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diff --git a/src/ThemeManager.h b/src/ThemeManager.h
index c4f7a47..5d7b322 100644
--- a/src/ThemeManager.h
+++ b/src/ThemeManager.h
@@ -1,1064 +1,1066 @@
/*
* 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 THEMEMANAGER_H
#define THEMEMANAGER_H
#include "Globals.h"
#include "TreeStorageNode.h"
#include <SDL/SDL_rotozoom.h>
#include <string.h>
#include <math.h>
#include <string>
#include <vector>
#include <utility>
#include <iostream>
using namespace std;
//Structure containing offset data for one frame.
struct typeOffsetPoint{
//The location (x,y) and size (w,h).
int x,y,w,h;
//The frame to which this offset applies.
int frameCount;
//The number of frames this offset is shown.
int frameDisplayTime;
};
//We already need the classes so declare them here.
class ThemeOffsetData;
class ThemePicture;
class ThemeObject;
class ThemeBlockState;
class ThemeBlock;
class ThemeCharacterState;
class ThemeCharacter;
//Instance class of a ThemeObject, this is used by the other Instance classes.
class ThemeObjectInstance{
public:
//Pointer to the picture.
ThemePicture* picture;
//Pointer to the parent the object an instance os is.
ThemeObject* parent;
//Integer containing the current animation frame.
int animation;
//Integer containing the saved animation frame.
int savedAnimation;
public:
//Constructor.
ThemeObjectInstance():picture(NULL),parent(NULL),animation(0),savedAnimation(0){}
//Method used to draw the ThemeObject.
//dest: The destination surface to draw the ThemeObject on.
//x: The x location on the dest surface.
//y: The y location on the dest surface.
//clipRect: Rectangle used to clip.
void draw(SDL_Surface* dest,int x,int y,SDL_Rect* clipRect=NULL);
//Method that will update the animation.
void updateAnimation();
//Method that will reset the animation.
//save: Boolean if the saved animation should be deleted.
void resetAnimation(bool save){
animation=0;
if(save){
savedAnimation=0;
}
}
//Method that will save the animation.
void saveAnimation(){
savedAnimation=animation;
}
//Method that will load a saved animation.
void loadAnimation(){
animation=savedAnimation;
}
};
//Instance class of a ThemeBlockState, this is used by the ThemeBlockInstance.
class ThemeBlockStateInstance{
public:
//Pointer to the parent the state an instance of is.
ThemeBlockState *parent;
//Vector containing the ThemeObjectInstances.
vector<ThemeObjectInstance> objects;
//Integer containing the current animation frame.
int animation;
//Integer containing the saved animation frame.
int savedAnimation;
public:
//Constructor.
ThemeBlockStateInstance():parent(NULL),animation(0),savedAnimation(0){}
//Method used to draw the ThemeBlockState.
//dest: The destination surface to draw the ThemeBlockState on.
//x: The x location on the dest surface.
//y: The y location on the dest surface.
//clipRect: Rectangle used to clip.
void draw(SDL_Surface *dest,int x,int y,SDL_Rect *clipRect=NULL){
for(unsigned int i=0;i<objects.size();i++){
objects[i].draw(dest,x,y,clipRect);
}
}
//Method that will update the animation.
void updateAnimation(){
for(unsigned int i=0;i<objects.size();i++){
objects[i].updateAnimation();
}
animation++;
}
//Method that will reset the animation.
//save: Boolean if the saved state should be deleted.
void resetAnimation(bool save){
for(unsigned int i=0;i<objects.size();i++){
objects[i].resetAnimation(save);
}
animation=0;
if(save){
savedAnimation=0;
}
}
//Method that will save the animation.
void saveAnimation(){
for(unsigned int i=0;i<objects.size();i++){
objects[i].saveAnimation();
}
savedAnimation=animation;
}
//Method that will load a saved animation.
void loadAnimation(){
for(unsigned int i=0;i<objects.size();i++){
objects[i].loadAnimation();
}
animation=savedAnimation;
}
};
//Instance of a ThemeBlock, this is used by blocks in the game to prevent changing the theme in game.
