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diff --git a/src/FileManager.cpp b/src/FileManager.cpp
index b6d2f2f..e521ba2 100644
--- a/src/FileManager.cpp
+++ b/src/FileManager.cpp
@@ -1,806 +1,808 @@
/*
* 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 <stdio.h>
#include <iostream>
#include <string>
#include <vector>
#include "Globals.h"
#include "FileManager.h"
#include "Functions.h"
#ifdef __APPLE__
#include "archive.h"
#include "archive_entry.h"
#else
#include <archive.h>
#include <archive_entry.h>
#endif
using namespace std;
#ifdef WIN32
#include <windows.h>
#include <shlobj.h>
#include <shlwapi.h>
#include <direct.h>
#pragma comment(lib,"shlwapi.lib")
#else
#include <strings.h>
#include <sys/stat.h>
#include <sys/types.h>
#include <unistd.h>
#include <dirent.h>
#endif
//Under Windows there's just one userpath.
#ifdef WIN32
string userPath,dataPath,appPath,exeName;
#else
//But on other platforms we make a difference between the userPath (config files) and the userDataPath (data files).
//Finally there's the path for cache data userCachePath.
string userPath,userDataPath,userCachePath,dataPath,appPath,exeName;
#endif
bool configurePaths() {
//Get the appPath and the exeName.
{
char s[4096];
int i,m;
#ifdef WIN32
m=GetModuleFileNameA(NULL,s,sizeof(s));
#elif defined(ANDROID)
//FIXME: Oops. There are no any executable files in Android.
strcpy(s,"./meandmyshadow");
m=strlen(s);
#else
m=readlink("/proc/self/exe",s,sizeof(s));
#endif
s[m]=0;
for(i=m-1;i>=0;i--){
if(s[i]=='/'||s[i]=='\\'){
s[i]=0;
break;
}
}
appPath=s;
exeName=s+i+1;
}
//TODO: Check if the userpath is empty before setting userPath???
//Check if the userPath is empty.
if(getUserPath().empty()){
#ifdef WIN32
//Get the userPath.
char s[1024];
SHGetSpecialFolderPathA(NULL,s,CSIDL_PERSONAL,1);
userPath=s;
userPath+="\\My Games\\meandmyshadow\\";
#elif defined(ANDROID)
//FIXME: These paths are relative to SDL Android data path.
userPath="./";
userDataPath="./";
userCachePath="./";
#else
//Temp variable that is used to prevent NULL assignement.
char* env;
//First get the $XDG_CONFIG_HOME env var.
env=getenv("XDG_CONFIG_HOME");
//If it's null set userPath to $HOME/.config/.
if(env!=NULL){
userPath=env;
}else{
userPath=getenv("HOME");
userPath+="/.config";
}
//And add meandmyshadow to it.
userPath+="/meandmyshadow/";
//Now get the $XDG_DATA_HOME env var.
env=getenv("XDG_DATA_HOME");
//If it's null set userDataPath to $HOME/.local/share.
if(env!=NULL){
userDataPath=env;
}else{
userDataPath=getenv("HOME");
userDataPath+="/.local/share";
}
//And add meandmyshadow to it.
userDataPath+="/meandmyshadow/";
//Now get the $XDG_CACHE_HOME env var.
env=getenv("XDG_CACHE_HOME");
//If it's null set userCachePath to $HOME/.cache.
if(env!=NULL){
userCachePath=env;
}else{
userCachePath=getenv("HOME");
userCachePath+="/.cache";
}
//And add meandmyshadow to it.
userCachePath+="/meandmyshadow/";
//Set env null.
env=NULL;
#endif
//Print the userPath.
cout<<"User preferences will be fetched from: "<<userPath<<endl;
#ifndef WIN32
//In case of a non-Windows computer show the user data path.
cout<<"User data will be fetched from: "<<userDataPath<<endl;
#endif
}
#ifdef WIN32
//Create the userPath folder and other subfolders.
createDirectory(userPath.c_str());
createDirectory((userPath+"levels").c_str());
createDirectory((userPath+"levelpacks").c_str());
createDirectory((userPath+"themes").c_str());
//The progress folder and subfolders.
createDirectory((userPath+"progress").c_str());
+ createDirectory((userPath+"progress\\main").c_str());
createDirectory((userPath+"progress\\addon").c_str());
createDirectory((userPath+"progress\\custom").c_str());
createDirectory((userPath+"tmp").c_str());
//The records folder for recordings.
createDirectory((userPath+"records").c_str());
createDirectory((userPath+"records\\autosave").c_str());
//And the custom folder inside the userpath.
createDirectory((userPath+"custom").c_str());
createDirectory((userPath+"custom\\levels").c_str());
createDirectory((userPath+"custom\\levelpacks").c_str());
#else
//Create the userPath.
createDirectory(userPath.c_str());
createDirectory(userDataPath.c_str());
createDirectory(userCachePath.c_str());
//Also create other folders in the userpath.
createDirectory((userDataPath+"/levels").c_str());
createDirectory((userDataPath+"/levelpacks").c_str());
createDirectory((userDataPath+"/themes").c_str());
//The progress folder and subfolders.
createDirectory((userDataPath+"/progress").c_str());
+ createDirectory((userDataPath+"/progress/main").c_str());
createDirectory((userDataPath+"/progress/addon").c_str());
createDirectory((userDataPath+"/progress/custom").c_str());
createDirectory((userCachePath+"/tmp").c_str());
createDirectory((userCachePath+"/images").c_str());
//The records folder for recordings.
createDirectory((userDataPath+"/records").c_str());
createDirectory((userDataPath+"/records/autosave").c_str());
//And the custom folder inside the userpath.
createDirectory((userDataPath+"/custom").c_str());
createDirectory((userDataPath+"/custom/levels").c_str());
createDirectory((userDataPath+"/custom/levelpacks").c_str());
#endif
//Get the dataPath by trying multiple relative locations.
{
FILE *f;
string s;
while(true){
//try existing one
if(!dataPath.empty()){
s=dataPath+"font/knewave.ttf";
if((f=fopen(s.c_str(),"rb"))!=NULL){
fclose(f);
break;
}
}
//try "./"
dataPath="./data/";
s=dataPath+"font/knewave.ttf";
if((f=fopen(s.c_str(),"rb"))!=NULL){
fclose(f);
break;
}
//try "../"
dataPath="../data/";
s=dataPath+"font/knewave.ttf";
if((f=fopen(s.c_str(),"rb"))!=NULL){
fclose(f);
break;
}
//try App.Path
dataPath=getAppPath()+"/data/";
s=dataPath+"font/knewave.ttf";
if((f=fopen(s.c_str(),"rb"))!=NULL){
fclose(f);
break;
}
//try App.Path+"/../"
dataPath=getAppPath()+"/../data/";
s=dataPath+"font/knewave.ttf";
if((f=fopen(s.c_str(),"rb"))!=NULL){
fclose(f);
break;
}
//try DATA_PATH
#ifdef DATA_PATH
dataPath=DATA_PATH;
s=dataPath+"font/knewave.ttf";
if((f=fopen(s.c_str(),"rb"))!=NULL){
fclose(f);
break;
}
#endif
#ifdef __APPLE__
extern std::string get_data_path();
dataPath = get_data_path();
dataPath=get_data_path();
s=dataPath+"font/knewave.ttf";
if((f=fopen(s.c_str(),"rb"))!=NULL){
fclose(f);
break;
}
#endif
//error: can't find file
return false;
}
//Print the dataPath.
