void Element::adjustPosition(Manifold* collidingObjectManifold) {
const qreal percent = .5;
const qreal slop = .05;
qreal correction_x = std::max<qreal>(collidingObjectManifold->penetration, slop) / (this->getInvWeight() + collidingObjectManifold->second_object->getInvWeight()) * percent * collidingObjectManifold->normal_x;
qreal correction_y = std::max<qreal>(collidingObjectManifold->penetration, slop) / (this->getInvWeight() + collidingObjectManifold->second_object->getInvWeight()) * percent * collidingObjectManifold->normal_y;
setPosX(x() - this->getInvWeight() * correction_x);
setPosY(y() - this->getInvWeight() * correction_y);
}
Unit::Unit(float pos_x, float pos_y, std::string name) :
EntityAction(pos_x, pos_y, UNIT_INV_CAP)
{
setSprite( new Sprite(pos_x, pos_y, UNIT_CLICK_WIDTH, UNIT_CLICK_HEIGHT, UNIT_CLICK_OFFSET_X, UNIT_CLICK_OFFSET_Y) );
setPosX(pos_x);
setPosY(pos_y);
setName(name);
setDead(false);
}
IElement::IElement(unsigned int hp, unsigned int posX ,unsigned int posY, unsigned int sizeX, unsigned int sizeY, int speed, std::string* skin){
setHp(hp);
setPosX(posX);
setPosY(posY);
setSizeX(sizeX);
setSizeY(sizeY);
setSpeed(speed);
setSkin(skin);
return ;
}
void Settings::readSettings()
{
setLanguage(value(KEY_LANGUAGE, defaultValue(KEY_LANGUAGE)).toString());
setPlaylist(value(KEY_PLAYLIST, defaultValue(KEY_PLAYLIST)).toString());
setPlaylistUpdate(value(KEY_PLAYLIST_UPDATE, defaultValue(KEY_PLAYLIST_UPDATE)).toBool());
setPlaylistUpdateUrl(value(KEY_PLAYLIST_UPDATE_URL, defaultValue(KEY_PLAYLIST_UPDATE_URL)).toString());
setRadioCategory(value(KEY_RADIO_CATEGORY, defaultValue(KEY_RADIO_CATEGORY)).toString());
setHdCategory(value(KEY_HD_CATEGORY, defaultValue(KEY_HD_CATEGORY)).toString());
setUdpxy(value(KEY_UDPXY, defaultValue(KEY_UDPXY)).toBool());
setUdpxyUrl(value(KEY_UDPXY_URL, defaultValue(KEY_UDPXY_URL)).toString());
setUdpxyPort(value(KEY_UDPXY_PORT, defaultValue(KEY_UDPXY_PORT)).toInt());
setWidth(value(KEY_WIDTH, defaultValue(KEY_WIDTH)).toInt());
setHeight(value(KEY_HEIGHT, defaultValue(KEY_HEIGHT)).toInt());
setPosX(value(KEY_POS_X, defaultValue(KEY_POS_X)).toInt());
setPosY(value(KEY_POS_Y, defaultValue(KEY_POS_Y)).toInt());
setOsd(value(KEY_OSD, defaultValue(KEY_OSD)).toBool());
setTrayEnabled(value(KEY_TRAY_ENABLED, defaultValue(KEY_TRAY_ENABLED)).toBool());
setHideToTray(value(KEY_HIDE_TO_TRAY, defaultValue(KEY_HIDE_TO_TRAY)).toBool());
setMouseWheel(value(KEY_MOUSE_WHEEL, defaultValue(KEY_MOUSE_WHEEL)).toString());
setRememberGuiSession(value(KEY_REMEMBER_GUI_SESSION, defaultValue(KEY_REMEMBER_GUI_SESSION)).toBool());
setIcons(value(KEY_ICONS, defaultValue(KEY_ICONS)).toString());
setVout(value(KEY_VOUT, defaultValue(KEY_VOUT)).toInt());
setAout(value(KEY_AOUT, defaultValue(KEY_AOUT)).toInt());
setYuvToRgb(value(KEY_YUV_TO_RGB, defaultValue(KEY_MUTE_ON_MINIMIZE)).toBool());
setSpdif(value(KEY_SPDIF, defaultValue(KEY_SPDIF)).toBool());
setRememberVideoSettings(value(KEY_REMEMBER_VIDEO_SETTINGS, defaultValue(KEY_REMEMBER_VIDEO_SETTINGS)).toBool());
