/* 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/objects.h" #include "sherlock/sherlock.h" #include "sherlock/people.h" #include "sherlock/scene.h" #include "common/util.h" namespace Sherlock { #define START_FRAME 0 #define UPPER_LIMIT 0 #define LOWER_LIMIT CONTROLS_Y #define LEFT_LIMIT 0 #define RIGHT_LIMIT SHERLOCK_SCREEN_WIDTH // Distance to walk around WALK_AROUND boxes #define CLEAR_DIST_X 5 #define CLEAR_DIST_Y 0 SherlockEngine *Sprite::_vm; /** * Reset the data for the sprite */ void Sprite::clear() { _name = ""; _description = ""; _examine.clear(); _pickUp = ""; _sequences = nullptr; _images = nullptr; _imageFrame = nullptr; _walkCount = 0; _allow = 0; _frameNumber = _sequenceNumber = 0; _position.x = _position.y = 0; _delta.x = _delta.y = 0; _oldPosition.x = _oldPosition.y = 0; _oldSize.x = _oldSize.y = 0; _goto.x = _goto.y = 0; _type = INVALID; _pickUp.clear(); _noShapeSize.x = _noShapeSize.y = 0; _status = 0; _misc = 0; _numFrames = 0; } /** * Updates the image frame poiner for the sprite */ void Sprite::setImageFrame() { int imageNumber = (*_sequences)[_sequenceNumber][_frameNumber] + (*_sequences)[_sequenceNumber][0] - 2; _imageFrame = &(*_images)[imageNumber]; } /** * This adjusts the sprites position, as well as it's animation sequence: */ void Sprite::adjustSprite() { People &people = *_vm->_people; Scene &scene = *_vm->_scene; Talk &talk = *_vm->_talk; if (_type == INVALID || (_type == CHARACTER && scene._animating)) return; if (!talk._talkCounter && _type == CHARACTER && _walkCount) { // Handle active movement for the sprite _position += _delta; --_walkCount; if (!_walkCount) { // If there any points left for the character to walk to along the // route to a destination, then move to the next point if (!people._walkTo.empty()) { people._walkDest = people._walkTo.pop(); people.setWalking(); } else { people.gotoStand(*this); } } } if (_type == CHARACTER && !_vm->_onChessboard) { if ((_position.y / 100) > LOWER_LIMIT) { _position.y = LOWER_LIMIT * 100; people.gotoStand(*this); } if ((_position.y / 100) < UPPER_LIMIT) { _position.y = UPPER_LIMIT * 100; people.gotoStand(*this); } if ((_position.x / 100) < LEFT_LIMIT) { _position.x = LEFT_LIMIT * 100; people.gotoStand(*this); } } else if (!_vm->_onChessboard) { _position.y = CLIP((int)_position.y, UPPER_LIMIT, LOWER_LIMIT); _position.x = CLIP((int)_position.x, LEFT_LIMIT, RIGHT_LIMIT); } if (!_vm->_onChessboard || (_vm->_slowChess = !_vm->_slowChess)) ++_frameNumber; if ((*_sequences)[_sequenceNumber][_frameNumber] == 0) { switch (_sequenceNumber) { case STOP_UP: case STOP_DOWN: case STOP_LEFT: case STOP_RIGHT: case STOP_UPRIGHT: case STOP_UPLEFT: case STOP_DOWNRIGHT: case STOP_DOWNLEFT: // We're in a stop sequence, so reset back to the last frame, so // the character is shown as standing still --_frameNumber; break; default: // Move 1 past the first frame - we need to compensate, since we // already passed the frame increment _frameNumber = 1; break; } } // Update the _imageFrame to point to the new frame's image setImageFrame(); // Check to see if character has entered an exit zone if (!