cout<<"Data files will be fetched from: "<<dataPath<<endl;
}
return true;
}
std::vector<std::string> enumAllFiles(std::string path,const char* extension,bool containsPath){
vector<string> v;
#ifdef WIN32
string s1;
WIN32_FIND_DATAA f;
if(!path.empty()){
char c=path[path.size()-1];
if(c!='/'&&c!='\\') path+="\\";
}
s1=path;
if(extension!=NULL && *extension){
s1+="*.";
s1+=extension;
}else{
s1+="*";
}
HANDLE h=FindFirstFileA(s1.c_str(),&f);
if(h==NULL||h==INVALID_HANDLE_VALUE) return v;
do{
if(!(f.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY)){
if(containsPath){
v.push_back(path+f.cFileName);
}else{
v.push_back(f.cFileName);
}
}
}while(FindNextFileA(h,&f));
FindClose(h);
return v;
#else
int len=0;
if(extension!=NULL && *extension) len=strlen(extension);
if(!path.empty()){
char c=path[path.size()-1];
if(c!='/'&&c!='\\') path+="/";
}
DIR *pDir;
struct dirent *pDirent;
pDir=opendir(path.c_str());
if(pDir==NULL) return v;
while((pDirent=readdir(pDir))!=NULL){
if(pDirent->d_name[0]=='.'){
if(pDirent->d_name[1]==0||
(pDirent->d_name[1]=='.'&&pDirent->d_name[2]==0)) continue;
}
string s1=path+pDirent->d_name;
struct stat S_stat;
lstat(s1.c_str(),&S_stat);
if(!S_ISDIR(S_stat.st_mode)){
if(len>0){
if((int)s1.size()<len+1) continue;
if(s1[s1.size()-len-1]!='.') continue;
if(strcasecmp(&s1[s1.size()-len],extension)) continue;
}
if(containsPath){
v.push_back(s1);
}else{
v.push_back(string(pDirent->d_name));
}
}
}
closedir(pDir);
return v;
#endif
}
std::vector<std::string> enumAllDirs(std::string path,bool containsPath){
vector<string> v;
#ifdef WIN32
string s1;
WIN32_FIND_DATAA f;
if(!path.empty()){
char c=path[path.size()-1];
if(c!='/'&&c!='\\') path+="\\";
}
s1=path+"*";
HANDLE h=FindFirstFileA(s1.c_str(),&f);
if(h==NULL||h==INVALID_HANDLE_VALUE) return v;
do{
// skip '.' and '..' and hidden folders
if(f.cFileName[0]=='.'){
/*if(f.cFileName[1]==0||
(f.cFileName[1]=='.'&&f.cFileName[2]==0))*/ continue;
}
if(f.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY){
if(containsPath){
v.push_back(path+f.cFileName);
}else{
v.push_back(f.cFileName);
}
}
}while(FindNextFileA(h,&f));
FindClose(h);
return v;
#else
if(!path.empty()){
char c=path[path.size()-1];
if(c!='/'&&c!='\\') path+="/";
}
DIR *pDir;
struct dirent *pDirent;
pDir=opendir(path.c_str());
if(pDir==NULL) return v;
while((pDirent=readdir(pDir))!=NULL){
if(pDirent->d_name[0]=='.'){
if(pDirent->d_name[1]==0||
(pDirent->d_name[1]=='.'&&pDirent->d_name[2]==0)) continue;
}
string s1=path+pDirent->d_name;
struct stat S_stat;
lstat(s1.c_str(),&S_stat);
if(S_ISDIR(S_stat.st_mode)){
//Skip hidden folders.
s1=string(pDirent->d_name);
if(s1.find('.')==0) continue;
//Add result to vector.
if(containsPath){
v.push_back(path+pDirent->d_name);
}else{
v.push_back(s1);
}
}
}
closedir(pDir);
return v;
#endif
}
std::string processFileName(const std::string& s){
string prefix=dataPath;
//FIXME: Do we still need those last three?
//REMARK: maybe 'return prefix+s;' is not needed (?)
// it causes some bugs such as can't save level progress
if(s.compare(0,6,"%DATA%")==0){
if(s.size()>6 && (s[6]=='/' || s[6]=='\\')){
return dataPath+s.substr(7);
}else{
return dataPath+s.substr(6);
}
}else if(s.compare(0,6,"%USER%")==0){
if(s.size()>6 && (s[6]=='/' || s[6]=='\\')){
return getUserPath(USER_DATA)+s.substr(7);
}else{
return getUserPath(USER_DATA)+s.substr(6);
}
}else if(s.compare(0,9,"%LVLPACK%")==0){
if(s.size()>9 && (s[9]=='/' || s[9]=='\\')){
return prefix+"levelpacks/"+s.substr(10);
}else{
return prefix+"levelpacks/"+s.substr(9);
}
}else if(s.compare(0,5,"%LVL%")==0){
if(s.size()>5 && (s[5]=='/' || s[5]=='\\')){
return prefix+"levels/"+s.substr(6);
}else{
return prefix+"levels/"+s.substr(5);
}
}else if(s.compare(0,8,"%THEMES%")==0){
if(s.size()>8 && (s[8]=='/' || s[8]=='\\')){
return prefix+"themes/"+s.substr(9);
}else{
return prefix+"themes/"+s.substr(8);
}
}else if(s.size()>0 && (s[0]=='/' || s[0]=='\\')){
return s;
#ifdef WIN32
// Another fix for Windows :(
}else if(s.size()>1 && (s[1]==':')){
return s;
#endif
}else{
#if defined(ANDROID)
//REMARK: maybe 'return prefix+s;' is not needed (?)
// it causes some bugs such as can't save level progress in Android.
return s;
#else
return prefix+s;
#endif
}
}
std::string compressFileName(const std::string& s){
//FIXME: Do we need the other ones from processFileName?
//Check if the data path is at the start.
size_t pos=s.find(getDataPath());
if(pos!=string::npos){
pos+=getDataPath().size();
return "%DATA%/"+s.substr(pos);
}
pos=s.find(getUserPath(USER_DATA));
if(pos!=string::npos){
pos+=getUserPath(USER_DATA).size();
return "%USER%/"+s.substr(pos);
}
return s;
}
std::string fileNameFromPath(const std::string &path, const bool webURL){
std::string filename;
size_t pos;
#ifdef WIN32
// NOTE: '/' in string should be '/' not '\/',
// we don't need to escape it
if(webURL){
pos = path.find_last_of("/");
}else{
// NOTE: sometimes path separator in Windows can be '/',
// so we must check botn '\' and '/'
pos = path.find_last_of("\\/");
}
#else
// NOTE: '/' in string should be '/' not '\/',
// we don't need to escape it
pos = path.find_last_of("/");
#endif
if(pos != std::string::npos)
filename.assign(path.begin() + pos + 1, path.end());
else
filename=path;
return filename;
}
std::string pathFromFileName(const std::string &filename){
std::string path;
// NOTE: '/' in string should be '/' not '\/',
// we don't need to escape it
#ifdef WIN32
// NOTE: sometimes path separator in Windows can be '/',
// so we must check botn '\' and '/'
size_t pos = filename.find_last_of("\\/");
#else
size_t pos = filename.find_last_of("/");
#endif
if(pos != std::string::npos)
path.assign(filename.begin(), filename.begin() + pos +1);
else
path=filename;
return path;
}
bool downloadFile(const string &path, const string &destination) {
string filename=fileNameFromPath(path,true);
FILE* file = fopen((destination+filename).c_str(), "wb");
bool status=downloadFile(path,file);
fclose(file);
//And return the status.
return status;
}
bool downloadFile(const string &path, FILE* destination) {
CURL* curl=curl_easy_init();
// proxy test (test only)
string internetProxy = getSettings()->getValue("internet-proxy");
size_t pos = internetProxy.find_first_of(":");
if(pos!=string::npos){
curl_easy_setopt(curl,CURLOPT_PROXYPORT,atoi(internetProxy.substr(pos+1).c_str()));
internetProxy = internetProxy.substr(0,pos);
curl_easy_setopt(curl,CURLOPT_PROXY,internetProxy.c_str());
}
curl_easy_setopt(curl,CURLOPT_URL,path.c_str());
curl_easy_setopt(curl,CURLOPT_WRITEFUNCTION,writeData);
curl_easy_setopt(curl,CURLOPT_WRITEDATA,destination);
CURLcode res = curl_easy_perform(curl);
curl_easy_cleanup(curl);
return (res==0);
}
size_t writeData(void *ptr, size_t size, size_t nmemb, void *stream){
return fwrite(ptr, size, nmemb, (FILE *)stream);
}
bool extractFile(const string &fileName, const string &destination) {
//Create the archive we're going to extract.
archive* file;
//Create the destination we're going to extract to.
archive* dest;
file=archive_read_new();
dest=archive_write_disk_new();
archive_write_disk_set_options(dest, ARCHIVE_EXTRACT_TIME);
archive_read_support_format_zip(file);
//Now read the archive.
if(archive_read_open_file(file,fileName.c_str(),10240)) {
cerr<<"Error while reading archive "+fileName<<endl;
return false;
}
//Now write every entry to disk.
int status;
archive_entry* entry=NULL;
while(true) {
status=archive_read_next_header(file,&entry);
if(status==ARCHIVE_EOF){
break;
}
if(status!=ARCHIVE_OK){
cerr<<"Error while reading archive "+fileName<<endl;
return false;
}
archive_entry_copy_pathname(entry,(destination+archive_entry_pathname(entry)).c_str());
status=archive_write_header(dest,entry);
if(status!=ARCHIVE_OK){
cerr<<"Error while extracting archive "+fileName<<endl;
return false;
}else{
copyData(file, dest);
status=archive_write_finish_entry(dest);
if(status!=ARCHIVE_OK){
cerr<<"Error while extracting archive "+fileName<<endl;
return false;
}
}
}
//Finally close the archive.
archive_read_close(file);
archive_read_finish(file);
return true;
}
bool createDirectory(const char* path){
#ifdef WIN32
char s0[1024],s[1024];
GetCurrentDirectoryA(sizeof(s0),s0);
PathCombineA(s,s0,path);
for(unsigned int i=0;i<sizeof(s);i++){
if(s[i]=='\0') break;
else if(s[i]=='/') s[i]='\\';
}
//printf("createDirectory:%s\n",s);
return SHCreateDirectoryExA(NULL,s,NULL)!=0;
#else
return mkdir(path,0777)==0;
#endif
}
bool removeDirectory(const char *path){
#ifdef WIN32
WIN32_FIND_DATAA f;
HANDLE h = FindFirstFileA((string(path)+"\\*").c_str(),&f);
#else
//Open the directory that needs to be removed.
