/* ScummVM - Scumm Interpreter * Copyright (C) 2001 Ludvig Strigeus * Copyright (C) 2001/2002 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.h" #include "actor.h" #include "akos.h" #include "costume.h" #include "resource.h" #include void Actor::initActor(int mode) { if (mode == 1) { costume = 0; room = 0; x = 0; y = 0; facing = 180; newDirection = 180; } else if (mode == 2) { facing = 180; newDirection = 180; } elevation = 0; width = 24; talkColor = 15; new_2 = 0; new_1 = -80; scaley = scalex = 0xFF; charset = 0; sound[0] = 0; sound[1] = 0; sound[2] = 0; sound[3] = 0; sound[4] = 0; sound[5] = 0; sound[6] = 0; sound[7] = 0; newDirection = 0; stopActorMoving(); shadow_mode = 0; layer = 0; setActorWalkSpeed(8, 2); ignoreBoxes = 0; forceClip = 0; new_3 = 0; initFrame = 1; walkFrame = 2; standFrame = 3; talkFrame1 = 4; talkFrame2 = 5; walk_script = 0; talk_script = 0; if (_vm->_features & GF_AFTER_V7) { _vm->_classData[number] = _vm->_classData[0]; } else { _vm->_classData[number] = 0; } } void Actor::stopActorMoving() { _vm->stopScriptNr(walk_script); moving = 0; } void Actor::setActorWalkSpeed(uint newSpeedX, uint newSpeedY) { if (newSpeedX == speedx && newSpeedY == speedy) return; speedx = newSpeedX; speedy = newSpeedY; if (moving) { calcMovementFactor(walkdata.newx, walkdata.newy); } } int Scumm::getAngleFromPos(int x, int y) { if (_gameId == GID_DIG) { double temp = atan2((double)x, (double)-y); return normalizeAngle((int)(temp * 180 / 3.1415926535)); } else { if (abs(y) * 2 < abs(x)) { if (x > 0) return 90; return 270; } else { if (y > 0) return 180; return 0; } } } int Actor::calcMovementFactor(int newX, int newY) { int actorX, actorY; int diffX, diffY; int32 XYFactor, YXFactor; actorX = x; actorY = y; if (actorX == newX && actorY == newY) return 0; diffX = newX - actorX; diffY = newY - actorY; YXFactor = speedy << 16; if (diffY < 0) YXFactor = -YXFactor; XYFactor = YXFactor * diffX; if (diffY != 0) { XYFactor /= diffY; } else { YXFactor = 0; } if ((uint) abs((int)(XYFactor >> 16)) > speedx) { XYFactor = speedx << 16; if (diffX < 0) XYFactor = -XYFactor; YXFactor = XYFactor * diffY; if (diffX != 0) { YXFactor /= diffX; } else { XYFactor = 0; } } walkdata.x = actorX; walkdata.y = actorY; walkdata.newx = newX; walkdata.newy = newY; walkdata.XYFactor = XYFactor; walkdata.YXFactor = YXFactor; walkdata.xfrac = 0; walkdata.yfrac = 0; newDirection = _vm->getAngleFromPos(XYFactor, YXFactor); return actorWalkStep(); } int Actor::remapDirection(int dir) { int specdir; byte flags; bool flipX; bool flipY; if (!ignoreBoxes) { specdir = _vm->_extraBoxFlags[walkbox]; if (specdir) { if (specdir & 0x8000) { dir = specdir & 0x3FFF; } else { error("remapDirection: special dir not implemented"); } } flags = _vm->getBoxFlags(walkbox); flipX = (walkdata.XYFactor > 0); flipY = (walkdata.YXFactor > 0); // Check for X-Flip if ((flags & 0x08) || isInClass(0x1E)) { // 0x1E = 30 dir = 360 - dir; flipX = !flipX; } // Check for Y-Flip if ((flags & 0x10) || isInClass(0x1D)) { // 0x1E = 29 dir = 180 - dir; flipY = !flipY; } switch (flags & 7) { case 1: if (moving & ~MF_TURN) // Actor is walking return flipX ? 90 : 270; else // Actor is standing/turning return (dir == 90) ? 90 : 270; case 2: if (moving & ~MF_TURN) // Actor is walking return flipY ? 180 : 0; else // Actor is standing/turning return (dir == 0) ? 