//It also allows animation to run independently.
class ThemeBlockInstance{
public:
//Pointer to the current state.
ThemeBlockStateInstance* currentState;
//The name of the current state.
string currentStateName;
//Map containing the blockStates.
map<string,ThemeBlockStateInstance> blockStates;
//String containing the name of the saved state.
string savedStateName;
public:
//Constructor.
ThemeBlockInstance():currentState(NULL){}
//Method used to draw the ThemeBlock.
//dest: The destination surface to draw the ThemeBlock on.
//x: The x location on the dest surface.
//y: The y location on the dest surface.
//clipRect: Rectangle used to clip.
//Returns: True if it succeeds.
bool draw(SDL_Surface *dest,int x,int y,SDL_Rect *clipRect=NULL){
if(currentState!=NULL){
currentState->draw(dest,x,y,clipRect);
return true;
}
return false;
}
//Method that will draw a specific state.
//s: The name of the state to draw.
//dest: The destination surface to draw the ThemeBlock on.
//x: The x location on the dest surface.
//y: The y location on the dest surface.
//clipRect: Rectangle used to clip.
//Returns: True if it succeeds.
bool drawState(const string& s,SDL_Surface *dest,int x,int y,SDL_Rect *clipRect=NULL){
map<string,ThemeBlockStateInstance>::iterator it=blockStates.find(s);
if(it!=blockStates.end()){
it->second.draw(dest,x,y,clipRect);
return true;
}
return false;
}
//Method that will change the current state.
//s: The name of the state to change to.
//reset: Boolean if the animation should reset.
//Returns: True if it succeeds (exists).
bool changeState(const string& s,bool reset=true){
//Get the new state.
map<string,ThemeBlockStateInstance>::iterator it=blockStates.find(s);
//Check if it exists.
if(it!=blockStates.end()){
//Set the state.
currentState=&(it->second);
currentStateName=it->first;
//FIXME: Is it needed to set the savedStateName here?
if(savedStateName.empty())
savedStateName=currentStateName;
//If reset then reset the animation.
if(reset)
currentState->resetAnimation(true);
return true;
}
//It doesn't so return false.
return false;
}
//Method that will update the animation.
void updateAnimation();
//Method that will reset the animation.
//save: Boolean if the saved state should be deleted.
void resetAnimation(bool save){
for(map<string,ThemeBlockStateInstance>::iterator it=blockStates.begin();it!=blockStates.end();++it){
it->second.resetAnimation(save);
}
if(save){
savedStateName.clear();
}
}
//Method that will save the animation.
void saveAnimation(){
for(map<string,ThemeBlockStateInstance>::iterator it=blockStates.begin();it!=blockStates.end();++it){
it->second.saveAnimation();
}
savedStateName=currentStateName;
}
//Method that will restore a saved animation.
void loadAnimation(){
for(map<string,ThemeBlockStateInstance>::iterator it=blockStates.begin();it!=blockStates.end();++it){
it->second.loadAnimation();
}
changeState(savedStateName,false);
}
};
//Instance class of a ThemeCharacterState, this is used by the ThemeCharacterInstance.
class ThemeCharacterStateInstance{
public:
//Pointer to the parent the state an instance of is.
ThemeCharacterState* parent;
//Vector containing the ThemeObjectInstances.
vector<ThemeObjectInstance> objects;
//Integer containing the current animation frame.
int animation;
//Integer containing the saved animation frame.
int savedAnimation;
public:
//Constructor.
ThemeCharacterStateInstance():parent(NULL),animation(0),savedAnimation(0){}
//Method used to draw the ThemeCharacterState.
//dest: The destination surface to draw the ThemeCharacterState on.
//x: The x location on the dest surface.
//y: The y location on the dest surface.