setRememberVideoPerChannel(value(KEY_REMEMBER_VIDEO_PER_CHANNEL, defaultValue(KEY_REMEMBER_VIDEO_PER_CHANNEL)).toBool());
setAspectRatio(value(KEY_ASPECT_RATIO, defaultValue(KEY_ASPECT_RATIO)).toInt());
setCropRatio(value(KEY_CROP_RATIO, defaultValue(KEY_CROP_RATIO)).toInt());
setDeinterlacing(value(KEY_DEINTERLACING, defaultValue(KEY_DEINTERLACING)).toInt());
setAudioLanguage(value(KEY_AUDIO_LANGUAGE, defaultValue(KEY_AUDIO_LANGUAGE)).toString());
setSubtitleLanguage(value(KEY_SUBTITLE_LANGUAGE, defaultValue(KEY_SUBTITLE_LANGUAGE)).toString());
setMuteOnMinimize(value(KEY_MUTE_ON_MINIMIZE, defaultValue(KEY_MUTE_ON_MINIMIZE)).toBool());
setTeletext(value(KEY_TELETEXT, defaultValue(KEY_TELETEXT)).toBool());
setRecorderDirectory(value(KEY_RECORDER_DIRECTORY, defaultValue(KEY_RECORDER_DIRECTORY)).toString());
setSnapshotsDirectory(value(KEY_SNAPSHOTS_DIRECTORY, defaultValue(KEY_SNAPSHOTS_DIRECTORY)).toString());
setSessionAutoplay(value(KEY_SESSION_AUTOPLAY, defaultValue(KEY_SESSION_AUTOPLAY)).toBool());
setSessionChannel(value(KEY_SESSION_CHANNEL, defaultValue(KEY_SESSION_CHANNEL)).toInt());
setSessionRememberVolume(value(KEY_SESSION_REMEMBER_VOLUME, defaultValue(KEY_SESSION_REMEMBER_VOLUME)).toBool());
setSessionVolume(value(KEY_SESSION_VOLUME, defaultValue(KEY_SESSION_VOLUME)).toInt());
setXmltvUpdate(value(KEY_XMLTV_UPDATE, defaultValue(KEY_XMLTV_UPDATE)).toBool());
setXmltvUpdateLocation(value(KEY_XMLTV_UPDATE_LOCATION, defaultValue(KEY_XMLTV_UPDATE_LOCATION)).toString());
setXmltvUpdateRemote(value(KEY_XMLTV_UPDATE_REMOTE, defaultValue(KEY_XMLTV_UPDATE_REMOTE)).toBool());
}
Sprite::Sprite(float x, float y, float click_w, float click_h, float click_offset_x, float click_offset_y, float scale)
{
//click w and h define the width and height of click collide rect, offset are pos corrections
mFilename = "res/images/iso/map/0.png";
setPosX(x);
setPosY(y);
mRenderer = nullptr;
mWindow = nullptr;
setClickHeight(click_h);
setClickWidth(click_w);
setClickOffsetX(click_offset_x);
setClickOffsetY(click_offset_y);
setScale(scale);
}
Bomb::Bomb(int _X, int _Y): Sprites("Balst.png",3 , 5){
//set fuse animation loop
loopMode(true, 0 ,5);
setWH(20 ,20);
//this is a blastlet
setBlast(true);
//initialises the objects member variables
setPosX(_X);
setPosY(_Y);
setPos(getPosX(), getPosY());
}
TextLine::TextLine(float x, float y, float w, float h, std::string message, TextMaker * maker)
{
mTexture = nullptr;
setPosX(x);
setPosY(y);
setWidth(w);
setHeight(h);
setTextMaker(maker);
//loadText(message);
setText(message);
setActive(false);
}
void Entity::load(QXmlStreamReader *xml)
{
setPosX(xml->attributes().value("x").toString().toInt());
setPosY(xml->attributes().value("y").toString().toInt());
setPosZ(xml->attributes().value("z").toString().toInt());
setTexX(xml->attributes().value("tx").toString().toFloat());
setTexY(xml->attributes().value("ty").toString().toFloat());
setAngle(xml->attributes().value("angle").toString().toInt());
