/* 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 "titanic/support/screen_manager.h" #include "titanic/star_control/star_view.h" #include "titanic/star_control/star_control.h" #include "titanic/star_control/star_field.h" #include "titanic/core/game_object.h" #include "titanic/messages/pet_messages.h" #include "titanic/titanic.h" namespace Titanic { CStarView::CStarView() : _camera((const CNavigationInfo *)nullptr), _owner(nullptr), _starField(nullptr), _videoSurface(nullptr), _hasReference(0), _photoSurface(nullptr), _homePhotoMask(nullptr), _field218(false), _showingPhoto(false) { CNavigationInfo data = { 0, 0, 100000.0, 0, 20.0, 1.0, 1.0, 1.0 }; _camera.proc3(&data); } void CStarView::load(SimpleFile *file, int param) { if (!param) { _camera.load(file, param); _hasReference = file->readNumber(); if (_hasReference) _photoViewport.load(file, 0); _field218 = file->readNumber(); _showingPhoto = file->readNumber(); } } void CStarView::save(SimpleFile *file, int indent) { _camera.save(file, indent); file->writeNumberLine(_hasReference, indent); if (_hasReference) _photoViewport.save(file, indent); file->writeNumberLine(_field218, indent); file->writeNumberLine(_showingPhoto, indent); } void CStarView::setup(CScreenManager *screenManager, CStarField *starField, CStarControl *starControl) { _starField = starField; _owner = starControl; } void CStarView::reset() { if (_hasReference) { CStarCamera camera(&_photoViewport); fn18(&camera); } } void CStarView::draw(CScreenManager *screenManager) { if (!screenManager || !_videoSurface || !_starField) return; if (_fader.isActive()) { CVideoSurface *surface = _showingPhoto ? _photoSurface : _videoSurface; surface = _fader.draw(screenManager, surface); screenManager->blitFrom(SURFACE_PRIMARY, surface); } else { Point destPos(20, 10); if (_showingPhoto) { if (_photoSurface) screenManager->blitFrom(SURFACE_PRIMARY, _photoSurface, &destPos); if (!_homePhotoMask && _owner) { _homePhotoMask = _owner->getHiddenObject("HomePhotoMask"); } if (_homePhotoMask) _homePhotoMask->draw(screenManager, Point(20, 187)); } else { fn1(); // Render the display _videoSurface->clear(); _videoSurface->lock(); _starField->render(_videoSurface, &_camera); _videoSurface->unlock(); // Blit the resulting surface to the screen screenManager->blitFrom(SURFACE_PRIMARY, _videoSurface, &destPos); } } } bool CStarView::MouseButtonDownMsg(int flags, const Point &pt) { if (_starField) { return _starField->mouseButtonDown( _showingPhoto ? _photoSurface : _videoSurface, &_camera, flags, pt); } return false; } bool CStarView::MouseMoveMsg(int unused, const Point &pt) { if (!_showingPhoto && (_fader._index < 0 || _fader._count >= 0)) { FPoint fpt = pt; FPoint centerPt(300.0, 170.0); if (fpt != centerPt) { float threshold = MIN(centerPt._x, centerPt._y) * 0.5; FPoint tempPt = fpt - centerPt; float distance = tempPt.normalize(); if (distance >= threshold) { distance -= threshold; FPoint angle(tempPt._x * -2.0 * distance / threshold, tempPt._y * -2.0 * distance / threshold); _camera.setViewportAngle(angle); return true; } } } return false; } bool CStarView::KeyCharMsg(int key, CErrorCode *errorCode) { FPose pose; int matchedIndex = _starField ? _starField->getMatchedIndex() : -1; switch (tolower(key)) { case Common::KEYCODE_TAB: if (_starField) { toggleMode(); return true; } break; case Common::KEYCODE_l: { CPetControl *pet = _owner->getPetControl(); if (pet && pet->_remoteTarget) { CPETStarFieldLockMsg lockMsg(1); lockMsg.execute(pet->_remoteTarget); } return true; } case