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	diff --git a/src/Player.cpp b/src/Player.cpp
	index 1cebf8b..5bf5c95 100644
	--- a/src/Player.cpp
	+++ b/src/Player.cpp
	@@ -1,1353 +1,1360 @@
	/*
	* Copyright (C) 2011-2012 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 "Player.h"
	#include "Game.h"
	#include "Functions.h"
	#include "FileManager.h"
	#include "Globals.h"
	#include "Objects.h"
	#include "InputManager.h"
	#include "MD5.h"
	#include <iostream>
	#include <fstream>
	#include <SDL/SDL_mixer.h>
	#include <SDL/SDL.h>
	#include <SDL/SDL_ttf.h>
	using namespace std;

	#ifdef RECORD_FILE_DEBUG
	string recordKeyPressLog,recordKeyPressLog_saved;
	vector<SDL_Rect> recordPlayerPosition,recordPlayerPosition_saved;
	#endif

	Player::Player(Game* objParent):xVelBase(0),yVelBase(0),objParent(objParent){
	//Set the dimensions of the player.
	//The size of the player is 21x40.
	box.x=0;
	box.y=0;
	box.w=21;
	box.h=40;

	//Set his velocity to zero.
	xVel=0;
	yVel=0;

	//Set the start position.
	fx=0;
	fy=0;

	//Set some default values.
	inAir=true;
	isJump=false;
	onGround=true;
	shadowCall=false;
	shadow=false;
	canMove=true;
	holdingOther=false;
	dead=false;
	record=false;
	downKeyPressed=false;
	spaceKeyPressed=false;
	recordIndex=-1;
	#ifdef RECORD_FILE_DEBUG
	recordKeyPressLog.clear();
	recordKeyPressLog_saved.clear();
	recordPlayerPosition.clear();
	recordPlayerPosition_saved.clear();
	#endif
	objNotificationBlock=NULL;

	//Some default values for animation variables.
	direction=0;
	jumpTime=0;

	state=0;

	//xVelSaved is used to store if there's a state saved or not.
	xVelSaved=0x80000000;
	}

	Player::~Player(){
	//Do nothing here
	}

	bool Player::isPlayFromRecord(){
	return recordIndex>=0; // && recordIndex<(int)recordButton.size();
	}

	//get the game record object.
	std::vector<int>* Player::getRecord(){
	return &recordButton;
	}

	#ifdef RECORD_FILE_DEBUG
	string& Player::keyPressLog(){
	return recordKeyPressLog;
	}
	vector<SDL_Rect>& Player::playerPosition(){
	return recordPlayerPosition;
	}
	#endif

	//play the record.
	void Player::playRecord(){
	//TODO:
	recordIndex=0;
	}

	void Player::spaceKeyDown(class Shadow* shadow){
	//Start recording or stop, depending on the recording state.
	if(record==false){
	//We start recording.
	if(shadow->called==true){
	//The shadow is still busy so first stop him before we can start recording.
	shadowCall=false;
	shadow->called=false;
	shadow->playerButton.clear();
	}else if(!dead){
	//The shadow isn't moving and we aren't dead so start recording.
	record=true;

	//We start a recording meaning we need to increase recordings by one.
	objParent->recordings++;
	}
	}else{
	//The player is recording so stop recording and call the shadow.
	record=false;
	shadowCall=true;
	}
	}

	void Player::handleInput(class Shadow* shadow){
	//Check if we should read the input from record file.
	//Actually, we read input from record file in
	//another function shadowSetState.
	bool readFromRecord=false;
	if(recordIndex>=0 && recordIndex<(int)recordButton.size()) readFromRecord=true;

	if(!readFromRecord){
	//Reset horizontal velocity.
	xVel=0;
	if(inputMgr.isKeyDown(INPUTMGR_RIGHT)){
	//Walking to the right.
	xVel+=7;
	}
	if(inputMgr.isKeyDown(INPUTMGR_LEFT)){
	//Walking to the left.
	xVel-=7;
	}

	//Check if a key has been released.
	if(/event.type==SDL_KEYUP \|\| /!inputMgr.isKeyDown(INPUTMGR_ACTION)){
	//It has so downKeyPressed can't be true.
	downKeyPressed=false;
	}
	/*
	//Don't reset spaceKeyPressed or when you press the space key
	//and release another key then the bug occurs. (ticket #44)
	if(event.type==SDL_KEYUP \|\| !inputMgr.isKeyDown(INPUTMGR_SPACE)){
	spaceKeyPressed=false;
	}*/
	}

	//Check if a key is pressed (down).
	if(inputMgr.isKeyDownEvent(INPUTMGR_JUMP) && !readFromRecord){
	//The up key, if we aren't in the air we start jumping.
	//Fixed a potential bug
	if(!inAir && !isJump){
	#ifdef RECORD_FILE_DEBUG
	char c[64];
	sprintf(c,"[%05d] Jump key pressed\n",objParent->time);
	cout<<c;
	recordKeyPressLog+=c;
	#endif
	isJump=true;
	}
	}else if(inputMgr.isKeyDownEvent(INPUTMGR_SPACE) && !readFromRecord){
	//Fixed a potential bug
	if(!spaceKeyPressed){
	#ifdef RECORD_FILE_DEBUG
	char c[64];
	sprintf(c,"[%05d] Space key pressed\n",objParent->time);
	cout<<c;
	recordKeyPressLog+=c;
	#endif
	spaceKeyDown(shadow);
	spaceKeyPressed=true;
	}
	}else if(record && !readFromRecord && inputMgr.isKeyDownEvent(INPUTMGR_CANCELRECORDING)){
	//Cancel current recording

	//Search the recorded button and clear the last space key press
	int i=recordButton.size()-1;
	for(;i>=0;i--){
	if(recordButton[i] & PlayerButtonSpace){
	recordButton[i] &= ~PlayerButtonSpace;
	break;
	}
	}

	if(i>=0){
	//Clear the recording at the player's side.
	playerButton.clear();
	line.clear();

	//reset the record flag
	record=false;