//clipRect: Rectangle used to clip.
void draw(SDL_Surface *dest,int x,int y,SDL_Rect *clipRect=NULL){
for(unsigned int i=0;i<objects.size();i++){
objects[i].draw(dest,x,y,clipRect);
}
}
//Method that will update the animation.
void updateAnimation(){
for(unsigned int i=0;i<objects.size();i++){
objects[i].updateAnimation();
}
animation++;
}
//Method that will reset the animation.
//save: Boolean if the saved state should be deleted.
void resetAnimation(bool save){
for(unsigned int i=0;i<objects.size();i++){
objects[i].resetAnimation(save);
}
animation=0;
if(save)
savedAnimation=0;
}
//Method that will save the animation.
void saveAnimation(){
for(unsigned int i=0;i<objects.size();i++){
objects[i].saveAnimation();
}
savedAnimation=animation;
}
//Method that will load a saved animation.
void loadAnimation(){
for(unsigned int i=0;i<objects.size();i++){
objects[i].loadAnimation();
}
animation=savedAnimation;
}
};
//Instance of a ThemeCharacter.
class ThemeCharacterInstance{
public:
//Pointer to the current state.
ThemeCharacterStateInstance* currentState;
//The name of the current state.
string currentStateName;
//Map containing the ThemeCharacterStates.
map<string,ThemeCharacterStateInstance> characterStates;
//String containing the name of the saved state.
string savedStateName;
public:
//Constructor.
ThemeCharacterInstance():currentState(NULL){}
//Method used to draw the ThemeCharacter.
//dest: The destination surface to draw the ThemeCharacter on.
//x: The x location on the dest surface.
//y: The y location on the dest surface.
//clipRect: Rectangle used to clip.
//Returns: True if it succeeds.
bool draw(SDL_Surface *dest,int x,int y,SDL_Rect *clipRect=NULL){
if(currentState!=NULL){
currentState->draw(dest,x,y,clipRect);
return true;
}
return false;
}
//Method that will draw a specific state.
//s: The name of the state to draw.
//dest: The destination surface to draw the ThemeCharacter on.
//x: The x location on the dest surface.
//y: The y location on the dest surface.
//clipRect: Rectangle used to clip.
//Returns: True if it succeeds.
bool drawState(const string& s,SDL_Surface *dest,int x,int y,SDL_Rect *clipRect=NULL){
map<string,ThemeCharacterStateInstance>::iterator it=characterStates.find(s);
if(it!=characterStates.end()){
it->second.draw(dest,x,y,clipRect);
return true;
}
return false;
}
//Method that will change the current state.
//s: The name of the state to change to.
//reset: Boolean if the animation should reset.
//Returns: True if it succeeds (exists).
bool changeState(const string& s,bool reset=true){
//Get the new state.
map<string,ThemeCharacterStateInstance>::iterator it=characterStates.find(s);
//Check if it exists.
if(it!=characterStates.end()){
//Set the state.
currentState=&(it->second);
currentStateName=it->first;
//FIXME: Is it needed to set the savedStateName here?
if(savedStateName.empty())
savedStateName=currentStateName;
//If reset then reset the animation.
if(reset)
currentState->resetAnimation(true);
return true;
}
//It doesn't so return false.
return false;
}
//Method that will update the animation.
void updateAnimation();
//Method that will reset the animation.
//save: Boolean if the saved state should be deleted.
void resetAnimation(bool save){
for(map<string,ThemeCharacterStateInstance>::iterator it=characterStates.begin();it!=characterStates.end();++it){
it->second.resetAnimation(save);
}
if(save)
savedStateName.clear();
}
//Method that will save the animation.
void saveAnimation(){
for(map<string,ThemeCharacterStateInstance>::iterator it=characterStates.begin();it!=characterStates.end();++it){
it->second.saveAnimation();
}
savedStateName=currentStateName;
}
//Method that will restore a saved animation.
void loadAnimation(){
for(map<string,ThemeCharacterStateInstance>::iterator it=characterStates.begin();it!=characterStates.end();++it){
it->second.loadAnimation();
}
changeState(savedStateName,false);
}
};
//Class containing the offset data.
class ThemeOffsetData{
public:
//Vector containing the offsetDatas.
vector<typeOffsetPoint> offsetData;
//The length of the "animation" in frames.
int length;
public:
//Constructor.