Common::KEYCODE_d: { CPetControl *pet = _owner->getPetControl(); if (pet && pet->_remoteTarget) { CPETStarFieldLockMsg lockMsg(0); lockMsg.execute(pet->_remoteTarget); } return true; } case Common::KEYCODE_z: case Common::KEYCODE_c: if (matchedIndex == -1) { pose.setRotationMatrix(key == Common::KEYCODE_z ? Y_AXIS : X_AXIS, 1.0); _camera.proc22(pose); _camera.updatePosition(errorCode); return true; } break; case Common::KEYCODE_SEMICOLON: if (matchedIndex == -1) { _camera.increaseSpeed(); errorCode->set(); return true; } break; case Common::KEYCODE_PERIOD: if (matchedIndex == -1) { _camera.decreaseSpeed(); errorCode->set(); return true; } break; case Common::KEYCODE_SPACE: if (matchedIndex == -1) { _camera.stop(); errorCode->set(); return true; } break; case Common::KEYCODE_x: if (matchedIndex == -1) { pose.setRotationMatrix(Y_AXIS, -1.0); _camera.proc22(pose); _camera.updatePosition(errorCode); return true; } break; case Common::KEYCODE_QUOTE: if (matchedIndex == -1) { pose.setRotationMatrix(X_AXIS, -1.0); _camera.proc22(pose); _camera.updatePosition(errorCode); return true; } break; case Common::KEYCODE_SLASH: if (matchedIndex == -1) { pose.setRotationMatrix(X_AXIS, 1.0); _camera.proc22(pose); _camera.updatePosition(errorCode); return true; } break; default: break; } return false; } bool CStarView::canSetStarDestination() const { return _camera.isMoved(); } void CStarView::starDestinationSet() { _camera.clearIsMoved(); } void CStarView::resetPosition() { _camera.setPosition(FVector(0.0, 0.0, 0.0)); } bool CStarView::fn1() { if (_videoSurface) { CErrorCode errorCode; _camera.updatePosition(&errorCode); if (_fader._index < 0 || _fader._index >= _fader._count) _starField->fn1(&errorCode); else errorCode.set(); return errorCode.get(); } return false; } void CStarView::fn2() { if (!_videoSurface) { CScreenManager *scrManager = CScreenManager::setCurrent(); if (scrManager) resizeSurface(scrManager, 600, 340, &_videoSurface); if (_videoSurface) { fn13(); fn19(244); draw(scrManager); } } } void CStarView::fn3(bool fadeIn) { _fader.reset(); _fader.setFadeIn(fadeIn); } void CStarView::fn4() { FVector v1, v2; randomizeVectors1(v1, v2); _camera.setPosition(v1); _camera.setOrientation(v2); } void CStarView::fn5() { _starField->set1(!_starField->get1()); } void CStarView::fn6() { _starField->set2(!_starField->get2()); } void CStarView::fn7() { const CBaseStarEntry *star = _starField->getRandomStar(); if (star) { FVector pos, orientation; randomizeVectors1(pos, orientation); pos += star->_position; _camera.setPosition(pos); _camera.setOrientation(orientation); } } void CStarView::fn19(int index) { const CBaseStarEntry *star = _starField->getStar(index); if (star) { FVector pos, orientation; randomizeVectors1(pos, orientation); pos += star->_position; _camera.setPosition(pos); _camera.setOrientation(orientation); } } void CStarView::fullSpeed() { _camera.fullSpeed(); } void CStarView::fn9() { _field218 = !_field218; if (_field218) { _camera.proc12(MODE_PHOTO, 30.0); _camera.proc12(MODE_STARFIELD, 28000.0); } else { _camera.proc12(MODE_PHOTO, 0.0); _camera.proc12(MODE_STARFIELD, 0.0); } } void CStarView::toggleMode() { if (!_photoSurface) return; _showingPhoto = !