	//decrese the record count
	objParent->recordings--;
	}else{
	cout<<"Failed to find last recording"<<endl;
	}
	}else if(inputMgr.isKeyDownEvent(INPUTMGR_ACTION)){
	//Downkey is pressed.
	//Fixed a potential bug
	if(!downKeyPressed){
	#ifdef RECORD_FILE_DEBUG
	char c[64];
	sprintf(c,"[%05d] Action key pressed\n",objParent->time);
	cout<<c;
	recordKeyPressLog+=c;
	#endif
	downKeyPressed=true;
	}
	}else if(inputMgr.isKeyDownEvent(INPUTMGR_SAVE)){
	//F2 only works in the level editor.
	if(!(dead \|\| shadow->dead) && stateID==STATE_LEVEL_EDITOR){
	//Save the state. (delayed)
	if(objParent)
	objParent->saveStateNextTime=true;
	}
	}else if(inputMgr.isKeyDownEvent(INPUTMGR_LOAD) && !readFromRecord){
	//F3 is used to load the last state.
	if(objParent)
	objParent->loadStateNextTime=true;
	}else if(inputMgr.isKeyDownEvent(INPUTMGR_SWAP)){
	//F4 will swap the player and the shadow, but only in the level editor.
	if(!(dead \|\| shadow->dead) && stateID==STATE_LEVEL_EDITOR){
	swapState(shadow);
	}
	}else if(inputMgr.isKeyDownEvent(INPUTMGR_TELEPORT)){
	//F5 will revive and teleoprt the player to the cursor. Only works in the level editor.
	//Shift+F5 teleports the shadow.
	if(stateID==STATE_LEVEL_EDITOR){
	//get the position of the cursor.
	int x,y;
	SDL_GetMouseState(&x,&y);
	x+=camera.x;
	y+=camera.y;

	if(inputMgr.isKeyDown(INPUTMGR_SHIFT)){
	//teleports the shadow.
	shadow->dead=false;
	shadow->box.x=x;
	shadow->box.y=y;
	}else{
	//teleports the player.
	dead=false;
	box.x=x;
	box.y=y;
	}

	//play sound?
	if(getSettings()->getBoolValue("sound")){
	Mix_PlayChannel(-1,swapSound,0);
	}
	}
	}else if(inputMgr.isKeyDownEvent(INPUTMGR_SUICIDE)){
	//F12 is suicide and only works in the leveleditor.
	if(stateID==STATE_LEVEL_EDITOR){
	die();
	shadow->die();
	}
	}
	}

	void Player::setPosition(int x,int y){
	box.x=x;
	box.y=y;
	}

	void Player::move(vector<GameObject*> &levelObjects){
	//Pointer to a checkpoint.
	GameObject* objCheckPoint=NULL;
	//Pointer to a swap.
	GameObject* objSwap=NULL;

	//Set the objShadowBlock to NULL.
	//Only for swapping to prevent the shadow from swapping in a shadow block.
	objShadowBlock=NULL;

	//Set the objNotificationBlock to NULL.
	objNotificationBlock=NULL;

	//Boolean if the player can teleport.
	bool canTeleport=true;

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

	//Check if the player is still alive.
	if(dead==false){
	//Add gravity
	if(inAir==true){
	yVel+=1;

	//Cap fall speed to 13.
	if(yVel>13){
	yVel=13;
	}
	}

	//Boolean if the player is moved, used for squash detection.
	bool playerMoved=false;
	//The current location of the player, used to set the player back if he's squashed to prevent displacement.
	int lastX=box.x;
	int lastY=box.y;

	//Check if the player can move.
	if(canMove==true){
	//Check if the player is moving or not.
	if(xVel>0){
	direction=0;
	onGround=false;
	if(appearance.currentStateName!="walkright"){
	appearance.changeState("walkright");
	}
	}else if(xVel<0){
	direction=1;
	onGround=false;
	if(appearance.currentStateName!="walkleft"){
	appearance.changeState("walkleft");
	}
	}else if(xVel==0){
	onGround=true;
	if(direction==1){
	appearance.changeState("standleft");
	}else{
	appearance.changeState("standright");
	}
	}
	//Move the player.
	box.x+=xVel;

	//Loop through the levelobjects.
	for(unsigned int o=0; o<levelObjects.size(); o++){
	//Check if the player can walk on the object.
	if(levelObjects[o]->queryProperties(GameObjectProperty_PlayerCanWalkOn,this)){
	//Get the collision box of the levelobject.
	SDL_Rect r=levelObjects[o]->getBox();

	//Check collision with the player.
	if(checkCollision(box,r)){
	//We have collision, get the velocity of the box.
	SDL_Rect v=levelObjects[o]->getBox(BoxType_Delta);

	//Check on which side of the box the player is.
	if(box.x + box.w/2 <= r.x + r.w/2){
	//The left side of the block.
	if(xVel+xVelBase>v.x){
	if(box.x>r.x-box.w){
	box.x=r.x-box.w;

	playerMoved=true;
	}
	}
	}else{
	//The right side of the block.
	if(xVel+xVelBase<v.x){
	if(box.x<r.x+r.w){
	box.x=r.x+r.w;

	playerMoved=true;
	}
	}
	}
	}
	}
	}
	}

	//Now apply the yVel. (gravity, jumping, etc..)
	box.y+=yVel;

	//Pointer to the object the player standed on.
	GameObject* lastStand=NULL;

	//???
	inAir=true;
	canMove=true;

	//Loop through all the levelObjects.
	for(unsigned int o=0; o<levelObjects.size(); o++){
	//Check if the object is solid.
	if(levelObjects[o]->queryProperties(GameObjectProperty_PlayerCanWalkOn,this)){
	SDL_Rect r=levelObjects[o]->getBox();
	if(checkCollision(r,box)==true){ //TODO:fix some bug
	SDL_Rect v=levelObjects[o]->getBox(BoxType_Delta);

	if(box.y+box.h/2<=r.y+r.h/2){
	if(yVel>=v.y \|\| yVel>=0){
	inAir=false;
	box.y=r.y-box.h;
	yVel=1; //???
	lastStand=levelObjects[o];
	lastStand->onEvent(GameObjectEvent_PlayerIsOn);