setWidth(xml->attributes().value("width").toString().toInt());
setHeight(xml->attributes().value("height").toString().toInt());
tex = TexturesManager::getInstance()->getTexture(xml->attributes().value("texture").toString());
xml->skipCurrentElement();
xml->readNext();
}
Sprite::Sprite(std::string filename, float x, float y, SDL_Renderer *renderer, SDL_Window *window, float scale)
{
mTexture = nullptr;
mRenderer = nullptr;
mWindow = nullptr;
mTexture = loadTexture(filename, renderer, true);
mRenderer = renderer;
mWindow = window;
setPosX(x);
setPosY(y);
setScale(scale);
//SDL_Rect * mRect = new SDL_Rect()
}
Bomb::Bomb(int _X, int _Y, int _F, int _T): Sprites("Balst.png",3 , 5){
//set fuse animation loop
loopMode(true, 10 ,15);
//initialises the objects member variables
setPosX(_X);
setPosY(_Y);
setPos(getPosX(), getPosY());
setBombTicks(_T);
setFlame(_F);
setWH(20 ,20);
//not used yet
setUsed(false);
//not igniting
setIgnite(false);
//is a bomb not a blast
setBlast(false);
}
void LVL_Npc::update(float tickTime)
{
float accelCof=tickTime/1000.0f;
if(killed) return;
if(wasDeactivated) return;
_onGround = !collided_bottom.isEmpty();
if(isGenerator)
{
updateCollisions();
activationTimeout-=tickTime;
updateGenerator(tickTime);
return;
}
event_queue.processEvents(tickTime);
if(warpSpawing)
{
setSpeed(0.0, 0.0);
return;
}
PGE_Phys_Object::update(tickTime);
if(deActivatable) activationTimeout-=tickTime;
animator.manualTick(tickTime);
if(motionSpeed!=0)
{
if(!collided_left.isEmpty())
setDirection(1);
else if(!collided_right.isEmpty())
setDirection(-1);
else if(setup->turn_on_cliff_detect && cliffDetected)
{
setDirection(_direction*-1);
cliffDetected=false;
}
setSpeedX((motionSpeed*accelCof)*_direction);
}
if(not_movable())
{
detector_player_pos.processDetector();
if(detector_player_pos.directedTo()!=0)
setDirection(detector_player_pos.directedTo());
}
LVL_Section *section=sct();
PGE_RectF sBox = section->sectionRect();
if(section->isWarp())
{
if(posX()<sBox.left()-_width-1 )
setPosX(sBox.right()-1);
else if(posX()>sBox.right() + 1 )
setPosX(sBox.left()-_width+1);
}
for(int i=0; i<detectors.size(); i++)
detectors[i]->processDetector();
try {
lua_onLoop(tickTime);
} catch (luabind::error& e) {
LvlSceneP::s->getLuaEngine()->postLateShutdownError(e);
}
}
void LVL_Player::update(float ticks)
{
if(isLocked) return;
if(!_isInited) return;
if(!camera) return;
LVL_Section* section = sct();
if(!section) return;
event_queue.processEvents(ticks);
if((isWarping) || (!isAlive))
{
animator.tickAnimation(ticks);
updateCamera();
return;
}
_onGround = !foot_contacts_map.isEmpty();
on_slippery_surface = !foot_sl_contacts_map.isEmpty();
bool climbableUp = !climbable_map.isEmpty();
bool climbableDown= climbableUp && !_onGround;
climbing = (climbableUp && climbing && !_onGround && (posRect.center().y()>=(climbableHeight-physics_cur.velocity_climb_y_up)) );
if(_onGround)
{
phys_setup.decelerate_x =
(fabs(speedX())<=physics_cur.MaxSpeed_walk)?