ThemeOffsetData():length(0){}
//Destructor.
~ThemeOffsetData(){}
//Method used to destroy the offsetData.
void destroy(){
//Set length to zero.
length=0;
//And clear the offsetData vector.
offsetData.clear();
}
//Method that will load the offsetData from a node.
//objNode: Pointer to the TreeStorageNode to read the data from.
//Returns: True if it succeeds without errors.
bool loadFromNode(TreeStorageNode* objNode);
};
//This is the lowest level of the theme system.
//It's a picture with offset data.
class ThemePicture{
public:
//The SDL_Surface containing the picture.
SDL_Surface* picture;
//Offset data for the picture.
ThemeOffsetData offset;
public:
//Constructor.
ThemePicture():picture(NULL){}
//Destructor.
~ThemePicture(){}
//Method used to destroy the picture.
void destroy(){
//FIXME: Shouldn't the image be freed? (ImageManager)
picture=NULL;
//Destroy the offset data.
offset.destroy();
}
bool loadFromNode(TreeStorageNode* objNode, string themePath);
//Method that will draw the ThemePicture.
//dest: The destination surface.
//x: The x location on the dest to draw the picture.
//y: The y location on the dest to draw the picture.
//animation: The frame of the animation to draw.
//clipRect: Rectangle to clip the picture.
void draw(SDL_Surface* dest,int x,int y,int animation=0,SDL_Rect* clipRect=NULL);
};
//The ThemeObject class is used to contain a basic theme element.
//Contains the picture, animation information, etc...
class ThemeObject{
public:
//Integer containing the length of the animation.
int animationLength;
//Integer containing the frame from where the animation is going to loop.
int animationLoopPoint;
//Boolean if the animation is invisible at run time (Game state).
bool invisibleAtRunTime;
//Boolean if the animation is invisible at design time (Level editor).
bool invisibleAtDesignTime;
//Picture of the ThemeObject.
ThemePicture picture;
//Picture of the ThemeObject shown when in the level editor.
ThemePicture editorPicture;
//Vector containing optionalPicture for the ThemeObject.
vector<pair<double,ThemePicture*> > optionalPicture;
//ThemeOffsetData for the ThemeObject.
ThemeOffsetData offset;
public:
//Constructor.
ThemeObject():animationLength(0),animationLoopPoint(0),invisibleAtRunTime(false),invisibleAtDesignTime(false){}
//Destructor.
~ThemeObject(){
//Loop through the optionalPicture and delete them.
for(unsigned int i=0;i<optionalPicture.size();i++){
delete optionalPicture[i].second;
}
}
//Method that will destroy the ThemeObject.
void destroy(){
//Loop through the optionalPicture and delete them.
for(unsigned int i=0;i<optionalPicture.size();i++){
delete optionalPicture[i].second;
}
optionalPicture.clear();
animationLength=0;
animationLoopPoint=0;
invisibleAtRunTime=false;
invisibleAtDesignTime=false;
picture.destroy();
editorPicture.destroy();
offset.destroy();
}
//Method that will load a ThemeObject from a node.
//objNode: The TreeStorageNode to read the object from.
//themePath: Path to the theme.
//Returns: True if it succeeds.
bool loadFromNode(TreeStorageNode* objNode,string themePath);
};
//Class containing a single state of a themed block.
class ThemeBlockState{
public:
//The length in frames of the oneTimeAnimation.
int oneTimeAnimationLength;
//String containing the name of the next state.
string nextState;
//Vector containing the themeObjects that make up this state.
vector<ThemeObject*> themeObjects;
public:
//Constructor.
