/* ScummVM - Graphic Adventure Engine * * ScummVM is the legal property of its developers, whose names * are too numerous to list here. Please refer to the COPYRIGHT * file distributed with this source distribution. * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. * */ #include "sherlock/scalpel/scalpel_scene.h" #include "sherlock/scalpel/scalpel_map.h" #include "sherlock/scalpel/scalpel_people.h" #include "sherlock/scalpel/scalpel_user_interface.h" #include "sherlock/scalpel/scalpel.h" #include "sherlock/events.h" #include "sherlock/people.h" #include "sherlock/screen.h" #include "sherlock/sherlock.h" namespace Sherlock { namespace Scalpel { const int FS_TRANS[8] = { STOP_UP, STOP_UPRIGHT, STOP_RIGHT, STOP_DOWNRIGHT, STOP_DOWN, STOP_DOWNLEFT, STOP_LEFT, STOP_UPLEFT }; /*----------------------------------------------------------------*/ bool ScalpelScene::loadScene(const Common::String &filename) { ScalpelMap &map = *(ScalpelMap *)_vm->_map; bool result = Scene::loadScene(filename); if (!_vm->isDemo()) { // Reset the previous map location and position on overhead map map._oldCharPoint = _currentScene; map._overPos.x = (map[_currentScene].x - 6) * FIXED_INT_MULTIPLIER; map._overPos.y = (map[_currentScene].y + 9) * FIXED_INT_MULTIPLIER; } return result; } void ScalpelScene::drawAllShapes() { People &people = *_vm->_people; Screen &screen = *_vm->_screen; // Restrict drawing window screen.setDisplayBounds(Common::Rect(0, 0, SHERLOCK_SCREEN_WIDTH, SHERLOCK_SCENE_HEIGHT)); // Draw all active shapes which are behind the person for (uint idx = 0; idx < _bgShapes.size(); ++idx) { if (_bgShapes[idx]._type == ACTIVE_BG_SHAPE && _bgShapes[idx]._misc == BEHIND) screen._backBuffer->transBlitFrom(*_bgShapes[idx]._imageFrame, _bgShapes[idx]._position, _bgShapes[idx]._flags & OBJ_FLIPPED); } // Draw all canimations which are behind the person for (uint idx = 0; idx < _canimShapes.size(); ++idx) { if (_canimShapes[idx]._type == ACTIVE_BG_SHAPE && _canimShapes[idx]._misc == BEHIND) screen._backBuffer->transBlitFrom(*_canimShapes[idx]._imageFrame, _canimShapes[idx]._position, _canimShapes[idx]._flags & OBJ_FLIPPED); } // Draw all active shapes which are normal and behind the person for (uint idx = 0; idx < _bgShapes.size(); ++idx) { if (_bgShapes[idx]._type == ACTIVE_BG_SHAPE && _bgShapes[idx]._misc == NORMAL_BEHIND) screen._backBuffer->transBlitFrom(*_bgShapes[idx]._imageFrame, _bgShapes[idx]._position, _bgShapes[idx]._flags & OBJ_FLIPPED); } // Draw all canimations which are normal and behind the person for (uint idx = 0; idx < _canimShapes.size(); ++idx) { if (_canimShapes[idx]._type == ACTIVE_BG_SHAPE && _canimShapes[idx]._misc == NORMAL_BEHIND) screen._backBuffer->transBlitFrom(*_canimShapes[idx]._imageFrame, _canimShapes[idx]._position, _canimShapes[idx]._flags & OBJ_FLIPPED); } // Draw any active characters for (int idx = 0; idx < MAX_CHARACTERS; ++idx) { Person &p = people[idx]; if (p._type == CHARACTER && p._walkLoaded) { bool flipped = IS_SERRATED_SCALPEL && ( p._sequenceNumber == WALK_LEFT || p._sequenceNumber == STOP_LEFT || p._sequenceNumber == WALK_UPLEFT || p._sequenceNumber == STOP_UPLEFT || p._sequenceNumber == WALK_DOWNRIGHT || p._sequenceNumber == STOP_DOWNRIGHT); screen._backBuffer->transBlitFrom(*p._imageFrame, Common::Point(p._position.x / FIXED_INT_MULTIPLIER, p._position.y / FIXED_INT_MULTIPLIER - p.frameHeight()), flipped); } } // Draw all static and active shapes that are NORMAL and are in front of the player for (uint idx = 0; idx < _bgShapes.size(); ++idx) { if ((_bgShapes[idx]._type == ACTIVE_BG_SHAPE || _bgShapes[idx]._type == STATIC_BG_SHAPE) && _bgShapes[idx]._misc == NORMAL_FORWARD) screen._backBuffer->transBlitFrom(*_bgShapes[idx]._imageFrame, _bgShapes[idx]._position, _bgShapes[idx]._flags & OBJ_FLIPPED); } // Draw all static and active canimations that are NORMAL and are in front of the player for (uint idx = 0; idx < _canimShapes.size(); ++idx) { if ((_canimShapes[idx]._type == ACTIVE_BG_SHAPE || _canimShapes[idx]._type == STATIC_BG_SHAPE) && _canimShapes[idx]._misc == NORMAL_FORWARD) screen._backBuffer->transBlitFrom(*_canimShapes[idx]._imageFrame, _canimShapes[idx]._position, _canimShapes[idx]._flags & OBJ_FLIPPED); } // Draw all static and active shapes that are FORWARD for (uint idx = 0; idx < _bgShapes.size(); ++idx) { _bgShapes[idx]._oldPosition = _bgShapes[idx]._position; _bgShapes[idx]._oldSize = Common::Point(_bgShapes[idx].frameWidth(), _bgShapes[idx].frameHeight()); if ((_bgShapes[idx]._type == ACTIVE_BG_SHAPE || _bgShapes[idx]._type == STATIC_BG_SHAPE) && _bgShapes[idx]._misc == FORWARD) screen._backBuffer->transBlitFrom(*_bgShapes[idx]._imageFrame, _bgShapes[idx]._position, _bgShapes[idx]._flags & OBJ_FLIPPED); } // Draw all static and active canimations that are forward for (uint idx = 0; idx < _canimShapes.size(); ++idx) { if ((_canimShapes[idx]._type == ACTIVE_BG_SHAPE || _canimShapes[idx]._type == STATIC_BG_SHAPE) && _canimShapes[idx]._misc == FORWARD) screen._backBuffer->transBlitFrom(*_canimShapes[idx]._imageFrame, _canimShapes[idx]._position, _canimShapes[idx]._flags & OBJ_FLIPPED); } screen.resetDisplayBounds(); } void ScalpelScene::checkBgShapes() { People &people = *_vm->_people; Person &holmes = people[HOLMES]; Common::Point pt(holmes._position.x / FIXED_INT_MULTIPLIER, holmes._position.y / FIXED_INT_MULTIPLIER); // Call the base scene method to handle bg shapes Scene::checkBgShapes(); // Iterate through the canim list for (uint idx = 0; idx < _canimShapes.size(); ++idx) { Object &obj = _canimShapes[idx]; if (obj._type == STATIC_BG_SHAPE || obj._type == ACTIVE_BG_SHAPE) { if ((obj._flags & 5) == 1) { obj._misc = (pt.y < (obj._position.y + obj._imageFrame->_frame.h - 1)) ? NORMAL_FORWARD : NORMAL_BEHIND; } else if (!(obj._flags & 1)) { obj._misc = BEHIND; } else if (obj._flags & 4) { obj._misc = FORWARD; } } } } void ScalpelScene::doBgAnimCheckCursor() { Inventory &inv = *_vm->_inventory; Events &events = *_vm->_events; UserInterface &ui = *_vm->_ui; Common::Point mousePos = events.mousePos(); events.animateCursorIfNeeded(); if (ui._menuMode == LOOK_MODE) { if (mousePos.y > CONTROLS_Y1) events.setCursor(ARROW); else if (mousePos.y < CONTROLS_Y) events.setCursor(MAGNIFY); } // Check for setting magnifying glass cursor if (ui._menuMode == INV_MODE || ui._menuMode == USE_MODE || ui._menuMode == GIVE_MODE) { if (inv._invMode == INVMODE_LOOK) { // Only show Magnifying glass cursor if it's not on the inventory command line if (mousePos.y < CONTROLS_Y || mousePos.y >(CONTROLS_Y1 + 13)) events.setCursor(MAGNIFY); else events.setCursor(ARROW); } else { events.setCursor(ARROW); } } } void ScalpelScene::doBgAnim() { ScalpelEngine &vm = *((ScalpelEngine *)_vm); Events &events = *_vm->_events; People &people = *_vm->_people; Screen &screen = *_vm->_screen; Talk &talk = *_vm->_talk; doBgAnimCheckCursor(); screen.setDisplayBounds(Common::Rect(0, 0, SHERLOCK_SCREEN_WIDTH, SHERLOCK_SCENE_HEIGHT)); talk._talkToAbort = false; if (_restoreFlag) { for (int idx = 0; idx < MAX_CHARACTERS; ++idx) { if (people[idx]._type == CHARACTER) people[idx].checkSprite(); } for (uint idx = 0; idx < _bgShapes.size(); ++idx) { if (_bgShapes[idx]._type == ACTIVE_BG_SHAPE) _bgShapes[idx].checkObject(); } if (people._portraitLoaded && people._portrait._type == ACTIVE_BG_SHAPE) people._portrait.checkObject(); for (uint idx = 0; idx < _canimShapes.size(); ++idx) { if (_canimShapes[idx]._type != INVALID && _canimShapes[idx]._type != REMOVE) _canimShapes[idx].checkObject(); } if (_currentScene == 12) vm.eraseMirror12(); // Restore the back buffer from the back buffer 2 in the changed area Common::Rect bounds(people[HOLMES]._oldPosition.x, people[HOLMES]._oldPosition.y, people[HOLMES]._oldPosition.x + people[HOLMES]._oldSize.x, people[HOLMES]._oldPosition.y + people[HOLMES]._oldSize.y); Common::Point pt(bounds.left, bounds.top); if (people[HOLMES]._type == CHARACTER) screen.restoreBackground(bounds); else if (people[HOLMES]._type == REMOVE) screen._backBuffer->blitFrom(screen._backBuffer2, pt, bounds); for (uint idx = 0; idx < _bgShapes.size(); ++idx) { Object &o = _bgShapes[idx]; if (o._type == ACTIVE_BG_SHAPE || o._type == HIDE_SHAPE || o._type == REMOVE) screen.restoreBackground(o.getOldBounds()); } if (people._portraitLoaded) screen.restoreBackground(Common::Rect( people._portrait._oldPosition.x, people._portrait._oldPosition.y, people._portrait._oldPosition.x + people._portrait._oldSize.x, people._portrait._oldPosition.y + people._portrait._oldSize.y )); for (uint idx = 0; idx < _bgShapes.size(); ++idx) { Object &o = _bgShapes[idx]; if (o._type == NO_SHAPE && ((o._flags & OBJ_BEHIND) == 0)) { // Restore screen area screen._backBuffer->blitFrom(screen._backBuffer2, o._position, Common::Rect(o._position.x, o._position.y, o._position.x + o._noShapeSize.x, o._position.y + o._noShapeSize.y)); o._oldPosition = o._position; o._oldSize = o._noShapeSize; } } for (uint idx = 0; idx < _canimShapes.size(); ++idx) { Object &o = _canimShapes[idx]; if (o._type == ACTIVE_BG_SHAPE || o._type == HIDE_SHAPE || o._type == REMOVE) screen.restoreBackground(Common::Rect(o._oldPosition.x, o._oldPosition.y, o._oldPosition.x + o._oldSize.x, o._oldPosition.y + o._oldSize.y)); } } // // Update the background objects and canimations // for (uint idx = 0; idx < _bgShapes.size(); ++idx) { Object &o = _bgShapes[idx]; if (o._type == ACTIVE_BG_SHAPE || o._type == NO_SHAPE) o.adjustObject(); } if (people._portraitLoaded && people._portrait._type == ACTIVE_BG_SHAPE) people._portrait.adjustObject(); for (uint idx = 0; idx < _canimShapes.size(); ++idx) { if (_canimShapes[idx]._type != INVALID) _canimShapes[idx].adjustObject(); } if (people[HOLMES]._type == CHARACTER && people._holmesOn) people[HOLMES].adjustSprite(); // Flag the bg shapes which need to be redrawn checkBgShapes(); if (_currentScene == 12) vm.doMirror12(); // Draw all active