/* 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 "scumm/scumm.h" #include "scumm/actor.h" #include "scumm/bomp.h" #include "scumm/object.h" #include "scumm/resource.h" #include "scumm/usage_bits.h" namespace Scumm { #if !defined(__GNUC__) #pragma START_PACK_STRUCTS #endif struct BompHeader { /* Bomp header */ union { struct { uint16 unk; uint16 width, height; } GCC_PACK old; struct { uint32 width, height; } GCC_PACK v8; } GCC_PACK; } GCC_PACK; #if !defined(__GNUC__) #pragma END_PACK_STRUCTS #endif bool ScummEngine::getClass(int obj, int cls) const { checkRange(_numGlobalObjects - 1, 0, obj, "Object %d out of range in getClass"); cls &= 0x7F; checkRange(32, 1, cls, "Class %d out of range in getClass"); if (_features & GF_SMALL_HEADER) { // Translate the new (V5) object classes to the old classes // (for those which differ). switch (cls) { case kObjectClassUntouchable: cls = 24; break; case kObjectClassPlayer: cls = 23; break; case kObjectClassXFlip: cls = 19; break; case kObjectClassYFlip: cls = 18; break; } } return (_classData[obj] & (1 << (cls - 1))) != 0; } void ScummEngine::putClass(int obj, int cls, bool set) { checkRange(_numGlobalObjects - 1, 0, obj, "Object %d out of range in putClass"); cls &= 0x7F; checkRange(32, 1, cls, "Class %d out of range in putClass"); if (_features & GF_SMALL_HEADER) { // Translate the new (V5) object classes to the old classes // (for those which differ). switch (cls) { case kObjectClassUntouchable: cls = 24; break; case kObjectClassPlayer: cls = 23; break; case kObjectClassXFlip: cls = 19; break; case kObjectClassYFlip: cls = 18; break; } } if (set) _classData[obj] |= (1 << (cls - 1)); else _classData[obj] &= ~(1 << (cls - 1)); if (1 <= obj && obj < _numActors) { _actors[obj].classChanged(cls, set); } } int ScummEngine::getOwner(int obj) const { checkRange(_numGlobalObjects - 1, 0, obj, "Object %d out of range in getOwner"); return _objectOwnerTable[obj]; } void ScummEngine::putOwner(int obj, int owner) { checkRange(_numGlobalObjects - 1, 0, obj, "Object %d out of range in putOwner"); checkRange(0xFF, 0, owner, "Owner %d out of range in putOwner"); _objectOwnerTable[obj] = owner; } int ScummEngine::getState(int obj) { checkRange(_numGlobalObjects - 1, 0, obj, "Object %d out of range in getState"); if (!_copyProtection) { // I knew LucasArts sold cracked copies of the original Maniac Mansion, // at least as part of Day of the Tentacle. Apparently they also sold // cracked versions of the enhanced version. At least in Germany. // // This will keep the security door open at all times. I can only // assume that 182 and 193 each correspond to one particular side of // the it. Fortunately it does not prevent frustrated players from // blowing up the mansion, should they feel the urge to. if (_gameId == GID_MANIAC && (obj == 182 || obj == 193)) _objectStateTable[obj] |= 0x08; } return _objectStateTable[obj]; } void ScummEngine::putState(int obj, int state) { checkRange(_numGlobalObjects - 1, 0, obj, "Object %d out of range in putState"); checkRange(0xFF, 0, state, "State %d out of range in putState"); _objectStateTable[obj] = state; } int ScummEngine::getObjectRoom(int obj) const { checkRange(_numGlobalObjects - 1, 0, obj, "Object %d out of range in getObjectRoom"); return _objectRoomTable[obj]; } int ScummEngine::getObjectIndex(int object) const { int i; if (object < 1) return -1; for (i = (_numLocalObjects-1); i > 0; i--) { if (_objs[i].obj_nr == object) return i; } return -1; } int ScummEngine::getObjectImageCount(int object) { const byte *ptr; const ImageHeader *imhd; int count, objnum; objnum = getObjectIndex(object); if (objnum == -1) error("getObjectImageCount: object %d not in memory", object); ptr = getOBIMFromObject(_objs[objnum]); imhd = (const ImageHeader *)findResourceData(MKID('IMHD'), ptr); count = READ_LE_UINT32(&imhd->v8.image_count); warning("getObjectImageCount: image count %d", count); return count; } int ScummEngine::whereIsObject(int object) const { int i; if (object >= _numGlobalObjects) return WIO_NOT_FOUND; if (object < 1) return WIO_NOT_FOUND; if (_objectOwnerTable[object] != OF_OWNER_ROOM) { for (i = 0; i < _numInventory; i++) if (_inventory[i] == object) return WIO_INVENTORY; return WIO_NOT_FOUND; } for (i = (_numLocalObjects-1); i > 0; i--) if (_objs[i].obj_nr == object) { if (_objs[i].fl_object_index) return WIO_FLOBJECT; return WIO_ROOM; } return WIO_NOT_FOUND; } int ScummEngine::getObjectOrActorXY(int object, int &x, int &y) { if (object < _numActors) { Actor *act = derefActorSafe(object, "getObjectOrActorXY"); if (act) return act->getActorXYPos(x, y); else return -1; } switch (whereIsObject(object)) { case WIO_NOT_FOUND: return -1; case WIO_INVENTORY: if (_objectOwnerTable[object] < _numActors) return derefActor(_objectOwnerTable[object], "getObjectOrActorXY(2)")->getActorXYPos(x, y); else return -1; } getObjectXYPos(object, x, y); return 0; } /** * Return