ThemeBlockState():oneTimeAnimationLength(0){}
//Destructor.
~ThemeBlockState(){
//Loop through the ThemeObjects and delete them.
for(unsigned int i=0;i<themeObjects.size();i++){
delete themeObjects[i];
}
}
//Method that will destroy the ThemeBlockState.
void destroy(){
//Loop through the ThemeObjects and delete them.
for(unsigned int i=0;i<themeObjects.size();i++){
delete themeObjects[i];
}
//Clear the themeObjects vector.
themeObjects.clear();
//Set the length to 0.
oneTimeAnimationLength=0;
//Clear the nextState string.
nextState.clear();
}
//Method that will load a ThemeBlockState from a node.
//objNode: The TreeStorageNode to read the state from.
//themePath: Path to the theme.
//Returns: True if it succeeds.
bool loadFromNode(TreeStorageNode* objNode,string themePath);
};
//Class containing the needed things for a themed block.
class ThemeBlock{
public:
//Picture that is shown only in the level editor.
ThemePicture editorPicture;
//Map containing ThemeBlockStates for the different states of a block.
map<string,ThemeBlockState*> blockStates;
public:
//Constructor.
ThemeBlock(){}
//Destructor/
~ThemeBlock(){
//Loop through the ThemeBlockStates and delete them,
for(map<string,ThemeBlockState*>::iterator i=blockStates.begin();i!=blockStates.end();++i){
delete i->second;
}
}
//Method that will destroy the ThemeBlock.
void destroy(){
//Loop through the ThemeBlockStates and delete them,
for(map<string,ThemeBlockState*>::iterator i=blockStates.begin();i!=blockStates.end();++i){
delete i->second;
}
//Clear the blockStates map.
blockStates.clear();
editorPicture.destroy();
}
//Method that will load a ThemeBlock from a node.
//objNode: The TreeStorageNode to load the ThemeBlock from.
//themePath: The path to the theme.
//Returns: True if it succeeds.
bool loadFromNode(TreeStorageNode* objNode,string themePath);
//Method that will create a ThemeBlockInstance.
//obj: Pointer that will be filled with the instance.
void createInstance(ThemeBlockInstance* obj);
};
//Class containing one state of a ThemeCharacter
class ThemeCharacterState{
public:
//The length in frames of the oneTimeAnimation.
int oneTimeAnimationLength;
//String containing the name of the next id.
string nextState;
//Vector with the themeObjects in the character state.
vector<ThemeObject*> themeObjects;
public:
//Constructor.
ThemeCharacterState():oneTimeAnimationLength(0){}
//Destructor.
~ThemeCharacterState(){
//Loop through the themeObjects and delete them.
for(unsigned int i=0;i<themeObjects.size();i++){
delete themeObjects[i];
}
}
//Method used to destroy the ThemeCharacterState.
void destroy(){
//Loop through the themeObjects and delete them.
for(unsigned int i=0;i<themeObjects.size();i++){
delete themeObjects[i];
}
//Clear the themeObjects vector.
themeObjects.clear();
//Set oneTimeAnimation to zero.
oneTimeAnimationLength=0;
//Clear the nextState string.
nextState.clear();
}
//Method that will load the ThemeCharacterState from a node.
//objNode: The TreeStorageNode to load the state from.
//themePath: Path to the theme.
//Returns: True if it succeeds.
bool loadFromNode(TreeStorageNode* objNode,string themePath);
};
//Class containing the things needed for a themed character.
class ThemeCharacter{
public:
//Map containing ThemeCharacterStates for the different states of a character.
map<string,ThemeCharacterState*> characterStates;
public:
//Constructor.
ThemeCharacter(){}
//Destructor.