DIR* d=opendir(path);
#endif
//Get the path length
size_t path_len = strlen(path);
//Boolean if the directory is emptied.
//True: succes False: failure
//Default is true because if the directory is empty it will never enter the while loop, but we still have success.
bool r = true;
#ifdef WIN32
if(h!=NULL && h!=INVALID_HANDLE_VALUE) {
#else
//Check if the directory exists.
if(d) {
//Pointer to an entry of the directory.
struct dirent* p;
#endif
#ifdef WIN32
do{
#else
//Loop the entries of the directory that needs to be removed as long as there's no error.
while(r && (p=readdir(d))) {
#endif
/* Skip the names "." and ".." as we don't want to recurse on them. */
#ifdef WIN32
if (!strcmp(f.cFileName, ".") || !strcmp(f.cFileName, "..")) {
#else
if (!strcmp(p->d_name, ".") || !strcmp(p->d_name, "..")) {
#endif
//The filename is . or .. so we continue to the next entry.
continue;
} else {
//r2 tells if the entry is deleted.
//True: succes False: failure
//Default is false.
bool r2 = false;
char* buf;
size_t len;
#ifdef WIN32
//Get the length of the path + the directory entry name.
len = path_len + strlen(f.cFileName) + 2;
#else
//Get the length of the path + the directory entry name.
len = path_len + strlen(p->d_name) + 2;
#endif
buf = (char*) malloc(len);
if(buf) {
#ifdef WIN32
_snprintf(buf, len, "%s\\%s", path, f.cFileName);
if(f.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY){
r2 = removeDirectory(buf);
}else{
r2 = unlink(buf)==0;
}
#else
struct stat statbuf;
snprintf(buf, len, "%s/%s", path, p->d_name);
if(!stat(buf, &statbuf)){
//Check if the entry is a directory or a file.
if (S_ISDIR(statbuf.st_mode)){
//We call ourself(removeDirectory) recursively.
//We return true on success.
r2 = removeDirectory(buf);
}else{
//unlink() returns zero on succes so we set r2 to the unlink(buf)==0.
r2 = unlink(buf)==0;
}
}
#endif
//Free the buf.
free(buf);
}
//We set r to r2 since r2 contains the status of the latest deletion.
r = r2;
}
#ifdef WIN32
}while(r && FindNextFileA(h,&f));
FindClose(h);
#else
}
//Close the directory.
closedir(d);
#endif
}
//The while loop has ended, meaning we (tried) cleared the directory.
//If r is true, meaning no errors we can delete the directory.
if(r){
//The return value of rmdir is 0 when it succeeded.
r = rmdir(path)==0;
}
//Return the status.
return r;
}
bool renameDirectory(const char* oldPath,const char* newPath){
return rename(oldPath,newPath)==0;
}
void copyData(archive* file, archive* dest) {
int status;
const void* buff;
size_t size;
#if ARCHIVE_VERSION_NUMBER < 3000000
off_t offset;
#else
int64_t offset;
#endif
while(true) {
status=archive_read_data_block(file, &buff, &size, &offset);
if(status==ARCHIVE_EOF){
return;
}
if(status!=ARCHIVE_OK){
cerr<<"Error while writing data to disk."<<endl;
return;
}
status=archive_write_data_block(dest, buff, size, offset);
if(status!=ARCHIVE_OK) {
cerr<<"Error while writing data to disk."<<endl;
return;
}
}
}
bool copyFile(const char* source,const char* dest){
//Open the source file.
ifstream fin(source,fstream::binary);
if(!fin)
return false;
//Open the dest file.
ofstream fout(dest,fstream::trunc|fstream::binary);
if(!fout)
return false;
//Copy.
fout<<fin.rdbuf();
return true;
}
bool removeFile(const char* file){
return remove(file)==0;
}
bool fileExists(const char* file){
#ifdef WIN32
bool ret=false;
HANDLE h=CreateFileA(file,0,FILE_SHARE_READ | FILE_SHARE_WRITE | FILE_SHARE_DELETE,NULL,OPEN_EXISTING,0,NULL);
if(h!=INVALID_HANDLE_VALUE){
ret=true;
CloseHandle(h);
}
return ret;
#else
return (access(file,F_OK)==0);
#endif
}
bool createFile(const char* file){
//Open the file with write permission.
FILE* f=fopen(file,"wb");
//Check if there are no problems.
if(f){
//Close the file.
fclose(f);
return true;
}else{
return false;
}
}
diff --git a/src/Functions.cpp b/src/Functions.cpp
index 13b532b..e506551 100644
--- a/src/Functions.cpp
+++ b/src/Functions.cpp
@@ -1,1784 +1,1785 @@
/*
* 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 <stdio.h>
#include <math.h>
#include <locale.h>
#include <algorithm>
#include <SDL/SDL.h>
#ifdef __APPLE__
#include <SDL_mixer/SDL_mixer.h>
#include <SDL_gfx/SDL_gfxPrimitives.h>
#include <SDL_gfx/SDL_rotozoom.h>
#else
#include <SDL/SDL_mixer.h>
#include <SDL/SDL_gfxPrimitives.h>
#include <SDL/SDL_rotozoom.h>
#endif
#include <SDL/SDL_syswm.h>
#include <string>
#include "Globals.h"
#include "Functions.h"
#include "FileManager.h"
#include "Objects.h"
#include "Player.h"
#include "GameObjects.h"
#include "LevelPack.h"
#include "TitleMenu.h"
#include "LevelEditSelect.h"
#include "LevelEditor.h"
#include "Game.h"
#include "LevelPlaySelect.h"
#include "Addons.h"
#include "InputManager.h"
#include "ImageManager.h"
#include "MusicManager.h"
#include "LevelPackManager.h"
#include "ThemeManager.h"
#include "GUIListBox.h"
#include "GUIOverlay.h"
#include "StatisticsManager.h"
#include "StatisticsScreen.h"
#include "Cursors.h"
#include "ScriptAPI.h"
#include "libs/tinyformat/tinyformat.h"
#include "libs/tinygettext/tinygettext.hpp"
#include "libs/tinygettext/log.hpp"
#include "libs/findlocale/findlocale.h"
#ifdef HARDWARE_ACCELERATION
#include <GL/gl.h>
#include <GL/glu.h>
//fix some Windows header bug
#ifndef GL_BGR
#define GL_BGR GL_BGR_EXT
#endif
#ifndef GL_BGRA
#define GL_BGRA GL_BGRA_EXT
#endif
#endif
using namespace std;
#ifdef WIN32
#include <windows.h>
#include <shlobj.h>
#else
#include <strings.h>
#include <sys/stat.h>
#include <sys/types.h>
#include <unistd.h>
#include <dirent.h>
#endif
//Workaround for the resizing below 800x600 for X systems.
#if defined(__linux__) && !defined(ANDROID)
#include<X11/Xlib.h>
#include<X11/Xutil.h>
#define __X11_INCLUDED__
#endif
//Initialise the imagemanager.
//The ImageManager is used to prevent loading images multiple times.
ImageManager imageManager;
//Initialise the musicManager.
//The MusicManager is used to prevent loading music files multiple times and for playing/fading music.
MusicManager musicManager;
//Initialise the levelPackManager.
//The LevelPackManager is used to prevent loading levelpacks multiple times and for the game to know which levelpacks there are.
LevelPackManager levelPackManager;
//The scriptExecutor used for executing scripts.
ScriptExecutor scriptExecutor;
//Map containing changed settings using command line arguments.
map<string,string> tmpSettings;
//Pointer to the settings object.
//It is used to load and save the settings file and change the settings.
Settings* settings=0;
#ifdef HARDWARE_ACCELERATION
GLuint screenTexture;
#endif
SDL_Surface* loadImage(string file){
//We use the imageManager to load the file.
return imageManager.loadImage(file);
}
void applySurface(int x,int y,SDL_Surface* source,SDL_Surface* dest,SDL_Rect* clip){
//The offset is needed to draw at the right location.
