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	diff --git a/src/Block.cpp b/src/Block.cpp
	index fd12567..1e070e8 100644
	--- a/src/Block.cpp
	+++ b/src/Block.cpp
	@@ -1,1188 +1,1194 @@
	/*
	* Copyright (C) 2011-2013 Me and My Shadow
	*
	* This file is part of Me and My Shadow.
	*
	* Me and My Shadow 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 3 of the License, or
	* (at your option) any later version.
	*
	* Me And My Shadow 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 Me and My Shadow. If not, see <http://www.gnu.org/licenses/>.
	*/

	#include "Block.h"
	#include "Functions.h"
	#include "LevelEditor.h"
	#include <iostream>
	#include <stdlib.h>
	#include <stdio.h>
	#include <assert.h>
	using namespace std;

	Block::Block(Game* parent,int x,int y,int w,int h,int type):
	GameObject(parent),
	animation(0),
	flags(0),
	temp(0),
	dx(0),
	dy(0),
	movingPosTime(-1),
	speed(0),
	objCurrentStand(NULL),
	xVel(0), yVel(0),
	inAir(false), xVelBase(0), yVelBase(0),
	isDelete(false)
	{
	//Make sure the type is set, if not init should be called somewhere else with this information.
	if(type>=0 && type<TYPE_MAX)
	init(x,y,w,h,type);
	}

	Block::Block(const Block& other)
	: GameObject(other)
	, ScriptProxyUserClass(other)
	, animation(other.animation)
	, flags(other.flags)
	, temp(other.temp)
	, dx(other.dx), dy(other.dy)
	, movingPos(other.movingPos)
	, movingPosTime(-1)
	, speed(other.speed)
	, objCurrentStand(other.objCurrentStand)
	, customAppearanceName(other.customAppearanceName)
	, appearance(other.appearance)
	, xVel(other.xVel), yVel(other.yVel)
	, inAir(other.inAir), xVelBase(other.xVelBase), yVelBase(other.yVelBase)
	, id(other.id), destination(other.destination), message(other.message)
	, isDelete(other.isDelete)
	{
	auto se = parent->getScriptExecutor();
	if (se == NULL) return;

	lua_State *state = se->getLuaState();
	if (state == NULL) return;

	//Copy the compiledScripts.
	for (auto it = other.compiledScripts.begin(); it != other.compiledScripts.end(); ++it) {
	lua_rawgeti(state, LUA_REGISTRYINDEX, it->second);
	compiledScripts[it->first] = luaL_ref(state, LUA_REGISTRYINDEX);
	}
	}

	Block::~Block() {
	auto se = parent->getScriptExecutor();
	if (se == NULL) return;

	lua_State *state = se->getLuaState();
	if (state == NULL) return;

	//Delete the compiledScripts.
	for (auto it = compiledScripts.begin(); it != compiledScripts.end(); ++it) {
	luaL_unref(state, LUA_REGISTRYINDEX, it->second);
	}
	}

	int Block::getPathMaxTime() {
	if (movingPosTime < 0) {
	movingPosTime = 0;
	for (const SDL_Rect& p : movingPos) {
	movingPosTime += p.w;
	}
	}

	return movingPosTime;
	}

	void Block::init(int x,int y,int w,int h,int type){
	//First set the location and size of the box.
	//The default size is 50x50.
	box.x=boxBase.x=x;
	box.y=boxBase.y=y;
	box.w=boxBase.w=w;
	box.h=boxBase.h=h;

	//Set the type.
	this->type=type;

	//Some types need type specific code.
	if(type==TYPE_START_PLAYER){
	//This is the player start so set the player here.
	//We center the player, the player is 23px wide.
	parent->player.setLocation(box.x+(box.w-23)/2,box.y);
	parent->player.fx=box.x+(box.w-23)/2;
	parent->player.fy=box.y;
	}else if(type==TYPE_START_SHADOW){
	//This is the shadow start so set the shadow here.
	//We center the shadow, the shadow is 23px wide.
	parent->shadow.setLocation(box.x+(box.w-23)/2,box.y);
	parent->shadow.fx=box.x+(box.w-23)/2;
	parent->shadow.fy=box.y;
	}

	objCurrentStand=NULL;
	inAir=true;
	xVel=yVel=xVelBase=yVelBase=0;

	//And load the (default) appearance.
	objThemes.getBlock(type)->createInstance(&appearance);
	}

	void Block::show(SDL_Renderer& renderer){
	//Make sure we are visible.
	if ((flags & 0x80000000) != 0 && (stateID != STATE_LEVEL_EDITOR \|\| dynamic_cast<LevelEditor*>(parent)->isPlayMode()))
	return;

	//Check if the block is visible.
	if(checkCollision(camera,box)==true \|\| (stateID==STATE_LEVEL_EDITOR && checkCollision(camera,boxBase)==true)){
	//Some type of block needs additional state check.
	switch(type){
	case TYPE_CHECKPOINT:
	//Check if the checkpoint is last used.
	if(parent!=NULL && parent->objLastCheckPoint.get()==this){
	if(!temp) appearance.changeState("activated");
	temp=1;
	}else{
	if(temp) appearance.changeState("default");
	temp=0;
	}
	break;
	}

	//Always draw the base. (This is only supposed to show in editor.)
	appearance.drawState("base", renderer, boxBase.x - camera.x, boxBase.y - camera.y, boxBase.w, boxBase.h);

	//What we need to draw depends on the type of block.
	switch (type) {
	default:
	//Draw normal.
	appearance.draw(renderer, box.x - camera.x, box.y - camera.y, box.w, box.h);
	break;
	case TYPE_CONVEYOR_BELT:
	case TYPE_SHADOW_CONVEYOR_BELT:
	//Draw conveyor belt.
	if (animation) {
	// FIXME: ad-hoc code. Should add a new animation type in theme system.
	const int a = animation / 10;
	const SDL_Rect r = { box.x - camera.x, box.y - camera.y, box.w, box.h };
	appearance.draw(renderer, box.x - camera.x - 50 + a, box.y - camera.y, box.w + 50, box.h, &r);
	} else {
	appearance.draw(renderer, box.x - camera.x, box.y - camera.y, box.w, box.h);
	}
	break;
	}

	//Some types need to draw something on top of the base/default.
	switch(type){
	case TYPE_BUTTON:
	if(flags&4){
	if(animation<5) animation++;
	}else{
	if(animation>0) animation--;
	}
	appearance.drawState("button", renderer, box.x - camera.x, box.y - camera.y - 5 + animation, box.w, box.h);
	break;
	}

	//Draw some stupid icons during edit mode.
	if (stateID == STATE_LEVEL_EDITOR) {
	auto bmGUI = static_cast<LevelEditor*>(parent)->getGuiTexture();
	if (!bmGUI) {
	return;
	}

	int x = box.x - camera.x + 2;

	//Scripted blocks
	if (!scripts.empty() \|\| !compiledScripts.empty()) {
	const SDL_Rect r = { 0, 32, 16, 16 };
	const SDL_Rect dstRect = { x, box.y - camera.y + 2, 16, 16 };
	SDL_RenderCopy(&renderer, bmGUI.get(), &r, &dstRect);
	x += 16;
	}

	//Invisible blocks
	if (flags & 0x80000000) {
	const SDL_Rect r = { 16, 48, 16, 16 };
	const SDL_Rect dstRect = { x, box.y - camera.y + 2, 16, 16 };
	SDL_RenderCopy(&renderer, bmGUI.get(), &r, &dstRect);
	x += 16;
	}

	//Block with custom appearance
	if (!customAppearanceName.empty()) {
	const SDL_Rect r = { 48, 16, 16, 16 };
	const SDL_Rect dstRect = { x, box.y - camera.y + 2, 16, 16 };
	SDL_RenderCopy(&renderer, bmGUI.get(), &r, &dstRect);
	x += 16;
	}
	}
	}
	}

	SDL_Rect Block::getBox(int boxType){
	SDL_Rect r={0,0,0,0};
	switch(boxType){
	case BoxType_Base:
	return boxBase;
	case BoxType_Previous:
	r.x=box.x-dx;
	r.y=box.y-dy;
	r.w=box.w;
	r.h=box.h;
	return r;
	case BoxType_Delta:
	r.x=dx;
	r.y=dy;
	return r;
	case BoxType_Velocity:
	r.x=xVel;
	r.y=yVel;
	//NOTE: In case of the pushable block we sometimes need to substract one from the vertical velocity.
	//The yVel is set to one when it's resting, but should be handled as zero in collision.
	if(type==TYPE_PUSHABLE && !inAir)
	r.y=0;
	return r;
	case BoxType_Current:
	return box;
	}
	return r;
	}

	void Block::moveTo(int x,int y){
	//The block has moved so calculate the delta.
	//NOTE: Every delta is summed since they all happened within one frame and for collision/movement we need the resulting delta.
	int delta=(x-box.x);
	dx+=delta;
	xVel+=delta;
	delta=(y-box.y);
	dy+=delta;
	yVel+=delta;

	//And set the new location.
	box.x=x;
	box.y=y;
	}

	void Block::growTo(int w,int h){
	//The block has changed size
	//NOTE: Every delta is summed since they all happened within one frame and for collision/movement we need the resulting delta.
	int delta=(w-box.w);
	dx+=delta;
	xVel+=delta;
	delta=(h-box.h);
	dy+=delta;
	yVel+=delta;

	//And set the new location.
	box.w=w;
	box.h=h;
	}

	void Block::playAnimation(){
	switch(type){
	case TYPE_SWAP:
	appearance.changeState("activated");
	break;
	case TYPE_SWITCH:
	temp^=1;
	appearance.changeState(temp?"activated":"default");
	break;
	}
	}

	void Block::onEvent(int eventType){
	//Make sure we are visible, otherwise no events should be handled except for 'OnCreate'.
	if ((flags & 0x80000000) != 0 && eventType != GameObjectEvent_OnCreate)
	return;

	//Iterator used to check if the map contains certain entries.
	map<int,int>::iterator it;

	//Check if there's a script for the event.
	it=compiledScripts.find(eventType);
	if(it!=compiledScripts.end()){
	//There is a script so execute it and check return value.
	int ret=parent->getScriptExecutor()->executeScript(it->second,this);

	//Return value 1 means do default event process.
	//Other values are coming soon...
	if(ret!=1) return;
	}

	//Event handling.
	switch(eventType){
	case GameObjectEvent_PlayerWalkOn:
	switch(type){
	case TYPE_FRAGILE:
	if ((flags & 0x3) < 3) {
	flags++;
	const int f = flags & 0x3;
	const char* s = (f <= 0) ? "default" : ((f == 1) ? "fragile1" : ((f == 2) ? "fragile2" : "fragile3"));
	appearance.changeState(s);
	}
	break;
	}
	break;
	case GameObjectEvent_PlayerIsOn:
	switch(type){
	case TYPE_BUTTON:
	temp=1;
	break;
	}
	break;
	case GameObjectEvent_OnPlayerInteraction:
	switch (type) {
	case TYPE_SWITCH:
	//Make sure that the id isn't emtpy.
	if (!id.empty()) {
	parent->broadcastObjectEvent(0x10000 \| (flags & 3),
	-1, id.c_str());
	} else {
	cerr << "WARNING: invalid switch id!" << endl;
	}
	break;
	}
	break;
	case GameObjectEvent_OnToggle:
	switch(type){
	case TYPE_MOVING_BLOCK:
	case TYPE_MOVING_SHADOW_BLOCK:
	case TYPE_MOVING_SPIKES:
	case TYPE_CONVEYOR_BELT:
	case TYPE_SHADOW_CONVEYOR_BELT:
	flags^=1;
	break;
	case TYPE_PORTAL:
	appearance.changeState("activated");
	break;
	case TYPE_COLLECTABLE:
	appearance.changeState("inactive");
	flags\|=1;
	break;
	}
	break;
	case GameObjectEvent_OnSwitchOn:
	switch(type){
	case TYPE_MOVING_BLOCK:
	case TYPE_MOVING_SHADOW_BLOCK:
	case TYPE_MOVING_SPIKES:
	case TYPE_CONVEYOR_BELT:
	case TYPE_SHADOW_CONVEYOR_BELT:
	flags&=~1;
	break;
	case TYPE_EXIT:
	appearance.changeState("default");
	break;
	}
	break;
	case GameObjectEvent_OnSwitchOff:
	switch(type){
	case TYPE_MOVING_BLOCK:
	case TYPE_MOVING_SHADOW_BLOCK:
	case TYPE_MOVING_SPIKES:
	case TYPE_CONVEYOR_BELT:
	case TYPE_SHADOW_CONVEYOR_BELT:
	flags\|=1;
	break;
	case TYPE_EXIT:
	appearance.changeState("closed");
	break;
	}
	break;
	}
	}

	int Block::queryProperties(int propertyType,Player* obj){
	switch(propertyType){
	case GameObjectProperty_PlayerCanWalkOn:
	switch(type){
	case TYPE_BLOCK:
	case TYPE_MOVING_BLOCK:
	case TYPE_CONVEYOR_BELT:
	case TYPE_BUTTON:
	case TYPE_PUSHABLE:
	return 1;
	case TYPE_SHADOW_BLOCK:
	case TYPE_MOVING_SHADOW_BLOCK:
	case TYPE_SHADOW_CONVEYOR_BELT:
	if(obj!=NULL && obj->isShadow()) return 1;
	break;
	case TYPE_FRAGILE:
	if ((flags & 0x3) < 3) return 1;
	break;
	}
	break;
	case GameObjectProperty_IsSpikes:
	switch(type){
	case TYPE_SPIKES:
	case TYPE_MOVING_SPIKES:
	return 1;
	}
	break;
	case GameObjectProperty_Flags:
	return flags;
	break;
	default:
	break;
	}
	return 0;
	}

	void Block::getEditorData(std::vector<std::pair<std::string,std::string> >& obj){
	//Every block has an id.
	obj.push_back(pair<string,string>("id",id));

	//And visibility.
	obj.push_back(pair<string, string>("visible", (flags & 0x80000000) == 0 ? "1" : "0"));

	//And custom appearance.
	obj.push_back(pair<string, string>("appearance", customAppearanceName));