the position of an object. * Returns X, Y and direction in angles */ void ScummEngine::getObjectXYPos(int object, int &x, int &y, int &dir) { int idx = getObjectIndex(object); assert(idx >= 0); ObjectData &od = _objs[idx]; int state; const byte *ptr; const ImageHeader *imhd; if (_version >= 6) { state = getState(object) - 1; if (state < 0) state = 0; ptr = getOBIMFromObject(od); if (!ptr) { // FIXME: We used to assert here, but it seems that in the nexus // in The Dig, this can happen, at least with old savegames, and // it's safe to continue... warning("getObjectXYPos: Can't find object %d", object); return; } imhd = (const ImageHeader *)findResourceData(MKID('IMHD'), ptr); assert(imhd); if (_version == 8) { x = od.x_pos + (int32)READ_LE_UINT32(&imhd->v8.hotspot[state].x); y = od.y_pos + (int32)READ_LE_UINT32(&imhd->v8.hotspot[state].y); } else if (_version == 7) { x = od.x_pos + (int16)READ_LE_UINT16(&imhd->v7.hotspot[state].x); y = od.y_pos + (int16)READ_LE_UINT16(&imhd->v7.hotspot[state].y); } else { x = od.x_pos + (int16)READ_LE_UINT16(&imhd->old.hotspot[state].x); y = od.y_pos + (int16)READ_LE_UINT16(&imhd->old.hotspot[state].y); } } else { x = od.walk_x; y = od.walk_y; } if (_version == 8) dir = fromSimpleDir(1, od.actordir); else dir = oldDirToNewDir(od.actordir & 3); } static int getDist(int x, int y, int x2, int y2) { int a = ABS(y - y2); int b = ABS(x - x2); return MAX(a, b); } int ScummEngine::getObjActToObjActDist(int a, int b) { int x, y, x2, y2; Actor *acta = NULL; Actor *actb = NULL; if (a < _numActors) acta = derefActorSafe(a, "getObjActToObjActDist"); if (b < _numActors) actb = derefActorSafe(b, "getObjActToObjActDist(2)"); if (acta && actb && acta->getRoom() == actb->getRoom() && acta->getRoom() && !acta->isInCurrentRoom()) return 0; if (getObjectOrActorXY(a, x, y) == -1) return 0xFF; if (getObjectOrActorXY(b, x2, y2) == -1) return 0xFF; // Perform adjustXYToBeInBox() *only* if the first item is an // actor and the second is an object. This used to not check // whether the second item is a non-actor, which caused bug // #853874). if (acta && !actb) { AdjustBoxResult r = acta->adjustXYToBeInBox(x2, y2); x2 = r.x; y2 = r.y; } // Now compute the distance between the two points if (_version <= 2) { // For V1/V2 games, distances are measured in the original "character" // based coordinate system, instead of pixels. Otherwise various scripts // will break. See bugs #853874, #774529 x /= 8; y /= 2; x2 /= 8; y2 /= 2; } return getDist(x, y, x2, y2); } int ScummEngine::findObject(int x, int y) { int i, b; byte a; const int mask = (_version <= 2) ? 0x8 : 0xF; for (i = 1; i < _numLocalObjects; i++) { if ((_objs[i].obj_nr < 1) || getClass(_objs[i].obj_nr, kObjectClassUntouchable)) continue; if ((_version <= 2) && _objs[i].state & 0x2) 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; } void ScummEngine::drawRoomObject(int i, int arg) { ObjectData *od; byte a; const int mask = (_version <= 2) ? 0x8 : 0xF; od = &_objs[i]; if ((i < 1) || (od->obj_nr < 1) || !od->state) return; do { a = od->parentstate; if (!od->parent) { if ((_version <= 6 && !(_features & GF_HUMONGOUS)) || od->fl_object_index == 0) drawObject(i, arg); break; } od = &_objs[od->parent]; } while ((od->state & mask) == a); } void ScummEngine::drawRoomObjects(int arg) { int i; const int mask = (_version <= 2) ? 0x8 : 0xF; if (_features & GF_DRAWOBJ_OTHER_ORDER) { for (i = 1; i < _numLocalObjects; i++) if (_objs[i].obj_nr > 0) drawRoomObject(i, arg); } else { for (i = (_numLocalObjects-1); i > 0; i--) if (_objs[i].obj_nr > 0 && (_objs[i].state & mask)) { drawRoomObject(i, arg); } } } static const uint32 IMxx_tags[] = { MKID('IM00'), MKID('IM01'), MKID('IM02'), MKID('IM03'), MKID('IM04'), MKID('IM05'), MKID('IM06'), MKID('IM07'), MKID('IM08'), MKID('IM09'), MKID('IM0A'), MKID('IM0B'), MKID('IM0C'), MKID('IM0D'), MKID('IM0E'), MKID('IM0F') }; void ScummEngine::drawObject(int obj, int arg) { ObjectData &od = _objs[obj]; int xpos, ypos, height, width; const byte *ptr; int x, a, numstrip; int tmp; if (_BgNeedsRedraw) arg = 0; if (od.obj_nr == 0) return; checkRange(_numGlobalObjects - 1, 0, od.obj_nr, "Object %d out of range in drawObject"); xpos = od.x_pos / 8; ypos = od.y_pos; width = od.width / 8; height = od.height &= 0xFFFFFFF8; // Mask out last 3 bits // Short circuit for objects which aren't visible at all. if (width == 0 || xpos > _screenEndStrip || xpos + width < _screenStartStrip) return; ptr = getOBIMFromObject(od); if (_features & GF_OLD_BUNDLE) ptr += 0; else ptr = getObjectImage(ptr, getState(od.obj_nr)); if (!ptr) return; x = 0xFFFF; for (a = numstrip = 0; a < width; a++) { tmp = xpos + a; if (arg == 1 && _screenStartStrip != tmp) continue; if (arg == 2 && _screenEndStrip != tmp) continue; if (tmp < _screenStartStrip || tmp > _screenEndStrip) continue; setGfxUsageBit(tmp, USAGE_BIT_DIRTY); if (tmp < x) x = tmp; numstrip++; } if (numstrip != 0) { byte flags = Gdi::dbAllowMaskOr; if (_version == 1) { gdi._C64ObjectMode = true; gdi.decodeC64Gfx(ptr, gdi._C64ObjectMap, width * (height / 8) * 3); } // Sam & Max needs this to fix object-layering problems with // the inventory and conversation icons. if ((_version >= 7 || _gameId == GID_SAMNMAX) && getClass(od.obj_nr, kObjectClassIgnoreBoxes)) flags |= Gdi::dbDrawMaskOnAll; gdi.drawBitmap(ptr, &virtscr[0], x, ypos, width * 8, height, x - xpos, numstrip, flags); } } void ScummEngine::clearRoomObjects() { int i; if (_features & GF_SMALL_HEADER) { for (i = 0; i < _numLocalObjects; i++) { _objs[i].obj_nr = 0; } } else { // FIXME: Locking/FlObjects stuff? for (i = 0; i < _numLocalObjects; i++) { if (_objs[i].obj_nr < 1) // Optimise codepath continue; // Nuke all non-flObjects (flObjects are nuked in script.cpp) if (_objs[i].fl_object_index == 0) { _objs[i].obj_nr = 0; } else { // Nuke all unlocked flObjects if (!(res.flags[rtFlObject][_objs[i].fl_object_index] & RF_LOCK)) { nukeResource(rtFlObject, _objs[i].fl_object_index); _objs[i].obj_nr = 0; _objs[i].fl_object_index = 0; } } } } } void ScummEngine::loadRoomObjects() { int i, j; ObjectData *od; const byte *ptr; uint16 obim_id; const byte *room, *searchptr, *rootptr; const ImageHeader *imhd; const RoomHeader *roomhdr; const CodeHeader *cdhd; CHECK_HEAP room = getResourceAddress(rtRoom, _roomResource); roomhdr = (const RoomHeader *)findResourceData(MKID('RMHD'), room); if (_version == 8) _numObjectsInRoom = (byte)READ_LE_UINT32(&(roomhdr->v8.numObjects)); else if (_version == 7) _numObjectsInRoom = (byte) READ_LE_UINT16(&(roomhdr->v7.numObjects)); else _numObjectsInRoom = (byte) READ_LE_UINT16(&(roomhdr->old.numObjects)); if (_numObjectsInRoom == 0) return; if (_numObjectsInRoom > _numLocalObjects) error("More than %d objects in room %d", _numLocalObjects, _roomResource); if (_version == 8) searchptr = rootptr = getResourceAddress(rtRoomScripts, _roomResource); else searchptr = rootptr = room; assert(searchptr); // Load in new room objects ResourceIterator obcds(searchptr, false); for (i = 0; i < _numObjectsInRoom; i++) { od = &_objs[findLocalObjectSlot()]; ptr = obcds.findNext(MKID('OBCD')); if (ptr == NULL) error("Room %d missing object code block(s)", _roomResource); od->OBCDoffset = ptr - rootptr; cdhd = (const CodeHeader *)findResourceData(MKID('CDHD'), ptr); if (_version >= 7) od->obj_nr = READ_LE_UINT16(&(cdhd->v7.obj_id)); else if (_version == 6) od->obj_nr = READ_LE_UINT16(&(cdhd->v6.obj_id)); else od->obj_nr = READ_LE_UINT16(&(cdhd->v5.obj_id)); if (_dumpScripts) { char buf[32]; sprintf(buf, "roomobj-%d-", _roomResource); ptr = findResource(MKID('VERB'), ptr); dumpResource(buf, od->obj_nr, ptr); } } searchptr = room; ResourceIterator obims(room, false); for (i = 0; i < _numObjectsInRoom; i++) { ptr = obims.findNext(MKID('OBIM')); if (ptr == NULL) error("Room %d missing image blocks(s)", _roomResource); imhd = (const ImageHeader *)findResourceData(MKID('IMHD'), ptr); if (_version == 8) // In V8, IMHD has no obj_id, but rather a name string. We map the name // back to an object id using a table derived from the DOBJ resource. obim_id = _objectIDMap[imhd->v8.name]; else if (_version == 7) obim_id = READ_LE_UINT16(&imhd->v7.obj_id); else obim_id = READ_LE_UINT16(&imhd->old.obj_id); for (j = 1; j < _numLocalObjects; j++) { if (_objs[j].obj_nr == obim_id) _objs[j].OBIMoffset = ptr - room; } } for (i = 1; i < _numLocalObjects; i++) { if (_objs[i].obj_nr && !_objs[i].fl_object_index) setupRoomObject(&_objs[i], room); } CHECK_HEAP } void ScummEngine::loadRoomObjectsOldBundle() { int i; ObjectData *od; const byte *room, *ptr; CHECK_HEAP room = getResourceAddress(rtRoom, _roomResource); _numObjectsInRoom = room[20]; if (_numObjectsInRoom == 0) return; if (_numObjectsInRoom > _numLocalObjects) error("More than %d objects in room %d", _numLocalObjects, _roomResource); if (_version <= 2) ptr = room + 28; else ptr = room + 29; for (i = 0; i < _numObjectsInRoom; i++) { od = &_objs[findLocalObjectSlot()]; od->OBIMoffset = READ_LE_UINT16(ptr); od->OBCDoffset = READ_LE_UINT16(ptr + 2 * _numObjectsInRoom); setupRoomObject(od, room); ptr += 2; if (_dumpScripts) { char buf[32]; sprintf(buf, "roomobj-%d-", _roomResource); dumpResource(buf, od->obj_nr, room + od->OBCDoffset); } } CHECK_HEAP } void ScummEngine::loadRoomObjectsSmall() { int i, j; ObjectData *od; const byte *ptr; uint16 obim_id; const byte *room; const RoomHeader *roomhdr; CHECK_HEAP room = getResourceAddress(rtRoom, _roomResource); roomhdr = (const RoomHeader *)findResourceData(MKID('RMHD'), room); _numObjectsInRoom = (byte) READ_LE_UINT16(&(roomhdr->old.numObjects)); if (_numObjectsInRoom == 0) return; if (_numObjectsInRoom > _numLocalObjects) error("More than %d objects in room %d", _numLocalObjects, _roomResource); ResourceIterator obcds(room, true); for (i = 0; i < _numObjectsInRoom; i++) { od = &_objs[findLocalObjectSlot()]; ptr = obcds.findNext(MKID('OBCD')); if (ptr == NULL) error("Room %d missing object code block(s)", _roomResource); od->OBCDoffset = ptr - room; od->obj_nr = READ_LE_UINT16(ptr + 6); if (_dumpScripts) { char buf[32]; sprintf(buf, "roomobj-%d-", _roomResource); dumpResource(buf, od->obj_nr, ptr); } } ResourceIterator obims(room, true); for (i = 0; i < _numObjectsInRoom; i++) { ptr = obims.findNext(MKID('OBIM')); if (ptr == NULL) error("Room %d missing image blocks(s)", _roomResource); obim_id = READ_LE_UINT16(ptr + 6); for (j = 1; j < _numLocalObjects; j++) { if (_objs[j].obj_nr == obim_id) _objs[j].OBIMoffset = ptr - room; } } for (i = 1; i < _numLocalObjects; i++) { if (_objs[i].obj_nr && !