SDL_Rect offset;
offset.x=x;
offset.y=y;
//Let SDL do the drawing of the surface.
SDL_BlitSurface(source,clip,dest,&offset);
}
void drawRect(int x,int y,int w,int h,SDL_Surface* dest,Uint32 color){
//NOTE: We let SDL_gfx render it.
rectangleRGBA(dest,x,y,x+w,y+h,color >> 24,color >> 16,color >> 8,255);
}
//Draw a box with anti-aliased borders using SDL_gfx.
void drawGUIBox(int x,int y,int w,int h,SDL_Surface* dest,Uint32 color){
//Fill content's background color from function parameter
boxRGBA(dest,x+1,y+1,x+w-2,y+h-2,color >> 24,color >> 16,color >> 8,color >> 0);
//Draw first black borders around content and leave 1 pixel in every corner
lineRGBA(dest,x+1,y,x+w-2,y,0,0,0,255);
lineRGBA(dest,x+1,y+h-1,x+w-2,y+h-1,0,0,0,255);
lineRGBA(dest,x,y+1,x,y+h-2,0,0,0,255);
lineRGBA(dest,x+w-1,y+1,x+w-1,y+h-2,0,0,0,255);
//Fill the corners with transperent color to create anti-aliased borders
pixelRGBA(dest,x,y,0,0,0,160);
pixelRGBA(dest,x,y+h-1,0,0,0,160);
pixelRGBA(dest,x+w-1,y,0,0,0,160);
pixelRGBA(dest,x+w-1,y+h-1,0,0,0,160);
//Draw second lighter border around content
rectangleRGBA(dest,x+1,y+1,x+w-2,y+h-2,0,0,0,64);
//Create anti-aliasing in corners of second border
pixelRGBA(dest,x+1,y+1,0,0,0,50);
pixelRGBA(dest,x+1,y+h-2,0,0,0,50);
pixelRGBA(dest,x+w-2,y+1,0,0,0,50);
pixelRGBA(dest,x+w-2,y+h-2,0,0,0,50);
}
void drawLine(int x1,int y1,int x2,int y2,SDL_Surface* dest,Uint32 color){
//NOTE: We let SDL_gfx render it.
lineRGBA(dest,x1,y1,x2,y2,color >> 24,color >> 16,color >> 8,255);
}
void drawLineWithArrow(int x1,int y1,int x2,int y2,SDL_Surface* dest,Uint32 color,int spacing,int offset,int xsize,int ysize){
//Draw line first
drawLine(x1,y1,x2,y2,dest,color);
//calc delta and length
double dx=x2-x1;
double dy=y2-y1;
double length=sqrt(dx*dx+dy*dy);
if(length<0.001) return;
//calc the unit vector
dx/=length; dy/=length;
//Now draw arrows on it
for(double p=offset;p<length;p+=spacing){
drawLine(int(x1+p*dx+0.5),int(y1+p*dy+0.5),
int(x1+(p-xsize)*dx-ysize*dy+0.5),int(y1+(p-xsize)*dy+ysize*dx+0.5),dest,color);
drawLine(int(x1+p*dx+0.5),int(y1+p*dy+0.5),
int(x1+(p-xsize)*dx+ysize*dy+0.5),int(y1+(p-xsize)*dy-ysize*dx+0.5),dest,color);
}
}
bool createScreen(){
//Check if we are going fullscreen.
if(settings->getBoolValue("fullscreen"))
pickFullscreenResolution();
//Set the screen_width and height.
SCREEN_WIDTH=atoi(settings->getValue("width").c_str());
SCREEN_HEIGHT=atoi(settings->getValue("height").c_str());
//Update the camera.
camera.w=SCREEN_WIDTH;
camera.h=SCREEN_HEIGHT;
//Boolean if this is the first screen creation.
bool initial=true;
//Check if we should use gl or software rendering.
if(settings->getBoolValue("gl")){
#ifdef HARDWARE_ACCELERATION
SDL_GL_SetAttribute(SDL_GL_RED_SIZE,8);
SDL_GL_SetAttribute(SDL_GL_GREEN_SIZE,8);
SDL_GL_SetAttribute(SDL_GL_BLUE_SIZE,8);
SDL_GL_SetAttribute(SDL_GL_ALPHA_SIZE,8);
SDL_GL_SetAttribute(SDL_GL_DEPTH_SIZE,16);
SDL_GL_SetAttribute(SDL_GL_BUFFER_SIZE,32);
SDL_GL_SetAttribute(SDL_GL_ACCUM_RED_SIZE,8);
SDL_GL_SetAttribute(SDL_GL_ACCUM_GREEN_SIZE,8);
SDL_GL_SetAttribute(SDL_GL_ACCUM_BLUE_SIZE,8);
SDL_GL_SetAttribute(SDL_GL_ACCUM_ALPHA_SIZE,8);
SDL_GL_SetAttribute(SDL_GL_MULTISAMPLEBUFFERS,0);
SDL_GL_SetAttribute(SDL_GL_MULTISAMPLESAMPLES,0);
SDL_GL_SetAttribute(SDL_GL_DOUBLEBUFFER,1);
//Set the video mode.
Uint32 flags=SDL_HWSURFACE | SDL_OPENGL;
if(settings->getBoolValue("fullscreen"))
flags|=SDL_FULLSCREEN;
else if(settings->getBoolValue("resizable"))
flags|=SDL_RESIZABLE;
if(SDL_SetVideoMode(SCREEN_WIDTH,SCREEN_HEIGHT,SCREEN_BPP,flags)==NULL){
fprintf(stderr,"FATAL ERROR: SDL_SetVideoMode failed\n");
return false;
}
//Delete the old screen.
//Warning: only if previous mode is OpenGL mode.
//NOTE: The previous mode can't switch during runtime.
if(screen){
SDL_FreeSurface(screen);
screen=NULL;
//There was a screen so this isn't the initial screen creation.
initial=false;
}
//Create a screen
screen=SDL_CreateRGBSurface(SDL_HWSURFACE,SCREEN_WIDTH,SCREEN_HEIGHT,32,0x00FF0000,0x0000FF00,0x000000FF,0);
//Create a texture.
glDeleteTextures(1,&screenTexture);
glGenTextures(1,&screenTexture);
//And set up gl correctly.
glClearColor(0, 0, 0, 0);
glClearDepth(1.0f);
glViewport(0, 0, SCREEN_WIDTH, SCREEN_HEIGHT);
glMatrixMode(GL_PROJECTION);
glLoadIdentity();
glOrtho(0, SCREEN_WIDTH, SCREEN_HEIGHT, 0, 1, -1);
glMatrixMode(GL_MODELVIEW);
glEnable(GL_TEXTURE_2D);
glLoadIdentity();
#else
//NOTE: Hardware accelerated rendering requested but compiled without.
cerr<<"FATAL ERROR: Unable to use hardware acceleration (compiled without)."<<endl;
return false;
#endif
}else{
//Set the flags.
Uint32 flags=SCREEN_FLAGS;
#if !defined(ANDROID)
flags |= SDL_DOUBLEBUF;
#endif
if(settings->getBoolValue("fullscreen"))
flags|=SDL_FULLSCREEN;
else if(settings->getBoolValue("resizable"))
flags|=SDL_RESIZABLE;
//Check if there already was a screen.
if(screen)
initial=false;
//Create the screen and check if there weren't any errors.
screen=SDL_SetVideoMode(SCREEN_WIDTH,SCREEN_HEIGHT,SCREEN_BPP,flags);
if(screen==NULL){
fprintf(stderr,"FATAL ERROR: SDL_SetVideoMode failed\n");
return false;
}
}
//Now configure the newly created window (if windowed).
if(settings->getBoolValue("fullscreen")==false)
configureWindow(initial);
//Create the temp surface, just a replica of the screen surface, free the previous one if any.
if(tempSurface)
SDL_FreeSurface(tempSurface);
tempSurface=SDL_CreateRGBSurface(SCREEN_FLAGS|SDL_SRCALPHA,
screen->w,screen->h,screen->format->BitsPerPixel,
screen->format->Rmask,screen->format->Gmask,screen->format->Bmask,0);
//Set the the window caption.
SDL_WM_SetCaption(("Me and My Shadow "+version).c_str(),NULL);
SDL_EnableUNICODE(1);
//Nothing went wrong so return true.
return true;
}
//Workaround for the resizing below 800x600 for Windows.