_walkCount && scene._walkedInScene && scene._goToScene == -1) { Common::Rect charRect(_position.x / 100 - 5, _position.y / 100 - 2, _position.x / 100 + 5, _position.y / 100 + 2); Exit *exit = scene.checkForExit(charRect); if (exit) { scene._hsavedPos = exit->_people; scene._hsavedFs = exit->_peopleDir; if (scene._hsavedFs > 100 && scene._hsavedPos.x < 1) scene._hsavedPos.x = 100; } } } /** * Checks the sprite's position to see if it's collided with any special objects */ void Sprite::checkSprite() { Events &events = *_vm->_events; People &people = *_vm->_people; Scene &scene = *_vm->_scene; Screen &screen = *_vm->_screen; Talk &talk = *_vm->_talk; Common::Point pt; Common::Rect objBounds; Common::Point spritePt(_position.x / 100, _position.y / 100); if (!talk._talkCounter && _type == CHARACTER) { pt = _walkCount ? _position + _delta : _position; pt.x /= 100; pt.y /= 100; for (uint idx = 0; idx < scene._bgShapes.size() && !talk._talkToAbort; ++idx) { Object &obj = scene._bgShapes[idx]; if (obj._aType > PERSON && obj._type != INVALID && obj._type != HIDDEN) { if (obj._type == NO_SHAPE) { objBounds = Common::Rect(obj._position.x, obj._position.y, obj._position.x + obj._noShapeSize.x, obj._position.y + obj._noShapeSize.y); } else { int xp = obj._position.x + obj._imageFrame->_offset.x; int yp = obj._position.y + obj._imageFrame->_offset.y; objBounds = Common::Rect(xp, yp, xp + obj._imageFrame->_frame.w, yp + obj._imageFrame->_frame.h); } } if (objBounds.contains(pt)) { if (objBounds.contains(spritePt)) { // Current point is already inside the the bounds, so impact occurred // on a previous call. So simply do nothing until we're clear of the box switch (obj._aType) { case TALK_MOVE: if (_walkCount) { // Holmes is moving obj._type = HIDDEN; obj.setFlagsAndToggles(); talk.talkTo(obj._use[0]._target); } break; case PAL_CHANGE: case PAL_CHANGE2: if (_walkCount) { int palStart = atoi(obj._use[0]._names[0].c_str()) * 3; int palLength = atoi(obj._use[0]._names[1].c_str()) * 3; int templ = atoi(obj._use[0]._names[2].c_str()) * 3; if (templ == 0) templ = 100; // Ensure only valid palette change data found if (palLength > 0) { // Figure out how far into the shape Holmes is so that we // can figure out what percentage of the original palette // to set the current palette to int palPercent = (pt.x - objBounds.left) * 100 / objBounds.width(); palPercent = palPercent * templ / 100; if (obj._aType == PAL_CHANGE) // Invert percentage palPercent = 100 - palPercent; for (int idx = palStart; idx < (palStart + palLength); ++idx) screen._sMap[idx] = screen._cMap[idx] * palPercent / 100; events.pollEvents(); screen.setPalette(screen._sMap); } } break; case TALK: case TALK_EVERY: _type = HIDDEN; obj.setFlagsAndToggles(); talk.talkTo(obj._use[0]._target); break; default: break; } } else { // New impact just occurred switch (obj._aType) { case BLANK_ZONE: // A blank zone masks out all other remaining zones underneath it. // If this zone is hit, exit the outer loop so we do not check anymore return; case SOLID: case TALK: // Stop walking if (obj._aType == TALK) { obj.setFlagsAndToggles(); talk.talkTo(obj._use[0]._target); } else { people.gotoStand(*this); } break; case TALK_EVERY: if (obj._aType == TALK_EVERY) { obj._type = HIDDEN; obj.setFlagsAndToggles(); talk.talkTo(obj._use[0]._target); } else { people.gotoStand(*this); } break; case FLAG_SET: obj.setFlagsAndToggles(); obj._type = HIDDEN; break; case WALK_AROUND: if (objBounds.contains(people._walkTo.top())) { // Reached zone people.gotoStand(*this); } else { // Destination not within box, walk to best corner Common::Point walkPos; if (spritePt.x >= objBounds.left && spritePt.x < objBounds.right) { // Impact occurred due to vertical movement. Determine whether to // travel to the left or right side if (_delta.x > 0) // Go to right side walkPos.x = objBounds.right + CLEAR_DIST_X; else if (_delta.x < 0) // Go to left side walkPos.x = objBounds.left - CLEAR_DIST_X; else { // Going