	//Block specific properties.
	switch(type){
	case TYPE_MOVING_BLOCK:
	case TYPE_MOVING_SHADOW_BLOCK:
	case TYPE_MOVING_SPIKES:
	{
	char s[64],s0[64];
	sprintf(s,"%d",(int)movingPos.size());
	obj.push_back(pair<string,string>("MovingPosCount",s));
	obj.push_back(pair<string,string>("activated",(flags&0x1)?"0":"1"));
	obj.push_back(pair<string,string>("loop",(flags&0x2)?"0":"1"));
	for(unsigned int i=0;i<movingPos.size();i++){
	sprintf(s0+1,"%u",i);
	sprintf(s,"%d",movingPos[i].x);
	s0[0]='x';
	obj.push_back(pair<string,string>(s0,s));
	sprintf(s,"%d",movingPos[i].y);
	s0[0]='y';
	obj.push_back(pair<string,string>(s0,s));
	sprintf(s,"%d",movingPos[i].w);
	s0[0]='t';
	obj.push_back(pair<string,string>(s0,s));
	}
	}
	break;
	case TYPE_CONVEYOR_BELT:
	case TYPE_SHADOW_CONVEYOR_BELT:
	{
	char s[64];
	obj.push_back(pair<string,string>("activated",(flags&0x1)?"0":"1"));
	sprintf(s,"%d",speed);
	obj.push_back(pair<string,string>("speed10",s));
	}
	break;
	case TYPE_PORTAL:
	obj.push_back(pair<string,string>("automatic",(flags&0x1)?"1":"0"));
	obj.push_back(pair<string,string>("destination",destination));
	break;
	case TYPE_BUTTON:
	case TYPE_SWITCH:
	{
	string s;
	switch(flags&0x3){
	case 1:
	s="on";
	break;
	case 2:
	s="off";
	break;
	default:
	s="toggle";
	break;
	}
	obj.push_back(pair<string,string>("behaviour",s));
	}
	break;
	case TYPE_NOTIFICATION_BLOCK:
	{
	string value=message;
	//Change \n with the characters '\n'.
	while(value.find('\n',0)!=string::npos){
	size_t pos=value.find('\n',0);
	value=value.replace(pos,1,"\\n");
	}

	obj.push_back(pair<string,string>("message",value));
	}
	break;
	case TYPE_FRAGILE:
	{
	char s[64];
	sprintf(s,"%d",flags&0x3);
	obj.push_back(pair<string,string>("state",s));
	}
	break;
	}
	}

	void Block::setEditorData(std::map<std::string,std::string>& obj){
	//Iterator used to check if the map contains certain entries.
	map<string,string>::iterator it;

	//Check if the data contains the appearance.
	it = obj.find("appearance");
	if (it != obj.end()) {
	std::string newAppearanceName;
	if (it->second.empty() \|\| it->second == std::string(Game::blockName[type]) + "_Scenery") {
	//Use the default appearance. (Do nothing since newAppearanceName is already empty)
	} else {
	//Use the custom appearance.
	newAppearanceName = it->second;
	}

	if (newAppearanceName != customAppearanceName) {
	//Try to find the custom appearance.
	ThemeBlock *themeBlock = NULL;
	if (!newAppearanceName.empty()) {
	themeBlock = objThemes.getScenery(newAppearanceName);
	if (themeBlock == NULL) {
	std::cerr << "ERROR: failed to load custom appearance '" << newAppearanceName << "' for block " << Game::blockName[type] << std::endl;
	}
	} else {
	themeBlock = objThemes.getBlock(type);
	if (themeBlock == NULL) {
	std::cerr << "ERROR: failed to load default appearance for block " << Game::blockName[type] << std::endl;
	}
	}

	if (themeBlock) {
	//Update the custom appearance name.
	customAppearanceName = newAppearanceName;

	//Recreate the theme block instance.
	themeBlock->createInstance(&appearance);

	//Do some block specific stuff,
	//e.g. reset the state according to block type,
	//or load some missing part of block states from default appearance.
	switch (type) {
	case TYPE_FRAGILE:
	{
	const int f = flags & 0x3;
	const char* s = (f == 0) ? "default" : ((f == 1) ? "fragile1" : ((f == 2) ? "fragile2" : "fragile3"));
	appearance.changeState(s);
	}
	break;
	case TYPE_BUTTON:
	if (appearance.blockStates.find("button") == appearance.blockStates.end()) {
	//Try to load the "button" state from default appearance
	ThemeBlockInstance defaultAppearance;
	objThemes.getBlock(type)->createInstance(&defaultAppearance);
	auto it = defaultAppearance.blockStates.find("button");
	if (it != defaultAppearance.blockStates.end() && it->second >= 0 && it->second < (int)defaultAppearance.states.size()) {
	appearance.states.push_back(defaultAppearance.states[it->second]);
	appearance.blockStates[it->first] = appearance.states.size() - 1;
	}
	}
	break;
	}
	}
	}
	}

	//Check if the data contains the id block.
	it=obj.find("id");
	if(it!=obj.end()){
	//Set the id of the block.
	id=obj["id"];
	}

	//Check if the data contains the visibility
	it = obj.find("visible");
	if (it != obj.end()) {
	//Set the visibility.
	const string& s = it->second;
	flags = (flags & ~0x80000000) \| ((s == "true" \|\| atoi(s.c_str())) ? 0 : 0x80000000);
	}

	//Block specific properties.
	switch(type){
	case TYPE_MOVING_BLOCK:
	case TYPE_MOVING_SHADOW_BLOCK:
	case TYPE_MOVING_SPIKES:
	{
	//Make sure that the editor data contains MovingPosCount.
	it=obj.find("MovingPosCount");
	if(it!=obj.end()){
	char s0[64];
	int m=atoi(obj["MovingPosCount"].c_str());
	movingPos.clear();
	for(int i=0;i<m;i++){
	SDL_Rect r={0,0,0,0};
	sprintf(s0+1,"%d",i);
	s0[0]='x';
	r.x=atoi(obj[s0].c_str());
	s0[0]='y';
	r.y=atoi(obj[s0].c_str());
	s0[0]='t';
	r.w=atoi(obj[s0].c_str());
	movingPos.push_back(r);
	}
	}

	//Check if the activated or disabled key is in the data.
	//NOTE: 'disabled' is obsolete in V0.5.
	it=obj.find("activated");
	if(it!=obj.end()){
	const string& s=it->second;
	flags&=~0x1;
	if(!(s=="true" \|\| atoi(s.c_str()))) flags\|=0x1;
	}else{
	it=obj.find("disabled");
	if(it!=obj.end()){
	const string& s=it->second;
	flags&=~0x1;
	if(s=="true" \|\| atoi(s.c_str())) flags\|=0x1;
	}
	}

	//Check if the loop key is in the data.
	it=obj.find("loop");
	if(it!=obj.end()){
	const string& s=it->second;
	flags \|= 0x2;
	if (s == "true" \|\| atoi(s.c_str())) flags &= ~0x2;
	}

	}
	break;
	case TYPE_CONVEYOR_BELT:
	case TYPE_SHADOW_CONVEYOR_BELT:
	{
	//Check if there's a speed key in the editor data.
	//NOTE: 'speed' is obsolete in V0.5.
	it=obj.find("speed10");
	if(it!=obj.end()){
	speed=atoi(it->second.c_str());
	}else{
	it = obj.find("speed");
	if (it != obj.end()){
	speed = atoi(it->second.c_str()) * 10;
	}
	}

	//Check if the activated or disabled key is in the data.
	//NOTE: 'disabled' is obsolete in V0.5.
	it=obj.find("activated");
	if(it!=obj.end()){
	const string& s=it->second;
	flags&=~0x1;
	if(!(s=="true" \|\| atoi(s.c_str()))) flags\|=0x1;
	}else{
	it=obj.find("disabled");
	if(it!=obj.end()){
	const string& s=it->second;
	flags&=~0x1;
	if(s=="true" \|\| atoi(s.c_str())) flags\|=0x1;
	}
	}
	}
	break;
	case TYPE_PORTAL:
	{
	//Check if the automatic key is in the data.
	it=obj.find("automatic");
	if(it!=obj.end()){
	const string& s=it->second;
	flags&=~0x1;
	if(s=="true" \|\| atoi(s.c_str())) flags\|=0x1;
	}

	//Check if the destination key is in the data.
	it=obj.find("destination");
	if(it!=obj.end()){
	destination=it->second;
	}
	}
	break;
	case TYPE_BUTTON:
	case TYPE_SWITCH:
	{
	//Check if the behaviour key is in the data.
	it=obj.find("behaviour");
	if(it!=obj.end()){
	const string& s=it->second;
	flags&=~0x3;
	if(s=="on" \|\| s==_("On")) flags\|=1;
	else if(s=="off" \|\| s==_("Off")) flags\|=2;
	}
	}
	break;
	case TYPE_NOTIFICATION_BLOCK:
	{
	//Check if the message key is in the data.
	it=obj.find("message");
	if(it!=obj.end()){
	message=it->second;
	//Change the characters '\n' to a real \n
	while(message.find("\\n")!=string::npos){
	message=message.replace(message.find("\\n"),2,"\n");
	}
	}
	}
	break;
	case TYPE_FRAGILE:
	{
	//Check if the status is in the data.
	it=obj.find("state");
	if(it!=obj.end()){
	flags=(flags&~0x3)\|(atoi(it->second.c_str())&0x3);

	const int f = flags & 0x3;
	const char* s=(f==0)?"default":((f==1)?"fragile1":((f==2)?"fragile2":"fragile3"));
	appearance.changeState(s);
	}
	}
	break;
	}
	}

	std::string Block::getEditorProperty(const std::string& property){
	//First get the complete editor data.
	vector<pair<string,string> > objMap;
	vector<pair<string,string> >::iterator it;
	getEditorData(objMap);

	//Loop through the entries.
	for(it=objMap.begin();it!=objMap.end();++it){
	if(it->first==property)
	return it->second;
	}

	//Nothing found.
	return "";
	}

	void Block::setEditorProperty(const std::string& property, const std::string& value){
	//Create a map to hold the property.
	std::map<std::string,std::string> editorData;
	editorData[property]=value;

	//And call the setEditorData method.
	setEditorData(editorData);
	}

	bool Block::loadFromNode(ImageManager&, SDL_Renderer&, TreeStorageNode* objNode){
	//Make sure there are enough parameters.
	if(objNode->value.size()<3)
	return false;

	//Load the type and location.
	int type = 0;
	{
	auto it = Game::blockNameMap.find(objNode->value[0]);
	if (it != Game::blockNameMap.end()) {
	type = it->second;
	} else {
	cerr << "WARNING: Unknown block type '" << objNode->value[0] << "'!" << endl;
	}
	}
	int x=atoi(objNode->value[1].c_str());
	int y=atoi(objNode->value[2].c_str());
	int w=50;
	int h=50;
	if(objNode->value.size()>3)
	w=atoi(objNode->value[3].c_str());
	if(objNode->value.size()>4)
	h=atoi(objNode->value[4].c_str());
	//Call the init method.
	init(x,y,w,h,type);

	//Loop through the attributes as editorProperties.
	map<string,string> obj;
	for(map<string,vector<string> >::iterator i=objNode->attributes.begin();i!=objNode->attributes.end();++i){
	if(i->second.size()>0) obj[i->first]=i->second[0];
	}
	setEditorData(obj);

	//Loop through the subNodes.
	for(unsigned int i=0;i<objNode->subNodes.size();i++){
	//FIXME: Ugly variable naming.
	TreeStorageNode* obj=objNode->subNodes[i];
	if(obj==NULL) continue;

	//Check for a script block.
	if(obj->name=="script" && !obj->value.empty()){
	map<string,int>::iterator it=Game::gameObjectEventNameMap.find(obj->value[0]);
	if(it!=Game::gameObjectEventNameMap.end()){
	int eventType=it->second;
	const std::string& script=obj->attributes["script"][0];
	if(!script.empty()) scripts[eventType]=script;
	}
	}
	}

	return true;
	}

	void Block::move(){
	bool isPlayMode = stateID != STATE_LEVEL_EDITOR \|\| dynamic_cast<LevelEditor*>(parent)->isPlayMode();

	//Make sure we are visible, if not return.
	if ((flags & 0x80000000) != 0 && isPlayMode)
	return;

	//First update the animation of the appearance.
	appearance.updateAnimation();

	//Block specific move code.
	switch(type){
	case TYPE_MOVING_BLOCK:
	case TYPE_MOVING_SHADOW_BLOCK:
	case TYPE_MOVING_SPIKES:
	//Only move block when we are in play mode.
	if (isPlayMode) {
	//Make sure the block is enabled, if so increase the time.
	if(!(flags&0x1)) temp++;
	int t=temp;
	SDL_Rect r0={0,0,0,0},r1;
	dx=0;
	dy=0;

	//Loop through the moving positions.
	for(unsigned int i=0;i<movingPos.size();i++){
	r1.x=movingPos[i].x;
	r1.y=movingPos[i].y;
	r1.w=movingPos[i].w;
	if(t==0&&r1.w==0){ // time == 0 means the block deactivates at this point automatically
	r1.w=1;
	flags\|=0x1;
	}
	if(t>=0 && t<(int)r1.w){
	int newX=boxBase.x+(int)(float(r0.x)+(float(r1.x)-float(r0.x))*float(t)/float(r1.w));
	int newY=boxBase.y+(int)(float(r0.y)+(float(r1.y)-float(r0.y))*float(t)/float(r1.w));
	//Calculate the delta and velocity.
	xVel=dx=newX-box.x;
	yVel=dy=newY-box.y;
	//Set the new location of the moving block.
	box.x=newX;
	box.y=newY;
	return;
	} else if (t == (int)r1.w && i == movingPos.size() - 1) {
	//If the time is the time of the movingPosition then set it equal to the location.
	//We do this to prevent a slight edge between normal blocks and moving blocks.
	int newX=boxBase.x+r1.x;
	int newY=boxBase.y+r1.y;
	xVel=dx=newX-box.x;
	yVel=dy=newY-box.y;
	box.x=newX;
	box.y=newY;
	return;
	}
	t-=r1.w;
	r0.x=r1.x;
	r0.y=r1.y;
	}
	//Only reset the stuff when we're looping.
	if((flags & 0x2) == 0){
	//Set the time back to zero.
	temp=0;
	//Calculate the delta movement.
	if(!movingPos.empty() && movingPos.back().x==0 && movingPos.back().y==0){
	dx=boxBase.x-box.x;
	dy=boxBase.y-box.y;
	}
	//Set the movingblock back to it's initial location.
	box.x=boxBase.x;
	box.y=boxBase.y;
	} else {
	//Reached the end, but not looping
	xVel=yVel=dx=dy=0;
	}
	}
	break;
	case TYPE_BUTTON:
	//Only move block when we are in play mode.
	if (isPlayMode) {
	//Check the third bit of flags to see if temp changed.
	int new_flags=temp?4:0;
	if((flags^new_flags)&4){
	//The button has been pressed or unpressed so change the third bit on flags.
	flags=(flags&~4)\|new_flags;

	if(parent && (new_flags \|\| (flags&3)==0)){
	//Make sure that id isn't empty.
	if(!id.empty()){
	parent->broadcastObjectEvent(0x10000\|(flags&3),-1,id.c_str());
	}else{
	cerr<<"WARNING: invalid button id!"<<endl;
	}
	}
	}
	temp=0;
	}
	break;
	case TYPE_CONVEYOR_BELT:
	case TYPE_SHADOW_CONVEYOR_BELT:
	//NOTE: we update conveyor belt animation even in edit mode.
	//Increase the conveyor belt animation.
	if((flags&1)==0){
	//Since now 1 speed = 0.1 pixel/s we need some more sophisticated calculation.
	int a = animation + speed, d = 0;
	if (a < 0) {
	//Add a delta value to make it positive
	d = (((-a) / 500) + 1) * 500;
	}