#ifdef WIN32
static WNDPROC m_OldWindowProc=NULL;
static LRESULT CALLBACK WindowProc(HWND hwnd, UINT msg, WPARAM wParam, LPARAM lParam){
if(msg==WM_GETMINMAXINFO){
if(m_OldWindowProc){
CallWindowProc(m_OldWindowProc,hwnd,msg,wParam,lParam);
}else{
DefWindowProc(hwnd,msg,wParam,lParam);
}
RECT r={0,0,800,600};
AdjustWindowRect(&r,GetWindowLong(hwnd,GWL_STYLE),FALSE);
MINMAXINFO *info=(MINMAXINFO*)lParam;
info->ptMinTrackSize.x=r.right-r.left;
info->ptMinTrackSize.y=r.bottom-r.top;
return 0;
}else{
if(m_OldWindowProc){
return CallWindowProc(m_OldWindowProc,hwnd,msg,wParam,lParam);
}else{
return DefWindowProc(hwnd,msg,wParam,lParam);
}
}
}
#endif
void pickFullscreenResolution(){
//Vector that will hold the resolutions to choose from.
vector<_res> resolutionList;
//Enumerate available resolutions using SDL_ListModes()
//Note: we enumerate fullscreen resolutions because
// windowed resolutions always can be arbitrary
if(resolutionList.empty()){
SDL_Rect **modes=SDL_ListModes(NULL,SDL_FULLSCREEN|SCREEN_FLAGS|SDL_ANYFORMAT);
if(modes==NULL || ((intptr_t)modes) == -1){
cout<<"Error: Can't enumerate available screen resolutions."
" Use predefined screen resolutions list instead."<<endl;
static const _res predefinedResolutionList[] = {
{800,600},
{1024,600},
{1024,768},
{1152,864},
{1280,720},
{1280,768},
{1280,800},
{1280,960},
{1280,1024},
{1360,768},
{1366,768},
{1440,900},
{1600,900},
{1600,1200},
{1680,1080},
{1920,1080},
{1920,1200},
{2560,1440},
{3840,2160}
};
//Fill the resolutionList.
for(unsigned int i=0;i<sizeof(predefinedResolutionList)/sizeof(_res);i++){
resolutionList.push_back(predefinedResolutionList[i]);
}
}else{
//Fill the resolutionList.
for(unsigned int i=0;modes[i]!=NULL;i++){
//Check if the resolution is higher than the minimum (800x600).
if(modes[i]->w>=800 && modes[i]->h>=600){
_res res={modes[i]->w, modes[i]->h};
resolutionList.push_back(res);
}
}
//Reverse it so that we begin with the lowest resolution.
reverse(resolutionList.begin(),resolutionList.end());
}
}
//The resolution that will hold the final result, we start with the minimum (800x600).
_res closestMatch={800,600};
int width=atoi(getSettings()->getValue("width").c_str());
//int height=atoi(getSettings()->getValue("height").c_str());
//Now loop through the resolutionList.
for(int i=0;i<(int)resolutionList.size();i++){
//The delta between the closestMatch and the resolution from the list.
int dM=(closestMatch.w-resolutionList[i].w);
//The delta between the target width and the resolution from the list.
int dT=(width-resolutionList[i].w);
//Since the resolutions are getting higher the lower (more negative) the further away it is.
//That's why we check if the deltaMatch is lower than the the deltaTarget.
if((dM)<(dT)){
closestMatch.w=resolutionList[i].w;
closestMatch.h=resolutionList[i].h;
}
}
//Now set the resolution to the closest match.
char s[64];
sprintf(s,"%d",closestMatch.w);
getSettings()->setValue("width",s);
sprintf(s,"%d",closestMatch.h);
getSettings()->setValue("height",s);
}
#ifdef __X11_INCLUDED__
int handleXError(Display* disp,XErrorEvent* event){
//NOTE: This is UNTESTED code, there are still some things that should be tested/changed.
//NOTE: It checks against hardcoded opcodes, this should be based on included defines from the xf86vid headers instead.
//NOTE: This code assumes Xlib is in use, just like the resize restriction code for Linux.
//Print out the error message as normal.
char output[256];
XGetErrorText(disp,event->error_code,output,256);
cerr<<output<<endl;
//Check if the game is fullscreen.
if(getSettings()->getBoolValue("fullscreen")){
//Check for the exact error we want to handle differently.
if(event->error_code==BadValue && event->minor_code==10/*X_XF86VidModeSwitchToMode*/){
//The cause of this problem has likely something to do with fullscreen mode, so fallback to windowed.
cerr<<"ERROR: Xlib error code "<<event->error_code<<", request code "<<event->request_code<<"."<<endl;
cerr<<"ERROR: Falling back to windowed mode!"<<endl;
getSettings()->setValue("fullscreen","false");
createScreen();
return 0;
}
}
//Do the normal Xlib behaviour.
exit(1);
return 0;
}
#endif
void configureWindow(bool initial){
//We only need to configure the window if it's resizable.
if(!getSettings()->getBoolValue("resizable"))
return;
//Retrieve the WM info from SDL containing the window handle.
struct SDL_SysWMinfo wmInfo;
SDL_VERSION(&wmInfo.version);
SDL_GetWMInfo(&wmInfo);
#ifdef __X11_INCLUDED__
//We assume that a linux system running meandmyshadow is also running an Xorg server.
if(wmInfo.subsystem==SDL_SYSWM_X11){
//Create the size hints to give to the window.
XSizeHints* sizeHints;
if(!(sizeHints=XAllocSizeHints())){
cerr<<"ERROR: Unable to allocate memory for XSizeHings."<<endl;
return;
}
//Configure the size hint.
sizeHints->flags=PMinSize;
sizeHints->min_width=800;
sizeHints->min_height=600;
//Set the normal hints of the window.
(void)wmInfo.info.x11.lock_func;
XSetNormalHints(wmInfo.info.x11.display,wmInfo.info.x11.wmwindow,sizeHints);
(void)wmInfo.info.x11.unlock_func;
//Free size hint structure
XFree(sizeHints);
}else{
//No X11 so an unsupported window manager.
cerr<<"WARNING: Unsupported window manager."<<endl;
}
#elif defined(WIN32)
//We overwrite the window proc of SDL
WNDPROC wndproc=(WNDPROC)GetWindowLong(wmInfo.window,GWL_WNDPROC);
if(wndproc!=NULL && wndproc!=(WNDPROC)WindowProc){
m_OldWindowProc=wndproc;
SetWindowLong(wmInfo.window,GWL_WNDPROC,(LONG)(WNDPROC)WindowProc);
}
#endif
}
void onVideoResize(){
//Check if the resize event isn't malformed.
if(event.resize.w<=0 || event.resize.h<=0)
return;
//Check the size limit.
if(event.resize.w<800)
event.resize.w=800;
if(event.resize.h<600)
event.resize.h=600;
//Check if it really resizes.
if(SCREEN_WIDTH==event.resize.w && SCREEN_HEIGHT==event.resize.h)
return;
char s[32];
//Set the new width and height.
sprintf(s,"%d",event.resize.w);
getSettings()->setValue("width",s);
sprintf(s,"%d",event.resize.h);
getSettings()->setValue("height",s);
//Do resizing.
if(!createScreen())
return;
//Tell the theme to resize.
if(!loadTheme(""))
return;
//The new resolution is valid.
//Now we can save the settings. (TODO: should we save?)
//saveSettings();
//And let the currentState update it's GUI to the new resolution.
currentState->resize();
}
bool init(){
//Initialze SDL.
if(SDL_Init(SDL_INIT_EVERYTHING)==-1) {
fprintf(stderr,"FATAL ERROR: SDL_Init failed\n");
return false;
}
//Initialze SDL_mixer (audio).
if(Mix_OpenAudio(22050,MIX_DEFAULT_FORMAT,2,512)==-1){
fprintf(stderr,"FATAL ERROR: Mix_OpenAudio failed\n");
return false;
}
//Set the volume.
Mix_Volume(-1,atoi(settings->getValue("sound").c_str()));
//Initialze SDL_ttf (fonts).
if(TTF_Init()==-1){
fprintf(stderr,"FATAL ERROR: TTF_Init failed\n");
return false;
}
#ifdef __X11_INCLUDED__
//Before creating the screen set the XErrorHandler in case of X11.