0 : 180; case 3: return 270; case 4: return 90; case 5: return 0; case 6: return 180; } } /* Or 1024 in to signal direction interpolation should be done */ return normalizeAngle(dir) | 1024; } int Actor::updateActorDirection() { int from, to; int diff; int dirType; int dir; int num; bool shouldInterpolate; dirType = _vm->akos_hasManyDirections(this); from = toSimpleDir(dirType, facing); dir = remapDirection(newDirection); shouldInterpolate = (dir & 1024); to = toSimpleDir(dirType, dir & 1023); diff = to - from; num = numSimpleDirDirections(dirType); if (shouldInterpolate) { // Turn left or right, depending on which is shorter. if (abs(diff) > (num >> 1)) diff = -diff; if (diff == 0) { } else if (diff > 0) { from++; } else { from--; } } else from = to; dir = fromSimpleDir(dirType, from % num); return dir; } void Actor::setBox(int box) { walkbox = box; mask = _vm->getMaskFromBox(box); setupActorScale(); } int Actor::actorWalkStep() { int tmpX, tmpY; int actorX, actorY; int distX, distY; int direction; needRedraw = true; needBgReset = true; direction = updateActorDirection(); if (!(moving & MF_IN_LEG) || facing != direction) { if (walkFrame != frame || facing != direction) { startWalkAnim(walkFrame == frame ? 2 : 1, direction); } moving |= MF_IN_LEG; } actorX = x; actorY = y; if (walkbox != walkdata.curbox && _vm->checkXYInBoxBounds(walkdata.curbox, actorX, actorY)) { setBox(walkdata.curbox); } distX = abs(walkdata.newx - walkdata.x); distY = abs(walkdata.newy - walkdata.y); if (abs(actorX - walkdata.x) >= distX && abs(actorY - walkdata.y) >= distY) { moving &= ~MF_IN_LEG; return 0; } tmpX = ((actorX + 8000) << 16) + walkdata.xfrac + (walkdata.XYFactor >> 8) * scalex; walkdata.xfrac = (uint16)tmpX; actorX = (tmpX >> 16) - 8000; tmpY = (actorY << 16) + walkdata.yfrac + (walkdata.YXFactor >> 8) * scalex; walkdata.yfrac = (uint16)tmpY; actorY = (tmpY >> 16); if (abs(actorX - walkdata.x) > distX) { actorX = walkdata.newx; } if (abs(actorY - walkdata.y) > distY) { actorY = walkdata.newy; } x = actorX; y = actorY; return 1; } void Actor::setupActorScale() { uint16 scale; byte *resptr; // FIXME: Special 'no scaling' class for MI1 VGA Floppy // Not totally sure if this is correct. if (_vm->_gameId == GID_MONKEY_VGA && isInClass(22)) return; if (_vm->_features & GF_NO_SCALLING) { scalex = 0xFF; scaley = 0xFF; return; } if (ignoreBoxes != 0) return; if (_vm->getBoxFlags(walkbox) & 0x20) return; scale = _vm->getBoxScale(walkbox); if (scale & 0x8000) { scale = (scale & 0x7FFF) + 1; resptr = _vm->getResourceAddress(rtScaleTable, scale); if (resptr == NULL) error("Scale table %d not defined", scale); int theY = y; if (theY >= 200) theY = 199; else if (theY < 0) theY = 0; scale = resptr[theY]; } if (scale > 255) warning("Actor %d at %d, scale %d out of range", number, y, scale); // FIXME - Quick fix to ft's fuel tower bug (by yazoo) if (scale == 1 && _vm->_currentRoom == 76) scale = 0xFF; scalex = (byte)scale; scaley = (byte)scale; } void Actor::startAnimActor(int frame) { if (_vm->_features & GF_NEW_COSTUMES) { switch (frame) { case 1001: frame = initFrame; break; case 1002: frame = walkFrame; break; case 1003: frame = standFrame; break; case 1004: frame = talkFrame1; break; case 1005: frame = talkFrame2; break; } if (costume != 0) { animProgress = 0; needRedraw = true; needBgReset = true; if (frame == initFrame) cost.reset(); _vm->akos_decodeData(this, frame, (uint) - 1); } } else { switch (frame) { case 0x38: frame = initFrame; break; case 0x39: frame = walkFrame; break; case 0x3A: frame = standFrame; break; case 0x3B: frame = talkFrame1; break; case 0x3C: frame = talkFrame2; break; } if (isInCurrentRoom() && costume) { animProgress = 0; cost.animCounter1 = 0; needRedraw = true; if (initFrame == frame) cost.reset(); if (frame != 0x3E) { _vm->cost_decodeData(this, frame, (uint) - 1); } } needBgReset = true; } } void Actor::animateActor(int anim) { int cmd, dir; if (_vm->_features & GF_AFTER_V7) { if (anim == 0xFF) anim = 2000; cmd = anim / 1000; dir = anim % 1000; } else { cmd = anim >> 2; dir = oldDirToNewDir(anim & 3); // Convert into old cmd code cmd = 0x3F - cmd + 2; } switch (cmd) { case 2: stopActorMoving(); startAnimActor(standFrame); break; case 3: moving &= ~MF_TURN; setDirection(dir); break; case 4: turnToDirection(dir); break; default: startAnimActor(anim); } } void Actor::setDirection(int direction) { uint aMask; int i; uint16 vald; if (facing == direction) return; facing = normalizeAngle(direction); if (costume == 0) return; aMask = 0x8000; for (i = 0; i < 16; i++, aMask >>= 1) { vald = cost.frame[i]; if (vald == 0xFFFF) continue; if (_vm->_features & GF_AFTER_V7) _vm->akos_decodeData(this, vald, aMask); else _vm->cost_decodeData(this, vald, aMask); } needRedraw = true; needBgReset = true; } void Actor::putActor(int dstX, int dstY, byte newRoom) { if (visible && _vm->_currentRoom != newRoom && _vm->_vars[_vm->VAR_TALK_ACTOR] == number) { _vm->clearMsgQueue(); } x = dstX; y = dstY; room = newRoom; needRedraw = true; needBgReset = true; if (_vm->_vars[_vm->VAR_EGO] == number) { _vm->_egoPositioned = true; } if (visible) { if (isInCurrentRoom()) { if (moving) { startAnimActor(standFrame); moving = 0; } adjustActorPos(); } else { hideActor(); } } else { if (isInCurrentRoom()) showActor(); } } int Actor::getActorXYPos(int &xPos, int &yPos) { if (!isInCurrentRoom()) return -1; xPos = x; yPos = y; return 0; } AdjustBoxResult Actor::adjustXYToBeInBox(int dstX, int dstY, int pathfrom) { AdjustBoxResult abr, tmp; uint threshold; uint best; int box, iterations = 0; /* Use iterations for those odd times we get stuck in the loop */ int firstValidBox, j; byte flags, b; if (_vm->_features & GF_SMALL_HEADER) firstValidBox = 0; else firstValidBox = 1; abr.x = dstX; abr.y = dstY; abr.dist = 0; if ((_vm->_features & GF_SMALL_HEADER) && isInClass(22)) return abr; if (ignoreBoxes == 0) { threshold = 30; while (1) { iterations++; if (iterations > 1000) return abr; /* Safety net */ box = _vm->getNumBoxes() - 1; if (box == 0) return abr; best = (uint) 0xFFFF; b = 0; if (((_vm->_features & GF_SMALL_HEADER) && box) || !(_vm->_features & GF_SMALL_HEADER)) for (j = box; j >= firstValidBox; j--) { flags = _vm->getBoxFlags(j); if (flags & 0x80 && (!(flags & 0x20) || isInClass(0x1F))) continue; if (pathfrom >= firstValidBox) { int i = _vm->getPathToDestBox(pathfrom, j); if (i == -1) continue; if (_vm->_features & GF_OLD256) { // FIXME - we check here if the box suggested by getPathToDestBox // is locked or not. This prevents us from walking thru // closed doors in some cases in Zak256. However a better fix // would be to recompute the box matrix whenever flags change. flags = _vm->getBoxFlags(i); if (flags & 0x80 && (!(flags & 0x20) || isInClass(0x1F))) continue; } } if (!