~ThemeCharacter(){
//Loop through the states and delete them.
for(map<string,ThemeCharacterState*>::iterator i=characterStates.begin();i!=characterStates.end();++i){
delete i->second;
}
}
//Method that will destroy the ThemeCharacter.
void destroy(){
//Loop through the states and delete them.
for(map<string,ThemeCharacterState*>::iterator i=characterStates.begin();i!=characterStates.end();++i){
delete i->second;
}
//Clear the characterStates map.
characterStates.clear();
}
//Method that will load a ThemeCharacter from a node.
//objNode: The TreeStorageNode to load the ThemeCharacter from.
//themePath: The path to the theme.
//Returns: True if it succeeds.
bool loadFromNode(TreeStorageNode* objNode,string themePath);
//Method that will create a ThemeCharacterInstance.
//obj: Pointer that will be filled with the instance.
void createInstance(ThemeCharacterInstance* obj);
};
//ThemeBackgroundPicture is a class containing the picture for the background.
class ThemeBackgroundPicture{
private:
//Pointer to the SDL_Surface cached by the ImageManager.
//This is used to rescale the theme.
SDL_Surface* cachedPicture;
//Rectangle that should be taken from the picture.
//NOTE The size is pixels of the image.
SDL_Rect cachedSrcSize;
//Rectangle with the size it will have on the destination (screen).
//NOTE The size is in pixels or in precentages (if scaleToScreen is true).
SDL_Rect cachedDestSize;
//SDL_Surface containing the picture.
//NOTE: This could point to the same surface as cachedPicture.
SDL_Surface* picture;
//Rectangle that should be taken from the picture.
//NOTE The size is pixels of the image.
SDL_Rect srcSize;
//Rectangle with the size it will have on the destination (screen).
//NOTE The size is in pixels even though the loaded value from the theme description file can be in precentages (if scaleToScreen is true).
SDL_Rect destSize;
//Boolean if the background picture should be scaled to screen.
bool scale;
//Boolean if the image should be repeated over the x-axis.
bool repeatX;
//Boolean if the image should be repeated over the y-axis.
bool repeatY;
//Float containing the speed the background picture moves along the x-axis.
float speedX;
//Float containing the speed the background picture moves along the y-axis.
float speedY;
//Float containing the horizontal speed the picture will have when moving the camera (horizontally).
float cameraX;
//Float containing the vertical speed the picture will have when moving the camera (vertically).
float cameraY;
private:
//Float with the current x position.
float currentX;
//Float with the current y position.
float currentY;
//Stored x location for when loading a state.
float savedX;
//Stored y location for when loading a state.
float savedY;
public:
//Constructor.
ThemeBackgroundPicture(){
//Set some default values.
picture=NULL;
cachedPicture=NULL;
memset(&srcSize,0,sizeof(srcSize));
memset(&destSize,0,sizeof(destSize));
memset(&cachedSrcSize,0,sizeof(cachedSrcSize));
memset(&cachedDestSize,0,sizeof(cachedDestSize));
scale=true;
repeatX=true;
repeatY=true;
speedX=0.0f;
speedY=0.0f;
cameraX=0.0f;
cameraY=0.0f;
currentX=0.0f;
currentY=0.0f;
savedX=0.0f;
savedY=0.0f;
}
//Method that will update the animation.
void updateAnimation(){
//Move the picture along the x-axis.
currentX+=speedX;
if(repeatX && destSize.w>0){
float f=(float)destSize.w;
if(currentX>f || currentX<-f) currentX-=f*floor(currentX/f);
}
//Move the picture along the y-axis.
currentY+=speedY;
if(repeatY && destSize.h>0){
float f=(float)destSize.h;
if(currentY>f || currentY<-f) currentY-=f*floor(currentY/f);
}
}
//Method that will reset the animation.
//save: Boolean if the saved state should be deleted.
void resetAnimation(bool save){
currentX=0.0f;
currentY=0.0f;
if(save){
savedX=0.0f;
savedY=0.0f;
}
}
//Method that will save the animation.
void saveAnimation(){
savedX=currentX;
savedY=currentY;
}
//Method that will load the animation.
void loadAnimation(){
currentX=savedX;
currentY=savedY;
}
//Method used to draw the ThemeBackgroundPicture.