XSetErrorHandler(handleXError);
#endif
//Create the screen.
if(!createScreen())
return false;
//Load key config. Then initialize joystick support.
inputMgr.loadConfig();
inputMgr.openAllJoysitcks();
//Init tinygettext for translations for the right language
dictionaryManager = new tinygettext::DictionaryManager();
dictionaryManager->add_directory(getDataPath()+"locale");
dictionaryManager->set_charset("UTF-8");
//Check if user have defined own language. If not, find it out for the player using findlocale
string lang=getSettings()->getValue("lang");
if(lang.length()>0){
printf("Locale set by user to %s\n",lang.c_str());
language=lang;
}else{
FL_Locale *locale;
FL_FindLocale(&locale,FL_MESSAGES);
printf("Locale isn't set by user: %s\n",locale->lang);
language=locale->lang;
if(locale->country!=NULL){
language+=string("_")+string(locale->country);
}
if(locale->variant!=NULL){
language+=string("@")+string(locale->variant);
}
FL_FreeLocale(&locale);
}
//Now set the language in the dictionaryManager.
dictionaryManager->set_language(tinygettext::Language::from_name(language));
//Disable annoying 'Couldn't translate: blah blah blah'
tinygettext::Log::set_log_info_callback(NULL);
//Set time format to the user-preference of the system.
setlocale(LC_TIME,"");
//Create the types of blocks.
for(int i=0;i<TYPE_MAX;i++){
Game::blockNameMap[Game::blockName[i]]=i;
}
//Structure that holds the event type/name pair.
struct EventTypeName{
int type;
const char* name;
};
//Create the types of game object event types.
{
const EventTypeName types[]={
{GameObjectEvent_PlayerWalkOn,"playerWalkOn"},
{GameObjectEvent_PlayerIsOn,"playerIsOn"},
{GameObjectEvent_PlayerLeave,"playerLeave"},
{GameObjectEvent_OnCreate,"onCreate"},
{GameObjectEvent_OnEnterFrame,"onEnterFrame"},
{GameObjectEvent_OnToggle,"onToggle"},
{GameObjectEvent_OnSwitchOn,"onSwitchOn"},
{GameObjectEvent_OnSwitchOff,"onSwitchOff"},
{0,NULL}
};
for(int i=0;types[i].name;i++){
Game::gameObjectEventNameMap[types[i].name]=types[i].type;
Game::gameObjectEventTypeMap[types[i].type]=types[i].name;
}
}
//Create the types of level event types.
{
const EventTypeName types[]={
{LevelEvent_OnCreate,"onCreate"},
{LevelEvent_OnSave,"onSave"},
{LevelEvent_OnLoad,"onLoad"},
{LevelEvent_OnReset,"onReset"},
{0,NULL}
};
for(int i=0;types[i].name;i++){
Game::levelEventNameMap[types[i].name]=types[i].type;
Game::levelEventTypeMap[types[i].type]=types[i].name;
}
}
//Register the ScriptAPI's functions in the scriptExecutor.
registerFunctions(getScriptExecutor());
//Nothing went wrong so we return true.
return true;
}
static TTF_Font* loadFont(const char* name,int size){
TTF_Font* tmpFont=TTF_OpenFont((getDataPath()+"font/"+name+".ttf").c_str(),size);
if(tmpFont){
return tmpFont;
}else{
#if defined(ANDROID)
//Android has built-in DroidSansFallback.ttf. (?)
return TTF_OpenFont("/system/fonts/DroidSansFallback.ttf",size);
#else
return TTF_OpenFont((getDataPath()+"font/DroidSansFallback.ttf").c_str(),size);
#endif
}
}
bool loadFonts(){
//Load the fonts.
//NOTE: This is a separate method because it will be called separately when re-initing in case of language change.
//First close the fonts if needed.
if(fontTitle)
TTF_CloseFont(fontTitle);
if(fontGUI)
TTF_CloseFont(fontGUI);
if(fontGUISmall)
TTF_CloseFont(fontGUISmall);
if(fontText)
TTF_CloseFont(fontText);
/// TRANSLATORS: Font used in GUI:
/// - Use "knewave" for languages using Latin and Latin-derived alphabets
/// - "DroidSansFallback" can be used for non-Latin writing systems
fontTitle=loadFont(_("knewave"),55);
fontGUI=loadFont(_("knewave"),32);
fontGUISmall=loadFont(_("knewave"),24);
/// TRANSLATORS: Font used for normal text:
/// - Use "Blokletters-Viltstift" for languages using Latin and Latin-derived alphabets
/// - "DroidSansFallback" can be used for non-Latin writing systems
fontText=loadFont(_("Blokletters-Viltstift"),16);
if(fontTitle==NULL || fontGUI==NULL || fontGUISmall==NULL || fontText==NULL){
printf("ERROR: Unable to load fonts! \n");
return false;
}
//Nothing went wrong so return true.
return true;
}
//Generate small arrows used for some GUI widgets.
static void generateArrows(){
TTF_Font* fontArrow=loadFont(_("knewave"),18);
if(arrowLeft1){
SDL_FreeSurface(arrowLeft1);
SDL_FreeSurface(arrowRight1);
SDL_FreeSurface(arrowLeft2);
SDL_FreeSurface(arrowRight2);
}
arrowLeft1=TTF_RenderUTF8_Blended(fontArrow,"<",themeTextColor);
arrowRight1=TTF_RenderUTF8_Blended(fontArrow,">",themeTextColor);
arrowLeft2=TTF_RenderUTF8_Blended(fontArrow,"<",themeTextColorDialog);
arrowRight2=TTF_RenderUTF8_Blended(fontArrow,">",themeTextColorDialog);
TTF_CloseFont(fontArrow);
}
bool loadTheme(string name){
//Load default fallback theme if it isn't loaded yet
if(objThemes.themeCount()==0){
if(objThemes.appendThemeFromFile(getDataPath()+"themes/Cloudscape/theme.mnmstheme")==NULL){
printf("ERROR: Can't load default theme file\n");
return false;
}
}
//Resize background or load specific theme
bool success=true;
if(name==""||name.empty()){
objThemes.scaleToScreen();
}else{
string theme=processFileName(name);
if(objThemes.appendThemeFromFile(theme+"/theme.mnmstheme")==NULL){
printf("ERROR: Can't load theme %s\n",theme.c_str());
success=false;
}
}
generateArrows();
//Everything went fine so return true.
return success;
}
static Mix_Chunk* loadWAV(const char* s){
Mix_Chunk* c=Mix_LoadWAV(s);
if(c!=NULL) return c;
printf("ERROR: Can't load sound file %s: %s\n",s,SDL_GetError());
return NULL;
}
static SDL_Cursor* loadCursor(const char* image[]){
int i,row,col;
//The array that holds the data (0=white 1=black)
Uint8 data[4*32];
//The array that holds the alpha mask (0=transparent 1=visible)
Uint8 mask[4*32];
//The coordinates of the hotspot of the cursor.
int hotspotX, hotspotY;
i=-1;
//Loop through the rows and columns.
//NOTE: We assume a cursor size of 32x32.
for(row=0;row<32;++row){
for(col=0; col<32;++col){
if(col % 8) {
data[i]<<=1;
mask[i]<<=1;
}else{
++i;
data[i]=mask[i]=0;
}
switch(image[4+row][col]){
case '+':
data[i] |= 0x01;
mask[i] |= 0x01;
break;
case '.':
mask[i] |= 0x01;
break;
default:
break;
}
}
}
//Get the hotspot x and y locations from the last line of the cursor.
sscanf(image[4+row],"%d,%d",&hotspotX,&hotspotY);
return SDL_CreateCursor(data,mask,32,32,hotspotX,hotspotY);
}
bool loadFiles(){
//Load the fonts.
if(!loadFonts())
return false;
fontMono=loadFont("VeraMono",12);
//Show a loading screen
{
SDL_Rect r={0,0,screen->w,screen->h};
SDL_FillRect(screen,&r,0);
SDL_Color fg={255,255,255};
SDL_Surface *surface=TTF_RenderUTF8_Blended(fontTitle,_("Loading..."),fg);
if(surface!=NULL){
r.x=(screen->w-surface->w)/2;
r.y=(screen->h-surface->h)/2;
SDL_BlitSurface(surface,NULL,screen,&r);
SDL_FreeSurface(surface);
}
SDL_Flip(screen);
}
musicManager.destroy();
//Load the music and play it.
if(musicManager.loadMusic((getDataPath()+"music/menu.music")).empty()){
printf("WARNING: Unable to load background music! \n");
}
musicManager.playMusic("menu",false);
//Always load the default music list for fallback.
musicManager.loadMusicList((getDataPath()+"music/default.list"));
//Load the configured music list.
getMusicManager()->loadMusicList((getDataPath()+"music/"+getSettings()->getValue("musiclist")+".list"));
getMusicManager()->setMusicList(getSettings()->getValue("musiclist"));
//Check if music is enabled.
if(getSettings()->getBoolValue("music"))
getMusicManager()->setEnabled();
//Load the sound effects
jumpSound=loadWAV((getDataPath()+"sfx/jump.wav").c_str());
hitSound=loadWAV((getDataPath()+"sfx/hit.wav").c_str());
saveSound=loadWAV((getDataPath()+"sfx/checkpoint.wav").c_str());
swapSound=loadWAV((getDataPath()+"sfx/swap.wav").c_str());
toggleSound=loadWAV((getDataPath()+"sfx/toggle.wav").c_str());
errorSound=loadWAV((getDataPath()+"sfx/error.wav").c_str());
collectSound=loadWAV((getDataPath()+"sfx/collect.wav").c_str());
achievementSound=loadWAV((getDataPath()+"sfx/achievement.ogg").c_str());
//Load the cursor images from the Cursor.h file.
cursors[CURSOR_POINTER]=loadCursor(pointer);
cursors[CURSOR_CARROT]=loadCursor(ibeam);
cursors[CURSOR_DRAG]=loadCursor(closedhand);
cursors[CURSOR_SIZE_HOR]=loadCursor(size_hor);
cursors[CURSOR_SIZE_VER]=loadCursor(size_ver);
cursors[CURSOR_SIZE_FDIAG]=loadCursor(size_fdiag);
cursors[CURSOR_SIZE_BDIAG]=loadCursor(size_bdiag);
cursors[CURSOR_REMOVE]=loadCursor(remove_cursor);
//Set the default cursor right now.