	//The player is moved, if it's a moving block check for squating.
	if(v.y!=0){
	playerMoved=true;
	}
	}
	}else{
	//FIXME: The player can have a yVel of 0 and get squashed if he is standing on the other.
	bool holding=objParent->shadow.holdingOther;
	if(shadow)
	holding=objParent->player.holdingOther;
	if(yVel<=v.y+1 \|\| holding){
	yVel=v.y>0?v.y:0;
	if(box.y<r.y+r.h){
	if(!holding)
	box.y=r.y+r.h;

	//The player is moved, if it's a moving block check for squating.
	if(v.y!=0){
	playerMoved=true;
	}
	}
	}
	}
	}
	}

	//Check if the object is a checkpoint.
	if(levelObjects[o]->type==TYPE_CHECKPOINT && checkCollision(box,levelObjects[o]->getBox())){
	//If we're not the shadow set the gameTip to Checkpoint.
	if(!shadow && objParent!=NULL)
	objParent->gameTipIndex=TYPE_CHECKPOINT;

	//And let objCheckPoint point to this object.
	objCheckPoint=levelObjects[o];
	}

	//Check if the object is a swap.
	if(levelObjects[o]->type==TYPE_SWAP && checkCollision(box,levelObjects[o]->getBox())){
	//If we're not the shadow set the gameTip to swap.
	if(!shadow && objParent!=NULL)
	objParent->gameTipIndex=TYPE_SWAP;

	//And let objSwap point to this object.
	objSwap=levelObjects[o];
	}

	//Check if the object is an exit.
	//This doesn't work if the state is Level editor.
	if(levelObjects[o]->type==TYPE_EXIT && stateID!=STATE_LEVEL_EDITOR && checkCollision(box,levelObjects[o]->getBox())){
	//Check to see if we have enough keys to finish the level
	if (objParent->currentCollectables>=objParent->totalCollectables){
	//We can't just handle the winning here (in the middle of the update cycle)/
	//So set won in Game true.
	objParent->won=true;
	}
	}

	//Check if the object is a portal.
	if(levelObjects[o]->type==TYPE_PORTAL && checkCollision(box,levelObjects[o]->getBox())){
	//Check if the teleport id isn't empty.
	if((dynamic_cast<Block*>(levelObjects[o]))->id.empty()){
	cerr<<"Warning: Invalid teleport id!"<<endl;
	canTeleport=false;
	}

	//If we're not the shadow set the gameTip to portal.
	if(!shadow && objParent!=NULL)
	objParent->gameTipIndex=TYPE_PORTAL;

	//Check if we can teleport and should (downkey -or- auto).
	if(canTeleport && (downKeyPressed \|\| (levelObjects[o]->queryProperties(GameObjectProperty_Flags,this)&1))){
	canTeleport=false;
	if(downKeyPressed \|\| levelObjects[o]!=objLastTeleport){
	downKeyPressed=false;

	//Loop the levelobjects again to find the destination.
	for(unsigned int oo=o+1;;){
	//We started at our index+1.
	//Meaning that if we reach the end of the vector then we need to start at the beginning.
	if(oo>=levelObjects.size())
	oo-=(int)levelObjects.size();
	//It also means that if we reach the same index we need to stop.
	//If the for loop breaks this way then we have no succes.
	if(oo==o){
	//Couldn't teleport so play the error sound.
	if(getSettings()->getBoolValue("sound")){
	Mix_PlayChannel(-1,errorSound,0);
	}
	break;
	}

	//Check if the second (oo) object is a portal.
	if(levelObjects[oo]->type==TYPE_PORTAL){
	//Check the id against the destination of the first portal.
	if((dynamic_cast<Block>(levelObjects[o]))->destination==(dynamic_cast<Block>(levelObjects[oo]))->id){
	//Call the event.
	levelObjects[o]->onEvent(GameObjectEvent_OnToggle);
	objLastTeleport=levelObjects[oo];

	//Get the destination location and teleport the player.
	SDL_Rect r=levelObjects[oo]->getBox();
	box.x=r.x+5;
	box.y=r.y+2;

	//Check if music/sound is enabled.
	if(getSettings()->getBoolValue("sound")){
	Mix_PlayChannel(-1,swapSound,0);
	}
	break;
	}
	}

	//Increase oo.
	oo++;
	}
	}
	}
	}

	//Check if the object is a switch.
	if(levelObjects[o]->type==TYPE_SWITCH && checkCollision(box,levelObjects[o]->getBox())){
	//If we're not the shadow set the gameTip to switch.
	if(!shadow && objParent!=NULL)
	objParent->gameTipIndex=TYPE_SWITCH;

	//If the down key is pressed then invoke an event.
	if(downKeyPressed){
	//Play the animation.
	levelObjects[o]->playAnimation(1);

	//Check if sound is enabled, if so play the toggle sound.
	if(getSettings()->getBoolValue("sound")==true){
	Mix_PlayChannel(-1,toggleSound,0);
	}

	if(objParent!=NULL){
	//Make sure that the id isn't emtpy.
	if(!(dynamic_cast<Block*>(levelObjects[o]))->id.empty()){
	objParent->broadcastObjectEvent(0x10000 \| (levelObjects[o]->queryProperties(GameObjectProperty_Flags,this)&3),
	-1,(dynamic_cast<Block*>(levelObjects[o]))->id.c_str());
	}else{
	cerr<<"Warning: invalid switch id!"<<endl;
	}
	}
	}
	}

	//Check if the object is a shadow block, only if we are the player.
	if((levelObjects[o]->type==TYPE_SHADOW_BLOCK \|\| levelObjects[o]->type==TYPE_MOVING_SHADOW_BLOCK) && checkCollision(box,levelObjects[o]->getBox()) && !shadow){
	objShadowBlock=levelObjects[o];
	}

	//Check if the object is a notification block, only if we are the player.
	if(levelObjects[o]->type==TYPE_NOTIFICATION_BLOCK && checkCollision(box,levelObjects[o]->getBox()) && !shadow){
	objNotificationBlock=levelObjects[o];
	}

