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	diff --git a/src/Block.cpp b/src/Block.cpp
	index 06014a4..fc808b0 100644
	--- a/src/Block.cpp
	+++ b/src/Block.cpp
	@@ -1,1281 +1,1284 @@
	/*
	* 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),
	animationSave(0),
	flags(0),
	flagsSave(0),
	temp(0),
	tempSave(0),
	dx(0),
	dy(0),
	dxSave(0),
	dySave(0),
	movingPosTime(-1),
	speed(0),
	speedSave(0),
	editorSpeed(0),
	editorFlags(0)
	{
	//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(){}

	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 save values.
	boxSave.x=x;
	boxSave.y=y;
	boxSave.w=w;
	boxSave.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=objCurrentStandSave=NULL;
	inAir=inAirSave=true;
	xVel=yVel=xVelBase=yVelBase=0;
	xVelSave=yVelSave=xVelBaseSave=yVelBaseSave=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==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()){
	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 (editorFlags & 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::saveState(){
	animationSave=animation;
	flagsSave=flags;
	tempSave=temp;
	dxSave=dx;
	dySave=dy;
	boxSave.x=box.x-boxBase.x;
	boxSave.y=box.y-boxBase.y;
	boxSave.w=box.w-boxBase.w;
	boxSave.h=box.h-boxBase.h;
	xVelSave=xVel;
	yVelSave=yVel;
	appearance.saveAnimation();

	//In case of a certain blocks we need to save some more.
	switch(type){
	case TYPE_PUSHABLE:
	objCurrentStandSave=objCurrentStand;
	xVelBaseSave=xVelBase;
	yVelBaseSave=yVelBase;
	inAirSave=inAir;
	break;
	case TYPE_CONVEYOR_BELT:
	case TYPE_SHADOW_CONVEYOR_BELT:
	speedSave=speed;
	break;
	}
	}

	void Block::loadState(){
	//Restore the flags and animation var.
	animation=animationSave;
	flags=flagsSave;
	temp=tempSave;
	dx=dxSave;
	dy=dySave;
	//Restore the location.
	box.x=boxBase.x+boxSave.x;
	box.y=boxBase.y+boxSave.y;
	box.w=boxBase.w+boxSave.w;
	box.h=boxBase.h+boxSave.h;
	//And the velocity.
	xVel=xVelSave;
	yVel=yVelSave;

	//Invalidates the cache.
	movingPosTime = -1;

	//Handle block type specific variables.
	switch(type){
	case TYPE_PUSHABLE:
	objCurrentStand=objCurrentStandSave;
	xVelBase=xVelBaseSave;
	yVelBase=yVelBaseSave;
	inAir=inAirSave;
	break;
	case TYPE_CONVEYOR_BELT:
	case TYPE_SHADOW_CONVEYOR_BELT:
	speed=speedSave;
	break;
	}

	//And load the animation.
	appearance.loadAnimation();
	}

	void Block::reset(bool save){
	//We need to reset so we clear the animation and saves.
	if(save){
	animation=animationSave=0;
	boxSave.x=boxSave.y=boxSave.w=boxSave.h=0;
	flags=flagsSave=editorFlags;
	temp=tempSave=0;
	dx=dxSave=0;
	dy=dySave=0;
	}else{
	animation=0;
	flags=editorFlags;
	temp=0;
	dx=0;
	dy=0;
	}

	//Invalidates the cache.
	movingPosTime = -1;

	//Reset the block to its original location.
	box.x=boxBase.x;
	box.y=boxBase.y;
	box.w=boxBase.w;
	box.h=boxBase.h;

	//Reset any velocity.
	xVel=yVel=xVelBase=yVelBase=0;
	if(save)
	xVelSave=yVelSave=xVelBaseSave=yVelBaseSave=0;

	//Also reset the appearance.
	appearance.resetAnimation(save);
	appearance.changeState("default");
	//NOTE: We load the animation right after changing it to prevent a transition.
	if(save)
	appearance.loadAnimation();

	//Some types of block requires type specific code.
	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_PUSHABLE:
	objCurrentStand=NULL;
	inAir=false;
	if(save) {
	objCurrentStandSave=NULL;
	inAirSave=false;
	}
	break;
	case TYPE_CONVEYOR_BELT:
	case TYPE_SHADOW_CONVEYOR_BELT:
	if(save)
	speed=speedSave=editorSpeed;
	else
	speed=editorSpeed;
	break;
	}
	}