SDL_SetCursor(cursors[CURSOR_POINTER]);
levelPackManager.destroy();
//Now sum up all the levelpacks.
vector<string> v=enumAllDirs(getDataPath()+"levelpacks/");
for(vector<string>::iterator i=v.begin(); i!=v.end(); ++i){
levelPackManager.loadLevelPack(getDataPath()+"levelpacks/"+*i);
}
v=enumAllDirs(getUserPath(USER_DATA)+"levelpacks/");
for(vector<string>::iterator i=v.begin(); i!=v.end(); ++i){
levelPackManager.loadLevelPack(getUserPath(USER_DATA)+"levelpacks/"+*i);
}
v=enumAllDirs(getUserPath(USER_DATA)+"custom/levelpacks/");
for(vector<string>::iterator i=v.begin(); i!=v.end(); ++i){
levelPackManager.loadLevelPack(getUserPath(USER_DATA)+"custom/levelpacks/"+*i);
}
//Now we add a special levelpack that will contain the levels not in a levelpack.
LevelPack* levelsPack=new LevelPack;
levelsPack->levelpackName="Levels";
- levelsPack->levelpackPath="Levels";
+ levelsPack->levelpackPath="Levels/";
//NOTE: Set the type of 'levels' to main so it won't be added to the custom packs, even though it contains non-main levels.
- levelsPack->type=MAIN;
+ levelsPack->type=COLLECTION;
LevelPack* customLevelsPack=new LevelPack;
customLevelsPack->levelpackName="Custom Levels";
- customLevelsPack->levelpackPath="Custom Levels";
+ customLevelsPack->levelpackPath="Custom Levels/";
+ customLevelsPack->type=COLLECTION;
//List the addon levels and add them one for one.
v=enumAllFiles(getUserPath(USER_DATA)+"levels/");
for(vector<string>::iterator i=v.begin(); i!=v.end(); ++i){
levelsPack->addLevel(getUserPath(USER_DATA)+"levels/"+*i);
levelsPack->setLocked(levelsPack->getLevelCount()-1);
}
//List the custom levels and add them one for one.
v=enumAllFiles(getUserPath(USER_DATA)+"custom/levels/");
for(vector<string>::iterator i=v.begin(); i!=v.end(); ++i){
levelsPack->addLevel(getUserPath(USER_DATA)+"custom/levels/"+*i);
levelsPack->setLocked(levelsPack->getLevelCount()-1);
customLevelsPack->addLevel(getUserPath(USER_DATA)+"custom/levels/"+*i);
customLevelsPack->setLocked(customLevelsPack->getLevelCount()-1);
}
//Add them to the manager.
levelPackManager.addLevelPack(levelsPack);
levelPackManager.addLevelPack(customLevelsPack);
//Load statistics
statsMgr.loadPicture();
statsMgr.registerAchievements();
statsMgr.loadFile(getUserPath(USER_CONFIG)+"statistics");
//Do something ugly and slow
statsMgr.reloadCompletedLevelsAndAchievements();
statsMgr.reloadOtherAchievements();
//Load the theme, both menu and default.
//NOTE: Loading theme may fail and returning false would stop everything, default theme will be used instead.
if (!loadTheme(getSettings()->getValue("theme"))){
getSettings()->setValue("theme","%DATA%/themes/Cloudscape");
saveSettings();
}
//Nothing failed so return true.
return true;
}
bool loadSettings(){
settings=new Settings(getUserPath(USER_CONFIG)+"meandmyshadow.cfg");
settings->parseFile();
//Now apply settings changed through command line arguments, if any.
map<string,string>::iterator it;
for(it=tmpSettings.begin();it!=tmpSettings.end();++it){
settings->setValue(it->first,it->second);
}
tmpSettings.clear();
//Always return true?
return true;
}
bool saveSettings(){
settings->save();
//Always return true?
return true;
}
Settings* getSettings(){
return settings;
}
MusicManager* getMusicManager(){
return &musicManager;
}
LevelPackManager* getLevelPackManager(){
return &levelPackManager;
}
ScriptExecutor* getScriptExecutor(){
return &scriptExecutor;
}
void flipScreen(){
if(settings->getBoolValue("gl")){
#ifdef HARDWARE_ACCELERATION
glClear(GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT);
glLoadIdentity();
//Create a texture from the screen surface.
glBindTexture(GL_TEXTURE_2D,screenTexture);
//Set the texture's stretching properties
glTexParameteri(GL_TEXTURE_2D,GL_TEXTURE_MIN_FILTER,GL_LINEAR);
glTexParameteri(GL_TEXTURE_2D,GL_TEXTURE_MAG_FILTER,GL_LINEAR);
glTexImage2D(GL_TEXTURE_2D,0,screen->format->BytesPerPixel,screen->w,screen->h,0,GL_BGRA,GL_UNSIGNED_BYTE,screen->pixels);
glBegin(GL_QUADS);
glTexCoord2i(0,0); glVertex3f(0,0,0);
glTexCoord2i(1,0); glVertex3f(SCREEN_WIDTH,0,0);
glTexCoord2i(1,1); glVertex3f(SCREEN_WIDTH,SCREEN_HEIGHT,0);
glTexCoord2i(0,1); glVertex3f(0,SCREEN_HEIGHT,0);
glEnd();
SDL_GL_SwapBuffers();
#else
//NOTE: Trying to flip the screen using gl while compiled without.
cerr<<"FATAL ERROR: Unable to draw to screen using OpenGL (compiled without)."<<endl;
#endif
}else{
SDL_Flip(screen);
}
}
void clean(){
//Save statistics
statsMgr.saveFile(getUserPath(USER_CONFIG)+"statistics");
//We delete the settings.
if(settings){
delete settings;
settings=NULL;
}
//Delete dictionaryManager.
delete dictionaryManager;
//Get rid of the currentstate.
//NOTE: The state is probably already deleted by the changeState function.
if(currentState)
delete currentState;
//Destroy the GUI if present.
if(GUIObjectRoot){
delete GUIObjectRoot;
GUIObjectRoot=NULL;
}
//Destroy the imageManager.
imageManager.destroy();
//Destroy the musicManager.
musicManager.destroy();
//Destroy all sounds
Mix_FreeChunk(jumpSound);
Mix_FreeChunk(hitSound);
Mix_FreeChunk(saveSound);
Mix_FreeChunk(swapSound);
Mix_FreeChunk(toggleSound);
Mix_FreeChunk(errorSound);
Mix_FreeChunk(collectSound);
Mix_FreeChunk(achievementSound);
//Destroy the cursors.
for(int i=0;i<CURSOR_MAX;i++){
SDL_FreeCursor(cursors[i]);
cursors[i]=NULL;
}
//Destroy the levelPackManager.
levelPackManager.destroy();
levels=NULL;
//Close all joysticks.
inputMgr.closeAllJoysticks();
//Close the fonts and quit SDL_ttf.
TTF_CloseFont(fontTitle);
TTF_CloseFont(fontGUI);
TTF_CloseFont(fontGUISmall);
TTF_CloseFont(fontText);
TTF_CloseFont(fontMono);
TTF_Quit();
//Remove the temp surface.
SDL_FreeSurface(tempSurface);
//Stop audio.and quit
Mix_CloseAudio();
#ifndef __APPLE__
Mix_Quit();
#endif
//And finally quit SDL.