	//Check if the object is a collectable
	if(levelObjects[o]->type==TYPE_COLLECTABLE && checkCollision(box,levelObjects[o]->getBox())){
	//Check if collectable is active (if it's not it's equal to 1(inactive))
	if (levelObjects[o]->queryProperties(GameObjectProperty_Flags, this)==0) {
	//Toggle an event
	levelObjects[o]->onEvent(GameObjectEvent_OnToggle);
	//Increase the current number of collectables
	objParent->currentCollectables++;
	if(getSettings()->getBoolValue("sound"))
	Mix_PlayChannel(-1,collectSound,0);
	//Open exit(s)
	if (objParent->currentCollectables>=objParent->totalCollectables){
	for(unsigned int i=0;i<levelObjects.size();i++){
	if(levelObjects[i]->type==TYPE_EXIT){
	Block obj=dynamic_cast<Block>(levelObjects[i]);
	if(obj!=NULL){
	levelObjects[i]->onEvent(GameObjectEvent_OnSwitchOn);
	}
	}
	}
	}
	}
	}

	//Check if the object is deadly.
	if(levelObjects[o]->queryProperties(GameObjectProperty_IsSpikes,this)){
	//It is so get the collision box.
	SDL_Rect r=levelObjects[o]->getBox();

	//TODO: pixel-accuracy hit test.
	//For now we shrink the box.
	r.x+=2;
	r.y+=2;
	r.w-=4;
	r.h-=4;

	//Check collision, if the player collides then let him die.
	if(checkCollision(box,r)){
	//Now make sure we don't collide with a different block.
	for(unsigned int oo=o+1;;){
	//We started at our index+1.
	//Meaning that if we reach the end of the vector then we need to start at the beginning.
	if(oo>=levelObjects.size())
	oo-=(int)levelObjects.size();
	//It also means that if we reach the same index we need to stop.
	//If the for loop breaks this way then we have no succes.
	if(oo==o){
	//Nothing found so call the die method.
	die();
	break;
	}

	//Check if the second (oo) object is a block.
	if(levelObjects[oo]->queryProperties(GameObjectProperty_PlayerCanWalkOn,this)){
	//Get the collision box.
	SDL_Rect r2=levelObjects[oo]->getBox();

	if(checkCollision(box,r2)){
	//Check if the top isn't covered.
	if(r2.y>r.y){
	//It isn't covered so create a box for collision detection
	SDL_Rect tmp={r2.x,r2.y,r2.w,r2.y-r.y};
	if(checkCollision(box,tmp)){
	//We hit spikes so die?
	die();
	break;
	}
	}
	//Check if the left side isn't covered.
	if(r2.x>r.x){
	//It isn't covered so create a box for collision detection
	SDL_Rect tmp={r2.x,r2.y,r2.x-r.x,r2.h};
	if(checkCollision(box,tmp)){
	//We hit spikes so die?
	die();
	break;
	}
	}
	//Check if the right side isn't covered.
	if(r2.x+r2.w>r.x+r.w){
	//It isn't covered so create a box for collision detection
	SDL_Rect tmp={r.x+r.w,r2.y,(r2.x+r2.w)-(r.x+r.w),r2.h};
	if(checkCollision(box,tmp)){
	//We hit spikes so die?
	die();
	break;
	}
	}
	//Check if the bottom isn't covered.
	if(r2.y+r2.h>r.y+r.h){
	//It isn't covered so create a box for collision detection
	SDL_Rect tmp={r2.x,r.y+r.h,r2.w,(r2.y+r2.h)-(r.y+r.h)};
	if(checkCollision(box,tmp)){
	//We hit spikes so die?
	die();
	break;
	}
	}

	//Check collision with the player and the block and with the block and the spikes.
	if(checkCollision(box,r)){
	//We break the loop to prevent going round (and calling the die() method).
	break;
	}
	}
	}

	//Increase oo.
	oo++;
	}
	}
	}
	}

	//Check if the player was moved, if so check if the player is squashed.
	if(playerMoved){
	for(unsigned int o=0;o<levelObjects.size();o++){
	SDL_Rect r2=levelObjects[o]->getBox();
	if(levelObjects[o]->queryProperties(GameObjectProperty_PlayerCanWalkOn,this) && checkCollision(box,r2)){
	//The player is squashed so first move him back.
	box.x=lastX;
	box.y=lastY;

	//Now call the die method.
	die();
	}
	}
	}

	//Check if the player fell of the level, if so let him die but without animation.
	if(box.y>LEVEL_HEIGHT)
	die(false);

	//Check if the player changed blocks, meaning stepped onto a block.
	objCurrentStand=lastStand;
	if(lastStand!=objLastStand){
	objLastStand=lastStand;
	if(lastStand){
	//Call the walk on event of the laststand.
	lastStand->onEvent(GameObjectEvent_PlayerWalkOn);

	//Bugfix for Fragile blocks.
	if(lastStand->type==TYPE_FRAGILE && !lastStand->queryProperties(GameObjectProperty_PlayerCanWalkOn,this)){
	inAir=true;
	onGround=false;
	isJump=false;
	}
	}
	}

	//Check if the player can teleport.
	if(canTeleport)
	objLastTeleport=NULL;

	//Check the checkpoint pointer only if the downkey is pressed.
	//new: don't save the game if playing game record
	if(objParent!=NULL && downKeyPressed && objCheckPoint!=NULL && !isPlayFromRecord()){
	//Checkpoint thus save the state.
	if(objParent->canSaveState()){
	objParent->saveStateNextTime=true;
	objParent->objLastCheckPoint=objCheckPoint;
	}
	}
	//Check the swap pointer only if the down key is pressed.
	if(objSwap!=NULL && downKeyPressed && objParent!=NULL){
	//Now check if the shadow we're the shadow or not.
	if(shadow){
	if(!(dead \|\| objParent->player.dead)){
	//Check if the player isn't in front of a shadow block.
	if(!objParent->player.objShadowBlock){
	objParent->player.swapState(this);
	objSwap->playAnimation(1);
	}else{
	//We can't swap so play the error sound.
	if(getSettings()->getBoolValue("sound")==true){
	Mix_PlayChannel(-1,errorSound,0);
	}
	}
	}
	}else{
	if(!(dead \|\| objParent->shadow.dead)){
	//Check if the player isn't in front of a shadow block.
	if(!objShadowBlock){
	swapState(&objParent->shadow);
	objSwap->playAnimation(1);
	}else{
	//We can't swap so play the error sound.
	if(getSettings()->getBoolValue("sound")==true){
	Mix_PlayChannel(-1,errorSound,0);
	}
	}
	}
	}
	}