(on_slippery_surface?physics_cur.decelerate_stop/physics_cur.slippery_c : physics_cur.decelerate_stop):
(on_slippery_surface?physics_cur.decelerate_run/physics_cur.slippery_c : physics_cur.decelerate_run);
if(physics_cur.strict_max_speed_on_ground)
{
if((speedX()>0)&&(speedX()>phys_setup.max_vel_x))
setSpeedX(phys_setup.max_vel_x);
else
if((speedX()<0)&&(speedX()<phys_setup.min_vel_x))
setSpeedX(phys_setup.min_vel_x);
}
}
else
phys_setup.decelerate_x = physics_cur.decelerate_air;
if(doKill)
{
doKill=false;
isAlive = false;
setPaused(true);
LvlSceneP::s->checkPlayers();
return;
}
if(climbing)
{
PGE_Phys_Object* climbableItem = static_cast<PGE_Phys_Object*>((void*)(intptr_t)climbable_map[climbable_map.keys().first()]);
if(climbableItem)
{
_velocityX_add=climbableItem->speedX();
_velocityY_add=climbableItem->speedY();
} else
{
_velocityX_add=0.0f;
_velocityY_add=0.0f;
}
if(gscale_Backup != 1)
{
setGravityScale(0);
gscale_Backup = 1;
}
}
else
{
if(gscale_Backup != 0.f)
{
setGravityScale(physics_cur.gravity_scale);
gscale_Backup = 0.f;
}
}
if(climbing)
{
setSpeed(0,0);
}
if(environments_map.isEmpty())
{
if(last_environment!=section->getPhysicalEnvironment() )
{
environment = section->getPhysicalEnvironment();
}
}
else
{
int newEnv = section->getPhysicalEnvironment();
foreach(int x, environments_map)
{
newEnv = x;
}
if(last_environment != newEnv)
{
qDebug()<<"Enter to environment" << newEnv;
environment = newEnv;
}
}
refreshEnvironmentState();
if(_onGround)
{
if(!floating_isworks)
{
floating_timer=floating_maxtime;
}
}
//Running key
if(keys.run)
{
if(!_isRunning)
{
phys_setup.max_vel_x = physics_cur.MaxSpeed_run;
phys_setup.min_vel_x = -physics_cur.MaxSpeed_run;
_isRunning=true;
}
}
else
{
if(_isRunning)
{
phys_setup.max_vel_x = physics_cur.MaxSpeed_walk;
phys_setup.min_vel_x = -physics_cur.MaxSpeed_walk;
_isRunning=false;
}
}
if((physics_cur.ground_c_max!=1.0f))
{
phys_setup.max_vel_x = fabs(_isRunning ?
physics_cur.MaxSpeed_run :
physics_cur.MaxSpeed_walk) *(_onGround?physics_cur.ground_c_max:1.0f);
phys_setup.min_vel_x = -fabs(_isRunning ?