	//Set the velocity NOTE This isn't the actual velocity of the block, but the speed of the player/shadow standing on it.
	xVel = (a + d) / 10 - (animation + d) / 10;

	//Update animation value
	animation = (a + d) % 500;
	assert(animation >= 0);
	} else {
	//Clear the velocity NOTE This isn't the actual velocity of the block, but the speed of the player/shadow standing on it.
	xVel = 0;
	}
	break;
	case TYPE_PUSHABLE:
	//Only move block when we are in play mode.
	if (isPlayMode) {
	//Update the vertical velocity, horizontal is set by the player.
	if(inAir==true){
	yVel+=1;

	//Cap fall speed to 13.
	if(yVel>13)
	yVel=13;
	}
	if (auto ocs = objCurrentStand.get()) {
	//Now get the velocity and delta of the object the player is standing on.
	SDL_Rect v=ocs->getBox(BoxType_Velocity);
	SDL_Rect delta=ocs->getBox(BoxType_Delta);

	switch(ocs->type){
	//For conveyor belts the velocity is transfered.
	case TYPE_CONVEYOR_BELT:
	case TYPE_SHADOW_CONVEYOR_BELT:
	{
	xVelBase+=v.x;
	}
	break;
	//In other cases, such as, player on shadow, player on crate... the change in x position must be considered.
	default:
	{
	if(delta.x != 0)
	xVelBase+=delta.x;
	}
	break;
	}
	//NOTE: Only copy the velocity of the block when moving down.
	//Upwards is automatically resolved before the player is moved.
	if(delta.y>0)
	yVelBase=delta.y;
	else
	yVelBase=0;
	}

	//Set the object the player is currently standing to NULL.
	objCurrentStand=NULL;

	//Store the location of the player.
	int lastX=box.x;
	int lastY=box.y;

	//An array that will hold all the GameObjects that are involved in the collision/movement.
	vector<Block*> objects;
	//All the blocks have moved so if there's collision with the player, the block moved into him.
	for(auto o : parent->levelObjects){
	//Make sure to only check visible blocks.
	if(o->flags & 0x80000000)
	continue;
	//Make sure we aren't the block.
	if(o==this)
	continue;
	//Make sure the object is spike or solid for the player.
	if(o->type!=TYPE_SPIKES && o->type!=TYPE_MOVING_SPIKES && !o->queryProperties(GameObjectProperty_PlayerCanWalkOn,&parent->player))
	continue;

	//Check for collision.
	if(checkCollision(box,o->getBox()))
	objects.push_back(o);
	}
	//There was collision so try to resolve it.
	if(!objects.empty()){
	//FIXME: When multiple moving blocks are overlapping the pushable can be "bounced" off depending on the block order.
	for(auto o : objects){
	SDL_Rect r=o->getBox();
	SDL_Rect delta=o->getBox(BoxType_Delta);

	//Check on which side of the box the pushable is.
	if(delta.x!=0){
	if(delta.x>0){
	//Move the pushable right if necessary.
	if((r.x+r.w)-box.x<=delta.x && box.x<r.x+r.w)
	box.x=r.x+r.w;
	}else{
	//Move the pushable left if necessary.
	if((box.x+box.w)-r.x<=-delta.x && box.x>r.x-box.w)
	box.x=r.x-box.w;
	}
	}
	if(delta.y!=0){
	if(delta.y>0){
	//Move the pushable down if necessary.
	if((r.y+r.h)-box.y<=delta.y && box.y<r.y+r.h)
	box.y=r.y+r.h;
	}else{
	//Move the pushable up if necessary.
	if((box.y+box.h)-r.y<=-delta.y && box.y>r.y-box.h)
	box.y=r.y-box.h;
	}
	}
	}
	}

	//Reuse the objects array, this time for blocks the block moves into.
	objects.clear();
	//Determine the collision frame.
	SDL_Rect frame={box.x,box.y,box.w,box.h};
	//Keep the horizontal movement of the block in mind.
	if(xVel+xVelBase>=0){
	frame.w+=(xVel+xVelBase);
	}else{
	frame.x+=(xVel+xVelBase);
	frame.w-=(xVel+xVelBase);
	}
	//And the vertical movement.
	if(yVel+yVelBase>=0){
	frame.h+=(yVel+yVelBase);
	}else{
	frame.y+=(yVel+yVelBase);
	frame.h-=(yVel+yVelBase);
	}
	//Loop through the game objects.
	for(auto o : parent->levelObjects){
	//Make sure the object is visible.
	if(o->flags & 0x80000000)
	continue;
	//Make sure we aren't the block.
	if(o==this)
	continue;
	//Check if the player can collide with this game object, or this object is spike.
	if(o->type!=TYPE_SPIKES && o->type!=TYPE_MOVING_SPIKES && !o->queryProperties(GameObjectProperty_PlayerCanWalkOn,&parent->player))
	continue;

	//Check if the block is inside the frame.
	if(checkCollision(frame,o->getBox()))
	objects.push_back(o);
	}
	//Horizontal pass.
	if(xVel+xVelBase!=0){
	box.x+=xVel+xVelBase;
	for(auto o : objects){
	SDL_Rect r=o->getBox();
	if(!checkCollision(box,r))
	continue;

	if(xVel+xVelBase>0){
	//We came from the left so the right edge of the player must be less or equal than xVel+xVelBase.
	if((box.x+box.w)-r.x<=xVel+xVelBase)
	box.x=r.x-box.w;
	}else{
	//We came from the right so the left edge of the player must be greater or equal than xVel+xVelBase.
	if(box.x-(r.x+r.w)>=xVel+xVelBase)
	box.x=r.x+r.w;
	}
	}
	}
	//Some variables that are used in vertical movement.
	Block* lastStand=NULL;
	inAir=true;

	//Vertical pass.
	if(yVel+yVelBase!=0){
	box.y+=yVel+yVelBase;
	for(auto o : objects){
	SDL_Rect r=o->getBox();
	if(!checkCollision(box,r))
	continue;

	//Now check how we entered the block (vertically or horizontally).
	if(yVel+yVelBase>0){
	//We came from the top so the bottom edge of the player must be less or equal than yVel+yVelBase.
	if((box.y+box.h)-r.y<=yVel+yVelBase){
	//NOTE: lastStand is handled later since the player can stand on only one block at the time.

	//Check if there's already a lastStand.
	if(lastStand){
	//There is one, so check 'how much' the player is on the blocks.
	SDL_Rect r=o->getBox();
	int w=0;
	if(box.x+box.w>r.x+r.w)
	w=(r.x+r.w)-box.x;
	else
	w=(box.x+box.w)-r.x;

	//Do the same for the other box.
	r=lastStand->getBox();
	int w2=0;
	if(box.x+box.w>r.x+r.w)
	w2=(r.x+r.w)-box.x;
	else
	w2=(box.x+box.w)-r.x;

	//NOTE: It doesn't matter which block the player is on if they are both stationary.
	SDL_Rect v=o->getBox(BoxType_Velocity);
	SDL_Rect v2=lastStand->getBox(BoxType_Velocity);

	if(v.y==v2.y){
	if(w>w2)
	lastStand=o;
	}else if(v.y<v2.y){
	lastStand=o;
	}
	}else{
	lastStand=o;
	}
	}
	}else{
	//We came from the bottom so the upper edge of the player must be greater or equal than yVel+yVelBase.
	if(box.y-(r.y+r.h)>=yVel+yVelBase){
	box.y=r.y+r.h;
	yVel=0;
	}
	}
	}
	}
	if(lastStand){
	inAir=false;
	yVel=1;
	SDL_Rect r=lastStand->getBox();
	box.y=r.y-box.h;
	}

	//Block will currently be standing on whatever it was last standing on.
	objCurrentStand=lastStand;

	dx=box.x-lastX;
	dy=box.y-lastY;
	xVel=0;
	xVelBase=0;
	}
	break;
	}
	}

	void Block::deleteMe() {
	if (isDelete) return;

	//Set the delete flag.
	isDelete = true;

	//Hide this block.
	flags \|= 0x80000000;

	//Invalidate all references to this block.
	if (proxy->object == this) {
	proxy->object = NULL;
	}
	+
	+ //Update totalCollectables, etc. when removing a collectable
	+ if (type == TYPE_COLLECTABLE) {
	+ if (flags & 0x1) parent->currentCollectables--;
	+ parent->totalCollectables--;
	+ }
	}
	diff --git a/src/Game.cpp b/src/Game.cpp
	index e8332d8..371545e 100644
	--- a/src/Game.cpp
	+++ b/src/Game.cpp
	@@ -1,1885 +1,1892 @@
	/*
	* Copyright (C) 2011-2013 Me and My Shadow
	*
	* This file is part of Me and My Shadow.
	*
	* Me and My Shadow 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 3 of the License, or
	* (at your option) any later version.
	*
	* Me and My Shadow 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 Me and My Shadow. If not, see <http://www.gnu.org/licenses/>.
	*/

	#include "Block.h"
	#include "GameState.h"
	#include "Functions.h"
	#include "GameObjects.h"
	#include "ThemeManager.h"
	#include "Game.h"
	#include "TreeStorageNode.h"
	#include "POASerializer.h"
	#include "InputManager.h"
	#include "MusicManager.h"
	#include "Render.h"
	#include "StatisticsManager.h"
	#include "ScriptExecutor.h"
	#include <fstream>
	#include <iostream>
	#include <sstream>
	#include <vector>
	#include <map>
	#include <algorithm>
	#include <assert.h>
	#include <stdio.h>
	#include <SDL_ttf.h>

	#include "libs/tinyformat/tinyformat.h"

	using namespace std;

	const char* Game::blockName[TYPE_MAX]={"Block","PlayerStart","ShadowStart",
	"Exit","ShadowBlock","Spikes",
	"Checkpoint","Swap","Fragile",
	"MovingBlock","MovingShadowBlock","MovingSpikes",
	"Teleporter","Button","Switch",
	"ConveyorBelt","ShadowConveyorBelt","NotificationBlock", "Collectable", "Pushable"
	};

	map<string,int> Game::blockNameMap;
	map<int,string> Game::gameObjectEventTypeMap;
	map<string,int> Game::gameObjectEventNameMap;
	map<int,string> Game::levelEventTypeMap;
	map<string,int> Game::levelEventNameMap;
	string Game::recordFile;

	//An internal function.
	static void copyCompiledScripts(lua_State *state, const std::map<int, int>& src, std::map<int, int>& dest) {
	//Clear the existing scripts.
	for (auto it = dest.begin(); it != dest.end(); ++it) {
	luaL_unref(state, LUA_REGISTRYINDEX, it->second);
	}
	dest.clear();

	//Copy the source to the destination.
	for (auto it = src.begin(); it != src.end(); ++it) {
	lua_rawgeti(state, LUA_REGISTRYINDEX, it->second);
	dest[it->first] = luaL_ref(state, LUA_REGISTRYINDEX);
	}
	}

	//An internal function.
	static void copyLevelObjects(const std::vector<Block>& src, std::vector<Block>& dest, bool setActive) {
	//Clear the existing objects.
	for (auto o : dest) delete o;
	dest.clear();

	//Copy the source to the destination.
	for (auto o : src) {
	if (o == NULL \|\| o->isDelete) continue;
	Block* o2 = new Block(*o);
	dest.push_back(o2);
	if (setActive) o2->setActive();
	}
	}

	Game::Game(SDL_Renderer &renderer, ImageManager &imageManager):isReset(false)
	, scriptExecutor(new ScriptExecutor())
	,currentLevelNode(NULL)
	,customTheme(NULL)
	,background(NULL)
	,won(false)
	,interlevel(false)
	,gameTipIndex(0)
	,time(0),timeSaved(0)
	,recordings(0),recordingsSaved(0)
	,cameraMode(CAMERA_PLAYER),cameraModeSaved(CAMERA_PLAYER)
	,player(this),shadow(this),objLastCheckPoint(NULL)
	- ,currentCollectables(0),totalCollectables(0),currentCollectablesSaved(0){
	+ , currentCollectables(0), currentCollectablesSaved(0), currentCollectablesInitial(0)
	+ , totalCollectables(0), totalCollectablesSaved(0), totalCollectablesInitial(0)
	+{

	saveStateNextTime=false;
	loadStateNextTime=false;

	recentSwap=recentSwapSaved=-10000;
	recentLoad=recentSave=0;

	action=imageManager.loadTexture(getDataPath()+"gfx/actions.png", renderer);
	medals=imageManager.loadTexture(getDataPath()+"gfx/medals.png", renderer);
	//Get the collectable image from the theme.
	//NOTE: Isn't there a better way to retrieve the image?
	objThemes.getBlock(TYPE_COLLECTABLE)->createInstance(&collectable);

	//Hide the cursor if not in the leveleditor.
	if(stateID!=STATE_LEVEL_EDITOR)
	SDL_ShowCursor(SDL_DISABLE);
	}

	Game::~Game(){
	//Simply call our destroy method.
	destroy();

	//Before we leave make sure the cursor is visible.
	SDL_ShowCursor(SDL_ENABLE);
	}

	void Game::destroy(){
	delete scriptExecutor;
	scriptExecutor = NULL;

	//Loop through the levelObjects, etc. and delete them.
	for (auto o : levelObjects) delete o;
	levelObjects.clear();

	for (auto o : levelObjectsSave) delete o;
	levelObjectsSave.clear();

	for (auto o : levelObjectsInitial) delete o;
	levelObjectsInitial.clear();

	//Loop through the sceneryLayers and delete them.
	for(auto it=sceneryLayers.begin();it!=sceneryLayers.end();++it){
	delete it->second;
	}
	sceneryLayers.clear();

	//Clear the name and the editor data.
	levelName.clear();
	levelFile.clear();
	editorData.clear();

	//Remove everything from the themeManager.
	background=NULL;
	if(customTheme)
	objThemes.removeTheme();
	customTheme=NULL;
	//If there's a (partial) theme bundled with the levelpack remove that as well.
	if(levels->customTheme)
	objThemes.removeTheme();

	//delete current level (if any)
	if(currentLevelNode){
	delete currentLevelNode;
	currentLevelNode=NULL;
	}

	//Reset the time.
	time=timeSaved=0;
	recordings=recordingsSaved=0;
	recentSwap=recentSwapSaved=-10000;

	//Set the music list back to the configured list.
	getMusicManager()->setMusicList(getSettings()->getValue("musiclist"));
	}

	void Game::reloadMusic() {
	//NOTE: level music is always enabled.