	//Check for jump appearance (inAir).
	if(inAir && !dead){
	if(direction==1){
	if(yVel>0){
	if(appearance.currentStateName!="fallleft")
	appearance.changeState("fallleft");
	}else{
	if(appearance.currentStateName!="jumpleft")
	appearance.changeState("jumpleft");
	}
	}else{
	if(yVel>0){
	if(appearance.currentStateName!="fallright")
	appearance.changeState("fallright");
	}else{
	if(appearance.currentStateName!="jumpright")
	appearance.changeState("jumpright");
	}
	}
	}
	}

	//Finally we reset some stuff.
	downKeyPressed=false;
	xVelBase=0;
	yVelBase=0;
	}


	void Player::jump(){
	//Check if the player is dead or not.
	if(dead==true){
	//The player can't jump if he's dead.
	isJump=false;
	}

	//Check if the player can jump.
	if(isJump==true && inAir==false){
	//Set the jump velocity.
	yVel=-13;
	inAir=true;
	isJump=false;
	jumpTime++;

	//Check if sound is enabled, if so play the jump sound.
	if(getSettings()->getBoolValue("sound")==true){
	Mix_PlayChannel(-1,jumpSound,0);
	}
	}
	}

	void Player::show(){
	//Check if we should render the recorded line.
	//Only do this when we're recording and we're not the shadow.
	if(shadow==false && record==true){
	//FIXME: Adding an entry not in update but in render?
	line.push_back(SDL_Rect());
	line[line.size()-1].x=box.x+11;
	line[line.size()-1].y=box.y+20;

	//Loop through the line dots and draw them.
	for(int l=0; l<(signed)line.size(); l++){
	appearance.drawState("line",screen,line[l].x-camera.x,line[l].y-camera.y,NULL);
	}
	}

	//NOTE: We do logic here, because it's only needed by the appearance.
	appearance.updateAnimation();
	appearance.draw(screen, box.x-camera.x, box.y-camera.y, NULL);
	}

	void Player::shadowSetState(){
	int currentKey=0;

	/*//debug
	extern int block_test_count;
	extern bool block_test_only;
	if(SDL_GetKeyState(NULL)[SDLK_p]){
	block_test_count=recordButton.size();
	}
	if(block_test_count==(int)recordButton.size()){
	block_test_only=true;
	}*/

	//Check if we should read the input from record file.
	if(recordIndex>=0){ // && recordIndex<(int)recordButton.size()){
	//read the input from record file
	if(recordIndex<(int)recordButton.size()){
	currentKey=recordButton[recordIndex];
	recordIndex++;
	}

	//Reset horizontal velocity.
	xVel=0;
	if(currentKey&PlayerButtonRight){
	//Walking to the right.
	xVel+=7;
	}
	if(currentKey&PlayerButtonLeft){
	//Walking to the left.
	xVel-=7;
	}

	if(currentKey&PlayerButtonJump){
	//The up key, if we aren't in the air we start jumping.
	if(inAir==false){
	isJump=true;
	}else{
	//Shouldn't go here
	cout<<"Replay BUG"<<endl;
	}
	}

	//check the down key
	downKeyPressed=(currentKey&PlayerButtonDown)!=0;

	//check the space key
	if(currentKey&PlayerButtonSpace){
	spaceKeyDown(&objParent->shadow);
	}
	}else{
	//read the input from keyboard.
	recordIndex=-1;

	//Check for xvelocity.
	if(xVel>0)
	currentKey\|=PlayerButtonRight;
	if(xVel<0)
	currentKey\|=PlayerButtonLeft;

	//Check for jumping.
	if(isJump){
	#ifdef RECORD_FILE_DEBUG
	char c[64];
	sprintf(c,"[%05d] Jump key recorded\n",objParent->time-1);
	cout<<c;
	recordKeyPressLog+=c;
	#endif
	currentKey\|=PlayerButtonJump;
	}

	//Check if the downbutton is pressed.
	if(downKeyPressed){
	#ifdef RECORD_FILE_DEBUG
	char c[64];
	sprintf(c,"[%05d] Action key recorded\n",objParent->time-1);
	cout<<c;
	recordKeyPressLog+=c;
	#endif
	currentKey\|=PlayerButtonDown;
	}

	if(spaceKeyPressed){
	#ifdef RECORD_FILE_DEBUG
	char c[64];
	sprintf(c,"[%05d] Space key recorded\n",objParent->time-1);
	cout<<c;
	recordKeyPressLog+=c;
	#endif
	currentKey\|=PlayerButtonSpace;
	}

	//Record it.
	recordButton.push_back(currentKey);
	}

	#ifdef RECORD_FILE_DEBUG
	if(recordIndex>=0){
	if(recordIndex>0 && recordIndex<=int(recordPlayerPosition.size())/2){
	SDL_Rect &r1=recordPlayerPosition[recordIndex*2-2];
	SDL_Rect &r2=recordPlayerPosition[recordIndex*2-1];
	if(r1.x!=box.x \|\| r1.y!=box.y \|\| r2.x!=objParent->shadow.box.x \|\| r2.y!=objParent->shadow.box.y){
	char c[192];
	sprintf(c,"Replay ERROR [%05d] %d %d %d %d Expected: %d %d %d %d\n",
	objParent->time-1,box.x,box.y,objParent->shadow.box.x,objParent->shadow.box.y,r1.x,r1.y,r2.x,r2.y);
	cout<<c;
	}
	}
	}else{
	recordPlayerPosition.push_back(box);
	recordPlayerPosition.push_back(objParent->shadow.box);
	}
	#endif

	//reset spaceKeyPressed.
	spaceKeyPressed=false;

	//Only add an entry if the player is recording.
	if(record){
	//Add the action.
	if(!dead){
	playerButton.push_back(currentKey);

	//Change the state.
	state++;
	}
	}
	}

	void Player::shadowGiveState(Shadow* shadow){
	//Check if the player calls the shadow.
	if(shadowCall==true){
	//Clear any recording still with the shadow.
	shadow->playerButton.clear();

	//Loop the recorded moves and add them to the one of the shadow.
	for(unsigned int s=0;s<playerButton.size();s++){
	shadow->playerButton.push_back(playerButton[s]);
	}

