah->type)) { case kByteArray: case kStringArray: return ah->data[offset]; case kIntArray: return (int16)READ_LE_UINT16(ah->data + offset * 2); case kDwordArray: return (int32)READ_LE_UINT32(ah->data + offset * 4); } return 0; } void ScummEngine_v72he::writeArray(int array, int idx2, int idx1, int value) { debug(5, "writeArray (array %d, idx2 %d, idx1 %d, value %d)", readVar(array), idx2, idx1, value); if (readVar(array) == 0) error("writeArray: Reference to zeroed array pointer"); ArrayHeader *ah = (ArrayHeader *)getResourceAddress(rtString, readVar(array)); if (!ah) error("writeArray: Invalid array (%d) reference", readVar(array)); if (idx2 < (int)FROM_LE_32(ah->dim2start) || idx2 > (int)FROM_LE_32(ah->dim2end) || idx1 < (int)FROM_LE_32(ah->dim1start) || idx1 > (int)FROM_LE_32(ah->dim1end)) { error("writeArray: array %d out of bounds: [%d, %d] exceeds [%d..%d, %d..%d]", array, idx1, idx2, FROM_LE_32(ah->dim1start), FROM_LE_32(ah->dim1end), FROM_LE_32(ah->dim2start), FROM_LE_32(ah->dim2end)); } const int offset = (FROM_LE_32(ah->dim1end) - FROM_LE_32(ah->dim1start) + 1) * (idx2 - FROM_LE_32(ah->dim2start)) - FROM_LE_32(ah->dim1start) + idx1; switch (FROM_LE_32(ah->type)) { case kByteArray: case kStringArray: ah->data[offset] = value; break; case kIntArray: WRITE_LE_UINT16(ah->data + offset * 2, value); break; case kDwordArray: WRITE_LE_UINT32(ah->data + offset * 4, value); break; } } void ScummEngine_v72he::readArrayFromIndexFile() { int num; int a, b, c; while ((num = _fileHandle.readUint16LE()) != 0) { a = _fileHandle.readUint16LE(); b = _fileHandle.readUint16LE(); c = _fileHandle.readUint16LE(); if (c == 1) defineArray(num, kBitArray, 0, a, 0, b); else defineArray(num, kDwordArray, 0, a, 0, b); } } void ScummEngine_v72he::arrrays_unk2(int dst, int src, int len2, int len) { int edi, value; int i = 0; if (len == -1) { len = resStrLen(getStringAddress(src)); len2 = 0; } edi = resStrLen(getStringAddress(dst)); len -= len2; len++; while (i < len) { writeVar(0, src); value = readArray(0, 0, len2 + i); writeVar(0, dst); writeArray(0, 0, edi + i, value); i++; } writeArray(0, 0, edi + i, 0); } void ScummEngine_v72he::copyScriptString(byte *dst) { int i = 0; byte b; int array = pop(); if (array == -1) { int len = resStrLen(_stringBuffer) + 1; while (len--) *dst++ = _stringBuffer[i++]; } else { writeVar(0, array); while ((b = readArray(0, 0, i)) != 0) { *dst++ = b; i++; } } *dst = 0; } void ScummEngine_v72he::decodeScriptString(byte *dst, bool scriptString) { int args[31]; int num = 0, val; int len, id; byte chr, string[256]; memset(string, 0, sizeof(string)); val = getStackList(args, ARRAYSIZE(args)); args[val] = id = pop(); if (scriptString) { addMessageToStack(_scriptPointer, string, sizeof(string)); len = resStrLen(_scriptPointer); _scriptPointer += len + 1; } else { copyScriptString(string); len = resStrLen(string) + 1; } while (len--) { chr = string[num++]; if (chr == '%') { chr = string[num++]; if (chr == 'd') { dst += snprintf((char *)dst, 10, "%d", args[val--]); continue; } else if (chr == 's') { dst += addStringToStack(dst, 512, args[val--]); continue; } } *dst++ = chr; } *dst = 0; } int ScummEngine_v72he::findObject(int x, int y, int *args) { int i, b; byte a; const int mask = 0xF; for (i = 1; i < _numLocalObjects; i++) { if ((_objs[i].obj_nr < 1) || getClass(_objs[i].obj_nr, kObjectClassUntouchable)) continue; if (polygonDefined(_objs[i].obj_nr)) { if (polygonHit(_objs[i].obj_nr, x, y) != 0) return _objs[i].obj_nr; else if (VAR(VAR_POLYGONS_ONLY)) continue; } b = i; do { a = _objs[b].parentstate; b = _objs[b].parent; if (b == 0) { if (_objs[i].x_pos <= x && _objs[i].width + _objs[i].x_pos > x && _objs[i].y_pos <= y && _objs[i].height + _objs[i].y_pos > y) return _objs[i].obj_nr; break; } } while ((_objs[b].state & mask) == a); } return 0; } const byte *ScummEngine_v72he::findWrappedBlock(uint32 tag, const byte *ptr, int state, bool errorFlag) { if (READ_UINT32(ptr) == MKID('MULT')) { const byte *offs, *wrap; uint32 size; wrap = findResource(MKID('WRAP'), ptr); if (wrap == NULL) return NULL; offs = findResourceData(MKID('OFFS'), wrap); if (offs == NULL) return NULL; size = getResourceDataSize(offs) / 4; if ((uint32)state >= (uint32)size) return NULL; offs += READ_LE_UINT32(offs + state * sizeof(uint32)); offs = findResourceData(tag, offs - 8); ; if (offs) return offs; offs = findResourceData(MKID('DEFA'), ptr); if (offs == NULL) return NULL; return findResourceData(tag, offs - 8); } else { return findResourceData(tag, ptr); } } void ScummEngine_v72he::o72_pushDWord() { int a; if (*_lastCodePtr + sizeof(MemBlkHeader) != _scriptOrgPointer) { uint32 oldoffs = _scriptPointer - _scriptOrgPointer; getScriptBaseAddress(); _scriptPointer = _scriptOrgPointer + oldoffs; } a = READ_LE_UINT32(_scriptPointer); _scriptPointer += 4; push(a); } void ScummEngine_v72he::o72_addMessageToStack() { _stringLength = resStrLen(_scriptPointer) + 1; addMessageToStack(_scriptPointer, _stringBuffer, _stringLength); // Filter out pointless trace messages, which often flood if (strcmp((char *)_stringBuffer, "no trace") && strcmp((char *)_stringBuffer, "trace on")) debug(0,"o72_addMessageToStack(\"%s\")", _scriptPointer); _scriptPointer += _stringLength; } void ScummEngine_v72he::o72_isAnyOf() { int args[128], i = 0; int num = getStackList(args, ARRAYSIZE(args)); int value = pop(); while (i < num) { if (args[i] == value) { push(1); return; } i++; } push(0); } void ScummEngine_v72he::o72_unknown50() { int idx; idx = vm.cutSceneStackPointer; vm.cutSceneStackPointer = 0; vm.cutScenePtr[idx] = 0; vm.cutSceneScript[idx] = 0; VAR(VAR_OVERRIDE) = 0; } void ScummEngine_v72he::o72_findObjectWithClassOf() { int args[16]; getStackList(args, ARRAYSIZE(args)); int y = pop(); int x = pop(); int r = findObject(x, y, args); push(r); } void ScummEngine_v72he::o72_wordArrayInc() { int var = fetchScriptWord(); int base = pop(); writeArray(var, 0, base, readArray(var, 0, base) + 1); } void ScummEngine_v72he::o72_wordArrayDec() { int var = fetchScriptWord(); int base = pop(); writeArray(var, 0, base, readArray(var, 0, base) - 1); } void ScummEngine_v72he::o72_objectX() { int object = pop(); int objnum = getObjectIndex(object); if (objnum == -1) { push(0); return; } push(_objs[objnum].x_pos); } void ScummEngine_v72he::o72_objectY() { int object = pop(); int objnum = getObjectIndex(object); if (objnum == -1) { push(0); return; } push(_objs[objnum].y_pos); } void ScummEngine_v72he::o72_unknown56() { // Drawing related int a = pop(); int b = pop(); int c = pop(); int d = pop(); int e = pop(); debug(1, "stub o72_unknown56(%d, %d, %d, %d, %d)", a, b, c, d, e); } void ScummEngine_v72he::o72_getTimer() { int timer = pop(); int cmd = fetchScriptByte(); if (cmd == 10) { checkRange(3, 1, timer, "o72_getTimer: Timer %d out of range(%d)"); int diff = _system->get_msecs() - _timers[timer]; push(diff); } else { push(0); } } void ScummEngine_v72he::o72_setTimer() { int timer = pop(); int cmd = fetchScriptByte(); if (cmd == 158) { checkRange(3, 1, timer, "o72_setTimer: Timer %d out of range(%d)"); _timers[timer] = _system->get_msecs(); } else { error("TIMER command %d?", cmd); } } void ScummEngine_v72he::o72_unknown5A() { // Seems to get length of sound already played int snd = pop(); int r = _mixer->getChannelElapsedTime(_sound->_musicChannelHandle); push(r * 10); debug(1,"o72_unknown5A stub (%d)", snd); } void ScummEngine_v72he::o72_startScript() { int args[16]; int script, flags; getStackList(args, ARRAYSIZE(args)); script = pop(); flags = fetchScriptByte(); runScript(script, (flags == 199 || flags == 200), (flags == 195 || flags == 200), args); } void ScummEngine_v72he::o72_startObject() { int args[16]; int script, entryp; int flags; getStackList(args, ARRAYSIZE(args)); entryp = pop(); script = pop(); flags = fetchScriptByte(); runObjectScript(script, entryp, (flags == 199 || flags == 200), (flags == 195 || flags == 200), args); } void ScummEngine_v72he::o72_drawObject() { int subOp = fetchScriptByte(); int state = 0, y = -1, x = -1; switch (subOp) { case 62: state = pop(); y = pop(); x = pop(); break; case 63: state = pop(); if (state == 0) state = 1; break; case 65: state = 1; y = pop(); x = pop(); break; default: error("o72_drawObject: default case %d", subOp); } int object = pop(); int objnum = getObjectIndex(object); if (objnum == -1) return; if (y != -1 && x != -1) { _objs[objnum].x_pos = x * 8; _objs[objnum].y_pos = y * 8; } if (state != -1) { addObjectToDrawQue(objnum); putState(object, state); } } void ScummEngine_v72he::o72_printWizImage() { int resnum = pop(); drawWizImage(rtImage, resnum, 0, 0, 0, 4); } void ScummEngine_v72he::o72_getArrayDimSize() { int subOp = fetchScriptByte(); int32 val1, val2; ArrayHeader *ah; switch (subOp) { case 1: case 3: ah = (ArrayHeader *)getResourceAddress(rtString, readVar(fetchScriptWord())); val1 = FROM_LE_32(ah->dim1end); val2 = FROM_LE_32(ah->dim1start); push(val1 - val2 + 1); break; case 2: ah = (ArrayHeader *)getResourceAddress(rtString, readVar(fetchScriptWord())); val1 = FROM_LE_32(ah->dim2end); val2 = FROM_LE_32(ah->dim2start); push(val1 - val2 + 1); break; default: error("o72_getArrayDimSize: default case %d", subOp); } } void ScummEngine_v72he::o72_getNumFreeArrays() { byte **addr = res.address[rtString]; int i, num = 0; for (i = 1; i < _numArray; i++) { if (!addr[i]) num++; } push (num); } void ScummEngine_v72he::o72_actorOps() { Actor *a; int i, j, k; int args[32]; byte b; byte name[256]; b = fetchScriptByte(); if (b == 197) { _curActor = pop(); return; } a = derefActorSafe(_curActor, "o72_actorOps"); if (!a) return; switch (b) { case 21: // HE 80+ k = getStackList(args, ARRAYSIZE(args)); for (i = 0; i < k; ++i) { a->setUserCondition(args[i] & 0x7F, args[i] & 0x80); } debug(1,"o72_actorOps: case 21 (%d)", k); break; case 24: // HE 80+ k = pop(); a->talkUnk = 1; a->setTalkCondition(k); debug(1,"o72_actorOps: case 24 (%d)", k); break; case 43: // HE 90+ // Uses reverse order of layering, so we adjust a->layer = -pop(); break; case 64: _actorClipOverride.bottom = pop(); _actorClipOverride.right = pop(); _actorClipOverride.top = pop(); _actorClipOverride.left = pop(); break; case 65: // HE 98+ i = pop(); j = pop(); debug(1,"o72_actorOps: case 65 (%d, %d)", i, j); break; case 68: // HE 90+ k = pop(); debug(1,"o72_actorOps: case 68 (%d)", k); break; case 76: // SO_COSTUME a->setActorCostume(pop()); break; case 77: // SO_STEP_DIST j = pop(); i = pop(); a->setActorWalkSpeed(i, j); break; case 78: // SO_SOUND k = getStackList(args, ARRAYSIZE(args)); for (i = 0; i < k; i++) a->sound[i] = args[i]; break; case 79: // SO_WALK_ANIMATION a->walkFrame = pop(); break; case 80: // SO_TALK_ANIMATION a->talkStopFrame = pop(); a->talkStartFrame = pop(); break; case 81: // SO_STAND_ANIMATION a->standFrame = pop(); break; case 82: // SO_ANIMATION // dummy case in scumm6 pop(); pop(); pop(); break; case 83: // SO_DEFAULT a->initActor(0); break; case 84: // SO_ELEVATION a->setElevation(pop()); break; case 85: // SO_ANIMATION_DEFAULT a->initFrame = 1; a->walkFrame = 2; a->standFrame = 3; a->talkStartFrame = 4; a->talkStopFrame = 5; break; case 86: // SO_PALETTE j = pop(); i = pop(); checkRange(255, 0, i, "Illegal palette slot %d"); a->remapActorPaletteColor(i, j); break; case 87: // SO_TALK_COLOR a->talkColor = pop(); break; case 88: // SO_ACTOR_NAME copyScriptString(name); loadPtrToResource(rtActorName, a->number, name); break; case 89: // SO_INIT_ANIMATION a->initFrame = pop(); break; case 91: // SO_ACTOR_WIDTH a->width = pop(); break; case 92: // SO_SCALE i = pop(); a->setScale(i, i); break; case 93: // SO_NEVER_ZCLIP a->forceClip = 0; break; case 94: // SO_ALWAYS_ZCLIP a->forceClip = pop(); break; case 95: // SO_IGNORE_BOXES a->ignoreBoxes = 1; a->forceClip = 0; if (a->isInCurrentRoom()) a->putActor(a->_pos.x, a->_pos.y, a->room); break; case 96: // SO_FOLLOW_BOXES a->ignoreBoxes = 0; a->forceClip = 0; if (a->isInCurrentRoom()) a->putActor(a->_pos.x, a->_pos.y, a->room); break; case 97: // SO_ANIMATION_SPEED a->setAnimSpeed(pop()); break; case 98: // SO_SHADOW a->shadow_mode = pop(); debug(0, "Set actor XMAP idx to %d", a->shadow_mode); break; case 99: // SO_TEXT_OFFSET a->talkPosY = pop(); a->talkPosX = pop(); break; case 156: // HE 7.2 a->charset = pop(); break; case 198: // SO_ACTOR_VARIABLE i = pop(); a->setAnimVar(pop(), i); break; case 215: // SO_ACTOR_IGNORE_TURNS_ON a->ignoreTurns = true; break; case 216: // SO_ACTOR_IGNORE_TURNS_OFF a->ignoreTurns = false; break; case 217: // SO_ACTOR_NEW a->initActor(2); break; case 218: { int top_actor = a->top; int bottom_actor = a->bottom; a->drawToBackBuf = true; a->needRedraw = true; a->drawActorCostume(); a->drawToBackBuf = false; a->needRedraw = true; a->drawActorCostume(); a->needRedraw = false; if (a->top > top_actor) a->top = top_actor; if (a->bottom < bottom_actor) a->bottom = bottom_actor; } break; case 219: a->drawToBackBuf = false; a->needRedraw = true; a->needBgReset = true; break; case 225: { byte string[128]; copyScriptString(string); int slot = pop(); int len = resStrLen(string) + 1; addMessageToStack(string, _talkQueue[slot].sentence, len); _talkQueue[slot].posX = a->talkPosX; _talkQueue[slot].posY = a->talkPosY; _talkQueue[slot].color = a->talkColor; break; } default: error("o72_actorOps: default case %d", b); } } void ScummEngine_v72he::o72_verbOps() { int slot, a, b; VerbSlot *vs; byte op; byte name[200]; op = fetchScriptByte(); if (op == 196) { _curVerb = pop(); _curVerbSlot = getVerbSlot(_curVerb, 0); checkRange(_numVerbs - 1, 0, _curVerbSlot, "Illegal new verb slot %d"); return; } vs = &_verbs[_curVerbSlot]; slot = _curVerbSlot; switch (op) { case 124: // SO_VERB_IMAGE a = pop(); if (_curVerbSlot) { setVerbObject(_roomResource, a, slot); vs->type = kImageVerbType; vs->imgindex = a; } break; case 125: // SO_VERB_NAME copyScriptString(name); loadPtrToResource(rtVerb, slot, name); vs->type = kTextVerbType; vs->imgindex = 0; break; case 126: // SO_VERB_COLOR vs->color = pop(); break; case 127: // SO_VERB_HICOLOR vs->hicolor = pop(); break; case 128: // SO_VERB_AT vs->curRect.top = pop(); vs->curRect.left = pop(); break; case 129: // SO_VERB_ON vs->curmode = 1; break; case 130: // SO_VERB_OFF vs->curmode = 0; break; case 131: // SO_VERB_DELETE slot = getVerbSlot(pop(), 0); killVerb(slot); break; case 132: // SO_VERB_NEW slot = getVerbSlot(_curVerb, 0); if (slot == 0) { for (slot = 1; slot < _numVerbs; slot++) { if (_verbs[slot].verbid == 0) break; } if (slot == _numVerbs) error("Too many verbs"); _curVerbSlot = slot; } vs = &_verbs[slot]; vs->verbid = _curVerb; vs->color = 2; vs->hicolor = 0; vs->dimcolor = 8; vs->type = kTextVerbType; vs->charset_nr = _string[0]._default.charset; vs->curmode = 0; vs->saveid = 0; vs->key = 0; vs->center = 0; vs->imgindex = 0; break; case 133: // SO_VERB_DIMCOLOR vs->dimcolor = pop(); break; case 134: // SO_VERB_DIM vs->curmode = 2; break; case 135: // SO_VERB_KEY vs->key = pop(); break; case 136: // SO_VERB_CENTER vs->center = 1; break; case 137: // SO_VERB_NAME_STR a = pop(); if (a == 0) { loadPtrToResource(rtVerb, slot, (const byte *)""); } else { loadPtrToResource(rtVerb, slot, getStringAddress(a)); } vs->type = kTextVerbType; vs->imgindex = 0; break; case 139: // SO_VERB_IMAGE_IN_ROOM b = pop(); a = pop(); if (slot && a != vs->imgindex) { setVerbObject(b, a, slot); vs->type = kImageVerbType; vs->imgindex = a; } break; case 140: // SO_VERB_BAKCOLOR vs->bkcolor = pop(); break; case 255: drawVerb(slot, 0); verbMouseOver(0); break; default: error("o72_verbops: default case %d", op); } } void ScummEngine_v72he::o72_findObject() { int y = pop(); int x = pop(); int r = findObject(x, y, 0); push(r); } void ScummEngine_v72he::o72_arrayOps() { byte subOp = fetchScriptByte(); int array = fetchScriptWord(); int b, c; int dim1end, dim1start, dim2end, dim2start; int id, len, len2; ArrayHeader *ah; int list[128]; byte string[2048]; debug(1,"o72_arrayOps: case %d", subOp); switch (subOp) { case 7: // SO_ASSIGN_STRING copyScriptString(string); len = resStrLen(string) + 1; ah = defineArray(array, kStringArray, 0, 0, 0, len); memcpy(ah->data, string, len); break; case 126: len2 = getStackList(list, ARRAYSIZE(list)); dim1end = pop(); dim1start = pop(); dim2end = pop(); dim2start = pop(); id = readVar(array); if (id == 0) { defineArray(array, kDwordArray, dim2start, dim2end, dim1start, dim1end); } while (dim2start < dim2end) { len = len2; while (--len >= 0) { writeArray(array, dim2start, len, list[len]); } dim2start++; } break; case 127: { // TODO // Array copy and cat? //Array1 dim1end = pop(); dim1start = pop(); dim2end = pop(); dim2start = pop(); //Array2 array = fetchScriptWord(); dim1end = pop(); dim1start = pop(); dim2end = pop(); dim2start = pop(); } break; case 128: b = pop(); c = pop(); dim1end = pop(); dim1start = pop(); dim2end = pop(); dim2start = pop(); id = readVar(array); if (id == 0) { defineArray(array, kDwordArray, dim2start, dim2end, dim1start, dim1end); } // TODO write array break; case 194: // SO_ASSIGN_STRING decodeScriptString(string); len = resStrLen(string) + 1; ah = defineArray(array, kStringArray, 0, 0, 0, len); memcpy(ah->data, string, len); break; case 208: // SO_ASSIGN_INT_LIST b = pop(); c = pop(); id = readVar(array); if (id == 0) { defineArray(array, kDwordArray, 0, 0, 0, b + c); } while (c--) { writeArray(array, 0, b + c, pop()); } break; case 212: // SO_ASSIGN_2DIM_LIST len = getStackList(list, ARRAYSIZE(list)); id = readVar(array); if (id == 0) error("Must DIM a two dimensional array before assigning"); c = pop(); while (--len >= 0) { writeArray(array, c, len, list[len]); } break; default: error("o72_arrayOps: default case %d (array %d)", subOp, array); } } void ScummEngine_v72he::o72_dimArray() { int data; int type = fetchScriptByte(); switch (type) { case 2: // SO_BIT_ARRAY data = kBitArray; break; case 3: // SO_NIBBLE_ARRAY data = kNibbleArray; break; case 4: // SO_BYTE_ARRAY data = kByteArray; break; case 5: // SO_INT_ARRAY data = kIntArray; break; case 6: data = kDwordArray; break; case 7: // SO_STRING_ARRAY data = kStringArray; break; case 204: // SO_UNDIM_ARRAY nukeArray(fetchScriptWord()); return; default: error("o72_dimArray: default case %d", type); } defineArray(fetchScriptWord(), data, 0, 0, 0, pop()); } void ScummEngine_v72he::o72_dim2dimArray() { int a, b, data; int type = fetchScriptByte(); switch (type) { case 2: // SO_BIT_ARRAY data = kBitArray; break; case 3: // SO_NIBBLE_ARRAY data = kNibbleArray; break; case 4: // SO_BYTE_ARRAY data = kByteArray; break; case 5: // SO_INT_ARRAY data = kIntArray; break; case 6: data = kDwordArray; break; case 7: // SO_STRING_ARRAY data = kStringArray; break; default: error("o72_dim2dimArray: default case %d", type); } b = pop(); a = pop(); defineArray(fetchScriptWord(), data, 0, a, 0, b); } void ScummEngine_v72he::o72_traceStatus() { byte string[80]; copyScriptString(string); pop(); } void ScummEngine_v72he::getWizImageDim(int resnum, int state, uint32 &w, uint32 &h) { const uint8 *dataPtr = getResourceAddress(rtImage, resnum); if (dataPtr) { const uint8 *wizh = findWrappedBlock(MKID('WIZH'), dataPtr, state, 0); w = READ_LE_UINT32(wizh + 0x4); h = READ_LE_UINT32(wizh + 0x8); } else { w = 0; h = 0; } } uint8 *ScummEngine_v72he::drawWizImage(int restype, int resnum, int state, int x1, int y1, int flags) { if (flags & 64) { drawWizPolygon(resnum, state, x1, flags); return NULL; } uint8 *dst = NULL; const uint8 *dataPtr = getResourceAddress(restype, resnum); if (dataPtr) { const uint8 *wizh = findWrappedBlock(MKID('WIZH'), dataPtr, state, 0); assert(wizh); uint32 comp = READ_LE_UINT32(wizh + 0x0); uint32 width = READ_LE_UINT32(wizh + 0x4); uint32 height = READ_LE_UINT32(wizh + 0x8); if (comp != 1) { warning("%d has invalid compression type %d", resnum, comp); } const uint8 *wizd = findWrappedBlock(MKID('WIZD'), dataPtr, state, 0); assert(wizd); if (flags & 1) { const uint8 *pal = findWrappedBlock(MKID('RGBS'), dataPtr, state, 0); assert(pal); setPaletteFromPtr(pal, 256); } if (flags & 2) { const uint8 *rmap = findWrappedBlock(MKID('RMAP'), dataPtr, state, 0); assert(rmap); const uint8 *rgbs = findWrappedBlock(MKID('RGBS'), dataPtr, state, 0); assert(rgbs); // drawWizImageHelper1(rmap + 4, _currentPalette, rgbs); warning("drawWizImage() unhandled flag 0x2"); } uint32 cw, ch; if (flags & 0x24) { // printing (0x4) or rendering to memory (0x20) dst = (uint8 *)malloc(width * height); if (flags & 0x20) { int color = 255; // FIXME: should be (VAR_WIZ_TCOLOR != 0xFF) ? VAR(VAR_WIZ_TCOLOR) : 5; memset(dst, color, width * height); // FIXME: dirty hack until missing bits are implemented Common::Rect rScreen(0, 0, width-1, height-1); gdi.copyWizImage(dst, wizd, width, height, 0, 0, width, height, &rScreen); setCursorFromBuffer(dst, width, height, width); free(dst); return NULL; } cw = width; ch = height; } else { VirtScreen *pvs = &virtscr[kMainVirtScreen]; if (flags & 0x10) { dst = pvs->getPixels(0, pvs->topline); } else { dst = pvs->getBackPixels(0, pvs->topline); } cw = pvs->w; ch = pvs->h; } Common::Rect rScreen(0, 0, cw - 1, ch - 1); if (flags & 0x80) { // drawWizImageHelper2(p, wizd, cw, ch, x1, y1, width, height, &rScreen, 0, 2); warning("drawWizImage() unhandled flag 0x80"); } else if (flags & 0x100) { // drawWizImageHelper2(p, wizd, cw, ch, x1, y1, width, height, &rScreen, 0, 1); warning("drawWizImage() unhandled flag 0x100"); } else if (flags & 2) { // drawWizImageHelper3(dst, wizd, cw, ch, x1, y1, width, height, rScreen, rmap + 4); } else { gdi.copyWizImage(dst, wizd, cw, ch, x1, y1, width, height, &rScreen); } if (flags & 4) { warning("printing Wiz image is unimplemented"); dst = NULL; } else { Common::Rect rImage(x1, y1, x1 + width - 1, y1 + height - 1); if (rImage.intersects(rScreen)) { rImage.clip(rScreen); if (flags & 0x18) { ++rImage.bottom; markRectAsDirty(kMainVirtScreen, rImage); } else { gdi.copyVirtScreenBuffers(rImage); } } } } return dst; } struct PolygonDrawData { struct InterArea { int16 xmin; int16 xmax; int16 x1; int16 y1; int16 x2; int16 y2; }; struct ResArea { uint16 off; int16 x_step; int16 y_step; int16 x_s; int16 y_s; int16 w; }; Common::Point pts[4]; ResArea *ra; InterArea *ia; int areasNum; PolygonDrawData(int n) { memset(pts, 0, sizeof(pts)); areasNum = n; ra = new ResArea[areasNum]; ia = new InterArea[areasNum]; for (int i = 0; i < areasNum; ++i) { ia[i].xmin = (int16)0x7FFF; ia[i].xmax = (int16)0x8000; } } ~PolygonDrawData() { delete[] ra; delete[] ia; } void calcIntersection(const Common::Point *p1, const Common::Point *p2, const Common::Point *p3, const Common::Point *p4) { int32 x1 = p1->x << 0x10; int32 x3 = p3->x << 0x10; int32 y3 = p3->y << 0x10; int16 dy = ABS(p2->y - p1->y) + 1; int32 x_step_1 = ((p2->x - p1->x) << 0x10) / dy; int32 x_step_2 = ((p4->x - p3->x) << 0x10) / dy; int32 y_step = ((p4->y - p3->y) << 0x10) / dy; int iaidx = p1->y - pts[0].y; --dy; while (dy--) { assert(iaidx < areasNum); InterArea *pia = &ia[iaidx]; int32 tx3 = x3 >> 0x10; int32 x = x1 >> 0x10; int32 ty3 = y3 >> 0x10; if (pia->xmin > x) { pia->xmin = x; pia->x1 = tx3; pia->y1 = ty3; } if (pia->xmax < x) { pia->xmax = x; pia->x2 = tx3; pia->y2 = ty3; } x1 += x_step_1; x3 += x_step_2; y3 += y_step; if (p2->y <= p1->y) { --iaidx; } else { ++iaidx; } } } }; void ScummEngine_v72he::drawWizPolygon(int resnum, int state, int id, int flags) { warning("ScummEngine_v72he::drawWizPolygon() is untested, please report if you encouter any glitches"); int i; WizPolygon *wp = NULL; for (i = 0; i < _wizNumPolygons; ++i) { if (_wizPolygons[i].id == id) { wp = &_wizPolygons[i]; break; } } if (!wp) { error("Polygon %d is not defined", id); } if (wp->numVerts != 5) { error("Invalid point count %d for Polygon %d", wp->numVerts, id); } // FIXME: make drawWizImage return a *valid* malloc'ed pointer uint8 *srcWizBuf = drawWizImage(rtImage, resnum, state, 0, 0, 0x20); if (srcWizBuf) { uint8 *dst; VirtScreen *pvs = &virtscr[kMainVirtScreen]; if (flags & 0x10) { dst = pvs->getPixels(0, pvs->topline); } else { dst = pvs->getBackPixels(0, pvs->topline); } if (wp->bound.left < 0 || wp->bound.top < 0 || wp->bound.right >= pvs->w || wp->bound.bottom >= pvs->h) { error("Invalid coords polygon %d", wp->id); } uint32 wizW, wizH; getWizImageDim(resnum, state, wizW, wizH); Common::Point bbox[4]; bbox[0].x = 0; bbox[0].y = 0; bbox[1].x = wizW - 1; bbox[1].y = 0; bbox[2].x = wizW - 1; bbox[2].y = wizH - 1; bbox[3].x = 0; bbox[3].y = wizH - 1; int16 xmin_p, xmax_p, ymin_p, ymax_p; xmin_p = xmax_p = wp->vert[0].x; ymin_p = ymax_p = wp->vert[0].y; for (i = 1; i < 4; ++i) { xmin_p = MIN(wp->vert[i].x, xmin_p); xmax_p = MAX(wp->vert[i].x, xmax_p); ymin_p = MIN(wp->vert[i].y, ymin_p); ymax_p = MAX(wp->vert[i].y, ymax_p); } int16 xmin_b, xmax_b, ymin_b, ymax_b; xmin_b = xmax_b = bbox[0].x; ymin_b = ymax_b = bbox[0].y; for (i = 1; i < 4; ++i) { xmin_b = MIN(bbox[i].x, xmin_b); xmax_b = MAX(bbox[i].x, xmax_b); ymin_b = MIN(bbox[i].y, ymin_b); ymax_b = MAX(bbox[i].y, ymax_b); } PolygonDrawData *pdd = new PolygonDrawData(ymax_p - ymin_p + 1); pdd->pts[0].x = xmin_p; pdd->pts[0].y = ymin_p; pdd->pts[1].x = xmax_p; pdd->pts[1].y = ymax_p; pdd->pts[2].x = xmin_b; pdd->pts[2].y = ymin_b; pdd->pts[3].x = xmax_b; pdd->pts[3].y = ymax_b; for (i = 0; i < 3; ++i) { pdd->calcIntersection(&wp->vert[i], &wp->vert[i + 1], &bbox[i], &bbox[i + 1]); } pdd->calcIntersection(&wp->vert[3], &wp->vert[0], &bbox[3], &bbox[0]); int yoff = pdd->pts[0].y * pvs->w; for (i = 0; i < pdd->areasNum; ++i) { PolygonDrawData::ResArea *pra = &pdd->ra[i]; PolygonDrawData::InterArea *pia = &pdd->ia[i]; pra->off = pia->xmin + yoff; pra->w = pia->xmax - pia->xmin + 1; pra->x_s = pia->x1 << 0x10; pra->y_s = pia->y1 << 0x10; pra->x_step = ((pia->x2 - pia->x1) << 0x10) / pra->w; pra->y_step = ((pia->y2 - pia->y1) << 0x10) / pra->w; yoff += pvs->w; } for (i = 0; pdd->areasNum; ++i) { PolygonDrawData::ResArea *pra = &pdd->ra[i]; uint8 *dstPtr = dst + pra->off; int16 x_acc = pra->x_s; int16 y_acc = pra->y_s; uint16 rw = pra->w; while (rw--) { uint srcWizOff = (y_acc >> 0x10) * wizW + (x_acc >> 0x10); assert(srcWizOff < wizW * wizH); x_acc += pra->x_step; y_acc += pra->y_step; *dstPtr++ = srcWizBuf[srcWizOff]; } } delete pdd; if (flags & 0x10) { markRectAsDirty(kMainVirtScreen, wp->bound); } else { gdi.copyVirtScreenBuffers(wp->bound); } free(srcWizBuf); } } void ScummEngine_v72he::redrawBGAreas() { ScummEngine_v70he::redrawBGAreas(); flushWizBuffer(); } void ScummEngine_v72he::flushWizBuffer() { for (int i = 0; i < _wizImagesNum; ++i) { WizImage *pwi = &_wizImages[i]; drawWizImage(rtImage, pwi->resnum, 0, pwi->x1, pwi->y1, pwi->flags); } _wizImagesNum = 0; } void ScummEngine_v72he::o72_drawWizImage() { int flags = pop(); int y1 = pop(); int x1 = pop(); int resnum = pop(); if (_fullRedraw) { assert(_wizImagesNum < ARRAYSIZE(_wizImages)); WizImage *pwi = &_wizImages[_wizImagesNum]; pwi->resnum = resnum; pwi->x1 = x1; pwi->y1 = y1; pwi->flags = flags; ++_wizImagesNum; } else { drawWizImage(rtImage, resnum, 0, x1, y1, flags); } } void ScummEngine_v72he::o72_unknownCF() { //ArrayHeader *ah; byte string[255]; copyScriptString(string); int len = resStrLen(string) + 1; writeVar(0, 0); //ah = defineArray(0, kStringArray, 0, 0, 0, len); defineArray(0, kStringArray, 0, 0, 0, len); writeArray(0, 0, 0, 0); //memcpy(ah->data, string, len); push(readVar(0)); } void ScummEngine_v72he::o72_jumpToScript() { int args[16]; int script, flags; getStackList(args, ARRAYSIZE(args)); script = pop(); flags = fetchScriptByte(); stopObjectCode(); runScript(script, (flags == 199 || flags == 200), (flags == 195 || flags == 200), args); } void ScummEngine_v72he::o72_openFile() { int mode, slot, l, r; byte filename[256]; mode = pop(); copyScriptString(filename); debug(1,"File %s", filename); for (r = strlen((char*)filename); r != 0; r--) { if (filename[r - 1] == '\\') break; } slot = -1; for (l = 0; l < 17; l++) { if (_hFileTable[l].isOpen() == false) { slot = l; break; } } if (slot != -1) { if (mode == 1) _hFileTable[slot].open((char*)filename + r, File::kFileReadMode); else if (mode == 2) _hFileTable[slot].open((char*)filename + r, File::kFileWriteMode); else error("o60_openFile(): wrong open file mode %d", mode); if (_hFileTable[slot].isOpen() == false) slot = -1; } debug(1, "o72_openFile: slot %d, mode %d", slot, mode); push(slot); } int ScummEngine_v72he::readFileToArray(int slot, int32 size) { if (size == 0) size = _hFileTable[slot].size() - _hFileTable[slot].pos(); writeVar(0, 0); ArrayHeader *ah = defineArray(0, kByteArray, 0, 0, 0, size); _hFileTable[slot].read(ah->data, size); return readVar(0); } void ScummEngine_v72he::o72_readFile() { int slot, val; int32 size; int subOp = fetchScriptByte(); switch (subOp) { case 4: slot = pop(); val = _hFileTable[slot].readByte(); push(val); break; case 5: slot = pop(); val = _hFileTable[slot].readUint16LE(); push(val); break; case 6: slot = pop(); val = _hFileTable[slot].readUint32LE(); push(val); break; case 8: fetchScriptByte(); size = pop(); slot = pop(); val = readFileToArray(slot, size); push(val); break; default: error("o72_readFile: default case %d", subOp); } debug(1, "o72_readFile: slot %d, subOp %d val %d", slot, subOp, val); } void ScummEngine_v72he::writeFileFromArray(int slot, int resID) { ArrayHeader *ah = (ArrayHeader *)getResourceAddress(rtString, resID); int32 size = (FROM_LE_32(ah->dim1end) - FROM_LE_32(ah->dim1start) + 1) * (FROM_LE_32(ah->dim2end) - FROM_LE_32(ah->dim2start) + 1); _hFileTable[slot].write(ah->data, size); } void ScummEngine_v72he::o72_writeFile() { int16 resID = pop(); int slot = pop(); int subOp = fetchScriptByte(); switch (subOp) { case 4: _hFileTable[slot].writeByte(resID); break; case 5: _hFileTable[slot].writeUint16LE(resID); break; case 6: _hFileTable[slot].writeUint32LE(resID); break; case 8: fetchScriptByte(); writeFileFromArray(slot, resID); break; default: error("o72_writeFile: default case %d", subOp); } debug(1, "o72_writeFile: slot %d, subOp %d", slot, subOp); } void ScummEngine_v72he::o72_findAllObjects() { int room = pop(); int i = 1; if (room != _currentRoom) warning("o72_findAllObjects: current room is not %d", room); writeVar(0, 0); defineArray(0, kDwordArray, 0, 0, 0, _numLocalObjects + 1); writeArray(0, 0, 0, _numLocalObjects); while (i < _numLocalObjects) { writeArray(0, 0, i, _objs[i].obj_nr); i++; } push(readVar(0)); } void ScummEngine_v72he::o72_deleteFile() { byte filename[100]; copyScriptString(filename); debug(1, "stub o72_deleteFile(%s)", filename); } void ScummEngine_v72he::o72_getPixel() { byte area; int x = pop(); int y = pop(); int subOp = fetchScriptByte(); if (subOp != 218 && subOp != 219) return; VirtScreen *vs = findVirtScreen(y); if (vs == NULL || x > _screenWidth - 1 || x < 0) { push(-1); return; } if (subOp == 218) area = *vs->getBackPixels(x, y - vs->topline); else area = *vs->getPixels(x, y - vs->topline); push(area); } void ScummEngine_v72he::o72_pickVarRandom() { int num; int args[100]; int32 dim1end; num = getStackList(args, ARRAYSIZE(args)); int value = fetchScriptWord(); if (readVar(value) == 0) { defineArray(value, kDwordArray, 0, 0, 0, num); if (num > 0) { int16 counter = 0; do { writeArray(value, 0, counter + 1, args[counter]); } while (++counter < num); } shuffleArray(value, 1, num); writeArray(value, 0, 0, 2); push(readArray(value, 0, 1)); return; } num = readArray(value, 0, 0); ArrayHeader *ah = (ArrayHeader *)getResourceAddress(rtString, readVar(value)); dim1end = FROM_LE_32(ah->dim1end); if (dim1end < num) { int16 var_2 = readArray(value, 0, num - 1); shuffleArray(value, 1, dim1end); if (readArray(value, 0, 1) == var_2) { num = 2; } else { num = 1; } } writeArray(value, 0, 0, num + 1); push(readArray(value, 0, num)); } void ScummEngine_v72he::o72_redimArray() { int subcode, newX, newY; newY = pop(); newX = pop(); subcode = fetchScriptByte(); switch (subcode) { case 5: redimArray(fetchScriptWord(), 0, newX, 0, newY, kIntArray); break; case 4: redimArray(fetchScriptWord(), 0, newX, 0, newY, kByteArray); break; case 6: redimArray(fetchScriptWord(), 0, newX, 0, newY, kDwordArray); break; default: error("o72_redimArray: default type %d", subcode); } } void ScummEngine_v72he::redimArray(int arrayId, int newDim2start, int newDim2end, int newDim1start, int newDim1end, int type) { int newSize, oldSize; if (readVar(arrayId) == 0) error("redimArray: Reference to zeroed array pointer"); ArrayHeader *ah = (ArrayHeader *)getResourceAddress(rtString, readVar(arrayId)); if (!ah) error("redimArray: Invalid array (%d) reference", readVar(arrayId)); newSize = arrayDataSizes[type]; oldSize = arrayDataSizes[FROM_LE_32(ah->type)]; newSize *= (newDim1end - newDim1start + 1) * (newDim2end - newDim2start + 1); oldSize *= (FROM_LE_32(ah->dim1end) - FROM_LE_32(ah->dim1start) + 1) * (FROM_LE_32(ah->dim2end) - FROM_LE_32(ah->dim2start) + 1); newSize >>= 3; oldSize >>= 3; if (newSize != oldSize) error("redimArray: array %d redim mismatch", readVar(arrayId)); ah->type = TO_LE_32(type); ah->dim1start = TO_LE_32(newDim1start); ah->dim1end = TO_LE_32(newDim1end); ah->dim2start = TO_LE_32(newDim2start); ah->dim2end = TO_LE_32(newDim2end); } void ScummEngine_v72he::o72_unknownEC() { int dst, size; int src = pop(); size = resStrLen(getStringAddress(src)) + 1; writeVar(0, 0); defineArray(0, kStringArray, 0, 0, 0, size); writeArray(0, 0, 0, 0); dst = readVar(0); arrrays_unk2(dst, src, -1, -1); push(dst); debug(1,"stub o72_unknownEC"); } void ScummEngine_v72he::o72_unknownED() { int array, pos, len; int chr, result = 0; len = pop(); pos = pop(); array = pop(); if (len == -1) { pos = 0; len = resStrLen(getStringAddress(array)); } writeVar(0, array); while (pos <= len) { chr = readArray(0, 0, pos); if (chr) result += _charset->getCharWidth(chr); pos++; } push(result); debug(1,"stub o72_unknownED"); } void ScummEngine_v72he::o72_unknownEF() { int dst, size; int b = pop(); int a = pop(); int src = pop(); size = b - a + 2; writeVar(0, 0); defineArray(0, kStringArray, 0, 0, 0, size); writeArray(0, 0, 0, 0); dst = readVar(0); arrrays_unk2(dst, src, a, b); push(dst); debug(1,"stub o72_unknownEF"); } void ScummEngine_v72he::o72_unknownF0() { int dst, size; int src2 = pop(); int src1 = pop(); size = resStrLen(getStringAddress(src1)); size += resStrLen(getStringAddress(src2)) + 1; writeVar(0, 0); defineArray(0, kStringArray, 0, 0, 0, size); writeArray(0, 0, 0, 0); dst = readVar(0); arrrays_unk2(dst, src1, 0, -1); arrrays_unk2(dst, src2, 0, -1); push(dst); debug(1,"stub o72_unknownF0"); } void ScummEngine_v72he::o72_unknownF1() { byte *addr, *addr2; int i = 0; int id = pop(); int id2 = pop(); addr = getStringAddress(id); if (!addr) error("o72_stringLen: Reference to zeroed array pointer (%d)", id); addr2 = getStringAddress(id2); if (!addr) error("o72_stringLen: Reference to zeroed array pointer (%d)", id); while (*addr == *addr2) { if (*addr == 0) { push(0); return; } addr++; addr2++; i++; } push (i); debug(1,"o70_unknownF1 stub (%d, %d, %d)", id, id2, i); } void ScummEngine_v72he::o72_checkGlobQueue() { int subOp = fetchScriptByte(); int idx = pop(); debug(1,"o72_checkGlobQueue stub (%d, %d)", subOp, idx); push(100); } void ScummEngine_v72he::o72_readINI() { byte option[100]; int type, retval; // we pretend that we don't have .ini file copyScriptString(option); type = fetchScriptByte(); switch (type) { case 6: // number if (!strcmp((char *)option, "NoPrinting")) push(1); else push(0); break; case 7: // string writeVar(0, 0); defineArray(0, kStringArray, 0, 0, 0, 0); retval = readVar(0); writeArray(0, 0, 0, 0); push(retval); // var ID string break; default: error("o72_readINI: default type %d", type); } debug(1, "o72_readINI (%d) %s", type, option); } void ScummEngine_v72he::o72_writeINI() { int type, value; byte option[256], string[1024]; type = fetchScriptByte(); switch (type) { case 6: // number value = pop(); copyScriptString(option); debug(1,"o72_writeINI: %s set to %d", option, value); break; case 7: // string copyScriptString(string); copyScriptString(option); debug(1,"o72_writeINI: %s set to %s", option, string); break; default: error("o72_writeINI: default type %d", type); } } void ScummEngine_v72he::o72_unknownF5() { int chr, max; int array, len, pos, result = 0; max = pop(); pos = pop(); array = pop(); len = resStrLen(getStringAddress(array)); writeVar(0, array); while (pos <= len) { chr = readArray(0, 0, pos); result += _charset->getCharWidth(chr); if (result >= max) { push(pos); return; } pos++; } push(len); debug(1,"stub o72_unknownF5 (%d)", result); } void ScummEngine_v72he::o72_unknownF6() { int len, edi, pos, value, id; value = pop(); edi = pop(); pos = pop(); id = pop(); if (edi >= 0) { len = resStrLen(getStringAddress(id)); if (len < edi) edi = len; } else { edi = 0; } if (pos < 0) pos = 0; writeVar(0, id); if (edi > pos) { while (edi >= pos) { if (readArray(0, 0, pos) == value) { push(pos); return; } pos++; } } else { while (edi <= pos) { if (readArray(0, 0, pos) == value) { push(pos); return; } pos--; } } push(-1); debug(1,"stub o72_unknownF6"); } void ScummEngine_v72he::o72_unknownF8() { int id = pop(); byte subOp = fetchScriptByte(); push(10); debug(1,"stub o72_unknownF8: subOp %d, id %d", subOp, id); } void ScummEngine_v72he::o72_setFilePath() { // File related byte filename[100]; copyScriptString(filename); debug(1,"o72_setFilePath: %s", filename); } void ScummEngine_v72he::o72_unknownFA() { byte name[100]; copyScriptString(name); int id = fetchScriptByte(); debug(1,"o72_unknownFA: (%d) %s", id, name); } void ScummEngine_v72he::decodeParseString(int m, int n) { byte b, *ptr; int i, color, size; int args[31]; byte name[1024]; b = fetchScriptByte(); switch (b) { case 65: // SO_AT _string[m].ypos = pop(); _string[m].xpos = pop(); _string[m].overhead = false; break; case 66: // SO_COLOR _string[m].color = pop(); break; case 67: // SO_CLIPPED _string[m].right = pop(); break; case 69: // SO_CENTER _string[m].center = true; _string[m].overhead = false; break; case 71: // SO_LEFT _string[m].center = false; _string[m].overhead = false; break; case 72: // SO_OVERHEAD _string[m].overhead = true; _string[m].no_talk_anim = false; break; case 73: // SO_SAY_VOICE error("decodeParseString: case 73"); break; case 74: // SO_MUMBLE _string[m].no_talk_anim = true; break; case 75: // SO_TEXTSTRING printString(m, _scriptPointer); _scriptPointer += resStrLen(_scriptPointer) + 1; break; case 194: decodeScriptString(name, true); printString(m, name); break; case 0xE1: ptr = getResourceAddress(rtTalkie, pop()); size = READ_BE_UINT32(ptr + 12); memcpy(name, ptr + 16, size); printString(m, name); break; case 0xF9: color = pop(); if (color == 1) { _string[m].color = pop(); } else { push(color); getStackList(args, ARRAYSIZE(args)); for (i = 0; i < 16; i++) _charsetColorMap[i] = _charsetData[_string[1]._default.charset][i] = (unsigned char)args[i]; _string[m].color = color; } break; case 0xFE: _string[m].loadDefault(); if (n) _actorToPrintStrFor = pop(); break; case 0xFF: _string[m].saveDefault(); break; default: error("decodeParseString: default case 0x%x", b); } } } // End of namespace Scumm