_vm->inBoxQuickReject(j, dstX, dstY, threshold)) continue; if (_vm->checkXYInBoxBounds(j, dstX, dstY)) { abr.x = dstX; abr.y = dstY; abr.dist = j; return abr; } tmp = _vm->getClosestPtOnBox(j, dstX, dstY); if (tmp.dist >= best) continue; abr.x = tmp.x; abr.y = tmp.y; if (tmp.dist == 0) { abr.dist = j; return abr; } best = tmp.dist; b = j; } if (threshold == 0 || threshold * threshold >= best) { abr.dist = b; return abr; } threshold = (threshold == 30) ? 80 : 0; } } return abr; } void Actor::adjustActorPos() { AdjustBoxResult abr; byte flags; abr = adjustXYToBeInBox(x, y, -1); x = abr.x; y = abr.y; walkdata.destbox = (byte)abr.dist; setBox(abr.dist); walkdata.destx = -1; moving = 0; cost.animCounter2 = 0; if (_vm->_features & GF_AFTER_V7) { stopActorMoving(); } flags = _vm->getBoxFlags(walkbox); if (flags & 7) { turnToDirection(facing); } } void Actor::turnToDirection(int newdir) { if (newdir == -1) return; moving &= ~MF_TURN; if (newdir != facing) { moving = MF_TURN; newDirection = newdir; } } void Actor::hideActor() { if (!visible) return; if (moving) { startAnimActor(standFrame); moving = 0; } visible = false; cost.animCounter2 = 0; needRedraw = false; needBgReset = true; } void Actor::showActor() { if (_vm->_currentRoom == 0 || visible) return; adjustActorPos(); _vm->ensureResourceLoaded(rtCostume, costume); if (costumeNeedsInit) { startAnimActor(initFrame); costumeNeedsInit = false; } moving = 0; visible = true; needRedraw = true; } void Scumm::showActors() { int i; Actor *a; for (i = 1; i < NUM_ACTORS; i++) { a = derefActor(i); if (a->isInCurrentRoom()) a->showActor(); } } void Scumm::stopTalk() { int act; stopTalkSound(); _haveMsg = 0; _talkDelay = 0; act = _vars[VAR_TALK_ACTOR]; if (act && act < 0x80) { Actor *a = derefActorSafe(act, "stopTalk"); if (a->isInCurrentRoom() && _useTalkAnims) { a->startAnimActor(a->talkFrame2); _useTalkAnims = false; } _vars[VAR_TALK_ACTOR] = 0xFF; } _keepText = false; restoreCharsetBg(); } void Scumm::clearMsgQueue() { _messagePtr = (byte *)" "; stopTalk(); } void Scumm::walkActors() { int i; Actor *a; for (i = 1; i < NUM_ACTORS; i++) { a = derefActor(i); if (a->isInCurrentRoom()) if (_features & GF_OLD256) a->walkActorOld(); else a->walkActor(); } } /* Used in Scumm v5 only. Play sounds associated with actors */ void Scumm::playActorSounds() { int i; Actor *a; for (i = 1; i < NUM_ACTORS; i++) { a = derefActor(i); if (a->cost.animCounter2 && a->isInCurrentRoom() && a->sound) { _currentScript = 0xFF; addSoundToQueue(a->sound[0]); for (i = 1; i < NUM_ACTORS; i++) { a = derefActor(i); a->cost.animCounter2 = 0; } return; } } } #define DRAW_ORDER(x) ((x)->y - ((x)->layer << 11)) void Scumm::processActors() { int i; Actor *actors[MAX_ACTORS], *a, **ac, **ac2, *tmp, **end; int numactors = 0; // Make a list of all actors in this room for (i = 1; i < NUM_ACTORS; i++) { a = derefActor(i); if (a->isInCurrentRoom()) actors[numactors++] = a; } if (!numactors) return; end = actors + numactors; // Sort actors by position before we draw them (to ensure that actors in // front are drawn after those "behind" them). for (ac = end - 1; ac >= actors; --ac) { for (ac2 = actors; ac2 != ac; ++ac2) { if (DRAW_ORDER(*ac2) > DRAW_ORDER(*(ac2 + 1))) { tmp = *(ac2 + 1); *(ac2 + 1) = *ac2; *ac2 = tmp; } } } // Finally draw the now sorted actors for (ac = actors; ac != end; ++ac) { a = *ac; if (a->costume) { CHECK_HEAP getMaskFromBox(a->walkbox); a->drawActorCostume(); CHECK_HEAP a->actorAnimate(); } } } void Actor::drawActorCostume() { if (!needRedraw) return; // FIXME: ugly fix for samnmax inventory if (_vm->_gameId == GID_SAMNMAX && _vm->getState(995)) return; needRedraw = false; setupActorScale(); if (!