_objs[i].fl_object_index) { setupRoomObject(&_objs[i], room); } } CHECK_HEAP } void ScummEngine::setupRoomObject(ObjectData *od, const byte *room, const byte *searchptr) { const CodeHeader *cdhd = NULL; const ImageHeader *imhd = NULL; assert(room); if (_features & GF_SMALL_HEADER) { const byte *ptr = room + od->OBCDoffset; if (_features & GF_OLD_BUNDLE) ptr -= 2; od->obj_nr = READ_LE_UINT16(ptr + 6); od->x_pos = *(ptr + 9) * 8; od->y_pos = ((*(ptr + 10)) & 0x7F) * 8; od->parentstate = (*(ptr + 10) & 0x80) ? 1 : 0; if (_version <= 2) od->parentstate *= 8; od->width = *(ptr + 11) * 8; od->parent = *(ptr + 12); if (_version <= 2) { od->walk_x = *(ptr + 13) * 8; od->walk_y = (*(ptr + 14) & 0x1f) * 8; od->actordir = (*(ptr + 15)) & 7; od->height = *(ptr + 15) & 0xf8; } else { od->walk_x = READ_LE_UINT16(ptr + 13); od->walk_y = READ_LE_UINT16(ptr + 15); od->actordir = (*(ptr + 17)) & 7; od->height = *(ptr + 17) & 0xf8; } return; } if (searchptr == NULL) { if (_version == 8) searchptr = getResourceAddress(rtRoomScripts, _roomResource); else searchptr = room; } cdhd = (const CodeHeader *)findResourceData(MKID('CDHD'), searchptr + od->OBCDoffset); if (cdhd == NULL) error("Room %d missing CDHD blocks(s)", _roomResource); if (_version == 8) { od->obj_nr = READ_LE_UINT16(&(cdhd->v7.obj_id)); od->parent = cdhd->v7.parent; od->parentstate = cdhd->v7.parentstate; imhd = (const ImageHeader *)findResourceData(MKID('IMHD'), room + od->OBIMoffset); od->x_pos = (int)READ_LE_UINT32(&imhd->v8.x_pos); od->y_pos = (int)READ_LE_UINT32(&imhd->v8.y_pos); od->width = (uint)READ_LE_UINT32(&imhd->v8.width); od->height = (uint)READ_LE_UINT32(&imhd->v8.height); // HACK: This is done sinec an angle doesn't fit into a byte (360 > 256) od->actordir = toSimpleDir(1, READ_LE_UINT32(&imhd->v8.actordir)); } else if (_version == 7) { od->obj_nr = READ_LE_UINT16(&(cdhd->v7.obj_id)); od->parent = cdhd->v7.parent; od->parentstate = cdhd->v7.parentstate; imhd = (const ImageHeader *)findResourceData(MKID('IMHD'), room + od->OBIMoffset); od->x_pos = READ_LE_UINT16(&imhd->v7.x_pos); od->y_pos = READ_LE_UINT16(&imhd->v7.y_pos); od->width = READ_LE_UINT16(&imhd->v7.width); od->height = READ_LE_UINT16(&imhd->v7.height); od->actordir = (byte) READ_LE_UINT16(&imhd->v7.actordir); } else if (_version == 6) { od->obj_nr = READ_LE_UINT16(&(cdhd->v6.obj_id)); od->width = READ_LE_UINT16(&cdhd->v6.w); od->height = READ_LE_UINT16(&cdhd->v6.h); od->x_pos = ((int16)READ_LE_UINT16(&cdhd->v6.x)); od->y_pos = ((int16)READ_LE_UINT16(&cdhd->v6.y)); if (cdhd->v6.flags == 0x80) { od->parentstate = 1; } else { od->parentstate = (cdhd->v6.flags & 0xF); } od->parent = cdhd->v6.parent; od->actordir = cdhd->v6.actordir; } else { od->obj_nr = READ_LE_UINT16(&(cdhd->v5.obj_id)); od->width = cdhd->v5.w * 8; od->height = cdhd->v5.h * 8; od->x_pos = cdhd->v5.x * 8; od->y_pos = cdhd->v5.y * 8; if (cdhd->v5.flags == 0x80) { od->parentstate = 1; } else { od->parentstate = (cdhd->v5.flags & 0xF); } od->parent = cdhd->v5.parent; od->walk_x = READ_LE_UINT16(&cdhd->v5.walk_x); od->walk_y = READ_LE_UINT16(&cdhd->v5.walk_y); od->actordir = cdhd->v5.actordir; } od->fl_object_index = 0; } void ScummEngine::fixObjectFlags() { int i; ObjectData *od = &_objs[1]; for (i = 1; i < _numLocalObjects; i++, od++) { if (od->obj_nr > 0) od->state = getState(od->obj_nr); } } void ScummEngine::processDrawQue() { int i, j; for (i = 0; i < _drawObjectQueNr; i++) { j = _drawObjectQue[i]; if (j) drawObject(j, 0); } _drawObjectQueNr = 0; } void ScummEngine::addObjectToDrawQue(int object) { if ((unsigned int)_drawObjectQueNr >= ARRAYSIZE(_drawObjectQue)) error("Draw Object Que overflow"); _drawObjectQue[_drawObjectQueNr++] = object; } void ScummEngine::clearDrawObjectQueue() { _drawObjectQueNr = 0; } void ScummEngine::clearOwnerOf(int obj) { int i, j; uint16 *a; stopObjectScript(obj); if (getOwner(obj) == OF_OWNER_ROOM) { i = 0; do { if (_objs[i].obj_nr == obj) { if (!