//dest: Pointer to the SDL_Surface the picture should be drawn.
void draw(SDL_Surface *dest);
//Method used to load the ThemeBackgroundPicture from a node.
//objNode: The TreeStorageNode to load the picture from.
//themePath: The path to the theme.
bool loadFromNode(TreeStorageNode* objNode,string themePath);
//This method will scale the background picture (if needed and configured) to the current SCREEN_WIDTH and SCREEN_HEIGHT.
void scaleToScreen();
};
//Class that forms the complete background of a theme.
//It is in fact nothing more than a vector containing multiple ThemeBackgroundPictures.
class ThemeBackground{
private:
//Vector containing the ThemeBackgroundPictures.
vector<ThemeBackgroundPicture> picture;
public:
//Method that will update the animation of all the background pictures.
void updateAnimation(){
for(unsigned int i=0;i<picture.size();i++){
picture[i].updateAnimation();
}
}
//Method that will reset the animation of all the background pictures.
//save: Boolean if the saved state should be deleted.
void resetAnimation(bool save){
for(unsigned int i=0;i<picture.size();i++){
picture[i].resetAnimation(save);
}
}
//Method that will save the animation of all the background pictures.
void saveAnimation(){
for(unsigned int i=0;i<picture.size();i++){
picture[i].saveAnimation();
}
}
//Method that will load the animation of all the background pictures.
void loadAnimation(){
for(unsigned int i=0;i<picture.size();i++){
picture[i].loadAnimation();
}
}
//Method that will scale the background pictures (if set) to the current screen resolution.
void scaleToScreen(){
for(unsigned int i=0;i<picture.size();i++){
picture[i].scaleToScreen();
}
}
//This method will draw all the background pictures.
//dest: Pointer to the SDL_Surface to draw them on.
void draw(SDL_Surface* dest){
for(unsigned int i=0;i<picture.size();i++){
picture[i].draw(dest);
}
}
//Method that will add a ThemeBackgroundPicture to the ThemeBackground.
//objNode: The treeStorageNode to read from.
//themePath: The path to the theme.
//Returns: True if it succeeds.
bool addPictureFromNode(TreeStorageNode* objNode,string themePath){
picture.push_back(ThemeBackgroundPicture());
return picture.back().loadFromNode(objNode,themePath);
}
};
//The ThemeManager is actually a whole theme, filled with ThemeBlocks, ThemeCharacter and ThemeBackground.
class ThemeManager{
private:
//The ThemeCharacter of the shadow.
ThemeCharacter* shadow;
//The ThemeCharacter of the player.
ThemeCharacter* player;
//Array containing a ThemeBlock for every block type.
ThemeBlock* objBlocks[TYPE_MAX];
//The ThemeBackground.
ThemeBackground* objBackground;
//ThemeBackground for menu.
ThemeBackground* menuBackground;
//Level selection background block.
ThemeBlock* menuBlock;
public:
//String containing the path to the string.
string themePath;
//String containing the theme name.
string themeName;
public:
//Constructor.
ThemeManager(){
//Make sure the pointers are set to NULL.
objBackground=NULL;
//Reserve enough memory for the ThemeBlocks.
memset(objBlocks,0,sizeof(objBlocks));
shadow=NULL;
player=NULL;
menuBackground=NULL;
menuBlock=NULL;
}
//Destructor.