	//Reset the state of both the player and the shadow.
	stateReset();
	shadow->stateReset();

	//Clear the recording at the player's side.
	playerButton.clear();
	line.clear();

	//Set shadowCall false
	shadowCall=false;
	//And let the shadow know that the player called him.
	shadow->meCall();
	}
	}

	void Player::stateReset(){
	//Reset the state by setting it to 0.
	state=0;
	}

	void Player::otherCheck(class Player* other){
	//First make sure the player isn't dead.
	//And check for velocity of the block the player is standing on.
	if(!dead){
	if(objCurrentStand!=NULL){
	//Now get the velocity of the object the player is standing on.
	SDL_Rect v=objCurrentStand->getBox(BoxType_Velocity);

	//Set the base velocity to the velocity of the object.
	xVelBase=v.x;
	yVelBase=v.y;

	//Already move the player box.
	box.x+=v.x;
	box.y+=v.y;
	}
	}
	//Now do the same for the shadow.
	if(!other->dead){
	if(other->objCurrentStand!=NULL){
	//Now get the velocity of the object the shadow is standing on.
	SDL_Rect v=other->objCurrentStand->getBox(BoxType_Velocity);

	//Set the base velocity to the velocity of the object.
	other->xVelBase=v.x;
	other->yVelBase=v.y;

	//Already move the shadow box.
	other->box.x+=v.x;
	other->box.y+=v.y;
	}
	}

	//Now check if the player is on the shadow.
	//First make sure they are both alive.
	if(!dead && !other->dead){
	//Get the box of the shadow.
	SDL_Rect boxShadow=other->getBox();

	//Check if the player is on top of the shadow.
	if(checkCollision(box,boxShadow)==true){
	//We have collision now check if the other is standing on top of you.
	if(box.y+box.h<=boxShadow.y+13 && !other->inAir){
	int yVelocity=yVel-1;
	if(yVelocity>0){
	box.y-=yVel;
	box.y+=boxShadow.y-(box.y+box.h);
	inAir=false;
	canMove=false;
	onGround=true;
	other->holdingOther=true;
	other->appearance.changeState("holding");

	//Change our own appearance to standing.
	if(direction==1){
	appearance.changeState("standleft");
	}else{
	appearance.changeState("standright");
	}

	//Apply the velocity the shadow has.
	box.x+=other->xVelBase;
	box.y+=other->yVelBase;
	}
	}else if(boxShadow.y+boxShadow.h<=box.y+13 && !inAir){
	int yVelocity=other->yVel-1;
	if(yVelocity>0){
	other->box.y-=other->yVel;
	other->box.y+=box.y-(other->box.y+other->box.h);
	other->inAir=false;
	other->canMove=false;
	other->onGround=true;
	holdingOther=true;
	appearance.changeState("holding");

	//Change our own appearance to standing.
	if(other->direction==1){
	other->appearance.changeState("standleft");
	}else{
	other->appearance.changeState("standright");
	}

	//Apply the velocity the shadow has.
	other->box.x+=xVelBase;
	other->box.y+=yVelBase;
	}
	}
	}else{
	holdingOther=false;
	other->holdingOther=false;
	}
	}

	//And set currentStand to null.
	objCurrentStand=NULL;
	other->objCurrentStand=NULL;
	}

	SDL_Rect Player::getBox(){
	return box;
	}

	void Player::setMyCamera(){
	//Only change the camera when the player isn't dead.
	if(dead)
	return;

	//Check if the level fit's horizontally inside the camera.
	if(camera.w>LEVEL_WIDTH){
	camera.x=-(camera.w-LEVEL_WIDTH)/2;
	}else{
	//Check if the player is halfway pass the halfright of the screen.
	if(box.x>camera.x+(SCREEN_WIDTH/2+50)){
	//It is so ease the camera to the right.
	camera.x+=(box.x-camera.x-(SCREEN_WIDTH/2))>>4;

	//Check if the camera isn't going too far.
	if(box.x<camera.x+(SCREEN_WIDTH/2+50)){
	camera.x=box.x-(SCREEN_WIDTH/2+50);
	}
	}

	//Check if the player is halfway pass the halfleft of the screen.
	if(box.x<camera.x+(SCREEN_WIDTH/2-50)){
	//It is so ease the camera to the left.
	camera.x+=(box.x-camera.x-(SCREEN_WIDTH/2))>>4;

	//Check if the camera isn't going too far.
	if(box.x>camera.x+(SCREEN_WIDTH/2-50)){
	camera.x=box.x-(SCREEN_WIDTH/2-50);
	}
	}

	//If the camera is too far to the left we set it to 0.
	if(camera.x<0){
	camera.x=0;
	}
	//If the camera is too far to the right we set it to the max right.
	if(camera.x+camera.w>LEVEL_WIDTH){
	camera.x=LEVEL_WIDTH-camera.w;
	}
	}

	//Check if the level fit's vertically inside the camera.
	if(camera.h>LEVEL_HEIGHT){
	//We don't centre vertical because the bottom line of the level (deadly) will be mid air.
	camera.y=-(camera.h-LEVEL_HEIGHT);
	}else{
	//Check if the player is halfway pass the lower half of the screen.
	if(box.y>camera.y+(SCREEN_HEIGHT/2+50)){
	//If is so ease the camera down.
	camera.y+=(box.y-camera.y-(SCREEN_HEIGHT/2))>>4;

	//Check if the camera isn't going too far.
	if(box.y<camera.y+(SCREEN_HEIGHT/2+50)){
	camera.y=box.y-(SCREEN_HEIGHT/2+50);
	}
	}

	//Check if the player is halfway pass the upper half of the screen.
	if(box.y<camera.y+(SCREEN_HEIGHT/2-50)){
	//It is so ease the camera up.
	camera.y+=(box.y-camera.y-(SCREEN_HEIGHT/2))>>4;

	//Check if the camera isn't going too far.
	if(box.y>camera.y+(SCREEN_HEIGHT/2-50)){
	camera.y=box.y-(SCREEN_HEIGHT/2-50);
	}
	}