	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", (editorFlags & 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",(editorFlags&0x1)?"0":"1"));
	obj.push_back(pair<string,string>("loop",(editorFlags&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",(editorFlags&0x1)?"0":"1"));
	sprintf(s,"%d",editorSpeed);
	obj.push_back(pair<string,string>("speed10",s));
	}
	break;
	case TYPE_PORTAL:
	obj.push_back(pair<string,string>("automatic",(editorFlags&0x1)?"1":"0"));
	obj.push_back(pair<string,string>("destination",destination));
	break;
	case TYPE_BUTTON:
	case TYPE_SWITCH:
	{
	string s;
	switch(editorFlags&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",editorFlags&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()) {
	appearance.blockStates[it->first] = it->second;
	}
	}
	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 = flagsSave = editorFlags = (editorFlags & ~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;
	editorFlags&=~0x1;
	if(!(s=="true" \|\| atoi(s.c_str()))) editorFlags\|=0x1;
	flags=flagsSave=editorFlags;
	}else{
	it=obj.find("disabled");
	if(it!=obj.end()){
	const string& s=it->second;
	editorFlags&=~0x1;
	if(s=="true" \|\| atoi(s.c_str())) editorFlags\|=0x1;
	flags=flagsSave=editorFlags;
	}
	}

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

	}
	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()){
	editorSpeed=atoi(it->second.c_str());
	speed=speedSave=editorSpeed;
	}else{
	it = obj.find("speed");
	if (it != obj.end()){
	editorSpeed = atoi(it->second.c_str()) * 10;
	speed = speedSave = editorSpeed;
	}
	}

	//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;
	editorFlags&=~0x1;
	if(!(s=="true" \|\| atoi(s.c_str()))) editorFlags\|=0x1;
	flags=flagsSave=editorFlags;
	}else{
	it=obj.find("disabled");
	if(it!=obj.end()){
	const string& s=it->second;
	editorFlags&=~0x1;
	if(s=="true" \|\| atoi(s.c_str())) editorFlags\|=0x1;
	flags=flagsSave=editorFlags;
	}
	}
	}
	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;
	editorFlags&=~0x1;
	if(s=="true" \|\| atoi(s.c_str())) editorFlags\|=0x1;
	flags=flagsSave=editorFlags;
	}

	//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;
	editorFlags&=~0x3;
	if(s=="on" \|\| s==_("On")) editorFlags\|=1;
	else if(s=="off" \|\| s==_("Off")) editorFlags\|=2;
	flags=flagsSave=editorFlags;
	}
	}
	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()){
	editorFlags=(editorFlags&~0x3)\|(atoi(it->second.c_str())&0x3);
	flags=flagsSave=editorFlags;
	{
	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(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(std::string property,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(objCurrentStand!=NULL){
	//Now get the velocity and delta of the object the player is standing on.
	SDL_Rect v=objCurrentStand->getBox(BoxType_Velocity);
	SDL_Rect delta=objCurrentStand->getBox(BoxType_Delta);

	switch(objCurrentStand->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(unsigned int o=0;o<parent->levelObjects.size();o++){
	//Make sure to only check visible blocks.
	if(parent->levelObjects[o]->flags & 0x80000000)
	continue;
	//Make sure we aren't the block.
	if(parent->levelObjects[o]==this)
	continue;
	//Make sure the object is solid for the player.
	if(!parent->levelObjects[o]->queryProperties(GameObjectProperty_PlayerCanWalkOn,&parent->player))
	continue;

	//Check for collision.
	if(checkCollision(box,parent->levelObjects[o]->getBox()))
	objects.push_back(parent->levelObjects[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(unsigned int o=0;o<objects.size();o++){
	SDL_Rect r=objects[o]->getBox();
	SDL_Rect delta=objects[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(unsigned int o=0; o<parent->levelObjects.size(); o++){
	//Make sure the object is visible.
	if(parent->levelObjects[o]->flags & 0x80000000)
	continue;
	//Make sure we aren't the block.
	if(parent->levelObjects[o]==this)
	continue;
	//Check if the player can collide with this game object.
	if(!parent->levelObjects[o]->queryProperties(GameObjectProperty_PlayerCanWalkOn,&parent->player))
	continue;

	//Check if the block is inside the frame.
	if(checkCollision(frame,parent->levelObjects[o]->getBox()))
	objects.push_back(parent->levelObjects[o]);
	}
	//Horizontal pass.
	if(xVel+xVelBase!=0){
	box.x+=xVel+xVelBase;
	for(unsigned int o=0;o<objects.size();o++){
	SDL_Rect r=objects[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(unsigned int o=0;o<objects.size();o++){
	SDL_Rect r=objects[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=objects[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=objects[o]->getBox(BoxType_Velocity);
	SDL_Rect v2=lastStand->getBox(BoxType_Velocity);

	if(v.y==v2.y){
	if(w>w2)
	lastStand=objects[o];
	}else if(v.y<v2.y){
	lastStand=objects[o];
	}
	}else{
	lastStand=objects[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;
	}
	}

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