(_vm->_features & GF_AFTER_V7)) { CostumeRenderer cr(_vm); if (isInClass(20)) mask = 0; else if (isInClass(21)) forceClip = 1; cr._actorX = x - _vm->virtscr->xstart; cr._actorY = y - elevation; cr._scaleX = scalex; cr._scaleY = scaley; cr._outheight = _vm->virtscr->height; cr._zbuf = mask; if (cr._zbuf > _vm->gdi._numZBuffer) cr._zbuf = (byte)_vm->gdi._numZBuffer; if (forceClip) cr._zbuf = forceClip; cr._shadow_table = _vm->_shadowPalette; cr.setCostume(costume); cr.setPalette(palette); cr.setFacing(facing); top = 0xFF; bottom = 0; /* if the actor is partially hidden, redraw it next frame */ if (cr.drawCostume(this) & 1) { needBgReset = true; needRedraw = true; } } else { AkosRenderer ar(_vm); ar.x = x - _vm->virtscr->xstart; ar.y = y - elevation; ar.scale_x = scalex; ar.scale_y = scaley; ar.clipping = forceClip; if (ar.clipping == 100) { ar.clipping = mask; if (ar.clipping > (byte)_vm->gdi._numZBuffer) ar.clipping = _vm->gdi._numZBuffer; } ar.charsetmask = _vm->_vars[_vm->VAR_CHARSET_MASK] != 0; ar.outptr = _vm->virtscr->screenPtr + _vm->virtscr->xstart; ar.outwidth = _vm->virtscr->width; ar.outheight = _vm->virtscr->height; ar.shadow_mode = shadow_mode; ar.shadow_table = _vm->_shadowPalette; ar.setCostume(costume); ar.setPalette(palette); ar.setFacing(this); ar.dirty_id = number; ar.cd = &cost; ar.draw_top = top = 0x7fffffff; ar.draw_bottom = bottom = 0; ar.drawCostume(); top = ar.draw_top; bottom = ar.draw_bottom; } } void Actor::actorAnimate() { if (costume == 0) return; animProgress++; if (animProgress >= animSpeed) { animProgress = 0; if (_vm->_features & GF_AFTER_V7) { byte *akos = _vm->getResourceAddress(rtCostume, costume); assert(akos); if (_vm->akos_increaseAnims(akos, this)) { needRedraw = true; needBgReset = true; } } else { LoadedCostume lc(_vm); lc.loadCostume(costume); if (lc.increaseAnims(this)) { needRedraw = true; needBgReset = true; } } } } void Scumm::setActorRedrawFlags() { int i, j; uint32 bits; if (_fullRedraw) { for (j = 0; j < NUM_ACTORS; j++) { Actor *a = derefActor(j); a->needRedraw = true; a->needBgReset = true; } } else { for (i = 0; i < 40; i++) { bits = gfxUsageBits[_screenStartStrip + i]; if (bits & 0x3FFFFFFF) { for (j = 0; j < NUM_ACTORS; j++) { if ((bits & (1 << j)) && bits != (uint32)(1 << j)) { Actor *a = derefActor(j); a->needRedraw = true; a->needBgReset = true; } } } } } } int Scumm::getActorFromPos(int x, int y) { uint32 drawbits; int i; drawbits = gfxUsageBits[x >> 3]; if (!(drawbits & 0x3FFFFFFF)) return 0; for (i = 1; i < NUM_ACTORS; i++) { Actor *a = derefActor(i); if (drawbits & (1 << i) && !getClass(i, 32) && y >= a->top && y <= a->bottom) { return i; } } return 0; } void Scumm::actorTalk() { int oldact; Actor *a; _msgPtrToAdd = charset._buffer; _messagePtr = addMessageToStack(_messagePtr); assert((int)(_msgPtrToAdd - charset._buffer) < (int)(sizeof(charset._buffer))); if (_actorToPrintStrFor == 0xFF) { if (!_keepText) stopTalk(); _vars[VAR_TALK_ACTOR] = 0xFF; oldact = 0; } else { a = derefActorSafe(_actorToPrintStrFor, "actorTalk"); if (!a->isInCurrentRoom() && !(_features & GF_AFTER_V7)) { oldact = 0xFF; } else { if (!