straight up or down. So choose best side if (spritePt.x >= (objBounds.left + objBounds.width() / 2)) walkPos.x = objBounds.right + CLEAR_DIST_X; else walkPos.x = objBounds.left - CLEAR_DIST_X; } walkPos.y = (_delta.y >= 0) ? objBounds.top - CLEAR_DIST_Y : objBounds.bottom + CLEAR_DIST_Y; } else { // Impact occurred due to horizontal movement if (_delta.y > 0) // Go to bottom of box walkPos.y = objBounds.bottom + CLEAR_DIST_Y; else if (_delta.y < 0) // Go to top of box walkPos.y = objBounds.top - CLEAR_DIST_Y; else { // Going straight horizontal, so choose best side if (spritePt.y >= (objBounds.top + objBounds.height() / 2)) walkPos.y = objBounds.bottom + CLEAR_DIST_Y; else walkPos.y = objBounds.top - CLEAR_DIST_Y; } walkPos.x = (_delta.x >= 0) ? objBounds.left - CLEAR_DIST_X : objBounds.right + CLEAR_DIST_X; } walkPos.x += people[AL]._imageFrame->_frame.w / 2; people._walkDest = walkPos; people._walkTo.push(walkPos); people.setWalking(); } break; case DELTA: _position.x += 200; break; } } } } } } /*----------------------------------------------------------------*/ void ActionType::synchronize(Common::SeekableReadStream &s) { char buffer[12]; _cAnimNum = s.readByte(); _cAnimSpeed = s.readByte(); for (int idx = 0; idx < 4; ++idx) { s.read(buffer, 12); _names[idx] = Common::String(buffer); } } /*----------------------------------------------------------------*/ void UseType::synchronize(Common::SeekableReadStream &s) { char buffer[12]; _cAnimNum = s.readByte(); _cAnimSpeed = s.readByte(); for (int idx = 0; idx < 4; ++idx) { s.read(buffer, 12); _names[idx] = Common::String(buffer); } _useFlag = s.readSint16LE(); _dFlag[0] = s.readSint16LE(); _lFlag[0] = s.readSint16LE(); _lFlag[1] = s.readSint16LE(); s.read(buffer, 12); _target = Common::String(buffer); } /*----------------------------------------------------------------*/ SherlockEngine *Object::_vm; bool Object::_countCAnimFrames; void Object::setVm(SherlockEngine *vm) { _vm = vm; _countCAnimFrames = false; } /** * Load the object data from the passed stream */ void Object::synchronize(Common::SeekableReadStream &s) { char buffer[41]; s.read(buffer, 12); _name = Common::String(buffer); s.read(buffer, 41); _description = Common::String(buffer); _examine.clear(); _sequences = nullptr; _images = nullptr; _imageFrame = nullptr; s.skip(4); _sequenceOffset = s.readUint16LE(); s.seek(10, SEEK_CUR); _walkCount = s.readByte(); _allow = s.readByte(); _frameNumber = s.readSint16LE(); _sequenceNumber = s.readSint16LE(); _position.x = s.readSint16LE(); _position.y = s.readSint16LE(); _delta.x = s.readSint16LE(); _delta.y = s.readSint16LE(); _type = (SpriteType)s.readUint16LE(); _oldPosition.x = s.readSint16LE(); _oldPosition.y = s.readSint16LE(); _oldSize.x = s.readUint16LE(); _oldSize.y = s.readUint16LE(); _goto.x = s.readSint16LE(); _goto.y = s.readSint16LE(); _pickup = s.readByte(); _defaultCommand = s.readByte(); _lookFlag = s.readUint16LE(); _pickupFlag = s.readUint16LE(); _requiredFlag = s.readUint16LE(); _noShapeSize.x = s.readUint16LE(); _noShapeSize.y = s.readUint16LE(); _status = s.readUint16LE(); _misc = s.readByte(); _maxFrames = s.readUint16LE(); _flags = s.readByte(); _aOpen.synchronize(s); _aType = (AType)s.readByte(); _lookFrames = s.readByte(); _seqCounter = s.readByte(); _lookPosition.x = s.readUint16LE(); _lookPosition.y = s.readByte(); _lookFacing = s.readByte(); _lookcAnim = s.readByte(); _aClose.synchronize(s); _seqStack = s.readByte(); _seqTo = s.readByte(); _descOffset = s.readUint16LE(); _seqCounter2 = s.readByte(); _seqSize = s.readUint16LE(); s.skip(1); _aMove.synchronize(s); s.skip(8); for (int idx = 0; idx < 4; ++idx) _use[idx].synchronize(s); } /** * Toggle the type of an object between hidden and active */ void Object::toggleHidden() { if (_type != HIDDEN && _type != HIDE_SHAPE && _type != INVALID) { if (_seqTo != 0) _sequences[_frameNumber] = _seqTo + SEQ_TO_CODE + 128; _seqTo = 0; if (_images == nullptr || _images->size() == 0) // No shape to erase, so flag as hidden _type = HIDDEN; else // Otherwise, flag it to be hidden after it gets erased _type = HIDE_SHAPE; } else if (_type != INVALID) { if (_seqTo != 0) _sequences[_frameNumber] = _seqTo + SEQ_TO_CODE + 128; _seqTo = 0; _seqCounter = _seqCounter2 = 0; _seqStack = 0; _frameNumber = -1; if (_images == nullptr || _images->size() == 0) { _type = NO_SHAPE; } else { _type = ACTIVE_BG_SHAPE; int idx = _sequences[0]; if (idx >= _maxFrames) // Turn on: set up first frame idx = 0; _imageFrame = &(*_images)[idx]; } } } /** * Check the state of the object */ void Object::checkObject(Object &o) { Scene &scene = *_vm->_scene; Sound &sound = *_vm->_sound; int checkFrame = _allow ? MAX_FRAME : 32000; bool codeFound; if (_seqTo) { byte *ptr = &_sequences[_frameNumber]; if (*ptr == _seqTo) { // The sequence is completed *ptr = _seqTo + SEQ_TO_CODE + 128; // Reset to normal _seqTo = 0; } else { // Continue doing sequence if (*ptr > _seqTo) *ptr--; else *ptr++; return; } } ++_frameNumber; do { // Check for end of sequence codeFound = checkEndOfSequence(); if (_sequences[_frameNumber] >= 128 && _frameNumber < checkFrame) { codeFound = true; int v = _sequences[_frameNumber]; if (v >= 228) { // Goto code found v -= 228; _seqCounter2 = _seqCounter; _seqStack = _frameNumber + 1; setObjSequence(v, false); } else if (v >= SOUND_CODE && (v <= (SOUND_CODE + 29))) { codeFound = true; ++_frameNumber; v -= SOUND_CODE; if (sound._soundOn && !_countCAnimFrames) { if (!scene._sounds[v - 1]._name.empty() && sound._digitized) sound.playLoadedSound(v - 1, 0); } } else if (v >= FLIP_CODE && v <= (FLIP_CODE + 2)) { // Flip code codeFound = true; ++_frameNumber; v -= FLIP_CODE; // Alter the flipped status switch (v) { case 0: // Clear the flag _flags &= ~2; break; case 1: // Set the flag _flags |= 2; break; case 2: // Toggle the flag _flags ^= 2; break; default: break; } } else { v -= 128; // 68-99 is a squence code if (v > SEQ_TO_CODE) { byte *p = &_sequences[_frameNumber]; v -= SEQ_TO_CODE; // # from 1-32 _seqTo = v; *p = *(p - 1); if (*p > 128) // If the high bit is set, convert to a real frame *p -= (byte)(SEQ_TO_CODE - 128); if (*p > _seqTo) *p -= 1; else *p += 1; // Will be incremented below to return back to original value --_frameNumber; v = 0; } else if (v == 10) { // Set delta for objects Common::Point pt(_sequences[_frameNumber + 1], _sequences[_frameNumber + 2]); if (pt.x > 128) pt.x = (pt.x - 128) * -1; else pt.x--; if (pt.y > 128) pt.y = (pt.y - 128) * -1; else pt.y--; _delta = pt; _frameNumber += 2; } else if (v < 4) { for (int idx = 0; idx < 4; ++idx) { o.checkNameForCodes(_use[v]._names[idx], nullptr); } if (_use[v]._useFlag) _vm->setFlags(_use[v]._useFlag); } ++_frameNumber; } } } while (codeFound); } /** * This will check to see if the object has reached the end of a sequence. * If it has, it switch to whichever next sequence should be started. * @returns true if the end of a sequence was reached */ bool Object::checkEndOfSequence() { Screen &screen = *_vm->_screen; int checkFrame = _allow ? MAX_FRAME : 32000; bool result = false; if (_type == REMOVE || _type == INVALID) return false; if (_sequences[_frameNumber] == 0 || _frameNumber >= checkFrame) { result = true; if (_frameNumber >= (checkFrame - 1)) { _frameNumber = START_FRAME; } else { // Determine next sequence to use int seq = _sequences[_frameNumber + 1]; if (seq == 99) { --_frameNumber; screen._backBuffer1.transBlitFrom(_imageFrame->_frame, _position); screen._backBuffer2.transBlitFrom(_imageFrame->_frame, _position); _type = INVALID; } else { setObjSequence(seq, false); } } } if (_allow && _frameNumber == 0) { // canimation just ended if (_type != NO_SHAPE && _type != REMOVE) { _type = REMOVE; if (!_countCAnimFrames) { // Save details before shape is removed _delta.x = _imageFrame->_frame.w; _delta.y = _imageFrame->_frame.h; _position = _imageFrame->_offset; // Free the images delete _images; } } else { _type = INVALID; } } return result; } /** * Scans through the sequences array and finds the designated sequence. * It then sets the frame number of the start of that sequence */ void Object::setObjSequence(int seq, bool wait) { Scene &scene = *_vm->_scene; int checkFrame = _allow ? MAX_FRAME : 32000; if (seq >= 128) { // Loop the sequence until the count exceeded seq -= 128; ++_seqCounter; if (_seqCounter >= seq) { // Go to next sequence if (_seqStack) { _frameNumber = _seqStack; _seqStack = 0; _seqCounter = _seqCounter2; _seqCounter2 = 0; if (_frameNumber >= checkFrame) _frameNumber = START_FRAME; return; } _frameNumber += 2; if (_frameNumber >= checkFrame) _frameNumber = 0; _seqCounter = 0; if (_sequences[_frameNumber] == 0) seq = _sequences[_frameNumber + 1]; else return; } else { // Find beginning of sequence do { --_frameNumber; } while (_frameNumber > 0 && _sequences[_frameNumber] != 0); if (_frameNumber != 0) _frameNumber += 2; return; } } else { // Reset sequence counter _seqCounter = 0; } int idx = 0; int seqCc = 0; while (seqCc < seq && idx < checkFrame) { ++idx; if (_sequences[idx] == 0) { ++seqCc; idx += 2; } } if (idx >= checkFrame) idx = 0; _frameNumber = idx; if (wait) { seqCc = idx; while (_sequences[idx] != 0) ++idx; idx = idx - seqCc + 2; for (; idx > 0; --idx) scene.doBgAnim(); } } /** * Checks for codes * @param name The name to check for codes * @param messages Provides a lookup list of messages that can be printed * @returns 0 if no codes are found, 1 if codes were found */ int Object::checkNameForCodes(const Common::String &name, Common::StringArray *messages) { People &people = *_vm->_people; Scene &scene = *_vm->_scene; Screen &screen = *_vm->_screen; Talk &talk = *_vm->_talk; UserInterface &ui = *_vm->_ui; bool printed = false; char ch; const char *p; scene.toggleObject(name); if (name.hasPrefix("*")) { // A code was found printed = true; ch = toupper(name[1]); switch (ch) { case 'C': talk.talkTo(name.c_str() + 2); break; case 'T': case 'B': case 'F': case 'W': // Nothing: action was already done before canimation break; case 'G': case 'A': { // G: Have object go somewhere // A: Add onto existing co-ordinates Common::String sx(name.c_str() + 2, name.c_str() + 5); Common::String sy(name.c_str() + 6, name.c_str() + 9); if (ch == 'G') _position = Common::Point(atoi(sx.c_str()), atoi(sy.c_str())); else _position += Common::Point(atoi(sx.c_str()), atoi(sy.c_str())); break; } default: if (ch >= '0' && ch <= '9') { scene._goToScene = atoi(name.c_str() + 1); if (scene._goToScene < 97 && _vm->_map[scene._goToScene].x) { _vm->_over.x = _vm->_map[scene._goToScene].x * 100 - 600; _vm->_over.y = _vm->_map[scene._goToScene].y * 100 + 900; } if ((p = strchr(name.c_str(), ',')) != nullptr) { ++p; Common::String s(p, p + 3); scene._hsavedPos.x = atoi(s.c_str()); s = Common::String(p + 3, p + 6); scene._hsavedPos.y = atoi(s.c_str()); s = Common::String(p + 6, p + 9); scene._hsavedFs = atoi(s.c_str()); if (scene._hsavedFs == 0) scene._hsavedFs = 10; } else if ((p = strchr(name.c_str(), '/')) != nullptr) { scene._hsavedPos = Common::Point(1, 0); scene._hsavedFs = 100 + atoi(p + 1); } } else { scene._goToScene = 100; } people[AL]._position = Common::Point(0, 0); break; } } else if (name.hasPrefix("!")) { // Message attached to canimation int messageNum = atoi(name.c_str() + 1); ui._infoFlag++; ui.clearInfo(); screen.print(Common::Point(0, INFO_LINE + 1), INFO_FOREGROUND, (*messages)[messageNum].c_str()); ui._menuCounter = 25; } else if (name.hasPrefix("@")) { // Message attached to canimation ui._infoFlag++; ui.clearInfo(); screen.print(Common::Point(0, INFO_LINE + 1), INFO_FOREGROUND, "%s", name.c_str() + 1); printed = true; ui._menuCounter = 25; } return printed; } /** * Handle setting any flags associated with the object */ void Object::setFlagsAndToggles() { Scene &scene = *_vm->_scene; Talk &talk = *_vm->_talk; for (int useIdx = 0; useIdx < 4; ++useIdx) { if (_use[useIdx]._useFlag) { if (!_vm->readFlags(_use[useIdx]._useFlag)) _vm->setFlags(_use[useIdx]._useFlag); } if (_use[useIdx]._cAnimSpeed) { if (_use[useIdx]._cAnimNum == 0) // 0 is really a 10 scene.startCAnim(_use[useIdx]._cAnimNum - 1, _use[useIdx]._cAnimSpeed); } if (!talk._talkToAbort) { for (int idx = 0; idx < 4; ++idx) scene.toggleObject(_use[useIdx]._names[idx]); } } } /** * Adjusts the sprite's position and animation sequence, advancing by 1 frame. * If the end of the sequence is reached, the appropriate action is taken. */ void Object::adjustObject() { if (_type == REMOVE) return; _position += _delta; if (_position.y > LOWER_LIMIT) _position.y = LOWER_LIMIT; if (_type != NO_SHAPE) { int frame = _frameNumber; if (frame == -1) frame = 0; int imgNum = _sequences[frame]; if (imgNum > _maxFrames) imgNum = 1; _imageFrame = &(*_images)[imgNum - 1]; } } /** * Returns the current bounds for the sprite */ const Common::Rect Object::getNewBounds() const { Common::Point pt = _position; if (_imageFrame) pt += _imageFrame->_offset; return Common::Rect(pt.x, pt.y, pt.x + frameWidth(), pt.y + frameHeight()); } /** * Returns the bounds for a sprite without a shape */ const Common::Rect Object::getNoShapeBounds() const { return Common::Rect(_position.x, _position.y, _position.x + _noShapeSize.x, _position.y + _noShapeSize.y); } /** * Returns the old bounsd for the sprite from the previous frame */ const Common::Rect Object::getOldBounds() const { return Common::Rect(_oldPosition.x, _oldPosition.y, _oldPosition.x + _oldSize.x, _oldPosition.y + _oldSize.y); } /*----------------------------------------------------------------*/ void CAnim::synchronize(Common::SeekableReadStream &s) { char buffer[12]; s.read(buffer, 12); _name = Common::String(buffer); s.read(_sequences, 30); _position.x = s.readSint16LE(); _position.y = s.readSint16LE(); _size = s.readUint32LE(); _type = (SpriteType)s.readUint16LE(); _flags = s.readByte(); _goto.x = s.readSint16LE(); _goto.y = s.readSint16LE(); _gotoDir = s.readSint16LE(); _teleportPos.x = s.readSint16LE(); _teleportPos.y = s.readSint16LE(); _teleportDir = s.readSint16LE(); } /*----------------------------------------------------------------*/ SceneImage::SceneImage() { _images = nullptr; _maxFrames = 0; _filesize = 0; } } // End of namespace Sherlock