	//Check if the levelpack has a prefered music list.
	if (levels && !levels->levelpackMusicList.empty())
	getMusicManager()->setMusicList(levels->levelpackMusicList);

	//Check for the music to use.
	string &s = editorData["music"];
	if (!s.empty()) {
	getMusicManager()->playMusic(s);
	} else {
	getMusicManager()->pickMusic();
	}
	}

	void Game::loadLevelFromNode(ImageManager& imageManager,SDL_Renderer& renderer,TreeStorageNode* obj,const string& fileName){
	//Make sure there's nothing left from any previous levels.
	assert(levelObjects.empty() && levelObjectsSave.empty() && levelObjectsInitial.empty());

	//set current level to loaded one.
	currentLevelNode=obj;

	//Set the level dimensions to the default, it will probably be changed by the editorData,
	//but 800x600 is a fallback.
	LEVEL_WIDTH=800;
	LEVEL_HEIGHT=600;

	- currentCollectables=0;
	- totalCollectables=0;
	- currentCollectablesSaved=0;
	+ currentCollectables = currentCollectablesSaved = currentCollectablesInitial = 0;
	+ totalCollectables = totalCollectablesSaved = totalCollectablesInitial = 0;

	//Load the additional data.
	for(map<string,vector<string> >::iterator i=obj->attributes.begin();i!=obj->attributes.end();++i){
	if(i->first=="size"){
	//We found the size attribute.
	if(i->second.size()>=2){
	//Set the dimensions of the level.
	LEVEL_WIDTH=atoi(i->second[0].c_str());
	LEVEL_HEIGHT=atoi(i->second[1].c_str());
	}
	}else if(i->second.size()>0){
	//Any other data will be put into the editorData.
	editorData[i->first]=i->second[0];
	}
	}

	//Get the theme.
	{
	//NOTE: level themes are always enabled.

	//Check for bundled (partial) themes for level pack.
	if (levels->customTheme){
	if (objThemes.appendThemeFromFile(levels->levelpackPath + "/theme/theme.mnmstheme", imageManager, renderer) == NULL){
	//The theme failed to load so set the customTheme boolean to false.
	levels->customTheme = false;
	}
	}

	//Check for the theme to use for this level. This has higher priority.
	//Examples: %DATA%/themes/classic or %USER%/themes/Orange
	string &s = editorData["theme"];
	if (!s.empty()){
	customTheme = objThemes.appendThemeFromFile(processFileName(s) + "/theme.mnmstheme", imageManager, renderer);
	}

	//Set the Appearance of the player and the shadow.
	objThemes.getCharacter(false)->createInstance(&player.appearance, "standright");
	player.appearanceInitial = player.appearanceSave = player.appearance;
	objThemes.getCharacter(true)->createInstance(&shadow.appearance, "standright");
	shadow.appearanceInitial = shadow.appearanceSave = shadow.appearance;
	}

	//Get the music.
	reloadMusic();

	//Load the data from the level node.
	for(unsigned int i=0;i<obj->subNodes.size();i++){
	TreeStorageNode* obj1=obj->subNodes[i];
	if(obj1==NULL) continue;
	if(obj1->name=="tile"){
	Block* block=new Block(this);
	if(!block->loadFromNode(imageManager,renderer,obj1)){
	delete block;
	continue;
	}

	//If the type is collectable, increase the number of totalCollectables
	- if(block->type==TYPE_COLLECTABLE)
	- totalCollectables++;
	+ if (block->type == TYPE_COLLECTABLE) {
	+ totalCollectablesSaved = totalCollectablesInitial = ++totalCollectables;
	+ }

	//Add the block to the levelObjects vector.
	levelObjects.push_back(block);
	}else if(obj1->name=="scenerylayer" && obj1->value.size()==1){
	//Check if the layer exists.
	if (sceneryLayers[obj1->value[0]] == NULL) {
	sceneryLayers[obj1->value[0]] = new SceneryLayer();
	}

	//Load contents from node.
	sceneryLayers[obj1->value[0]]->loadFromNode(this, imageManager, renderer, obj1);
	}else if(obj1->name=="script" && !obj1->value.empty()){
	map<string,int>::iterator it=Game::levelEventNameMap.find(obj1->value[0]);
	if(it!=Game::levelEventNameMap.end()){
	int eventType=it->second;
	const std::string& script=obj1->attributes["script"][0];
	if(!script.empty()) scripts[eventType]=script;
	}
	}
	}

	//Set the levelName to the name of the current level.
	levelName=editorData["name"];
	levelFile=fileName;

	//Some extra stuff only needed when not in the levelEditor.
	if(stateID!=STATE_LEVEL_EDITOR){
	//We create a text with the text "Level <levelno> <levelName>".
	//It will be shown in the left bottom corner of the screen.
	string s;
	if(levels->getLevelCount()>1 && levels->type!=COLLECTION){
	s=tfm::format(_("Level %d %s"),levels->getCurrentLevel()+1,_CC(levels->getDictionaryManager(),editorData["name"]));
	} else {
	s = _CC(levels->getDictionaryManager(), editorData["name"]);
	}

	bmTips[0]=textureFromText(renderer, *fontText,s.c_str(),objThemes.getTextColor(true));
	}

	//Get the background
	background=objThemes.getBackground(false);

	//Now the loading is finished, we reset all objects to their initial states.
	//Before doing that we swap the levelObjects to levelObjectsInitial.
	std::swap(levelObjects, levelObjectsInitial);
	reset(true, stateID == STATE_LEVEL_EDITOR);
	}

	void Game::loadLevel(ImageManager& imageManager,SDL_Renderer& renderer,std::string fileName){
	//Create a TreeStorageNode that will hold the loaded data.
	TreeStorageNode *obj=new TreeStorageNode();
	{
	POASerializer objSerializer;
	string s=fileName;

	//Parse the file.
	if(!objSerializer.loadNodeFromFile(s.c_str(),obj,true)){
	cerr<<"ERROR: Can't load level file "<<s<<endl;
	delete obj;
	return;
	}
	}

	//Now call another function.
	loadLevelFromNode(imageManager,renderer,obj,fileName);
	}

	void Game::saveRecord(const char* fileName){
	//check if current level is NULL (which should be impossible)
	if(currentLevelNode==NULL) return;

	TreeStorageNode obj;
	POASerializer objSerializer;

	//put current level to the node.
	currentLevelNode->name="map";
	obj.subNodes.push_back(currentLevelNode);

	//serialize the game record using RLE compression.
	#define PUSH_BACK \
	if(j>0){ \
	if(j>1){ \
	sprintf(c,"%d*%d",last,j); \
	}else{ \
	sprintf(c,"%d",last); \
	} \
	v.push_back(c); \
	}
	vector<string> &v=obj.attributes["record"];
	vector<int> *record=player.getRecord();
	char c[64];
	int i,j=0,last;
	for(i=0;i<(int)record->size();i++){
	int currentKey=(*record)[i];
	if(j==0 \|\| currentKey!=last){
	PUSH_BACK;
	last=currentKey;
	j=1;
	}else{
	j++;
	}
	}
	PUSH_BACK;
	#undef PUSH_BACK

	#ifdef RECORD_FILE_DEBUG
	//add record file debug data.
	{
	obj.attributes["recordKeyPressLog"].push_back(player.keyPressLog());

	vector<SDL_Rect> &playerPosition=player.playerPosition();
	string s;
	char c[32];

	sprintf(c,"%d\n",int(playerPosition.size()));
	s=c;

	for(unsigned int i=0;i<playerPosition.size();i++){
	SDL_Rect& r=playerPosition[i];
	sprintf(c,"%d %d\n",r.x,r.y);
	s+=c;
	}

	obj.attributes["recordPlayerPosition"].push_back(s);
	}
	#endif

	//save it
	objSerializer.saveNodeToFile(fileName,&obj,true,true);

	//remove current level from node to prevent delete it.
	obj.subNodes.clear();
	}

	void Game::loadRecord(ImageManager& imageManager, SDL_Renderer& renderer, const char* fileName){
	//Create a TreeStorageNode that will hold the loaded data.
	TreeStorageNode obj;
	{
	POASerializer objSerializer;
	string s=fileName;

	//Parse the file.
	if(!objSerializer.loadNodeFromFile(s.c_str(),&obj,true)){
	cerr<<"ERROR: Can't load record file "<<s<<endl;
	return;
	}
	}

	//find the node named 'map'.
	bool loaded=false;
	for(unsigned int i=0;i<obj.subNodes.size();i++){
	if(obj.subNodes[i]->name=="map"){
	//load the level. (fileName=???)
	loadLevelFromNode(imageManager,renderer,obj.subNodes[i],"???");
	//remove this node to prevent delete it.
	obj.subNodes[i]=NULL;
	//over
	loaded=true;
	break;
	}
	}

	if(!loaded){
	cerr<<"ERROR: Can't find subnode named 'map' from record file"<<endl;
	return;
	}

	//load the record.
	{
	vector<int> *record=player.getRecord();
	record->clear();
	vector<string> &v=obj.attributes["record"];
	for(unsigned int i=0;i<v.size();i++){
	string &s=v[i];
	string::size_type pos=s.find_first_of('*');
	if(pos==string::npos){
	//1 item only.
	int i=atoi(s.c_str());
	record->push_back(i);
	}else{
	//contains many items.
	int i=atoi(s.substr(0,pos).c_str());
	int j=atoi(s.substr(pos+1).c_str());
	for(;j>0;j--){
	record->push_back(i);
	}
	}
	}
	}

	#ifdef RECORD_FILE_DEBUG
	//load the debug data
	{
	vector<string> &v=obj.attributes["recordPlayerPosition"];
	vector<SDL_Rect> &playerPosition=player.playerPosition();
	playerPosition.clear();
	if(!v.empty()){
	if(!v[0].empty()){
	stringstream st(v[0]);
	int m;
	st>>m;
	for(int i=0;i<m;i++){
	SDL_Rect r;
	st>>r.x>>r.y;
	r.w=0;
	r.h=0;
	playerPosition.push_back(r);
	}
	}
	}
	}
	#endif

	//play the record.
	//TODO: tell the level manager don't save the level progress.
	player.playRecord();
	shadow.playRecord(); //???
	}

	/////////////EVENT///////////////
	void Game::handleEvents(ImageManager& imageManager, SDL_Renderer& renderer){
	//First of all let the player handle input.
	player.handleInput(&shadow);

	//Check for an SDL_QUIT event.
	if(event.type==SDL_QUIT){
	//We need to quit so enter STATE_EXIT.
	setNextState(STATE_EXIT);
	}

	//Check for the escape key.
	if(stateID != STATE_LEVEL_EDITOR && inputMgr.isKeyDownEvent(INPUTMGR_ESCAPE)){
	//Escape means we go one level up, to the level select state.
	setNextState(STATE_LEVEL_SELECT);
	//Save the progress.
	levels->saveLevelProgress();

	//And change the music back to the menu music.
	getMusicManager()->playMusic("menu");
	}

	//Check if 'R' is pressed.
	if(inputMgr.isKeyDownEvent(INPUTMGR_RESTART)){
	//Restart game only if we are not watching a replay.
	if (!player.isPlayFromRecord() \|\| interlevel) {
	//Reset the game at next frame.
	isReset = true;

	//Also delete any gui (most likely the interlevel gui). Only in game mode.
	if (GUIObjectRoot && stateID != STATE_LEVEL_EDITOR){
	delete GUIObjectRoot;
	GUIObjectRoot = NULL;
	}

	//And set interlevel to false.
	interlevel = false;
	}
	}

	//Check for the next level buttons when in the interlevel popup.
	if (inputMgr.isKeyDownEvent(INPUTMGR_SPACE) \|\| inputMgr.isKeyDownEvent(INPUTMGR_SELECT)){
	if(interlevel){
	//The interlevel popup is shown so we need to delete it.
	if(GUIObjectRoot){
	delete GUIObjectRoot;
	GUIObjectRoot=NULL;
	}

	//Now goto the next level.
	gotoNextLevel(imageManager,renderer);
	}
	}

	//Check if tab is pressed.
	if(inputMgr.isKeyDownEvent(INPUTMGR_TAB)){
	//Switch the camera mode.
	switch(cameraMode){
	case CAMERA_PLAYER:
	cameraMode=CAMERA_SHADOW;
	break;
	case CAMERA_SHADOW:
	case CAMERA_CUSTOM:
	cameraMode=CAMERA_PLAYER;
	break;
	}
	}
	}

	/////////////////LOGIC///////////////////
	void Game::logic(ImageManager& imageManager, SDL_Renderer& renderer){
	//Add one tick to the time.
	time++;

	//NOTE: This code reverts some changes in commit 5f03ae5.
	//This is part of old prepareFrame() code.
	//This is needed since otherwise the script function block:setLocation() and block:moveTo() are completely broken.
	//Later we should rewrite collision system completely which will remove this piece of code.
	//NOTE: In new collision system the effect of dx/dy/xVel/yVel should only be restricted in one frame.
	for (auto obj : levelObjects) {
	switch (obj->type) {
	default:
	obj->dx = obj->dy = obj->xVel = obj->yVel = 0;
	break;
	case TYPE_PUSHABLE:
	//NOTE: Currently the dx/dy/etc. of pushable blocks are still carry across frames, in order to make the collision system work correct.
	break;
	case TYPE_CONVEYOR_BELT: case TYPE_SHADOW_CONVEYOR_BELT:
	//NOTE: We let the conveyor belt itself to reset its xVel/yVel.
	obj->dx = obj->dy = 0;
	break;
	}
	}

	//NOTE2: The above code breaks pushable block with moving block in most cases,
	//more precisely, if the pushable block is processed before the moving block then things may be broken.
	//Therefore later we must process other blocks before moving pushable block.