physics_cur.MaxSpeed_run :
physics_cur.MaxSpeed_walk) *(_onGround?physics_cur.ground_c_max:1.0f);
}
if(keys.alt_run)
{
if(attack_enabled && !attack_pressed && !climbing)
{
attack_pressed=true;
if(keys.up)
attack(Attack_Up);
else
if(keys.down)
attack(Attack_Down);
else
{
attack(Attack_Forward);
PGE_Audio::playSoundByRole(obj_sound_role::PlayerTail);
animator.playOnce(MatrixAnimator::RacoonTail, _direction, 75, true, true, 1);
}
}
}
else
{
if(attack_pressed) attack_pressed=false;
}
//if
if(!keys.up && !keys.down && !keys.left && !keys.right)
{
if(wasEntered)
{
wasEntered = false;
wasEnteredTimeout=0;
}
}
//Reset state
if(wasEntered)
{
wasEnteredTimeout-=ticks;
if(wasEnteredTimeout<0)
{
wasEnteredTimeout=0;
wasEntered=false;
}
}
if(keys.up)
{
if(climbableUp&&(jumpTime<=0))
{
setDuck(false);
climbing=true;
floating_isworks=false;//!< Reset floating on climbing start
}
if(climbing)
{
if(posRect.center().y() >= climbableHeight)
setSpeedY(-physics_cur.velocity_climb_y_up);
}
}
if(keys.down)
{
if( climbableDown && (jumpTime<=0) )
{
setDuck(false);
climbing=true;
floating_isworks=false;//!< Reset floating on climbing start
}
else
{
if((duck_allow & !ducking)&&( (animator.curAnimation()!=MatrixAnimator::RacoonTail) ) )
{
setDuck(true);
}
}
if(climbing)
{
setSpeedY(physics_cur.velocity_climb_y_down);
}
}
else
{
if(ducking)
setDuck(false);
}
if( (!keys.left) || (!keys.right) )
{
bool turning=(((speedX()>0)&&(_direction<0))||((speedX()<0)&&(_direction>0)));
float force = turning?
physics_cur.decelerate_turn :
(fabs(speedX())>physics_cur.MaxSpeed_walk)?physics_cur.run_force : physics_cur.walk_force;
if(on_slippery_surface) force=force/physics_cur.slippery_c;
else if((_onGround)&&(physics_cur.ground_c!=1.0f)) force=force*physics_cur.ground_c;
if(keys.left) _direction=-1;
if(keys.right) _direction=1;
if(!ducking || !_onGround)
{
//If left key is pressed
if(keys.right && collided_right.isEmpty())
{
if(climbing)
setSpeedX(physics_cur.velocity_climb_x);
else
applyAccel(force, 0);
}
//If right key is pressed
if(keys.left && collided_left.isEmpty())
{
if(climbing)
setSpeedX(-physics_cur.velocity_climb_x);
else
applyAccel(-force, 0);
}
}
}
if( keys.alt_jump )
{
//Temporary it is ability to fly up!
if(!bumpDown && !bumpUp) {
setSpeedY(-physics_cur.velocity_jump);
}
}
if( keys.jump )
{
if(!JumpPressed)
{
if(environment!=LVL_PhysEnv::Env_Water)
{ if(climbing || _onGround || (environment==LVL_PhysEnv::Env_Quicksand))
PGE_Audio::playSoundByRole(obj_sound_role::PlayerJump); }
else
PGE_Audio::playSoundByRole(obj_sound_role::PlayerWaterSwim);
}
if((environment==LVL_PhysEnv::Env_Water)||(environment==LVL_PhysEnv::Env_Quicksand))
{
if(!JumpPressed)
{
if(environment==LVL_PhysEnv::Env_Water)
{
if(!ducking) animator.playOnce(MatrixAnimator::SwimUp, _direction, 75);
}
else
if(environment==LVL_PhysEnv::Env_Quicksand)
{
if(!ducking) animator.playOnce(MatrixAnimator::JumpFloat, _direction, 64);
}
JumpPressed=true;
jumpTime = physics_cur.jump_time;
jumpVelocity=physics_cur.velocity_jump;
floating_timer = floating_maxtime;
setSpeedY(speedY()-jumpVelocity);
}
}
else
if(!JumpPressed)
{
JumpPressed=true;
if(_onGround || climbing)
{
climbing=false;
jumpTime=physics_cur.jump_time;
jumpVelocity=physics_cur.velocity_jump;
floating_timer = floating_maxtime;
setSpeedY(-jumpVelocity-fabs(speedX()/physics_cur.velocity_jump_c));
}
else
if((floating_allow)&&(floating_timer>0))
{
floating_isworks=true;
//if true - do floating with sin, if false - do with cos.