_keepText) stopTalk(); _vars[VAR_TALK_ACTOR] = a->number; if (!string[0].no_talk_anim) { a->startAnimActor(a->talkFrame1); _useTalkAnims = true; } oldact = _vars[VAR_TALK_ACTOR]; } } if (oldact >= 0x80) return; if (_vars[VAR_TALK_ACTOR] > 0x7F) { _charsetColor = (byte)string[0].color; } else { a = derefActorSafe(_vars[VAR_TALK_ACTOR], "actorTalk(2)"); _charsetColor = a->talkColor; } charset._bufPos = 0; _talkDelay = 0; _haveMsg = 0xFF; _vars[VAR_HAVE_MSG] = 0xFF; CHARSET_1(); } void Actor::setActorCostume(int c) { int i; costumeNeedsInit = true; if (visible) { hideActor(); cost.reset(); costume = c; showActor(); } else { costume = c; cost.reset(); } for (i = 0; i < 32; i++) palette[i] = 0xFF; } void Actor::startWalkActor(int destX, int destY, int dir) { AdjustBoxResult abr; abr = adjustXYToBeInBox(destX, destY, walkbox); if (!isInCurrentRoom()) { x = abr.x; y = abr.y; if (dir != -1) setDirection(dir); return; } if (ignoreBoxes != 0) { abr.dist = 0; walkbox = 0; } else { if (_vm->checkXYInBoxBounds(walkdata.destbox, abr.x, abr.y)) { abr.dist = walkdata.destbox; } else { abr = adjustXYToBeInBox(abr.x, abr.y, walkbox); } if (moving && walkdata.destdir == dir && walkdata.destx == abr.x && walkdata.desty == abr.y) return; } if (x == abr.x && y == abr.y) { turnToDirection(dir); return; } walkdata.destx = abr.x; walkdata.desty = abr.y; walkdata.destbox = (byte)abr.dist; /* a box */ walkdata.destdir = dir; moving = (moving & MF_IN_LEG) | MF_NEW_LEG; walkdata.point3x = 32000; walkdata.curbox = walkbox; } void Actor::startWalkAnim(int cmd, int angle) { if (angle == -1) angle = facing; /*FIXME: (yazoo): the walk script are buggy in dig causing * troubles while walking. It's disabled until I can * find a proper fix * note: walk scripts aren't required to make the game * work as usual */ /* int16 args[16]; if (walk_script != 0) { args[2] = angle; args[0] = number; args[1] = cmd; _vm->runScript(walk_script, 1, 0, args); } else*/ { switch (cmd) { case 1: /* start walk */ setDirection(angle); startAnimActor(walkFrame); break; case 2: /* change dir only */ setDirection(angle); break; case 3: /* stop walk */ turnToDirection(angle); startAnimActor(standFrame); break; } } } void Actor::walkActor() { int j; if (!moving) return; if (!(moving & MF_NEW_LEG)) { if (moving & MF_IN_LEG && actorWalkStep()) return; if (moving & MF_LAST_LEG) { moving = 0; setBox(walkdata.destbox); startWalkAnim(3, walkdata.destdir); return; } if (moving & MF_TURN) { j = updateActorDirection(); if (facing != j) setDirection(j); else moving = 0; return; } setBox(walkdata.curbox); moving &= MF_IN_LEG; } do { moving &= ~MF_NEW_LEG; if ((!walkbox && (!(_vm->_features & GF_SMALL_HEADER)))) { setBox(walkdata.destbox); walkdata.curbox = walkdata.destbox; break; } if (walkbox == walkdata.destbox) break; j = _vm->getPathToDestBox(walkbox, walkdata.destbox); if (j == -1 || j > 0xF0) { walkdata.destbox = walkbox; moving |= MF_LAST_LEG; return; } walkdata.curbox = j; if (_vm->findPathTowards(this, walkbox, j, walkdata.destbox)) break; if (calcMovementFactor(_vm->_foundPathX, _vm->_foundPathY)) return; setBox(walkdata.curbox); } while (1); moving |= MF_LAST_LEG; calcMovementFactor(walkdata.destx, walkdata.desty); } void Actor::walkActorOld() { ScummPoint gateLoc[5]; // Gate locations int new_dir, next_box; if (!moving) return; if (moving & MF_NEW_LEG) { restart: moving &= ~MF_NEW_LEG; if (walkbox == 