	//If the camera is too far up we set it to 0.
	if(camera.y<0){
	camera.y=0;
	}
	//If the camera is too far down we set it to the max down.
	if(camera.y+camera.h>LEVEL_HEIGHT){
	camera.y=LEVEL_HEIGHT-camera.h;
	}
	}
	}

	void Player::reset(bool save){
	//Set the location of the player to it's initial state.
	box.x=fx;
	box.y=fy;

	//Reset back to default value.
	inAir=true;
	isJump=false;
	onGround=true;
	shadowCall=false;
	canMove=true;
	holdingOther=false;
	dead=false;
	record=false;
	downKeyPressed=false;
	spaceKeyPressed=false;

	//Some animation variables.
	appearance.resetAnimation(save);
	appearance.changeState("standright");
	direction=0;

	state=0;
	xVel=0; //??? fixed a strange bug in game replay
	yVel=0;

	objCurrentStand=NULL;
	objNotificationBlock=NULL;

	//Clear the recording.
	line.clear();
	playerButton.clear();
	recordButton.clear();
	recordIndex=-1;
	#ifdef RECORD_FILE_DEBUG
	recordKeyPressLog.clear();
	recordPlayerPosition.clear();
	#endif

	//xVelSaved is used to indicate if there's a state saved or not.
	if(save){
	xVelSaved=0x80000000;
	}
	}

	void Player::saveState(){
	//We can only save the state when the player isn't dead.
	if(!dead){
	boxSaved.x=box.x;
	boxSaved.y=box.y;
	xVelSaved=xVel;
	yVelSaved=yVel;
	inAirSaved=inAir;
	isJumpSaved=isJump;
	onGroundSaved=onGround;
	canMoveSaved=canMove;
	holdingOtherSaved=holdingOther;

	//Let the appearance save.
	appearance.saveAnimation();

	+ //Save any recording stuff.
	+ recordSaved=record;
	+ playerButtonSaved=playerButton;
	+ lineSaved=line;
	+
	//Save the record
	savedRecordButton=recordButton;
	#ifdef RECORD_FILE_DEBUG
	recordKeyPressLog_saved=recordKeyPressLog;
	recordPlayerPosition_saved=recordPlayerPosition;
	#endif

	//Only play the sound when it's enabled.
	if(getSettings()->getBoolValue("sound")==true){
	//To prevent playing the sound twice, only the player can cause the sound.
	if(!shadow)
	Mix_PlayChannel(-1,saveSound,0);
	}
	}
	}

	void Player::loadState(){
	//Check with xVelSaved if there's a saved state.
	if(xVelSaved==int(0x80000000)){
	//There isn't so reset the game to load the first initial state.
	//NOTE: There's no need in removing the saved state since there is none.
	reset(false);
	return;
	}

	//Restore the saved values.
	box.x=boxSaved.x;
	box.y=boxSaved.y;
	//xVel is set to 0 since it's saved counterpart is used to indicate a saved state.
	xVel=0;
	yVel=yVelSaved;

	- //Restore teh saved values.
	+ //Restore the saved values.
	inAir=inAirSaved;
	isJump=isJumpSaved;
	onGround=onGroundSaved;
	canMove=canMoveSaved;
	holdingOther=holdingOtherSaved;
	dead=false;
	record=false;
	shadowCall=false;
	stateReset();

	//Restore the appearance.
	appearance.loadAnimation();

	- //Clear any recorded stuff.
	- line.clear();
	- playerButton.clear();
	+ //Restore any recorded stuff.
	+ record=recordSaved;
	+ playerButton=playerButtonSaved;
	+ line=lineSaved;
	+

	//Load the previously saved record
	recordButton=savedRecordButton;
	#ifdef RECORD_FILE_DEBUG
	recordKeyPressLog=recordKeyPressLog_saved;
	recordPlayerPosition=recordPlayerPosition_saved;
	#endif
	}

	void Player::swapState(Player* other){
	//We need to swap the values of the player with the ones of the given player.
	swap(box.x,other->box.x);
	swap(box.y,other->box.y);
	//NOTE: xVel isn't there since it's used for something else.
	swap(yVel,other->yVel);
	swap(inAir,other->inAir);
	swap(isJump,other->isJump);
	swap(onGround,other->onGround);
	swap(canMove,other->canMove);
	swap(holdingOther,other->holdingOther);
	swap(dead,other->dead);

	//Also reset the state of the other.
	other->stateReset();

	//Play the swap sound.
	if(getSettings()->getBoolValue("sound")==true){
	Mix_PlayChannel(-1,swapSound,0);
	}
	}

	bool Player::canSaveState(){
	//We can only save the state if the player isn't dead.
	return !dead;
	}

	bool Player::canLoadState(){
	//We use xVelSaved to indicate if a state is saved or not.
	return xVelSaved != int(0x80000000);
	}

	void Player::die(bool animation){
	//Make sure the player isn't already dead.
	if(!dead){
	dead=true;
	//If sound is enabled run the hit sound.
	if(getSettings()->getBoolValue("sound")==true){
	Mix_PlayChannel(-1,hitSound,0);
	}

	//Change the apearance to die (if animation is true).
	if(animation){
	if(appearance.currentStateName.find("right")!=std::string::npos){
	appearance.changeState("dieright");
	}else{
	appearance.changeState("dieleft");
	}
	}
	}

	//We set the jumpTime to 120 when this is the shadow.
	//That's the countdown for the "Your shadow has died." message.
	if(shadow){
	jumpTime=80;
	}
	}
	diff --git a/src/Player.h b/src/Player.h
	index 844daf8..39da5eb 100644
	--- a/src/Player.h
	+++ b/src/Player.h
	@@ -1,242 +1,246 @@
	/*
	* Copyright (C) 2011-2012 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 PLAYER_H
	#define PLAYER_H

	#include "ThemeManager.h"
	#include <vector>
	#include <string>
	#include <SDL/SDL_mixer.h>
	#include <SDL/SDL.h>
	#include <SDL/SDL_ttf.h>

	//Debug the game record file.
	//#define RECORD_FILE_DEBUG

	class GameObject;
	class Game;