shapes which are behind the person for (uint idx = 0; idx < _bgShapes.size(); ++idx) { Object &o = _bgShapes[idx]; if (o._type == ACTIVE_BG_SHAPE && o._misc == BEHIND) screen._backBuffer->transBlitFrom(*o._imageFrame, o._position, o._flags & OBJ_FLIPPED); } // Draw all canimations which are behind the person for (uint idx = 0; idx < _canimShapes.size(); ++idx) { Object &o = _canimShapes[idx]; if (o._type == ACTIVE_BG_SHAPE && o._misc == BEHIND) { screen._backBuffer->transBlitFrom(*o._imageFrame, o._position, o._flags & OBJ_FLIPPED); } } // Draw all active shapes which are HAPPEN and behind the person for (uint idx = 0; idx < _bgShapes.size(); ++idx) { Object &o = _bgShapes[idx]; if (o._type == ACTIVE_BG_SHAPE && o._misc == NORMAL_BEHIND) screen._backBuffer->transBlitFrom(*o._imageFrame, o._position, o._flags & OBJ_FLIPPED); } // Draw all canimations which are NORMAL and behind the person for (uint idx = 0; idx < _canimShapes.size(); ++idx) { Object &o = _canimShapes[idx]; if (o._type == ACTIVE_BG_SHAPE && o._misc == NORMAL_BEHIND) { screen._backBuffer->transBlitFrom(*o._imageFrame, o._position, o._flags & OBJ_FLIPPED); } } // Draw the person if not animating if (people[HOLMES]._type == CHARACTER && people[HOLMES]._walkLoaded) { // If Holmes is too far to the right, move him back so he's on-screen int xRight = SHERLOCK_SCREEN_WIDTH - 2 - people[HOLMES]._imageFrame->_frame.w; int tempX = MIN(people[HOLMES]._position.x / FIXED_INT_MULTIPLIER, xRight); bool flipped = people[HOLMES]._sequenceNumber == WALK_LEFT || people[HOLMES]._sequenceNumber == STOP_LEFT || people[HOLMES]._sequenceNumber == WALK_UPLEFT || people[HOLMES]._sequenceNumber == STOP_UPLEFT || people[HOLMES]._sequenceNumber == WALK_DOWNRIGHT || people[HOLMES]._sequenceNumber == STOP_DOWNRIGHT; screen._backBuffer->transBlitFrom(*people[HOLMES]._imageFrame, Common::Point(tempX, people[HOLMES]._position.y / FIXED_INT_MULTIPLIER - people[HOLMES]._imageFrame->_frame.h), flipped); } // Draw all static and active shapes are NORMAL and are in front of the person for (uint idx = 0; idx < _bgShapes.size(); ++idx) { Object &o = _bgShapes[idx]; if ((o._type == ACTIVE_BG_SHAPE || o._type == STATIC_BG_SHAPE) && o._misc == NORMAL_FORWARD) screen._backBuffer->transBlitFrom(*o._imageFrame, o._position, o._flags & OBJ_FLIPPED); } // Draw all static and active canimations that are NORMAL and are in front of the person for (uint idx = 0; idx < _canimShapes.size(); ++idx) { Object &o = _canimShapes[idx]; if ((o._type == ACTIVE_BG_SHAPE || o._type == STATIC_BG_SHAPE) && o._misc == NORMAL_FORWARD) { screen._backBuffer->transBlitFrom(*o._imageFrame, o._position, o._flags & OBJ_FLIPPED); } } // Draw all static and active shapes that are in front of the person for (uint idx = 0; idx < _bgShapes.size(); ++idx) { Object &o = _bgShapes[idx]; if ((o._type == ACTIVE_BG_SHAPE || o._type == STATIC_BG_SHAPE) && o._misc == FORWARD) screen._backBuffer->transBlitFrom(*o._imageFrame, o._position, o._flags & OBJ_FLIPPED); } // Draw any active portrait if (people._portraitLoaded && people._portrait._type == ACTIVE_BG_SHAPE) screen._backBuffer->transBlitFrom(*people._portrait._imageFrame, people._portrait._position, people._portrait._flags & OBJ_FLIPPED); // Draw all static and active canimations that are in front of the