_showingPhoto; if (_starField) _starField->setMode(_showingPhoto ? MODE_PHOTO : MODE_STARFIELD); } void CStarView::fn11() { if (_starField) _starField->fn9(); } void CStarView::toggleBox() { if (_starField) _starField->toggleBox(); } void CStarView::fn13() { _field218 = true; _camera.proc12(MODE_PHOTO, 30.0); _camera.proc12(MODE_STARFIELD, 28000.0); } void CStarView::fn14() { _field218 = false; _camera.proc12(MODE_PHOTO, 0.0); _camera.proc12(MODE_STARFIELD, 0.0); } void CStarView::setHasReference() { FVector pos, orientation; getRandomPhotoViewpoint(pos, orientation); _photoViewport.setPosition(pos); _photoViewport.setOrientation(orientation); _field218 = false; _photoViewport.fn13(MODE_PHOTO, 0.0); _photoViewport.fn13(MODE_STARFIELD, 0.0); _hasReference = true; reset(); _field218 = true; } void CStarView::lockStar() { if (_starField && !_showingPhoto) { CSurfaceArea surfaceArea(_videoSurface); FVector v1, v2, v3; double val = _starField->fn5(&surfaceArea, &_camera, v1, v2, v3); if (val > -1.0) { v1 -= surfaceArea._centroid; v3 -= surfaceArea._centroid; switch (_starField->getMatchedIndex()) { case -1: // First star match _camera.lockMarker1(v1, v2, v3); _starField->incMatches(); break; case 0: // Second star match _camera.lockMarker2(&_photoViewport, v2); _starField->incMatches(); break; case 1: // Third star match _camera.lockMarker3(&_photoViewport, v2); _starField->incMatches(); break; default: break; } } } } void CStarView::unlockStar() { if (_starField && !_showingPhoto) { _camera.removeMatrixRow(); _starField->fn8(_photoSurface); } } void CStarView::fn18(CStarCamera *camera) { if (_starField) { if (!_photoSurface) { CScreenManager *scrManager = CScreenManager::setCurrent(); if (scrManager) resizeSurface(scrManager, 600, 340, &_photoSurface); } if (_photoSurface) { int oldVal = _starField->get54(); bool oldCrosshairs = _starField->setBoxVisible(false); // Render the starfield for the photograph view _photoSurface->clear(); _photoSurface->lock(); _starField->render(_photoSurface, camera); // Render any previously set crosshairs _starField->setBoxVisible(oldCrosshairs); _starField->set54(oldVal); _starField->fn6(_photoSurface, camera); _photoSurface->unlock(); } } } void CStarView::randomizeVectors1(FVector &pos, FVector &orientation) { /* ***DEBUG*** v1._x = 3072.0 - g_vm->getRandomFloat() * -4096.0; v1._y = 3072.0 - g_vm->getRandomFloat() * -4096.0; v1._z = 3072.0 - g_vm->getRandomFloat() * -4096.0; v2._x = -v1._x; v2._y = -v1._y; v2._z = -v1._z; v2.normalize(); */ // Values temporarily hardcoded to match hacked values in original EXE pos = FVector((float)69481544.0, (float)69481544.0, (float)69481544.0); orientation = FVector((float)-0.577350259, (float)-0.577350259, (float)-0.577350259); } void CStarView::getRandomPhotoViewpoint(FVector &pos, FVector &orientation) { /* ****DEBUG*** v1._x = 3072.0 - g_vm->getRandomFloat() * -4096.0; v1._y = 3072.0 - g_vm->getRandomFloat() * -4096.0; v1._z = 3072.0 - g_vm->getRandomFloat() * -4096.0; v2._x = g_vm->getRandomFloat() * 8192.0 - v1._x; v2._y = g_vm->getRandomFloat() * 1024.0 - v1._y; v2._z = -v1._z; v2.normalize(); */ // Values temporarily hardcoded to match hacked values in original EXE pos = FVector((float)69481544.0, (float)69481544.0, (float)69481544.0); orientation = FVector((float)0.624659300, (float)-0.468542814, (float)-0.624714553); } void CStarView::resizeSurface(CScreenManager *scrManager, int width, int height, CVideoSurface **surface) { if (!surface) // Surface pointer must be provided return; if (*surface) { // If there's an existing surface of the correct size, re-use it if ((*surface)->getWidth() == width && (*surface)->getHeight() == height) return; // Delete the old surface delete *surface; *surface = nullptr; } CVideoSurface *newSurface = scrManager->createSurface(width, height); if (newSurface) *surface = newSurface; } } // End of namespace Titanic