0xFF) { walkbox = walkdata.destbox; walkdata.curbox = walkdata.destbox; moving |= MF_LAST_LEG; calcMovementFactor(walkdata.destx, walkdata.desty); return; } if (walkbox == walkdata.destbox) { moving |= MF_LAST_LEG; calcMovementFactor(walkdata.destx, walkdata.desty); return; } next_box = _vm->getPathToDestBox(walkbox, walkdata.destbox); if (next_box == -1) { moving |= MF_LAST_LEG; return; } walkdata.curbox = next_box; _vm->findPathTowardsOld(this, walkbox, next_box, walkdata.destbox, gateLoc); if (gateLoc[2].x == 32000 && gateLoc[3].x == 32000) { moving |= MF_LAST_LEG; calcMovementFactor(walkdata.destx, walkdata.desty); return; } if (gateLoc[2].x != 32000) { if (calcMovementFactor(gateLoc[2].x, gateLoc[2].y)) { walkdata.point3x = gateLoc[3].x; walkdata.point3y = gateLoc[3].y; return; } } if (calcMovementFactor(gateLoc[3].x, gateLoc[3].y)) return; walkbox = walkdata.destbox; mask = _vm->getMaskFromBox(walkbox); goto restart; } if (moving & MF_IN_LEG) { if (actorWalkStep()) return; } if (moving & MF_LAST_LEG) { moving = 0; startWalkAnim(3, walkdata.destdir); return; } if (moving & MF_TURN) { new_dir = updateActorDirection(); if (facing != new_dir) { setDirection(new_dir); return; } moving = 0; return; } if (walkdata.point3x != 32000) { if (calcMovementFactor(walkdata.point3x, walkdata.point3y)) { walkdata.point3x = 32000; return; } walkdata.point3x = 32000; } walkbox = walkdata.curbox; mask = _vm->getMaskFromBox(walkbox); moving &= MF_IN_LEG; moving |= MF_NEW_LEG; goto restart; } byte *Actor::getActorName() { byte *ptr = _vm->getResourceAddress(rtActorName, number); if (ptr == NULL) return (byte *)" "; return ptr; } void Actor::remapActor(int r_fact, int g_fact, int b_fact, int threshold) { byte *akos, *rgbs, *akpl; int akpl_size, i; int r, g, b; byte akpl_color; if (!isInCurrentRoom()) { warning("Remap actor %d not in current room", number); return; } if (costume < 1 || costume >= _vm->_numCostumes - 1) { warning("Remap actor %d invalid costume", number, costume); return; } akos = _vm->getResourceAddress(rtCostume, costume); akpl = findResource(MKID('AKPL'), akos); //get num palette entries akpl_size = RES_SIZE(akpl) - 8; //skip resource header akpl = RES_DATA(akpl); rgbs = findResource(MKID('RGBS'), akos); if (!rgbs) { warning("Can't remap actor %d costume %d doesn't contain an RGB block", number, costume); return; } // skip resource header rgbs = RES_DATA(rgbs); for (i = 0; i < akpl_size; i++) { r = *rgbs++; g = *rgbs++; b = *rgbs++; akpl_color = *akpl++; // allow remap of generic palette entry? if (!shadow_mode || akpl_color >= 16) { if (r_fact != 256) r = (r * r_fact) >> 8; if (g_fact != 256) g = (g * g_fact) >> 8; if (b_fact != 256) b = (b * b_fact) >> 8; palette[i] = _vm->remapPaletteColor(r, g, b, threshold); } } } void Scumm::resetActorBgs() { Actor *a; int i; uint32 onlyActorFlags, bitpos; for (i = 0; i < 40; i++) { onlyActorFlags = (gfxUsageBits[_screenStartStrip + i] &= 0x3FFFFFFF); a = getFirstActor(); bitpos = 1; while (onlyActorFlags) { if (onlyActorFlags & 1 && a->top != 0xFF && a->needBgReset) { gfxUsageBits[_screenStartStrip + i] ^= bitpos; if ((a->bottom - a->top) >= 0) gdi.resetBackground(a->top, a->bottom, i); } bitpos <<= 1; onlyActorFlags >>= 1; a++; } } for (i = 1, a = getFirstActor(); ++a, i < NUM_ACTORS; i++) { a->needBgReset = false; } } bool Actor::isInClass(int cls) { return _vm->getClass(number, cls); }