person for (uint idx = 0; idx < _canimShapes.size(); ++idx) { Object &o = _canimShapes[idx]; if ((o._type == ACTIVE_BG_SHAPE || o._type == STATIC_BG_SHAPE) && o._misc == FORWARD) { screen._backBuffer->transBlitFrom(*o._imageFrame, o._position, o._flags & OBJ_FLIPPED); } } // Draw all NO_SHAPE shapes which have flag bit 0 clear for (uint idx = 0; idx < _bgShapes.size(); ++idx) { Object &o = _bgShapes[idx]; if (o._type == NO_SHAPE && (o._flags & OBJ_BEHIND) == 0) screen._backBuffer->transBlitFrom(*o._imageFrame, o._position, o._flags & OBJ_FLIPPED); } // Bring the newly built picture to the screen if (_animating == 2) { _animating = 0; screen.slamRect(Common::Rect(0, 0, SHERLOCK_SCREEN_WIDTH, SHERLOCK_SCENE_HEIGHT)); } else { if (people[HOLMES]._type != INVALID && ((_goToScene == -1 || _canimShapes.empty()))) { if (people[HOLMES]._type == REMOVE) { screen.slamRect(Common::Rect( people[HOLMES]._oldPosition.x, people[HOLMES]._oldPosition.y, people[HOLMES]._oldPosition.x + people[HOLMES]._oldSize.x, people[HOLMES]._oldPosition.y + people[HOLMES]._oldSize.y )); people[HOLMES]._type = INVALID; } else { screen.flushImage(people[HOLMES]._imageFrame, Common::Point(people[HOLMES]._position.x / FIXED_INT_MULTIPLIER, people[HOLMES]._position.y / FIXED_INT_MULTIPLIER - people[HOLMES].frameHeight()), &people[HOLMES]._oldPosition.x, &people[HOLMES]._oldPosition.y, &people[HOLMES]._oldSize.x, &people[HOLMES]._oldSize.y); } } if (_currentScene == 12) vm.flushMirror12(); for (uint idx = 0; idx < _bgShapes.size(); ++idx) { Object &o = _bgShapes[idx]; if ((o._type == ACTIVE_BG_SHAPE || o._type == REMOVE) && _goToScene == -1) { screen.flushImage(o._imageFrame, o._position, &o._oldPosition.x, &o._oldPosition.y, &o._oldSize.x, &o._oldSize.y); } } if (people._portraitLoaded) { if (people._portrait._type == REMOVE) screen.slamRect(Common::Rect( people._portrait._position.x, people._portrait._position.y, people._portrait._position.x + people._portrait._delta.x, people._portrait._position.y + people._portrait._delta.y )); else screen.flushImage(people._portrait._imageFrame, people._portrait._position, &people._portrait._oldPosition.x, &people._portrait._oldPosition.y, &people._portrait._oldSize.x, &people._portrait._oldSize.y); if (people._portrait._type == REMOVE) people._portrait._type = INVALID; } if (_goToScene == -1) { for (uint idx = 0; idx < _bgShapes.size(); ++idx) { Object &o = _bgShapes[idx]; if (o._type == NO_SHAPE && (o._flags & OBJ_BEHIND) == 0) { screen.slamArea(o._position.x, o._position.y, o._oldSize.x, o._oldSize.y); screen.slamArea(o._oldPosition.x, o._oldPosition.y, o._oldSize.x, o._oldSize.y); } else if (o._type == HIDE_SHAPE) { // Hiding shape, so flush it out and mark it as hidden screen.flushImage(o._imageFrame, o._position, &o._oldPosition.x, &o._oldPosition.y, &o._oldSize.x, &o._oldSize.y); o._type = HIDDEN; } } } for (int idx = _canimShapes.size() - 1; idx >= 0; --idx) { Object &o = _canimShapes[idx]; if (o._type == INVALID) { // Anim shape was invalidated by checkEndOfSequence, so at this point we can remove it _canimShapes.remove_at(idx); } else if (o._type == REMOVE) { if (_goToScene == -1) screen.slamArea(o._position.x, o._position.y, o._delta.x, o._delta.y); // Shape for an animation is no longer needed, so remove it completely _canimShapes.remove_at(idx); } else if (o._type == ACTIVE_BG_SHAPE) { screen.flushImage(o._imageFrame, o._position, &o._oldPosition.x, &o._oldPosition.y, &o._oldSize.x, &o._oldSize.y); } } } _restoreFlag = true; _doBgAnimDone = true; events.wait(3); screen.resetDisplayBounds(); // Check if the method was called for calling a portrait, and a talk was // interrupting it. This talk file would not have been executed at the time, // since we needed to finish the 'doBgAnim' to finish clearing the portrait if (people._clearingThePortrait && talk._scriptMoreFlag == 3) { // Reset the flags and call to talk people._clearingThePortrait = false; talk._scriptMoreFlag = 0; talk.talkTo(talk._scriptName); } } int ScalpelScene::startCAnim(int cAnimNum, int playRate) { Events &events = *_vm->_events; ScalpelMap &map = *(ScalpelMap *)_vm->_map; People &people = *_vm->_people; Resources &res = *_vm->_res; Talk &talk = *_vm->_talk; ScalpelUserInterface &ui = *(ScalpelUserInterface *)_vm->_ui; Point32 tpPos, walkPos; int tpDir, walkDir; int tFrames = 0; int gotoCode = -1; // Validation if (cAnimNum >= (int)_cAnim.size()) // number out of bounds return -1; if (_canimShapes.size() >= 3 || playRate == 0) // Too many active animations, or invalid play rate return 0; CAnim &cAnim = _cAnim[cAnimNum]; if (playRate < 0) { // Reverse direction walkPos = cAnim._teleport[0]; walkDir = cAnim._teleport[0]._facing; tpPos = cAnim._goto[0]; tpDir = cAnim._goto[0]._facing; } else { // Forward direction walkPos = cAnim._goto[0]; walkDir = cAnim._goto[0]._facing; tpPos = cAnim._teleport[0]; tpDir = cAnim._teleport[0]._facing; } CursorId oldCursor = events.getCursor(); events.setCursor(WAIT); if (walkPos.x != -1) { // Holmes must walk to the walk point before the cAnimation is started if (people[HOLMES]._position != walkPos) people[HOLMES].walkToCoords(walkPos, walkDir); } if (talk._talkToAbort) return 1; // Add new anim shape entry for displaying the animation _canimShapes.push_back(Object()); Object &cObj = _canimShapes[_canimShapes.size() - 1]; // Copy the canimation into the bgShapes type canimation structure so it can be played cObj._allow = cAnimNum + 1; // Keep track of the parent structure cObj._name = _cAnim[cAnimNum]._name; // Copy name // Remove any attempt to draw object frame if (cAnim._type == NO_SHAPE && cAnim._sequences[0] < 100) cAnim._sequences[0] = 0; cObj._sequences = cAnim._sequences; cObj._images = nullptr; cObj._position = cAnim._position; cObj._delta = Common::Point(0, 0); cObj._type = cAnim._type; cObj._flags = cAnim._flags; cObj._maxFrames = 0; cObj._frameNumber = -1; cObj._sequenceNumber = cAnimNum; cObj._oldPosition = Common::Point(0, 0); cObj._oldSize = Common::Point(0, 0); cObj._goto = Common::Point(0, 0); cObj._status = 0; cObj._misc = 0; cObj._imageFrame = nullptr; if (cAnim._name.size() > 0 && cAnim._type != NO_SHAPE) { if (tpPos.x != -1) people[HOLMES]._type = REMOVE; Common::String fname = cAnim._name + ".vgs"; if (!res.isInCache(fname)) { // Set up RRM scene data Common::SeekableReadStream *roomStream = res.load(_roomFilename); roomStream->seek(cAnim._dataOffset); //rrmStream->seek(44 + cAnimNum * 4); //rrmStream->seek(rrmStream->readUint32LE()); // Load the canimation into the cache Common::SeekableReadStream *imgStream = !