_objs[i].fl_object_index) return; nukeResource(rtFlObject, _objs[i].fl_object_index); _objs[i].obj_nr = 0; _objs[i].fl_object_index = 0; } } while (++i < _numLocalObjects); return; } for (i = 0; i < _numInventory; i++) { if (_inventory[i] == obj) { j = whereIsObject(obj); if (j == WIO_INVENTORY) { nukeResource(rtInventory, i); _inventory[i] = 0; } a = _inventory; for (i = 0; i < _numInventory - 1; i++, a++) { if (!a[0] && a[1]) { a[0] = a[1]; a[1] = 0; _baseInventoryItems[i] = _baseInventoryItems[i + 1]; _baseInventoryItems[i + 1] = NULL; } } return; } } } /** * Mark the rectangle covered by the given object as dirty, thus eventually * ensuring a redraw of that area. This function is typically invoked when an * object gets removed from the current room, or when its state changed. */ void ScummEngine::markObjectRectAsDirty(int obj) { int i, strip; for (i = 1; i < _numLocalObjects; i++) { if (_objs[i].obj_nr == (uint16)obj) { if (_objs[i].width != 0) { const int minStrip = MAX(_screenStartStrip, _objs[i].x_pos / 8); const int maxStrip = MIN(_screenEndStrip+1, _objs[i].x_pos / 8 + _objs[i].width / 8); for (strip = minStrip; strip < maxStrip; strip++) { setGfxUsageBit(strip, USAGE_BIT_DIRTY); } } _BgNeedsRedraw = true; return; } } } const byte *ScummEngine::getObjOrActorName(int obj) { byte *objptr; int i; if (obj < _numActors) return derefActor(obj, "getObjOrActorName")->getActorName(); for (i = 0; i < _numNewNames; i++) { if (_newNames[i] == obj) { debug(5, "Found new name for object %d at _newNames[%d]", obj, i); return getResourceAddress(rtObjectName, i); } } objptr = getOBCDFromObject(obj); if (objptr == NULL) return NULL; if (_features & GF_SMALL_HEADER) { byte offset = 0; if (_version <= 2) offset = *(objptr + 14); else if (_features & GF_OLD_BUNDLE) offset = *(objptr + 16); else offset = *(objptr + 18); return (objptr + offset); } return findResourceData(MKID('OBNA'), objptr); } void ScummEngine::setObjectName(int obj) { int i; if (obj < _numActors) error("Can't set actor %d name with new-name-of", obj); for (i = 0; i < _numNewNames; i++) { if (_newNames[i] == obj) { nukeResource(rtObjectName, i); _newNames[i] = 0; break; } } for (i = 0; i < _numNewNames; i++) { if (_newNames[i] == 0) { loadPtrToResource(rtObjectName, i, NULL); _newNames[i] = obj; runInventoryScript(0); return; } } error("New name of %d overflows name table (max = %d)", obj, _numNewNames); } uint32 ScummEngine::getOBCDOffs(int object) const { int i; if (_objectOwnerTable[object] != OF_OWNER_ROOM) return 0; for (i = (_numLocalObjects-1); i > 0; i--) { if (_objs[i].obj_nr == object) { if (_objs[i].fl_object_index != 0) return 8; return _objs[i].OBCDoffset; } } return 0; } byte *ScummEngine::getOBCDFromObject(int obj) { int i; byte *ptr; if (_objectOwnerTable[obj] != OF_OWNER_ROOM) { for (i = 0; i < _numInventory; i++) { if (_inventory[i] == obj) return getResourceAddress(rtInventory, i); } } else { for (i = (_numLocalObjects-1); i > 0; --i) { if (_objs[i].obj_nr == obj) { if (_objs[i].fl_object_index) { assert(_objs[i].OBCDoffset == 8); ptr = getResourceAddress(rtFlObject, _objs[i].fl_object_index); } else if (_version == 8) ptr = getResourceAddress(rtRoomScripts, _roomResource); else ptr = getResourceAddress(rtRoom, _roomResource); assert(ptr); return ptr + _objs[i].OBCDoffset; } } } return 0; } const byte *ScummEngine::getOBIMFromObject(const ObjectData &od) { const byte *ptr; if (od.fl_object_index) { ptr = getResourceAddress(rtFlObject, od.fl_object_index); ptr = findResource(MKID('OBIM'), ptr); } else { ptr = getResourceAddress(rtRoom, _roomResource); if (ptr) ptr += od.OBIMoffset; } return ptr; } const byte *ScummEngine::getObjectImage(const byte *ptr, int state) { assert(ptr); if (_features & GF_OLD_BUNDLE) ptr += 0; else if (_features & GF_SMALL_HEADER) { ptr += 8; } else if (_version == 8) { // The OBIM contains an IMAG, which in turn contains a WRAP, which contains // an OFFS chunk and multiple BOMP/SMAP chunks. To find the right BOMP/SMAP, // we use the offsets in the OFFS chunk, ptr = findResource(MKID('IMAG'), ptr); if (!ptr) return 0; ptr = findResource(MKID('WRAP'), ptr); if (!ptr) return 0; ptr = findResource(MKID('OFFS'), ptr); if (!ptr) return 0; // Get the address of the specified SMAP (corresponding to IMxx) ptr += READ_LE_UINT32(ptr + 4 + 4*state); } else { ptr = findResource(IMxx_tags[state], ptr); } return ptr; } void ScummEngine::addObjectToInventory(uint obj, uint room) { int idx, slot; uint32 size; const byte *ptr; byte *dst; FindObjectInRoom foir; debug(1, "Adding object %d from room %d into inventory", obj, room); CHECK_HEAP if (whereIsObject(obj) == WIO_FLOBJECT) { idx = getObjectIndex(obj); assert(idx >= 0); ptr = getResourceAddress(rtFlObject, _objs[idx].fl_object_index) + 8; size = READ_BE_UINT32(ptr + 4); } else { findObjectInRoom(&foir, foCodeHeader, obj, room); if (_features & GF_OLD_BUNDLE) size = READ_LE_UINT16(foir.obcd); else if (_features & GF_SMALL_HEADER) size = READ_LE_UINT32(foir.obcd); else size = READ_BE_UINT32(foir.obcd + 4); ptr = foir.obcd; } slot = getInventorySlot(); _inventory[slot] = obj; dst = createResource(rtInventory, slot, size); assert(dst); memcpy(dst, ptr, size); CHECK_HEAP } void ScummEngine::findObjectInRoom(FindObjectInRoom *fo, byte findWhat, uint id, uint room) { const CodeHeader *cdhd; int i, numobj; const byte *roomptr, *obcdptr, *obimptr, *searchptr; const ImageHeader *imhd; int id2; int id3; if (findWhat & foCheckAlreadyLoaded && getObjectIndex(id) != -1) { if (_features & GF_OLD_BUNDLE) { // I am not sure if this is even needed for old games... // but using RES_SIZE definitely won't work with OLD_BUNDLE, since it // assumes the size is 32 bit but in old games it's 16 bit error("findObjectInRoom foCheckAlreadyLoaded NYI for GF_OLD_BUNDLE (id = %d, room = %d)", id, room); } fo->obcd = obcdptr = getOBCDFromObject(id); assert(obcdptr); fo->obim = obimptr = obcdptr + RES_SIZE(obcdptr); fo->cdhd = (const CodeHeader *)findResourceData(MKID('CDHD'), obcdptr); fo->imhd = (const ImageHeader *)findResourceData(MKID('IMHD'), obimptr); return; } fo->roomptr = roomptr = getResourceAddress(rtRoom, room); if (!roomptr) error("findObjectInRoom: failed getting roomptr to %d", room); if (_features & GF_OLD_BUNDLE) { numobj = roomptr[20]; } else { const RoomHeader *roomhdr = (const RoomHeader *)findResourceData(MKID('RMHD'), roomptr); if (_version == 8) numobj = READ_LE_UINT32(&(roomhdr->v8.numObjects)); else if (_version == 7) numobj = READ_LE_UINT16(&(roomhdr->v7.numObjects)); else numobj = READ_LE_UINT16(&(roomhdr->old.numObjects)); } if (numobj == 0) error("findObjectInRoom: No object found in room %d", room); if (numobj > _numLocalObjects) error("findObjectInRoom: More (%d) than %d objects in room %d", numobj, _numLocalObjects, room); if (_features & GF_OLD_BUNDLE) { if (_version <= 2) searchptr = roomptr + 28; else searchptr = roomptr + 29; for (i = 0; i < numobj; i++) { obimptr = roomptr + READ_LE_UINT16(searchptr); obcdptr = roomptr + READ_LE_UINT16(searchptr + 2 * _numObjectsInRoom); id2 = READ_LE_UINT16(obcdptr + 4); if (id2 == (uint16)id) { if (findWhat & foCodeHeader) { fo->obcd = obcdptr; fo->cdhd = (const CodeHeader *)(obcdptr + 10); // TODO - FIXME } if (findWhat & foImageHeader) { fo->obim = obimptr; fo->imhd = NULL; } break; } searchptr += 2; } return; } if (findWhat & foCodeHeader) { if (_version == 8) searchptr = getResourceAddress(rtRoomScripts, room); else searchptr = roomptr; assert(searchptr); ResourceIterator obcds(searchptr, (_features & GF_SMALL_HEADER) != 0); for (i = 0;;) { obcdptr = obcds.findNext(MKID('OBCD')); if (obcdptr == NULL) error("findObjectInRoom: Not enough code blocks in room %d", room); cdhd = (const CodeHeader *)findResourceData(MKID('CDHD'), obcdptr); if (_features & GF_SMALL_HEADER) id2 = READ_LE_UINT16(obcdptr + 6); else if (_version >= 7) id2 = READ_LE_UINT16(&(cdhd->v7.obj_id)); else if (_version == 6) id2 = READ_LE_UINT16(&(cdhd->v6.obj_id)); else id2 = READ_LE_UINT16(&(cdhd->v5.obj_id)); if (id2 == (uint16)id) { fo->obcd = obcdptr; fo->cdhd = cdhd; break; } if (++i == numobj) error("findObjectInRoom: Object %d not found in room %d", id, room); } } roomptr = fo->roomptr; if (findWhat & foImageHeader) { ResourceIterator obims(roomptr, (_features & GF_SMALL_HEADER) != 0); for (i = 0;;) { obimptr = obims.findNext(MKID('OBIM')); if (obimptr == NULL) error("findObjectInRoom: Not enough image blocks in room %d", room); imhd = (const ImageHeader *)findResourceData(MKID('IMHD'), obimptr); if (_features & GF_SMALL_HEADER) id3 = READ_LE_UINT16(obimptr + 6); else if (_version == 8) // In V8, IMHD has no obj_id, but rather a name string. We map the name // back to an object id using a table derived from the DOBJ resource. id3 = _objectIDMap[imhd->v8.name]; else if (_version == 7) id3 = READ_LE_UINT16(&imhd->v7.obj_id); else id3 = READ_LE_UINT16(&imhd->old.obj_id); if (id3 == (uint16)id) { fo->obim = obimptr; fo->imhd = imhd; break; } if (++i == numobj) error("findObjectInRoom: Object %d image not found in room %d", id, room); } } } int ScummEngine::getInventorySlot() { int i; for (i = 0; i < _numInventory; i++) { if (_inventory[i] == 0) return i; } error("Inventory full, %d max items", _numInventory); return -1; } void ScummEngine::setOwnerOf(int obj, int owner) { ScriptSlot *ss; // In Sam & Max this is necessary, or you won't get your stuff back // from the Lost and Found tent after riding the Cone of Tragedy. But // it probably applies to all V6+ games. See bugs #493153 and #907113. // FT disassembly is checked, behaviour is correct. [sev] int arg = (_version >= 6) ? obj : 0; if (owner == 0) { clearOwnerOf(obj); ss = &vm.slot[_currentScript]; if (ss->where == WIO_INVENTORY && _inventory[ss->number] == obj) { putOwner(obj, 0); runInventoryScript(arg); stopObjectCode(); return; } } putOwner(obj, owner); runInventoryScript(arg); } int ScummEngine::getObjX(int obj) { if (obj < _numActors) { if (obj < 1) return 0; /* fix for indy4's map */ return derefActor(obj, "getObjX")->_pos.x; } else { if (whereIsObject(obj) == WIO_NOT_FOUND) return -1; int