	//Process delay execution scripts.
	getScriptExecutor()->processDelayExecution();

	//Process any event in the queue.
	for(unsigned int idx=0;idx<eventQueue.size();idx++){
	//Get the event from the queue.
	typeGameObjectEvent &e=eventQueue[idx];

	//Check if the it has an id attached to it.
	if(e.target){
	//NOTE: Should we check if the target still exists???
	e.target->onEvent(e.eventType);
	}else if(e.flags&1){
	//Loop through the levelObjects and give them the event if they have the right id.
	for(unsigned int i=0;i<levelObjects.size();i++){
	if(e.objectType<0 \|\| levelObjects[i]->type==e.objectType){
	if(levelObjects[i]->id==e.id){
	levelObjects[i]->onEvent(e.eventType);
	}
	}
	}
	}else{
	//Loop through the levelObjects and give them the event.
	for(unsigned int i=0;i<levelObjects.size();i++){
	if(e.objectType<0 \|\| levelObjects[i]->type==e.objectType){
	levelObjects[i]->onEvent(e.eventType);
	}
	}
	}
	}
	//Done processing the events so clear the queue.
	eventQueue.clear();

	//Remove levelObjects whose isDelete is true.
	{
	int j = 0;
	for (int i = 0; i < (int)levelObjects.size(); i++) {
	if (levelObjects[i] == NULL) {
	j++;
	} else if (levelObjects[i]->isDelete) {
	delete levelObjects[i];
	levelObjects[i] = NULL;
	j++;
	} else if (j > 0) {
	levelObjects[i - j] = levelObjects[i];
	}
	}
	if (j > 0) levelObjects.resize(levelObjects.size() - j);
	}

	//Check if we should save/load state.
	//NOTE: This happens after event handling so no eventQueue has to be saved/restored.
	if(saveStateNextTime){
	saveState();
	}else if(loadStateNextTime){
	loadState();
	}
	saveStateNextTime=false;
	loadStateNextTime=false;

	//Loop through the gameobjects to update them.
	for(unsigned int i=0;i<levelObjects.size();i++){
	//Send GameObjectEvent_OnEnterFrame event to the script
	levelObjects[i]->onEvent(GameObjectEvent_OnEnterFrame);
	}
	//Let the gameobject handle movement.
	{
	std::vector<Block*> pushableBlocks;

	//First we process blocks which are not pushable blocks.
	for (auto o : levelObjects) {
	if (o->type == TYPE_PUSHABLE) {
	pushableBlocks.push_back(o);
	} else {
	o->move();
	}
	}

	//Sort pushable blocks by their position, which is an ad-hoc workaround for
	//<https://forum.freegamedev.net/viewtopic.php?f=48&t=8047#p77692>.
	std::stable_sort(pushableBlocks.begin(), pushableBlocks.end(),
	[](const Block* obj1, const Block* obj2)->bool
	{
	SDL_Rect r1 = const_cast<Block>(obj1)->getBox(), r2 = const_cast<Block>(obj2)->getBox();
	if (r1.y > r2.y) return true;
	else if (r1.y < r2.y) return false;
	else return r1.x < r2.x;
	});

	//Now we process pushable blocks.
	for (auto o : pushableBlocks) {
	o->move();
	}
	}
	//Also update the scenery.
	for (auto it = sceneryLayers.begin(); it != sceneryLayers.end(); ++it){
	it->second->updateAnimation();
	}

	//Let the player store his move, if recording.
	player.shadowSetState();
	//Let the player give his recording to the shadow, if configured.
	player.shadowGiveState(&shadow);

	//NOTE: to fix bugs regarding player/shadow swap, we should first process collision of player/shadow then move them

	const SDL_Rect playerLastPosition = player.getBox();
	const SDL_Rect shadowLastPosition = shadow.getBox();

	//NOTE: The following is ad-hoc code to fix shadow on blocked player on conveyor belt bug
	if (shadow.holdingOther) {
	//We need to process shadow collision first if shadow is holding player.

	//Let the shadow decide his move, if he's playing a recording.
	shadow.moveLogic();

	//Check collision for shadow.
	shadow.collision(levelObjects, NULL);

	//Get the new position of it.
	const SDL_Rect r = shadow.getBox();

	//Check collision for player. Transfer the velocity of shadow to it only if the shadow moves its position.
	player.collision(levelObjects, (r.x != shadowLastPosition.x \|\| r.y != shadowLastPosition.y) ? &shadow : NULL);
	} else {
	//Otherwise we process player first.

	//Check collision for player.
	player.collision(levelObjects, NULL);

	//Get the new position of it.
	const SDL_Rect r = player.getBox();

	//Now let the shadow decide his move, if he's playing a recording.
	shadow.moveLogic();

	//Check collision for shadow. Transfer the velocity of player to it only if the player moves its position.
	shadow.collision(levelObjects, (r.x != playerLastPosition.x \|\| r.y != playerLastPosition.y) ? &player : NULL);
	}

	//Let the player move.
	player.move(levelObjects, playerLastPosition.x, playerLastPosition.y);
	//Let the shadow move.
	shadow.move(levelObjects, shadowLastPosition.x, shadowLastPosition.y);

	//Check collision and stuff for the shadow and player.
	player.otherCheck(&shadow);

	//Update the camera.
	switch(cameraMode){
	case CAMERA_PLAYER:
	player.setMyCamera();
	break;
	case CAMERA_SHADOW:
	shadow.setMyCamera();
	break;
	case CAMERA_CUSTOM:
	//NOTE: The target is (should be) screen size independent so calculate the real target x and y here.
	int targetX=cameraTarget.x-(SCREEN_WIDTH/2);
	int targetY=cameraTarget.y-(SCREEN_HEIGHT/2);
	//Move the camera to the cameraTarget.
	if(camera.x>targetX){
	camera.x-=(camera.x-targetX)>>4;
	//Make sure we don't go too far.
	if(camera.x<targetX)
	camera.x=targetX;
	}else if(camera.x<targetX){
	camera.x+=(targetX-camera.x)>>4;
	//Make sure we don't go too far.
	if(camera.x>targetX)
	camera.x=targetX;
	}
	if(camera.y>targetY){
	camera.y-=(camera.y-targetY)>>4;
	//Make sure we don't go too far.
	if(camera.y<targetY)
	camera.y=targetY;
	}else if(camera.y<targetY){
	camera.y+=(targetY-camera.y)>>4;
	//Make sure we don't go too far.
	if(camera.y>targetY)
	camera.y=targetY;
	}
	break;
	}

	//Check if we won.
	if(won){
	//Check if it's playing from record
	if(player.isPlayFromRecord() && !interlevel){
	recordingEnded(imageManager,renderer);
	}else{
	//the string to store auto-save record path.
	string bestTimeFilePath,bestRecordingFilePath;
	//and if we can't get test path.
	bool filePathError=false;

	//Get current level
	LevelPack::Level *level=levels->getLevel();

	//Now check if we should update statistics
	{
	//Get previous and current medal
	int oldMedal=level->won?1:0,newMedal=1;

	int bestTime=level->time;
	int targetTime=level->targetTime;
	int bestRecordings=level->recordings;
	int targetRecordings=level->targetRecordings;

	if(oldMedal){
	if(bestTime>=0 && (targetTime<0 \|\| bestTime<=targetTime))
	oldMedal++;
	if(bestRecordings>=0 && (targetRecordings<0 \|\| bestRecordings<=targetRecordings))
	oldMedal++;
	}else{
	bestTime=time;
	bestRecordings=recordings;
	}

	if(bestTime<0 \|\| bestTime>time) bestTime=time;
	if(bestRecordings<0 \|\| bestRecordings>recordings) bestRecordings=recordings;

	if(targetTime<0 \|\| bestTime<=targetTime)
	newMedal++;
	if(targetRecordings<0 \|\| bestRecordings<=targetRecordings)
	newMedal++;

	//Check if we need to update statistics
	if(newMedal>oldMedal){
	switch(oldMedal){
	case 0:
	statsMgr.completedLevels++;
	break;
	case 2:
	statsMgr.silverLevels--;
	break;
	}

	switch(newMedal){
	case 2:
	statsMgr.silverLevels++;
	break;
	case 3:
	statsMgr.goldLevels++;
	break;
	}
	}
	}

	//Check the achievement "Complete a level with checkpoint, but without saving"
	if (objLastCheckPoint.get() == NULL) {
	for (auto obj : levelObjects) {
	if (obj->type == TYPE_CHECKPOINT) {
	statsMgr.newAchievement("withoutsave");
	break;
	}
	}
	}

	//Set the current level won.
	level->won=true;
	if(level->time==-1 \|\| level->time>time){
	level->time=time;
	//save the best-time game record.
	if(bestTimeFilePath.empty()){
	getCurrentLevelAutoSaveRecordPath(bestTimeFilePath,bestRecordingFilePath,true);
	}
	if(bestTimeFilePath.empty()){
	cerr<<"ERROR: Couldn't get auto-save record file path"<<endl;
	filePathError=true;
	}else{
	saveRecord(bestTimeFilePath.c_str());
	}
	}
	if(level->recordings==-1 \|\| level->recordings>recordings){
	level->recordings=recordings;
	//save the best-recordings game record.
	if(bestRecordingFilePath.empty() && !filePathError){
	getCurrentLevelAutoSaveRecordPath(bestTimeFilePath,bestRecordingFilePath,true);
	}
	if(bestRecordingFilePath.empty()){
	cerr<<"ERROR: Couldn't get auto-save record file path"<<endl;
	filePathError=true;
	}else{
	saveRecord(bestRecordingFilePath.c_str());
	}
	}

	//Set the next level unlocked if it exists.
	if(levels->getCurrentLevel()+1<levels->getLevelCount()){
	levels->setLocked(levels->getCurrentLevel()+1);
	}
	//And save the progress.
	levels->saveLevelProgress();

	//Now go to the interlevel screen.
	replayPlay(imageManager,renderer);

	//Update achievements
	if(levels->levelpackName=="tutorial") statsMgr.updateTutorialAchievements();
	statsMgr.updateLevelAchievements();

	//NOTE: We set isReset false to prevent the user from getting a best time of 0.00s and 0 recordings.
	isReset = false;
	}
	}
	won=false;

	//Check if we should reset.
	if (isReset) {
	//NOTE: we don't need to reset save ??? it looks like that there are no bugs
	reset(false, false);
	}
	isReset=false;
	}

	/////////////////RENDER//////////////////
	void Game::render(ImageManager&,SDL_Renderer &renderer){
	//First of all render the background.
	{
	//Get a pointer to the background.
	ThemeBackground* bg=background;

	//Check if the background is null, but there are themes.
	if(bg==NULL && objThemes.themeCount()>0){
	//Get the background from the first theme in the stack.
	bg=objThemes[0]->getBackground(false);
	}

	//Check if the background isn't null.
	if(bg){
	//It isn't so draw it.
	bg->draw(renderer);

	//And if it's the loaded background then also update the animation.
	//FIXME: Updating the animation in the render method?
	if(bg==background)
	bg->updateAnimation();
	}else{
	//There's no background so fill the screen with white.
	SDL_SetRenderDrawColor(&renderer, 255,255,255,255);
	SDL_RenderClear(&renderer);
	}
	}

	//Now draw the blackground layers.
	auto it = sceneryLayers.begin();
	for (; it != sceneryLayers.end(); ++it){
	if (it->first >= "f") break; // now we meet a foreground layer
	it->second->show(renderer);
	}

	//Now we draw the levelObjects.
	{
	//NEW: always render the pushable blocks in front of other blocks
	std::vector<Block*> pushableBlocks;

	for (auto o : levelObjects) {
	if (o->type == TYPE_PUSHABLE) {
	pushableBlocks.push_back(o);
	} else {
	o->show(renderer);
	}
	}

	for (auto o : pushableBlocks) {
	o->show(renderer);
	}
	}

	//Followed by the player and the shadow.
	//NOTE: We draw the shadow first, because he needs to be behind the player.
	shadow.show(renderer);
	player.show(renderer);

	//Now draw the foreground layers.
	for (; it != sceneryLayers.end(); ++it){
	it->second->show(renderer);
	}

	//Show the levelName if it isn't the level editor.
	if(stateID!=STATE_LEVEL_EDITOR && bmTips[0]!=NULL && !interlevel){
	withTexture(*bmTips[0], [&](SDL_Rect r){
	drawGUIBox(-2,SCREEN_HEIGHT-r.h-4,r.w+8,r.h+6,renderer,0xFFFFFFFF);
	applyTexture(2,SCREEN_HEIGHT-r.h,*bmTips[0],renderer,NULL);
	});
	}

	//Check if there's a tooltip.
	//NOTE: gameTipIndex 0 is used for the levelName, 1 for shadow death, 2 for restart text, 3 for restart+checkpoint.
	if(gameTipIndex>3 && gameTipIndex<TYPE_MAX){
	//Check if there's a tooltip for the type.
	if(bmTips[gameTipIndex]==NULL){
	//There isn't thus make it.
	string s;
	string keyCode = InputManagerKeyCode::describeTwo(inputMgr.getKeyCode(INPUTMGR_ACTION, false), inputMgr.getKeyCode(INPUTMGR_ACTION, true));
	transform(keyCode.begin(),keyCode.end(),keyCode.begin(),::toupper);
	switch(gameTipIndex){
	case TYPE_CHECKPOINT:
	/// TRANSLATORS: Please do not remove %s from your translation:
	/// - %s will be replaced with current action key
	s=tfm::format(_("Press %s key to save the game."),keyCode);
	break;
	case TYPE_SWAP:
	/// TRANSLATORS: Please do not remove %s from your translation:
	/// - %s will be replaced with current action key
	s=tfm::format(_("Press %s key to swap the position of player and shadow."),keyCode);
	break;
	case TYPE_SWITCH:
	/// TRANSLATORS: Please do not remove %s from your translation:
	/// - %s will be replaced with current action key
	s=tfm::format(_("Press %s key to activate the switch."),keyCode);
	break;
	case TYPE_PORTAL:
	/// TRANSLATORS: Please do not remove %s from your translation:
	/// - %s will be replaced with current action key
	s=tfm::format(_("Press %s key to teleport."),keyCode);
	break;
	}