~ThemeManager(){
//Delete the ThemeCharacter of the shadow.
if(shadow)
delete shadow;
//Delete the ThemeCharacter of the player.
if(player)
delete player;
//Loop through the ThemeBlocks and delete them.
for(int i=0;i<TYPE_MAX;i++){
if(objBlocks[i])
delete objBlocks[i];
}
//Delete the ThemeBackgrounds.
if(objBackground)
delete objBackground;
if(menuBackground)
delete menuBackground;
if(menuBlock)
delete menuBlock;
}
//Method used to destroy the ThemeManager.
void destroy(){
//Delete the ThemeCharacter of the shadow.
if(shadow)
delete shadow;
//Delete the ThemeCharacter of the player.
if(player)
delete player;
//Loop through the ThemeBlocks and delete them.
for(int i=0;i<TYPE_MAX;i++){
if(objBlocks[i])
delete objBlocks[i];
}
//Delete the ThemeBackground.
if(objBackground)
delete objBackground;
//And clear the themeName.
themeName.clear();
}
//Method that will load the theme from a file.
//fileName: The file to load the theme from.
//Returns: True if it succeeds.
bool loadFile(const string& fileName);
//Method that will scale the theme to the current SCREEN_WIDTH and SCREEN_HEIGHT.
void scaleToScreen(){
//We only need to scale the background.
if(objBackground)
objBackground->scaleToScreen();
}
//Get a pointer to the ThemeBlock of a given block type.
//index: The type of block.
//menu: Boolean if get spefial blocks for menu
//Returns: Pointer to the ThemeBlock.
ThemeBlock* getBlock(int index,bool menu){
if(!menu)
return objBlocks[index];
else
if(index==TYPE_BLOCK)
if(menuBlock)
return menuBlock;
else
return objBlocks[TYPE_BLOCK];
else if(index==TYPE_SHADOW_BLOCK)
if(menuBlock)
return menuBlock;
else
return objBlocks[TYPE_SHADOW_BLOCK];
+ else
+ return objBlocks[index];
}
//Get a pointer to the ThemeCharacter of the shadow or the player.
//isShadow: Boolean if it's the shadow
//Returns: Pointer to the ThemeCharacter.
ThemeCharacter* getCharacter(bool isShadow){
if(isShadow)
return shadow;
return player;
}
//Get a pointer to the ThemeBackground of the theme.
//bool: Boolean if get menu background
//Returns: Pointer to the ThemeBackground.
ThemeBackground* getBackground(bool menu){
if(menu&&menuBackground)
return menuBackground;
else
return objBackground;
}
};
//Class that combines multiple ThemeManager into one stack.
//If a file is not in a certain theme it will use one of a lower theme.
class ThemeStack{
private:
//Vector containing the themes in the stack.
vector<ThemeManager*> objThemes;
public:
//Constructor.
ThemeStack();
//Destructor.
~ThemeStack();
//Method that will destroy the ThemeStack.
void destroy();
//Method that will append a theme to the stack.
//obj: The ThemeManager to add.
void appendTheme(ThemeManager* obj);
//Method that will remove the last theme added to the stack.
void removeTheme();
//Method that will append a theme that will be loaded from file.
//fileName: The file to load the theme from.
//Returns: Pointer to the newly added theme, NULL if failed.
ThemeManager* appendThemeFromFile(const string& fileName);
//Method that is used to let the themes scale.
void scaleToScreen();
//Get the number of themes in the stack.
//Returns: The theme count.
int themeCount(){
return (int)objThemes.size();
}
//Operator overloading so that the themes can be accesed using the [] operator.
//i: The index.
ThemeManager* operator[](int i){
return objThemes[i];
}
//Get a pointer to the ThemeBlock of a given block type.
//index: The type of block.
//Returns: Pointer to the ThemeBlock.
ThemeBlock* getBlock(int index,bool menu=false);
//Get a pointer to the ThemeCharacter of the shadow or the player.
//isShadow: Boolean if it's the shadow
//Returns: Pointer to the ThemeCharacter.
ThemeCharacter* getCharacter(bool isShadow);
//Get a pointer to the ThemeBackground of the theme.
//Returns: Pointer to the ThemeBackground.
ThemeBackground* getBackground(bool menu);
};
//The ThemeStack that is be used by the GameState.
extern ThemeStack objThemes;
#endif
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