	//The different player buttons.
	//The right arrow.
	const int PlayerButtonRight=0x01;
	//The left arrow.
	const int PlayerButtonLeft=0x02;
	//The up arrow for jumping.
	const int PlayerButtonJump=0x04;
	//The down arrow for actions.
	const int PlayerButtonDown=0x08;
	//space bar for recording. (Only in recordButton)
	const int PlayerButtonSpace=0x10;

	class Player{
	protected:
	//Vector used to store the player actions in when recording.
	//These can be given to the shadow so he can execute them.
	std::vector<int> playerButton;
	+ //Vector used to store the playerButton vector when saving the player's state (checkpoint).
	+ std::vector<int> playerButtonSaved;

	private:
	//Vector used to record the whole game play.
	//And saved record in checkpoint.
	std::vector<int> recordButton,savedRecordButton;

	//record index. -1 means read input from keyboard,
	//otherwise read input from recordings (recordButton[recordIndex]).
	int recordIndex;

	//Vector containing squares along the path the player takes when recording.
	//It will be drawn as a trail of squares.
	std::vector<SDL_Rect> line;
	+ //Vector that will hold the line vector when saving the player's state (checkpoint).
	+ std::vector<SDL_Rect> lineSaved;

	//Boolean if the player called the shadow to copy his moves.
	bool shadowCall;
	//Boolean if the player is recording his moves.
	- bool record;
	+ bool record,recordSaved;

	//The following variables are to store a state.
	//Rectangle containing the players location.
	SDL_Rect boxSaved;
	//Boolean if the player is in the air.
	bool inAirSaved;
	//Boolean if the player is (going to) jump(ing).
	bool isJumpSaved;
	//Boolean if the player is (still) on the ground.
	bool onGroundSaved;
	//Boolean if the player can move.
	bool canMoveSaved;
	//Boolean if the player is holding the other (shadow).
	bool holdingOtherSaved;
	//The x velocity.
	//NOTE: The x velocity is used to indicate that there's a state saved.
	int xVelSaved;
	//The y velocity.
	int yVelSaved;

	protected:
	//Rectangle containing the player's location.
	SDL_Rect box;

	//The x and y velocity.
	int xVel, yVel;
	//The base x and y velocity, used for standing on moving blocks.
	int xVelBase, yVelBase;

	//Boolean if the player is in the air.
	bool inAir;
	//Boolean if the player is (going to) jump(ing).
	bool isJump;
	//Boolean if the player is (still) on the ground.
	bool onGround;
	//Boolean if the player can move.
	bool canMove;
	//Boolean if the player is alive/
	bool dead;

	//The direction the player is walking, 0=right, 1=left.
	int direction;
	//Integer containing the state of the player.
	int state;
	//The time the player is in the air (jumping).
	int jumpTime;
	//Boolean if the player is in fact the shadow.
	bool shadow;

	//Pointer to the Game state.
	friend class Game;
	Game* objParent;

	//Boolean if the downkey is pressed.
	bool downKeyPressed;
	//Boolean if the space keu is pressed.
	bool spaceKeyPressed;
	//Pointer to the object that is currently been stand on by the player.
	//This is always a valid pointer.
	GameObject* objCurrentStand;
	//Pointer to the object the player stood last on.
	//NOTE: This is a weak reference only.
	GameObject* objLastStand;
	//Pointer to the teleporter the player last took.
	//NOTE: This is a weak reference only.
	GameObject* objLastTeleport;
	//Pointer to the notification block the player is in front of.
	//This is always a valid pointer.
	GameObject* objNotificationBlock;
	//Pointer to the shadow block the player is in front of.
	//This is always a valid pointer.
	GameObject* objShadowBlock;

	public:

	//X and y location where the player starts and gets when reseted.
	int fx, fy;
	//The appearance of the player.
	ThemeCharacterInstance appearance;
	//Boolean if the player is holding the other.
	bool holdingOther;

	//Constructor.
	//objParent: Pointer to the Game state.
	Player(Game* objParent);
	//Destructor.
	~Player();

	//Method used to set the position of the player.
	//x: The new x location of the player.
	//y: The new y location of the player.
	void setPosition(int x,int y);

	//Method used to handle (key) input.
	//shadow: Pointer to the shadow used for recording/calling.
	void handleInput(class Shadow* shadow);
	//Method used to do the movement of the player.
	//levelObjects: Array containing the levelObjects, used to check collision.
	void move(std::vector<GameObject*> &levelObjects);
	//Method used to check if the player can jump and executes the jump.
	void jump();

	//This method will render the player to the screen.
	void show();
	//Method that stores the actions if the player is recording.
	void shadowSetState();

	//Method that will reset the state to 0.
	virtual void stateReset();

	//This method checks the player against the other to see if they stand on eachother.
	//other: The shadow or the player.
	void otherCheck(class Player* other);

	//Method that will ease the camera so that the player is in the center.
	void setMyCamera();
	//This method will reset the player to it's initial position.
	//save: Boolean if the saved state should also be deleted.
	void reset(bool save);
	//Method used to retrieve the current location of the player.
	//Returns: SDL_Rect containing the player's location.
	SDL_Rect getBox();

	//This method will
	void shadowGiveState(class Shadow* shadow);

	//Method that will save the current state.
	//NOTE: The special <name>Saved variables will be used.
	virtual void saveState();
	//Method that will retrieve the last saved state.
	//If there is none it will reset the player.
	virtual void loadState();
	//Method that checks if the player can save the state.
	//Returns: True if the player can save his state.
	virtual bool canSaveState();
	//Method that checks if the player can load a state.
	//Returns: True if the player can load a state.
	virtual bool canLoadState();
	//Method that will swap the state of the player with the other.
	//other: The player or the shadow.
	void swapState(Player* other);

	//Check if this player is in fact the shadow.
	//Returns: True if this is the shadow.
	inline bool isShadow(){
	return shadow;
	}

	//Let the player die when he falls of or hits spikes.
	//animation: Boolean if the death animation should be played, default is true.
	void die(bool animation=true);

	//Check if currently it's play from record file.
	bool isPlayFromRecord();

	//get the game record object.
	std::vector<int>* getRecord();

	#ifdef RECORD_FILE_DEBUG
	std::string& keyPressLog();
	std::vector<SDL_Rect>& playerPosition();
	#endif

	//play the record.
	void playRecord();

	private:
	//The space key is down. call this function from handleInput and another function.
	void spaceKeyDown(class Shadow* shadow);
	};

	#endif

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