	//If we have a string then it's a supported GameObject type.
	if(!s.empty()){
	bmTips[gameTipIndex]=textureFromText(renderer, *fontText, s.c_str(), objThemes.getTextColor(true));
	}
	}

	//We already have a gameTip for this type so draw it.
	if(bmTips[gameTipIndex]!=NULL){
	withTexture(*bmTips[gameTipIndex], [&](SDL_Rect r){
	drawGUIBox(-2,-2,r.w+8,r.h+6,renderer,0xFFFFFFFF);
	applyTexture(2,2,*bmTips[gameTipIndex],renderer);
	});
	}
	}
	//Set the gameTip to 0.
	gameTipIndex=0;
	// Limit the scope of bm, as it's a borrowed pointer.
	{
	//Pointer to the sdl texture that will contain a message, if any.
	SDL_Texture* bm=NULL;

	//Check if the player is dead, meaning we draw a message.
	if(player.dead){
	//Get user configured restart key
	string keyCodeRestart = InputManagerKeyCode::describeTwo(inputMgr.getKeyCode(INPUTMGR_RESTART, false), inputMgr.getKeyCode(INPUTMGR_RESTART, true));
	transform(keyCodeRestart.begin(),keyCodeRestart.end(),keyCodeRestart.begin(),::toupper);
	//The player is dead, check if there's a state that can be loaded.
	if(player.canLoadState()){
	//Now check if the tip is already made, if not make it.
	if(bmTips[3]==NULL){
	//Get user defined key for loading checkpoint
	string keyCodeLoad = InputManagerKeyCode::describeTwo(inputMgr.getKeyCode(INPUTMGR_LOAD, false), inputMgr.getKeyCode(INPUTMGR_LOAD, true));
	transform(keyCodeLoad.begin(),keyCodeLoad.end(),keyCodeLoad.begin(),::toupper);
	//Draw string
	bmTips[3]=textureFromText(renderer, *fontText,//TTF_RenderUTF8_Blended(fontText,
	/// TRANSLATORS: Please do not remove %s from your translation:
	/// - first %s means currently configured key to restart game
	/// - Second %s means configured key to load from last save
	tfm::format(_("Press %s to restart current level or press %s to load the game."),
	keyCodeRestart,keyCodeLoad).c_str(),
	objThemes.getTextColor(true));
	}
	bm=bmTips[3].get();
	}else{
	//Now check if the tip is already made, if not make it.
	if(bmTips[2]==NULL){
	bmTips[2]=textureFromText(renderer, *fontText,
	/// TRANSLATORS: Please do not remove %s from your translation:
	/// - %s will be replaced with currently configured key to restart game
	tfm::format(_("Press %s to restart current level."),keyCodeRestart).c_str(),
	objThemes.getTextColor(true));
	}
	bm=bmTips[2].get();
	}
	}

	//Check if the shadow has died (and there's no other notification).
	//NOTE: We use the shadow's jumptime as countdown, this variable isn't used when the shadow is dead.
	if(shadow.dead && bm==NULL && shadow.jumpTime>0){
	//Now check if the tip is already made, if not make it.
	if(bmTips[1]==NULL){
	bmTips[1]=textureFromText(renderer, *fontText,
	_("Your shadow has died."),
	objThemes.getTextColor(true));
	}
	bm=bmTips[1].get();

	//NOTE: Logic in the render loop, we substract the shadow's jumptime by one.
	shadow.jumpTime--;

	//return view to player and keep it there
	cameraMode=CAMERA_PLAYER;
	}

	//Draw the tip.
	if(bm!=NULL){
	const SDL_Rect textureSize = rectFromTexture(*bm);
	int x=(SCREEN_WIDTH-textureSize.w)/2;
	int y=32;
	drawGUIBox(x-8,y-8,textureSize.w+16,textureSize.h+14,renderer,0xFFFFFFFF);
	applyTexture(x,y,*bm,renderer);
	}
	}

	//Show the number of collectables the user has collected if there are collectables in the level.
	//We hide this when interlevel.
	- if(currentCollectables<=totalCollectables && totalCollectables!=0 && !interlevel && time>0){
	+ if ((currentCollectables \|\| totalCollectables) && !interlevel && time>0){
	if(collectablesTexture.needsUpdate(currentCollectables)) {
	//Temp stringstream just to addup all the text nicely
	std::stringstream temp;
	temp << currentCollectables << "/" << totalCollectables;
	collectablesTexture.update(currentCollectables,
	textureFromText(renderer,
	*fontText,
	temp.str().c_str(),
	objThemes.getTextColor(true)));
	}
	SDL_Rect bmSize = rectFromTexture(*collectablesTexture.get());

	//Draw background
	drawGUIBox(SCREEN_WIDTH-bmSize.w-34,SCREEN_HEIGHT-bmSize.h-4,bmSize.w+34+2,bmSize.h+4+2,renderer,0xFFFFFFFF);

	//Draw the collectable icon
	collectable.draw(renderer,SCREEN_WIDTH-50+12,SCREEN_HEIGHT-50+10);

	//Draw text
	applyTexture(SCREEN_WIDTH-50-bmSize.w+22,SCREEN_HEIGHT-bmSize.h,collectablesTexture.getTexture(),renderer);
	}

	//show time and records used in level editor.
	if(stateID==STATE_LEVEL_EDITOR && time>0){
	const SDL_Color fg=objThemes.getTextColor(true),bg={255,255,255,255};
	const int alpha = 160;
	if (recordingsTexture.needsUpdate(recordings)) {
	recordingsTexture.update(recordings,
	textureFromTextShaded(
	renderer,
	*fontText,
	tfm::format(ngettext("%d recording","%d recordings",recordings).c_str(),recordings).c_str(),
	fg,
	bg
	));
	SDL_SetTextureAlphaMod(recordingsTexture.get(),alpha);
	}

	int y=SCREEN_HEIGHT - textureHeight(*recordingsTexture.get());

	applyTexture(0,y,*recordingsTexture.get(), renderer);

	if(timeTexture.needsUpdate(time)) {
	const size_t len = 32;
	char c[len];
	SDL_snprintf(c,len,"%-.2fs",time/40.0);
	timeTexture.update(time,
	textureFromTextShaded(
	renderer,
	*fontText,
	c,
	fg,
	bg
	));
	y-=textureHeight(*timeTexture.get());
	}

	applyTexture(0,y,*timeTexture.get(), renderer);
	}

	//Draw the current action in the upper right corner.
	if(player.record){
	const SDL_Rect r = { 0, 0, 50, 50 };
	applyTexture(SCREEN_WIDTH - 50, 0, *action, renderer, &r);
	} else if (shadow.state != 0){
	const SDL_Rect r={50,0,50,50};
	applyTexture(SCREEN_WIDTH-50,0,*action,renderer,&r);
	}

	//if the game is play from record then draw something indicates it
	if(player.isPlayFromRecord()){
	//Dim the screen if interlevel is true.
	if( interlevel){
	dimScreen(renderer,191);
	}else if((time & 0x10)==0x10){
	// FIXME: replace this ugly ad-hoc animation by a better one
	const SDL_Rect r={50,0,50,50};
	applyTexture(0,0,*action,renderer,&r);
	applyTexture(0,SCREEN_HEIGHT-50,*action,renderer,&r);
	applyTexture(SCREEN_WIDTH-50,SCREEN_HEIGHT-50,*action,renderer,&r);
	}
	}else if(auto blockId = player.objNotificationBlock.get()){
	//If the player is in front of a notification block show the message.
	//And it isn't a replay.
	//Check if we need to update the notification message texture.
	int maxWidth = 0;
	int y = 20;
	//We check against blockId rather than the full message, as blockId is most likely shorter.
	if(notificationTexture.needsUpdate(blockId)) {
	const std::string &untranslated_message=blockId->message;
	std::string message=_CC(levels->getDictionaryManager(),untranslated_message);

	std::vector<std::string> string_data;

	//Trim the message.
	{
	size_t lps = message.find_first_not_of("\n\r \t");
	if (lps == string::npos) {
	message.clear(); // it's completely empty
	} else {
	message = message.substr(lps, message.find_last_not_of("\n\r \t") - lps + 1);
	}
	}

	//Split the message into lines.
	for (int lps = 0;;) {
	// determine the end of line
	int lpe = lps;
	for (; message[lpe] != '\n' && message[lpe] != '\r' && message[lpe] != '\0'; lpe++);

	string_data.push_back(message.substr(lps, lpe - lps));

	// break if the string ends
	if (message[lpe] == '\0') break;

	// skip "\r\n" for Windows line ending
	if (message[lpe] == '\r' && message[lpe + 1] == '\n') lpe++;

	// point to the start of next line
	lps = lpe + 1;
	}

	vector<SurfacePtr> lines;

	//Create the image for each lines
	for (int i = 0; i < (int)string_data.size(); i++) {
	//Integer used to center the sentence horizontally.
	int x = 0;
	TTF_SizeUTF8(fontText, string_data[i].c_str(), &x, NULL);

	//Find out largest width
	if (x>maxWidth)
	maxWidth = x;

	lines.emplace_back(TTF_RenderUTF8_Blended(fontText, string_data[i].c_str(), objThemes.getTextColor(true)));

	//Increase y with 25, about the height of the text.
	y += 25;
	}

	maxWidth+=SCREEN_WIDTH*0.15;

	SurfacePtr surf = createSurface(maxWidth, y);
	int y1 = y;
	for(SurfacePtr &s : lines) {
	if(s) {
	applySurface((surf->w-s->w)/2,surf->h - y1,s.get(),surf.get(),NULL);
	}
	y1 -= 25;
	}
	notificationTexture.update(blockId, textureUniqueFromSurface(renderer,std::move(surf)));
	} else {
	auto texSize = rectFromTexture(*notificationTexture.get());
	maxWidth=texSize.w;
	y=texSize.h;
	}

	drawGUIBox((SCREEN_WIDTH-maxWidth)/2,SCREEN_HEIGHT-y-25,maxWidth,y+20,renderer,0xFFFFFFBF);
	applyTexture((SCREEN_WIDTH-maxWidth)/2,SCREEN_HEIGHT-y,notificationTexture.getTexture(),renderer);
	}
	}

	void Game::resize(ImageManager&, SDL_Renderer& /renderer/){
	//Check if the interlevel popup is shown.
	if(interlevel && GUIObjectRoot){
	GUIObjectRoot->left=(SCREEN_WIDTH-GUIObjectRoot->width)/2;
	}
	}

	void Game::replayPlay(ImageManager& imageManager,SDL_Renderer& renderer){
	//Set interlevel true.
	interlevel=true;

	//Make a copy of the playerButtons.
	vector<int> recordCopy=player.recordButton;

	//Reset the game.
	//NOTE: We don't reset the saves. I'll see that if it will introduce bugs.
	reset(false, false);

	//Make the cursor visible when the interlevel popup is up.
	SDL_ShowCursor(SDL_ENABLE);

	//Set the copy of playerButtons back.
	player.recordButton=recordCopy;

	//Now play the recording.
	player.playRecord();

	//Create the gui if it isn't already done.
	if(!GUIObjectRoot){
	//Create a new GUIObjectRoot the size of the screen.
	GUIObjectRoot=new GUIObject(imageManager,renderer,0,0,SCREEN_WIDTH,SCREEN_HEIGHT);
	//Make child widgets change color properly according to theme.
	GUIObjectRoot->inDialog=true;

	//Create a GUIFrame for the upper frame.
	GUIFrame* upperFrame=new GUIFrame(imageManager,renderer,0,4,0,74);
	GUIObjectRoot->addChild(upperFrame);

	//Render the You've finished: text and add it to a GUIImage.
	//NOTE: The texture is managed by the GUIImage so no need to free it ourselfs.
	auto bm = SharedTexture(textureFromText(renderer, *fontGUI,_("You've finished:"),objThemes.getTextColor(true)));
	const SDL_Rect textureSize = rectFromTexture(*bm);

	GUIImage* title=new GUIImage(imageManager,renderer,0,4-GUI_FONT_RAISE,textureSize.w,textureSize.h,bm);
	upperFrame->addChild(title);

	//Create the sub title.
	string s;
	if (levels->getLevelCount()>0){
	/// TRANSLATORS: Please do not remove %s or %d from your translation:
	/// - %d means the level number in a levelpack
	/// - %s means the name of current level
	s=tfm::format(_("Level %d %s"),levels->getCurrentLevel()+1,_CC(levels->getDictionaryManager(),levelName));
	}
	GUIObject* obj=new GUILabel(imageManager,renderer,0,44,0,28,s.c_str(),0,true,true,GUIGravityCenter);
	upperFrame->addChild(obj);
	obj->render(renderer,0,0,false);

	//Determine the width the upper frame should have.
	int width;
	if(textureSize.w>obj->width)
	width=textureSize.w+32;
	else
	width=obj->width+32;
	//Set the left of the title.
	title->left=(width-title->width)/2;
	//Set the width of the level label to the width of the frame for centering.
	obj->width=width;
	//Now set the position and width of the frame.
	upperFrame->width=width;
	upperFrame->left=(SCREEN_WIDTH-width)/2;

	//Now create a GUIFrame for the lower frame.
	GUIFrame* lowerFrame=new GUIFrame(imageManager,renderer,0,SCREEN_HEIGHT-140,570,135);
	GUIObjectRoot->addChild(lowerFrame);

	//The different values.
	int bestTime=levels->getLevel()->time;
	int targetTime=levels->getLevel()->targetTime;
	int bestRecordings=levels->getLevel()->recordings;
	int targetRecordings=levels->getLevel()->targetRecordings;

	int medal=1;
	if(bestTime>=0 && (targetTime<0 \|\| bestTime<=targetTime))
	medal++;
	if(bestRecordings>=0 && (targetRecordings<0 \|\| bestRecordings<=targetRecordings))
	medal++;

	int maxWidth=0;
	int x=20;