x, y; getObjectOrActorXY(obj, x, y); return x; } } int ScummEngine::getObjY(int obj) { if (obj < _numActors) { if (obj < 1) return 0; /* fix for indy4's map */ return derefActor(obj, "getObjY")->_pos.y; } else { if (whereIsObject(obj) == WIO_NOT_FOUND) return -1; int x, y; getObjectOrActorXY(obj, x, y); return y; } } int ScummEngine::getObjOldDir(int obj) { return newDirToOldDir(getObjNewDir(obj)); } int ScummEngine::getObjNewDir(int obj) { int dir; if (obj < _numActors) { dir = derefActor(obj, "getObjNewDir")->getFacing(); } else { int x, y; getObjectXYPos(obj, x, y, dir); } return dir; } int ScummEngine::findInventory(int owner, int idx) { int count = 1, i, obj; for (i = 0; i < _numInventory; i++) { obj = _inventory[i]; if (obj && getOwner(obj) == owner && count++ == idx) return obj; } return 0; } int ScummEngine::getInventoryCount(int owner) { int i, obj; int count = 0; for (i = 0; i < _numInventory; i++) { obj = _inventory[i]; if (obj && getOwner(obj) == owner) count++; } return count; } void ScummEngine::setObjectState(int obj, int state, int x, int y) { int i; i = getObjectIndex(obj); if (i == -1) { warning("setObjectState: no such object %d", obj); return; } if (x != -1) { _objs[i].x_pos = x * 8; _objs[i].y_pos = y * 8; } addObjectToDrawQue(i); putState(obj, state); } int ScummEngine::getDistanceBetween(bool is_obj_1, int b, int c, bool is_obj_2, int e, int f) { int i, j; int x, y; int x2, y2; j = i = 0xFF; if (is_obj_1) { if (getObjectOrActorXY(b, x, y) == -1) return -1; if (b < _numActors) i = derefActor(b, "unkObjProc1")->scalex; } else { x = b; y = c; } if (is_obj_2) { if (getObjectOrActorXY(e, x2, y2) == -1) return -1; if (e < _numActors) j = derefActor(e, "unkObjProc1(2)")->scalex; } else { x2 = e; y2 = f; } return getDist(x, y, x2, y2) * 0xFF / ((i + j) / 2); } void ScummEngine::setCursorImg(uint img, uint room, uint imgindex) { int w, h; const byte *dataptr, *bomp; uint32 size; FindObjectInRoom foir; if (room == (uint) - 1) room = getObjectRoom(img); findObjectInRoom(&foir, foCodeHeader | foImageHeader | foCheckAlreadyLoaded, img, room); if (_version == 8) { setCursorHotspot(READ_LE_UINT32(&foir.imhd->v8.hotspot[0].x), READ_LE_UINT32(&foir.imhd->v8.hotspot[0].y)); w = READ_LE_UINT32(&foir.imhd->v8.width) / 8; h = READ_LE_UINT32(&foir.imhd->v8.height) / 8; } else if (_version == 7) { setCursorHotspot(READ_LE_UINT16(&foir.imhd->v7.hotspot[0].x), READ_LE_UINT16(&foir.imhd->v7.hotspot[0].y)); w = READ_LE_UINT16(&foir.imhd->v7.width) / 8; h = READ_LE_UINT16(&foir.imhd->v7.height) / 8; } else { if (!(_features & GF_HUMONGOUS)) setCursorHotspot(READ_LE_UINT16(&foir.imhd->old.hotspot[0].x), READ_LE_UINT16(&foir.imhd->old.hotspot[0].y)); w = READ_LE_UINT16(&foir.cdhd->v6.w) / 8; h = READ_LE_UINT16(&foir.cdhd->v6.h) / 8; } dataptr = getObjectImage(foir.obim, imgindex); assert(dataptr); if (_version == 8) { bomp = dataptr; } else { size = READ_BE_UINT32(dataptr + 4); if (size > sizeof(_grabbedCursor)) error("setCursorImg: Cursor image too large"); bomp = findResource(MKID('BOMP'), dataptr); } if (bomp != NULL) useBompCursor(bomp, w, h); else useIm01Cursor(dataptr, w, h); } void ScummEngine::nukeFlObjects(int min, int max) { ObjectData *od; int i; warning("nukeFlObjects(%d,%d)", min, max); for (i = (_numLocalObjects-1), od = _objs; --i >= 0; od++) if (od->fl_object_index && od->obj_nr >= min && od->obj_nr <= max) { nukeResource(rtFlObject, od->fl_object_index); od->obj_nr = 0; od->fl_object_index = 0; } } void ScummEngine::enqueueObject(int objectNumber, int objectX, int objectY, int objectWidth, int objectHeight, int scaleX, int scaleY, int image, int mode) { BlastObject *eo; ObjectData *od; if (_blastObjectQueuePos >= (int)ARRAYSIZE(_blastObjectQueue)) { warning("enqueueObject: overflow"); return; } int idx = getObjectIndex(objectNumber); assert(idx >= 0); eo = &_blastObjectQueue[_blastObjectQueuePos++]; eo->number = objectNumber; eo->rect.left = objectX + (camera._cur.x & 7); eo->rect.top = objectY + _screenTop; if (objectWidth == 0) { od = &_objs[idx]; eo->rect.right = eo->rect.left + od->width; } else { eo->rect.right = eo->rect.left + objectWidth; } if (objectHeight == 0) { od = &_objs[idx]; eo->rect.bottom = eo->rect.top + od->height; } else { eo->rect.bottom = eo->rect.top + objectHeight; } eo->scaleX = scaleX; eo->scaleY = scaleY; eo->image = image; eo->mode = mode; } void ScummEngine::drawBlastObjects() { BlastObject *eo; int i; eo = _blastObjectQueue; for (i = 0; i < _blastObjectQueuePos; i++, eo++) { drawBlastObject(eo); } } void ScummEngine::drawBlastObject(BlastObject *eo) { VirtScreen *vs; const byte *bomp, *ptr; int objnum; BompDrawData bdd; vs = &virtscr[0]; checkRange(_numGlobalObjects - 1, 30, eo->number, "Illegal Blast object %d"); objnum = getObjectIndex(eo->number); if (objnum == -1) error("drawBlastObject: getObjectIndex on BlastObject %d failed", eo->number); ptr = getOBIMFromObject(_objs[objnum]); if (!ptr) error("BlastObject object %d image not found", eo->number); const byte *img = getObjectImage(ptr, eo->image); if (_version == 8) { assert(img); bomp = img + 8; } else { if (!img) img = getObjectImage(ptr, 1); // Backward compatibility with samnmax blast objects assert(img); bomp = findResourceData(MKID('BOMP'), img); } if (!bomp) error("object %d is not a blast object", eo->number); if (_version == 8) { bdd.srcwidth = READ_LE_UINT32(&((const BompHeader *)bomp)->v8.width); bdd.srcheight = READ_LE_UINT32(&((const BompHeader *)bomp)->v8.height); } else { bdd.srcwidth = READ_LE_UINT16(&((const BompHeader *)bomp)->old.width); bdd.srcheight = READ_LE_UINT16(&((const BompHeader *)bomp)->old.height); } bdd.out = vs->getPixels(0, 0); bdd.outwidth = vs->w; bdd.outheight = vs->h; if (_version == 8) { bdd.dataptr = bomp + 8; // Why this? See also useBompCursor } else { bdd.dataptr = bomp + 10; // Why this? See also useBompCursor } bdd.x = eo->rect.left; bdd.y = eo->rect.top; bdd.scale_x = (byte)eo->scaleX; bdd.scale_y = (byte)eo->scaleY; if ((bdd.scale_x != 255) || (bdd.scale_y != 255)) { byte bomp_scaling_x[64], bomp_scaling_y[64]; bdd.scalingXPtr = bomp_scaling_x; bdd.scalingYPtr = bomp_scaling_y; bdd.scaleRight = setupBompScale(bomp_scaling_x, bdd.srcwidth, bdd.scale_x); bdd.scaleBottom = setupBompScale(bomp_scaling_y, bdd.srcheight, bdd.scale_y); bdd.shadowMode = 0; drawBomp(bdd, false); } else { bdd.scalingXPtr = NULL; bdd.scalingYPtr = NULL; bdd.scaleRight = 0; bdd.scaleBottom = 0; bdd.shadowMode = eo->mode; drawBomp(bdd, false); } markRectAsDirty(vs->number, bdd.x, bdd.x + bdd.srcwidth, bdd.y, bdd.y + bdd.srcheight); } void ScummEngine::removeBlastObjects() { BlastObject *eo; int i; eo = _blastObjectQueue; for (i = 0; i < _blastObjectQueuePos; i++, eo++) { removeBlastObject(eo); } clearEnqueue(); } void ScummEngine::removeBlastObject(BlastObject *eo) { VirtScreen *vs = &virtscr[0]; Common::Rect r; int left_strip, right_strip; int i; r = eo->rect; if (r.bottom < 0 || r.right < 0 || r.top > vs->h || r.left > vs->w) return; if (r.top < 0) r.top = 0; if (r.bottom > vs->h) r.bottom = vs->h; if (r.left < 0) r.left = 0; if (r.right > vs->w) r.right = vs->w; left_strip = r.left / 8; right_strip = (r.right - 1) / 8; if (left_strip < 0) left_strip = 0; if (_version >= 7) { if (right_strip > 409) right_strip = 409; } else { if (right_strip >= 200) right_strip = 200; } for (i = left_strip; i <= right_strip; i++) gdi.resetBackground(r.top, r.bottom, i); markRectAsDirty(kMainVirtScreen, r, USAGE_BIT_RESTORED); } int ScummEngine::findLocalObjectSlot() { int i; for (i = 1; i < _numLocalObjects; i++) { if (!_objs[i].obj_nr) { memset(&_objs[i], 0, sizeof(_objs[i])); return i; } } return -1; } int ScummEngine::findFlObjectSlot() { int i; for (i = 1; i < _numFlObject; i++) { if (_baseFLObject[i] == NULL) return i; } error("findFlObjectSlot: Out of FLObject slots"); return -1; } void ScummEngine::loadFlObject(uint object, uint room) { FindObjectInRoom foir; int slot, objslot; ObjectData *od; byte *flob; uint32 obcd_size, obim_size, flob_size; bool isRoomLocked, isRoomScriptsLocked; // Don't load an already loaded object if (whereIsObject(object) != WIO_NOT_FOUND) return; // Locate the object in the room resource findObjectInRoom(&foir, foImageHeader | foCodeHeader, object, room); // Add an entry for the new floating object in the local object table if (!(objslot = findLocalObjectSlot())) error("loadFlObject: Local Object Table overflow"); od = &_objs[objslot]; // Dump object script if (_dumpScripts) { char buf[32]; const byte *ptr = foir.obcd; sprintf(buf, "roomobj-%d-", room); ptr = findResource(MKID('VERB'), ptr); dumpResource(buf, object, ptr); } // Setup sizes obcd_size = READ_BE_UINT32(foir.obcd + 4); od->OBCDoffset = 8; od->OBIMoffset = obcd_size + 8; obim_size = READ_BE_UINT32(foir.obim + 4); flob_size = obcd_size + obim_size + 8; // Lock room/roomScripts for the given room. They contains the OBCD/OBIM // data, and a call to createResource might expire them, hence we lock them. isRoomLocked = ((res.flags[rtRoom][room] & RF_LOCK) != 0); isRoomScriptsLocked = ((res.flags[rtRoomScripts][room] & RF_LOCK) != 0); if (!isRoomLocked) lock(rtRoom, room); if (_version == 8 && !isRoomScriptsLocked) lock(rtRoomScripts, room); // Allocate slot & memory for floating object slot = findFlObjectSlot(); flob = createResource(rtFlObject, slot, flob_size); assert(flob); // Copy object code + object image to floating object ((uint32 *)flob)[0] = MKID('FLOB'); ((uint32 *)flob)[1] = TO_BE_32(flob_size); memcpy(flob + 8, foir.obcd, obcd_size); memcpy(flob + 8 + obcd_size, foir.obim, obim_size); // Unlock room/roomScripts if (!isRoomLocked) unlock(rtRoom, room); if (_version == 8 && !isRoomScriptsLocked) unlock(rtRoomScripts, room); // Setup local object flags setupRoomObject(od, flob, flob); od->fl_object_index = slot; } } // End of namespace Scumm