floating_start_type=(speedY()<0);
setSpeedY(0);
setGravityScale(0);
}
}
else
{
if(jumpTime>0)
{
jumpTime -= ticks;
setSpeedY(-jumpVelocity-fabs(speedX()/physics_cur.velocity_jump_c));
}
if(floating_isworks)
{
floating_timer -= ticks;
if(floating_start_type)
setSpeedY( state_cur.floating_amplitude*(-cos(floating_timer/80.0)) );
else
setSpeedY( state_cur.floating_amplitude*(cos(floating_timer/80.0)) );
if(floating_timer<=0)
{
floating_timer=0;
floating_isworks=false;
setGravityScale(climbing?0:physics_cur.gravity_scale);
}
}
}
}
else
{
jumpTime=0;
if(JumpPressed)
{
JumpPressed=false;
if(floating_allow)
{
if(floating_isworks)
{
floating_timer=0;
floating_isworks=false;
setGravityScale(climbing?0:physics_cur.gravity_scale);
}
}
}
}
refreshAnimation();
animator.tickAnimation(ticks);
PGE_RectF sBox = section->sectionLimitBox();
//Return player to start position on fall down
if( posY() > sBox.bottom()+_height )
{
kill(DEAD_fall);
}
if(bumpDown)
{
bumpDown=false;
jumpTime=0;
setSpeedY(bumpVelocity);
}
else
if(bumpUp)
{
bumpUp=false;
if(keys.jump)
{
jumpTime=bumpJumpTime;
jumpVelocity=bumpJumpVelocity;
}
setSpeedY( (keys.jump ?
(-fabs(bumpJumpVelocity)-fabs(speedX()/physics_cur.velocity_jump_c)):
-fabs(bumpJumpVelocity)) );
}
//Connection of section opposite sides
if(isExiting) // Allow walk offscreen if exiting
{
if((posX() < sBox.left()-_width-1 )||(posX() > sBox.right() + 1 ))
{
setGravityScale(0.0);//Prevent falling [we anyway exited from this level, isn't it?]
setSpeedY(0.0);
}
if(keys.left||keys.right)
{
if((environment==LVL_PhysEnv::Env_Water)||(environment==LVL_PhysEnv::Env_Quicksand))
{
keys.run=true;
if(_exiting_swimTimer<0 && !keys.jump)
keys.jump=true;
else
if(_exiting_swimTimer<0 && keys.jump)
{
keys.jump=false; _exiting_swimTimer=(environment==LVL_PhysEnv::Env_Quicksand)? 1 : 500;
}
_exiting_swimTimer-= ticks;
} else keys.run=false;
}
}
else
if(section->isWarp())
{
if(posX() < sBox.left()-_width-1 )
setPosX( sBox.right()+1 );
else
if(posX() > sBox.right() + 1 )
setPosX( sBox.left()-_width-1 );
}
else
{
if(section->ExitOffscreen())
{
if(section->RightOnly())
{
if( posX() < sBox.left())
{
setPosX( sBox.left() );
setSpeedX(0.0);
}
}
if((posX() < sBox.left()-_width-1 ) || (posX() > sBox.right() + 1 ))
{
setLocked(true);
_no_render=true;
LvlSceneP::s->setExiting(1000, LvlExit::EXIT_OffScreen);
return;
}
}
else
{
//Prevent moving of player away from screen
if( posX() < sBox.left())
{
setPosX(sBox.left());
setSpeedX(0.0);
}
else
if( posX()+_width > sBox.right())
{
setPosX(sBox.right()-_width);
setSpeedX(0.0);
}
}
}
if(_stucked)
{
posRect.setX(posRect.x()-_direction*2);
applyAccel(0, 0);
}
processWarpChecking();
if(_doSafeSwitchCharacter) setCharacter(characterID, stateID);
try {
lua_onLoop();
} catch (luabind::error& e) {
LvlSceneP::s->getLuaEngine()->postLateShutdownError(e);
}
updateCamera();
}
void Ball::reset()
{
setPosX(4);
setPosY(3);
drop();
}
void Element::updateStateX(void) {
//accelerationX += 0;
this->setVelocityX(this->getVelocityX() + this->getAccelerationX() / 100);
setPosX(scenePos().x() + this->getVelocityX() * 10 / 100);
}
void Drawable::setPosition(float x, float y)
// Set position. Two coordinates.
{
setPosX(x);
setPosY(y);
}