	//Is there a target time for this level?
	int timeY=0;
	bool isTargetTime=true;
	if(targetTime<0){
	isTargetTime=false;
	timeY=12;
	}

	//Create the labels with the time and best time.
	/// TRANSLATORS: Please do not remove %-.2f from your translation:
	/// - %-.2f means time in seconds
	/// - s is shortened form of a second. Try to keep it so.
	obj=new GUILabel(imageManager,renderer,x,10+timeY,-1,36,tfm::format(_("Time: %-.2fs"),time/40.0).c_str());
	lowerFrame->addChild(obj);

	obj->render(renderer,0,0,false);
	maxWidth=obj->width;

	/// TRANSLATORS: Please do not remove %-.2f from your translation:
	/// - %-.2f means time in seconds
	/// - s is shortened form of a second. Try to keep it so.
	obj=new GUILabel(imageManager,renderer,x,34+timeY,-1,36,tfm::format(_("Best time: %-.2fs"),bestTime/40.0).c_str());
	lowerFrame->addChild(obj);

	obj->render(renderer,0,0,false);
	if(obj->width>maxWidth)
	maxWidth=obj->width;

	/// TRANSLATORS: Please do not remove %-.2f from your translation:
	/// - %-.2f means time in seconds
	/// - s is shortened form of a second. Try to keep it so.
	if(isTargetTime){
	obj=new GUILabel(imageManager,renderer,x,58,-1,36,tfm::format(_("Target time: %-.2fs"),targetTime/40.0).c_str());
	lowerFrame->addChild(obj);

	obj->render(renderer,0,0,false);
	if(obj->width>maxWidth)
	maxWidth=obj->width;
	}

	x+=maxWidth+20;

	//Is there target recordings for this level?
	int recsY=0;
	bool isTargetRecs=true;
	if(targetRecordings<0){
	isTargetRecs=false;
	recsY=12;
	}

	//Now the ones for the recordings.
	/// TRANSLATORS: Please do not remove %d from your translation:
	/// - %d means the number of recordings user has made
	obj=new GUILabel(imageManager,renderer,x,10+recsY,-1,36,tfm::format(_("Recordings: %d"),recordings).c_str());
	lowerFrame->addChild(obj);

	obj->render(renderer,0,0,false);
	maxWidth=obj->width;

	/// TRANSLATORS: Please do not remove %d from your translation:
	/// - %d means the number of recordings user has made
	obj=new GUILabel(imageManager,renderer,x,34+recsY,-1,36,tfm::format(_("Best recordings: %d"),bestRecordings).c_str());
	lowerFrame->addChild(obj);

	obj->render(renderer,0,0,false);
	if(obj->width>maxWidth)
	maxWidth=obj->width;

	/// TRANSLATORS: Please do not remove %d from your translation:
	/// - %d means the number of recordings user has made
	if(isTargetRecs){
	obj=new GUILabel(imageManager,renderer,x,58,-1,36,tfm::format(_("Target recordings: %d"),targetRecordings).c_str());
	lowerFrame->addChild(obj);

	obj->render(renderer,0,0,false);
	if(obj->width>maxWidth)
	maxWidth=obj->width;
	}

	x+=maxWidth;

	//The medal that is earned.
	/// TRANSLATORS: Please do not remove %s from your translation:
	/// - %s will be replaced with name of a prize medal (gold, silver or bronze)
	string s1=tfm::format(_("You earned the %s medal"),(medal>1)?(medal==3)?_("GOLD"):_("SILVER"):_("BRONZE"));
	obj=new GUILabel(imageManager,renderer,50,92,-1,36,s1.c_str(),0,true,true,GUIGravityCenter);
	lowerFrame->addChild(obj);

	obj->render(renderer,0,0,false);
	if(obj->left+obj->width>x){
	x=obj->left+obj->width+30;
	}else{
	obj->left=20+(x-20-obj->width)/2;
	}

	//Create the rectangle for the earned medal.
	SDL_Rect r;
	r.x=(medal-1)*30;
	r.y=0;
	r.w=30;
	r.h=30;

	//Create the medal on the left side.
	obj=new GUIImage(imageManager,renderer,16,92,30,30,medals,r);
	lowerFrame->addChild(obj);
	//And the medal on the right side.
	obj=new GUIImage(imageManager,renderer,x-24,92,30,30,medals,r);
	lowerFrame->addChild(obj);

	//Create the three buttons, Menu, Restart, Next.
	/// TRANSLATORS: used as return to the level selector menu
	GUIObject* b1=new GUIButton(imageManager,renderer,x,10,-1,36,_("Menu"),0,true,true,GUIGravityCenter);
	b1->name="cmdMenu";
	b1->eventCallback=this;
	lowerFrame->addChild(b1);
	b1->render(renderer,0,0,true);

	/// TRANSLATORS: used as restart level
	GUIObject* b2=new GUIButton(imageManager,renderer,x,50,-1,36,_("Restart"),0,true,true,GUIGravityCenter);
	b2->name="cmdRestart";
	b2->eventCallback=this;
	lowerFrame->addChild(b2);
	b2->render(renderer,0,0,true);

	/// TRANSLATORS: used as next level
	GUIObject* b3=new GUIButton(imageManager,renderer,x,90,-1,36,_("Next"),0,true,true,GUIGravityCenter);
	b3->name="cmdNext";
	b3->eventCallback=this;
	lowerFrame->addChild(b3);
	b3->render(renderer,0,0,true);

	maxWidth=b1->width;
	if(b2->width>maxWidth)
	maxWidth=b2->width;
	if(b3->width>maxWidth)
	maxWidth=b3->width;

	b1->left=b2->left=b3->left=x+maxWidth/2;

	x+=maxWidth;
	lowerFrame->width=x;
	lowerFrame->left=(SCREEN_WIDTH-lowerFrame->width)/2;
	}
	}

	void Game::recordingEnded(ImageManager& imageManager, SDL_Renderer& renderer){
	//Check if it's a normal replay, if so just stop.
	if(!interlevel){
	//Show the cursor so that the user can press the ok button.
	SDL_ShowCursor(SDL_ENABLE);
	//Now show the message box.
	msgBox(imageManager,renderer,_("Game replay is done."),MsgBoxOKOnly,_("Game Replay"));
	//Go to the level select menu.
	setNextState(STATE_LEVEL_SELECT);

	//And change the music back to the menu music.
	getMusicManager()->playMusic("menu");
	}else{
	//Instead of directly replaying we set won true to let the Game handle the replaying at the end of the update cycle.
	won=true;
	}
	}

	bool Game::canSaveState(){
	return (player.canSaveState() && shadow.canSaveState());
	}

	bool Game::saveState(){
	//Check if the player and shadow can save the current state.
	if(canSaveState()){
	//Let the player and the shadow save their state.
	player.saveState();
	shadow.saveState();

	//Save the stats.
	timeSaved=time;
	recordingsSaved=recordings;
	recentSwapSaved=recentSwap;

	//Save the camera mode and target.
	cameraModeSaved=cameraMode;
	cameraTargetSaved=cameraTarget;

	//Save the current collectables
	- currentCollectablesSaved=currentCollectables;
	+ currentCollectablesSaved = currentCollectables;
	+ totalCollectablesSaved = totalCollectables;

	//Save scripts.
	copyCompiledScripts(getScriptExecutor()->getLuaState(), compiledScripts, savedCompiledScripts);

	//Save other state, for example moving blocks.
	copyLevelObjects(levelObjects, levelObjectsSave, false);

	//Also save states of scenery layers.
	for (auto it = sceneryLayers.begin(); it != sceneryLayers.end(); ++it) {
	it->second->saveAnimation();
	}

	//Also save the background animation, if any.
	if(background)
	background->saveAnimation();

	if(!player.isPlayFromRecord() && !interlevel){
	//Update achievements
	Uint32 t=SDL_GetTicks()+5000; //Add a bias to prevent bugs
	if(recentSave+1000>t){
	statsMgr.newAchievement("panicSave");
	}
	recentSave=t;

	//Update statistics.
	statsMgr.saveTimes++;

	//Update achievements
	switch(statsMgr.saveTimes){
	case 1000:
	statsMgr.newAchievement("save1k");
	break;
	}
	}

	//Save the state for script executor.
	getScriptExecutor()->saveState();

	//Execute the onSave event.
	executeScript(LevelEvent_OnSave);

	//Return true.
	return true;
	}

	//We can't save the state so return false.
	return false;
	}

	bool Game::loadState(){
	//Check if there's a state that can be loaded.
	if(player.canLoadState() && shadow.canLoadState()){
	//Let the player and the shadow load their state.
	player.loadState();
	shadow.loadState();

	//Load the stats.
	time=timeSaved;
	recordings=recordingsSaved;
	recentSwap=recentSwapSaved;

	//Load the camera mode and target.
	cameraMode=cameraModeSaved;
	cameraTarget=cameraTargetSaved;

	//Load the current collactbles
	- currentCollectables=currentCollectablesSaved;
	+ currentCollectables = currentCollectablesSaved;
	+ totalCollectables = totalCollectablesSaved;

	//Load scripts.
	copyCompiledScripts(getScriptExecutor()->getLuaState(), savedCompiledScripts, compiledScripts);

	//Load other state, for example moving blocks.
	copyLevelObjects(levelObjectsSave, levelObjects, true);

	//Also load states of scenery layers.
	for (auto it = sceneryLayers.begin(); it != sceneryLayers.end(); ++it) {
	it->second->loadAnimation();
	}

	//Also load the background animation, if any.
	if(background)
	background->loadAnimation();

	if(!player.isPlayFromRecord() && !interlevel){
	//Update achievements.
	Uint32 t=SDL_GetTicks()+5000; //Add a bias to prevent bugs
	if(recentLoad+1000>t){
	statsMgr.newAchievement("panicLoad");
	}
	recentLoad=t;

	//Update statistics.
	statsMgr.loadTimes++;

	//Update achievements
	switch(statsMgr.loadTimes){
	case 1000:
	statsMgr.newAchievement("load1k");
	break;
	}
	}

	//Load the state for script executor.
	getScriptExecutor()->loadState();

	//Execute the onLoad event, if any.
	executeScript(LevelEvent_OnLoad);

	//Return true.
	return true;
	}

	//We can't load the state so return false.
	return false;
	}

	void Game::reset(bool save,bool noScript){
	//Some sanity check, i.e. if we switch from no-script mode to script mode, we should always reset the save
	assert(noScript \|\| getScriptExecutor() \|\| save);

	//We need to reset the game so we also reset the player and the shadow.
	player.reset(save);
	shadow.reset(save);

	saveStateNextTime=false;
	loadStateNextTime=false;

	//Reset the stats if interlevel isn't true.
	if(!interlevel){
	time=0;
	recordings=0;
	}

	recentSwap=-10000;
	if(save) recentSwapSaved=-10000;

	//Reset the camera.
	cameraMode=CAMERA_PLAYER;
	if(save) cameraModeSaved=CAMERA_PLAYER;
	cameraTarget.x=cameraTarget.y=cameraTarget.w=cameraTarget.h=0;
	if(save) cameraTargetSaved.x=cameraTargetSaved.y=cameraTargetSaved.w=cameraTargetSaved.h=0;

	//Reset the number of collectables
	- currentCollectables=0;
	- if(save)
	- currentCollectablesSaved=0;
	+ currentCollectables = currentCollectablesInitial;
	+ totalCollectables = totalCollectablesInitial;
	+ if (save) {
	+ currentCollectablesSaved = currentCollectablesInitial;
	+ totalCollectablesSaved = totalCollectablesInitial;
	+ }

	//Clear the event queue, since all the events are from before the reset.
	eventQueue.clear();

	//Reset states of scenery layers.
	for (auto it = sceneryLayers.begin(); it != sceneryLayers.end(); ++it) {
	it->second->resetAnimation(save);
	}

	//Also reset the background animation, if any.
	if(background)
	background->resetAnimation(save);

	//Reset the cached notification block
	notificationTexture.update(NULL, NULL);

	//Reset the script environment if necessary.
	if (noScript) {
	//Destroys the script environment completely.
	scriptExecutor->destroy();

	//Clear the level script.
	compiledScripts.clear();
	savedCompiledScripts.clear();
	initialCompiledScripts.clear();

	//Clear the block script.
	for (auto block : levelObjects){
	block->compiledScripts.clear();
	}
	for (auto block : levelObjectsSave){
	block->compiledScripts.clear();
	}
	for (auto block : levelObjectsInitial){
	block->compiledScripts.clear();
	}
	} else if (save) {
	//Create a new script environment.
	getScriptExecutor()->reset(true);

	//Recompile the level script.
	compiledScripts.clear();
	savedCompiledScripts.clear();
	initialCompiledScripts.clear();
	for (auto it = scripts.begin(); it != scripts.end(); ++it){
	int index = getScriptExecutor()->compileScript(it->second);
	compiledScripts[it->first] = index;
	lua_rawgeti(getScriptExecutor()->getLuaState(), LUA_REGISTRYINDEX, index);
	savedCompiledScripts[it->first] = luaL_ref(getScriptExecutor()->getLuaState(), LUA_REGISTRYINDEX);
	lua_rawgeti(getScriptExecutor()->getLuaState(), LUA_REGISTRYINDEX, index);
	initialCompiledScripts[it->first] = luaL_ref(getScriptExecutor()->getLuaState(), LUA_REGISTRYINDEX);
	}

	//Recompile the block script.
	for (auto block : levelObjects){
	block->compiledScripts.clear();
	}
	for (auto block : levelObjectsSave){
	block->compiledScripts.clear();
	}
	for (auto block : levelObjectsInitial) {
	block->compiledScripts.clear();
	for (auto it = block->scripts.begin(); it != block->scripts.end(); ++it){
	int index = getScriptExecutor()->compileScript(it->second);
	block->compiledScripts[it->first] = index;
	}
	}
	} else {
	assert(getScriptExecutor());

	//Do a soft reset.
	getScriptExecutor()->reset(false);

	//Restore the level script to initial state.
	copyCompiledScripts(getScriptExecutor()->getLuaState(), initialCompiledScripts, compiledScripts);

	//NOTE: We don't need to restore the block script since it will be restored automatically when the block array is copied.
	}