_compressed ? roomStream->readStream(cAnim._dataSize) : Resources::decompressLZ(*roomStream, cAnim._dataSize); res.addToCache(fname, *imgStream); delete imgStream; delete roomStream; } // Now load the resource as an image if (!IS_3DO) { cObj._images = new ImageFile(fname); } else { cObj._images = new ImageFile3DO(fname, kImageFile3DOType_RoomFormat); } cObj._imageFrame = &(*cObj._images)[0]; cObj._maxFrames = cObj._images->size(); int frames = 0; if (playRate < 0) { // Reverse direction // Count number of frames while (frames < MAX_FRAME && cObj._sequences[frames]) ++frames; } else { // Forward direction BaseObject::_countCAnimFrames = true; while (cObj._type == ACTIVE_BG_SHAPE) { cObj.checkObject(); ++frames; if (frames >= 1000) error("CAnim has infinite loop sequence"); } if (frames > 1) --frames; BaseObject::_countCAnimFrames = false; cObj._type = cAnim._type; cObj._frameNumber = -1; cObj._position = cAnim._position; cObj._delta = Common::Point(0, 0); } // Return if animation has no frames in it if (frames == 0) return -2; ++frames; int repeat = ABS(playRate); int dir; if (playRate < 0) { // Play in reverse dir = -2; cObj._frameNumber = frames - 3; } else { dir = 0; } tFrames = frames - 1; int pauseFrame = (_cAnimFramePause) ? frames - _cAnimFramePause : -1; while (--frames) { if (frames == pauseFrame) ui.printObjectDesc(); doBgAnim(); // Repeat same frame int temp = repeat; while (--temp > 0) { cObj._frameNumber--; doBgAnim(); if (_vm->shouldQuit()) return 0; } cObj._frameNumber += dir; } people[HOLMES]._type = CHARACTER; } // Teleport to ending coordinates if necessary if (tpPos.x != -1) { people[HOLMES]._position = tpPos; // Place the player people[HOLMES]._sequenceNumber = tpDir; people[HOLMES].gotoStand(); } if (playRate < 0) // Reverse direction - set to end sequence cObj._frameNumber = tFrames - 1; if (cObj._frameNumber <= 26) gotoCode = cObj._sequences[cObj._frameNumber + 3]; // Unless anim shape has already been freed, set it to REMOVE so doBgAnim can free it if (_canimShapes.indexOf(cObj) != -1) cObj.checkObject(); if (gotoCode > 0 && !talk._talkToAbort) { _goToScene = gotoCode; if (_goToScene < 97 && map[_goToScene].x) { map._overPos = map[_goToScene]; } } people.loadWalk(); if (tpPos.x != -1 && !talk._talkToAbort) { // Teleport to ending coordinates people[HOLMES]._position = tpPos; people[HOLMES]._sequenceNumber = tpDir; people[HOLMES].gotoStand(); } events.setCursor(oldCursor); return 1; } int ScalpelScene::closestZone(const Common::Point &pt) { int dist = 1000; int zone = -1; for (uint idx = 0; idx < _zones.size(); ++idx) { Common::Point zc((_zones[idx].left + _zones[idx].right) / 2, (_zones[idx].top + _zones[idx].bottom) / 2); int d = ABS(zc.x - pt.x) + ABS(zc.y - pt.y); if (d < dist) { // Found a closer zone dist = d; zone = idx; } } return zone; } int ScalpelScene::findBgShape(const Common::Point &pt) { if (!_doBgAnimDone) // New frame hasn't been drawn yet return -1; for (int idx = (int)_bgShapes.size() - 1; idx >= 0; --idx) { Object &o = _bgShapes[idx]; if (o._type != INVALID && o._type != NO_SHAPE && o._type != HIDDEN && o._aType <= PERSON) { if (o.getNewBounds().contains(pt)) return idx; } else if (o._type == NO_SHAPE) { if (o.getNoShapeBounds().contains(pt)) return idx; } } return -1; } } // End of namespace Scalpel } // End of namespace Sherlock