	//We reset levelObjects here since we need to wait the compiledScripts being initialized.
	copyLevelObjects(levelObjectsInitial, levelObjects, true);
	if (save) {
	copyLevelObjects(levelObjectsInitial, levelObjectsSave, false);
	}

	//Also reset the last checkpoint so set it to NULL.
	if (save)
	objLastCheckPoint = NULL;

	//Call the level's onCreate event.
	executeScript(LevelEvent_OnCreate);

	//Send GameObjectEvent_OnCreate event to the script
	for (auto block : levelObjects) {
	block->onEvent(GameObjectEvent_OnCreate);
	}

	//Close exit(s) if there are any collectables
	if (totalCollectables>0){
	for (auto block : levelObjects){
	if (block->type == TYPE_EXIT){
	block->onEvent(GameObjectEvent_OnSwitchOff);
	}
	}
	}

	//Hide the cursor (if not the leveleditor).
	if(stateID!=STATE_LEVEL_EDITOR)
	SDL_ShowCursor(SDL_DISABLE);
	}

	void Game::executeScript(int eventType){
	map<int,int>::iterator it;

	//Check if there's a script for the given event.
	it=compiledScripts.find(eventType);
	if(it!=compiledScripts.end()){
	//There is one so execute it.
	getScriptExecutor()->executeScript(it->second);
	}
	}

	void Game::broadcastObjectEvent(int eventType,int objectType,const char* id,GameObject* target){
	//Create a typeGameObjectEvent that can be put into the queue.
	typeGameObjectEvent e;
	//Set the event type.
	e.eventType=eventType;
	//Set the object type.
	e.objectType=objectType;
	//By default flags=0.
	e.flags=0;
	//Unless there's an id.
	if(id){
	//Set flags to 0x1 and set the id.
	e.flags\|=1;
	e.id=id;
	}
	//Or there's a target given.
	if(target)
	e.target=target;
	else
	e.target=NULL;

	//Add the event to the queue.
	eventQueue.push_back(e);
	}

	void Game::getCurrentLevelAutoSaveRecordPath(std::string &bestTimeFilePath,std::string &bestRecordingFilePath,bool createPath){
	levels->getLevelAutoSaveRecordPath(-1,bestTimeFilePath,bestRecordingFilePath,createPath);
	}

	void Game::gotoNextLevel(ImageManager& imageManager, SDL_Renderer& renderer){
	//Goto the next level.
	levels->nextLevel();

	//Check if the level exists.
	if(levels->getCurrentLevel()<levels->getLevelCount()){
	setNextState(STATE_GAME);
	}else{
	if(!levels->congratulationText.empty()){
	msgBox(imageManager,renderer,_CC(levels->getDictionaryManager(),levels->congratulationText),MsgBoxOKOnly,_("Congratulations"));
	}else{
	msgBox(imageManager,renderer,_("You have finished the levelpack!"),MsgBoxOKOnly,_("Congratulations"));
	}
	//Now go back to the levelselect screen.
	setNextState(STATE_LEVEL_SELECT);
	//And set the music back to menu.
	getMusicManager()->playMusic("menu");
	}
	}

	void Game::GUIEventCallback_OnEvent(ImageManager& imageManager,SDL_Renderer& renderer, string name,GUIObject* obj,int eventType){
	if(name=="cmdMenu"){
	setNextState(STATE_LEVEL_SELECT);

	//And change the music back to the menu music.
	getMusicManager()->playMusic("menu");
	}else if(name=="cmdRestart"){
	//Clear the gui.
	if(GUIObjectRoot){
	delete GUIObjectRoot;
	GUIObjectRoot=NULL;
	}

	interlevel=false;

	//And reset the game.
	//NOTE: We don't need to clear the save game because in level replay the game won't be saved (??)
	//TODO: it seems work (??); I'll see if it introduce bugs
	reset(false, false);
	}else if(name=="cmdNext"){
	//No matter what, clear the gui.
	if(GUIObjectRoot){
	delete GUIObjectRoot;
	GUIObjectRoot=NULL;
	}

	//And goto the next level.
	gotoNextLevel(imageManager,renderer);
	}
	}

	void Game::invalidateNotificationTexture(Block *block) {
	if (block == NULL \|\| block == notificationTexture.getId()) {
	notificationTexture.update(NULL, NULL);
	}
	}
	diff --git a/src/Game.h b/src/Game.h
	index 7417c84..7f5a6cd 100644
	--- a/src/Game.h
	+++ b/src/Game.h
	@@ -1,311 +1,309 @@
	/*
	* Copyright (C) 2011-2013 Me and My Shadow
	*
	* This file is part of Me and My Shadow.
	*
	* Me and My Shadow 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 3 of the License, or
	* (at your option) any later version.
	*
	* Me and My Shadow 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 Me and My Shadow. If not, see <http://www.gnu.org/licenses/>.
	*/

	#ifndef GAME_H
	#define GAME_H

	#include <SDL.h>
	#include <array>
	#include <vector>
	#include <map>
	#include <string>

	#include "CachedTexture.h"
	#include "GameState.h"
	#include "GUIObject.h"
	#include "Block.h"
	#include "Scenery.h"
	#include "SceneryLayer.h"
	#include "Player.h"
	#include "Render.h"
	#include "Shadow.h"

	//This structure contains variables that make a GameObjectEvent.
	struct typeGameObjectEvent{
	//The type of event.
	int eventType;
	//The type of object that should react to the event.
	int objectType;
	//Flags, 0x1 means use the id.
	int flags;
	//Blocks with this id should react to the event.
	std::string id;

	//Optional pointer to the block the event should be called on.
	GameObject* target;
	};

	class ThemeManager;
	class ThemeBackground;
	class TreeStorageNode;
	class ScriptExecutor;

	//The different level events.
	enum LevelEventType{
	//Event called when the level is created or the game is reset. This happens after all the blocks are created and their onCreate is called.
	LevelEvent_OnCreate=1,
	//Event called when the game is saved.
	LevelEvent_OnSave,
	//Event called when the game is loaded.
	LevelEvent_OnLoad,
	};

	class Game : public GameState,public GUIEventCallback{
	private:
	//Boolean if the game should reset. This happens when player press 'R' button.
	bool isReset;

	//The script executor.
	ScriptExecutor *scriptExecutor;

	protected:
	//contains currently played level.
	TreeStorageNode* currentLevelNode;

	//Array containing "tooltips" for certain block types.
	//It will be shown in the topleft corner of the screen.
	std::array<TexturePtr, TYPE_MAX> bmTips;

	//Texture containing the action images (record, play, etc..)
	SharedTexture action;
	//Texture containing the medal image.
	SharedTexture medals;

	//ThemeBlockInstance containing the collectable image.
	ThemeBlockInstance collectable;

	//The name of the current level.
	std::string levelName;
	//The path + file of the current level.
	std::string levelFile;

	//Editor data containing information like name, size, etc...
	std::map<std::string,std::string> editorData;

	//Vector used to queue the gameObjectEvents.
	std::vector<typeGameObjectEvent> eventQueue;

	//The themeManager.
	ThemeManager* customTheme;
	//The themeBackground.
	ThemeBackground* background;

	CachedTexture<int> collectablesTexture;
	CachedTexture<int> recordingsTexture;
	CachedTexture<int> timeTexture;
	CachedTexture<Block*> notificationTexture;

	//Load a level from node.
	//After calling this function the ownership of
	//node will transfer to Game class. So don't delete
	//the node after calling this function!
	virtual void loadLevelFromNode(ImageManager& imageManager, SDL_Renderer& renderer, TreeStorageNode* obj, const std::string& fileName);

	//(internal function) Reload the music according to level music and level pack music.
	//This is mainly used in level editor.
	void reloadMusic();

	public:
	//Array used to convert GameObject type->string.
	static const char* blockName[TYPE_MAX];
	//Map used to convert GameObject string->type.
	static std::map<std::string,int> blockNameMap;

	//Map used to convert GameObjectEventType type->string.
	static std::map<int,std::string> gameObjectEventTypeMap;
	//Map used to convert GameObjectEventType string->type.
	static std::map<std::string,int> gameObjectEventNameMap;

	//Map used to convert LevelEventType type->string.
	static std::map<int,std::string> levelEventTypeMap;
	//Map used to convert LevelEventType string->type.
	static std::map<std::string,int> levelEventNameMap;

	//Boolean that is set to true when a game is won.
	bool won;

	//Boolean that is set to true when we should save game on next logic update.
	bool saveStateNextTime;

	//Boolean that is set to true when we should load game on next logic update.
	bool loadStateNextTime;

	//Boolean if the replaying currently done is for the interlevel screen.
	bool interlevel;

	//Integer containing the current tip index.
	int gameTipIndex;

	//Integer containing the number of ticks passed since the start of the level.
	int time;
	//Integer containing the stored value of time.
	int timeSaved;

	//Integer containing the number of recordings it took to finish.
	int recordings;
	//Integer containing the stored value of recordings.
	int recordingsSaved;

	//Integer keeping track of currently obtained collectables
	- int currentCollectables;
	+ int currentCollectables, currentCollectablesSaved, currentCollectablesInitial;
	//Integer keeping track of total colletables in the level
	- int totalCollectables;
	- //Integer containing the stored value of current collectables
	- int currentCollectablesSaved;
	+ int totalCollectables, totalCollectablesSaved, totalCollectablesInitial;

	//Time of recent swap, for achievements. (in game-ticks)
	int recentSwap,recentSwapSaved;

	//Store time of recent save/load for achievements (in millisecond)
	Uint32 recentLoad,recentSave;

	//Enumeration with the different camera modes.
	enum CameraMode{
	CAMERA_PLAYER,
	CAMERA_SHADOW,
	CAMERA_CUSTOM
	};
	//The current camera mode.
	CameraMode cameraMode;
	//Rectangle containing the target for the camera.
	SDL_Rect cameraTarget;

	//The saved cameraMode.
	CameraMode cameraModeSaved;
	SDL_Rect cameraTargetSaved;

	//Level scripts.
	std::map<int,std::string> scripts;

	//Compiled scripts. Use lua_rawgeti(L, LUA_REGISTRYINDEX, r) to get the function.
	std::map<int, int> compiledScripts, savedCompiledScripts, initialCompiledScripts;

	//Vector containing all the levelObjects in the current game.
	std::vector<Block*> levelObjects, levelObjectsSave, levelObjectsInitial;

	//The layers for the scenery.
	// We utilize the fact that std::map is sorted, and we compare the layer name with "f",
	// If name<"f" then it's background layer, if name>="f" then it's foreground layer.
	// NOTE: the layer name is case sensitive, in particular if the name start with capital "F"
	// then it is still background layer.
	std::map<std::string,SceneryLayer*> sceneryLayers;

	//The player...
	Player player;
	//... and his shadow.
	Shadow shadow;

	//warning: weak reference only, may point to invalid location
	Block::ObservePointer objLastCheckPoint;

	//Constructor.
	Game(SDL_Renderer& renderer, ImageManager& imageManager);
	//If this is not empty then when next Game class is created
	//it will play this record file.
	static std::string recordFile;
	//Destructor.
	//It will call destroy();
	~Game();

	//Method used to clean up the GameState.
	void destroy();

	//Inherited from GameState.
	void handleEvents(ImageManager&imageManager, SDL_Renderer&renderer) override;
	void logic(ImageManager& imageManager, SDL_Renderer& renderer) override;
	void render(ImageManager&,SDL_Renderer& renderer) override;
	void resize(ImageManager& imageManager, SDL_Renderer& renderer) override;

	//This method will load a level.
	//fileName: The fileName of the level.
	virtual void loadLevel(ImageManager& imageManager, SDL_Renderer& renderer, std::string fileName);

	//Method used to broadcast a GameObjectEvent.
	//eventType: The type of event.
	//objectType: The type of object that should react to the event.
	//id: The id of the blocks that should react.
	//target: Pointer to the object
	void broadcastObjectEvent(int eventType,int objectType=-1,const char* id=NULL,GameObject* target=NULL);

	//Compile all scripts and run onCreate script.
	//NOTE: Call this function only after script state reset, or there will be some memory leaks.
	void compileScript();

	//Method that will check if a script for a given levelEvent is present.
	//If that's the case the script will be executed.
	//eventType: The level event type to execute.
	void inline executeScript(int eventType);


	//Returns if the player and shadow can save the current state.
	bool canSaveState();

	//Method used to store the current state.
	//This is used for checkpoints.
	//Returns: True if it succeeds without problems.
	bool saveState();
	//Method used to load the stored state.
	//This is used for checkpoints.
	//Returns: True if it succeeds without problems.
	bool loadState();
	//Method that will reset the GameState to it's initial state.
	//save: Boolean if the saved state should also be deleted. This also means recreate the Lua context.
	//noScript: Boolean if we should not compile the script at all. This is used by level editor when exiting test play.
	void reset(bool save,bool noScript);

	//Save current game record to the file.
	//fileName: The filename of the destination file.
	void saveRecord(const char* fileName);
	//Load game record (and its level) from file and play it.
	//fileName: The filename of the recording file.
	void loadRecord(ImageManager& imageManager, SDL_Renderer& renderer, const char* fileName);

	//Method called by the player (or shadow) when he finished.
	void replayPlay(ImageManager& imageManager, SDL_Renderer &renderer);
	//Method that gets called when the recording has ended.
	void recordingEnded(ImageManager& imageManager, SDL_Renderer& renderer);

	//get current level's auto-save record path,
	//using current level's MD5, file name and other information.
	void getCurrentLevelAutoSaveRecordPath(std::string &bestTimeFilePath,std::string &bestRecordingFilePath,bool createPath);

	//Method that will prepare the gamestate for the next level and start it.
	//If it's the last level it will show the congratulations text and return to the level select screen.
	void gotoNextLevel(ImageManager& imageManager, SDL_Renderer& renderer);

	//Get the name of the current level.
	const std::string& getLevelName(){
	return levelName;
	}

	//GUI event handling is done here.
	void GUIEventCallback_OnEvent(ImageManager&imageManager, SDL_Renderer&renderer, std::string name, GUIObject* obj, int eventType) override;

	//Get the script executor.
	ScriptExecutor* getScriptExecutor() {
	return scriptExecutor;
	}

	//Invalidates the notification texture.
	//block: The block which is updated. The cached texture won't be invalidated if it's not for this block.
	//NULL means invalidates the texture no matter which block is updated.
	void invalidateNotificationTexture(Block *block = NULL);
	};

	#endif

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