SDL_Quit();
}
void setNextState(int newstate){
//Only change the state when we aren't already exiting.
if(nextState!=STATE_EXIT){
nextState=newstate;
}
}
void changeState(){
//Check if there's a nextState.
if(nextState!=STATE_NULL){
//Delete the currentState.
delete currentState;
currentState=NULL;
//Set the currentState to the nextState.
stateID=nextState;
nextState=STATE_NULL;
//Init the state.
switch(stateID){
case STATE_GAME:
{
currentState=NULL;
Game* game=new Game();
currentState=game;
//Check if we should load record file or a level.
if(!Game::recordFile.empty()){
game->loadRecord(Game::recordFile.c_str());
Game::recordFile.clear();
}else{
- game->loadLevel(levels->getLevelpackPath()+levels->getLevelFile());
+ game->loadLevel(levels->getLevelFile());
levels->saveLevelProgress();
}
}
break;
case STATE_MENU:
currentState=new Menu();
break;
case STATE_LEVEL_SELECT:
currentState=new LevelPlaySelect();
break;
case STATE_LEVEL_EDIT_SELECT:
currentState=new LevelEditSelect();
break;
case STATE_LEVEL_EDITOR:
{
currentState=NULL;
LevelEditor* levelEditor=new LevelEditor();
currentState=levelEditor;
//Load the selected level.
- levelEditor->loadLevel(levels->getLevelpackPath()+levels->getLevelFile());
+ levelEditor->loadLevel(levels->getLevelFile());
}
break;
case STATE_OPTIONS:
currentState=new Options();
break;
case STATE_ADDONS:
currentState=new Addons();
break;
case STATE_CREDITS:
currentState=new Credits();
break;
case STATE_STATISTICS:
currentState=new StatisticsScreen();
break;
}
//NOTE: STATE_EXIT isn't mentioned, meaning that currentState is null.
//This way the game loop will break and the program will exit.
//Fade out, if fading is enabled.
int fade=0;
if(settings->getBoolValue("fading"))
fade=255;
SDL_BlitSurface(screen,NULL,tempSurface,NULL);
while(fade>0){
fade-=17;
if(fade<0)
fade=0;
SDL_FillRect(screen,NULL,0);
SDL_SetAlpha(tempSurface, SDL_SRCALPHA, fade);
SDL_BlitSurface(tempSurface,NULL,screen,NULL);
flipScreen();
SDL_Delay(25);
}
}
}
void musicStoppedHook(){
//We just call the musicStopped method of the MusicManager.
musicManager.musicStopped();
}
bool checkCollision(const SDL_Rect& a,const SDL_Rect& b){
//Check if the left side of box a isn't past the right side of b.
if(a.x>=b.x+b.w){
return false;
}
//Check if the right side of box a isn't left of the left side of b.
if(a.x+a.w<=b.x){
return false;
}
//Check if the top side of box a isn't under the bottom side of b.
if(a.y>=b.y+b.h){
return false;
}
//Check if the bottom side of box a isn't above the top side of b.
if(a.y+a.h<=b.y){
return false;
}
//We have collision.
return true;
}
void setCamera(const SDL_Rect* r,int count){
//SetCamera only works in the Level editor and when mouse is inside window.
if(stateID==STATE_LEVEL_EDITOR&&(SDL_GetAppState()&SDL_APPMOUSEFOCUS)){
//Get the mouse coordinates.
int x,y;
SDL_GetMouseState(&x,&y);
SDL_Rect mouse={x,y,0,0};
//Don't continue here if mouse is inside one of the boxes given as parameter.
for(int i=0;i<count;i++){
if(checkCollision(mouse,r[i]))
return;
}
//Check if the mouse is near the left edge of the screen.
//Else check if the mouse is near the right edge.
if(x<50){
//We're near the left edge so move the camera.
camera.x-=5;
}else if(x>SCREEN_WIDTH-50){
//We're near the right edge so move the camera.
camera.x+=5;
}
//Check if the mouse is near the top edge of the screen.
//Else check if the mouse is near the bottom edge.
if(y<50){
//We're near the top edge so move the camera.
camera.y-=5;
}else if(y>SCREEN_HEIGHT-50){
//We're near the bottom edge so move the camera.
camera.y+=5;
}
}
}
int parseArguments(int argc, char** argv){
//Loop through all arguments.
//We start at one since 0 is the command itself.
for(int i=1;i<argc;i++){
string argument=argv[i];
//Check if the argument is the data-dir.
if(argument=="--data-dir"){
//We need a second argument so we increase i.
i++;
if(i>=argc){
printf("ERROR: Missing argument for command '%s'\n\n",argument.c_str());
return -1;
}
//Configure the dataPath with the given path.
dataPath=argv[i];
if(!getDataPath().empty()){
char c=dataPath[dataPath.size()-1];
if(c!='/'&&c!='\\') dataPath+="/";
}
}else if(argument=="--user-dir"){
//We need a second argument so we increase i.
i++;
if(i>=argc){
printf("ERROR: Missing argument for command '%s'\n\n",argument.c_str());
return -1;
}
//Configure the userPath with the given path.
userPath=argv[i];
if(!userPath.empty()){
char c=userPath[userPath.size()-1];
if(c!='/'&&c!='\\') userPath+="/";
}
}else if(argument=="-f" || argument=="-fullscreen" || argument=="--fullscreen"){
tmpSettings["fullscreen"]="1";
}else if(argument=="-w" || argument=="-windowed" || argument=="--windowed"){
tmpSettings["fullscreen"]="0";
}else if(argument=="-mv" || argument=="-music" || argument=="--music"){
//We need a second argument so we increase i.
i++;
if(i>=argc){
printf("ERROR: Missing argument for command '%s'\n\n",argument.c_str());
return -1;
}
//Now set the music volume.
tmpSettings["music"]=argv[i];
}else if(argument=="-sv" || argument=="-sound" || argument=="--sound"){
//We need a second argument so we increase i.
i++;
if(i>=argc){
printf("ERROR: Missing argument for command '%s'\n\n",argument.c_str());
return -1;
}
//Now set sound volume.
tmpSettings["sound"]=argv[i];
}else if(argument=="-set" || argument=="--set"){
//We need a second and a third argument so we increase i.
i+=2;
if(i>=argc){
printf("ERROR: Missing argument for command '%s'\n\n",argument.c_str());
return -1;
}
//And set the setting.
tmpSettings[argv[i-1]]=argv[i];
}else if(argument=="-v" || argument=="-version" || argument=="--version"){
//Print the version.
printf("%s\n",version.c_str());
return 0;
}else if(argument=="-h" || argument=="-help" || argument=="--help"){
//If the help is requested we'll return false without printing an error.
//This way the usage/help text will be printed.
return -1;
}else{
//Any other argument is unknow so we return false.
printf("ERROR: Unknown argument %s\n\n",argument.c_str());
return -1;
}
}
//If everything went well we can return true.
return 1;
}
//Special structure that will recieve the GUIEventCallbacks of the messagebox.
struct msgBoxHandler:public GUIEventCallback{
public:
//Integer containing the ret(urn) value of the messageBox.
int ret;
public:
//Constructor.
msgBoxHandler():ret(0){}
void GUIEventCallback_OnEvent(std::string name,GUIObject* obj,int eventType){
//Make sure it's a click event.
if(eventType==GUIEventClick){
//Set the return value.
ret=obj->value;
//After a click event we can delete the GUI.
if(GUIObjectRoot){
delete GUIObjectRoot;
GUIObjectRoot=NULL;
}
}
}
};
msgBoxResult msgBox(string prompt,msgBoxButtons buttons,const string& title){
//Create the event handler.
msgBoxHandler objHandler;
//The GUI objects.
GUIObject* obj;
//Create the GUIObjectRoot, the height and y location is temp.
//It depends on the content what it will be.
GUIObject* root=new GUIFrame((SCREEN_WIDTH-600)/2,200,600,200,title.c_str());
//Integer containing the current y location used to grow dynamic depending on the content.
int y=50;
//Now process the prompt.
{
//Pointer to the string.
char* lps=(char*)prompt.c_str();
//Pointer to a character.
char* lp=NULL;
//We keep looping forever.
//The only way out is with the break statement.
for(;;){
//As long as it's still the same sentence we continue.
//It will stop when there's a newline or end of line.
for(lp=lps;*lp!='\n'&&*lp!='\r'&&*lp!=0;lp++);
//Store the character we stopped on. (End or newline)
char c=*lp;
//Set the character in the string to 0, making lps a string containing one sentence.
*lp=0;
//Add a GUIObjectLabel with the sentence.
root->addChild(new GUILabel(0,y,root->width,25,lps,0,true,true,GUIGravityCenter));
//Increase y with 25, about the height of the text.
y+=25;
//Check the stored character if it was a stop.
if(c==0){
//It was so break out of the for loop.
lps=lp;
break;
}
//It wasn't meaning more will follow.
//We set lps to point after the "newline" forming a new string.
lps=lp+1;
}
}
//Add 70 to y to leave some space between the content and the buttons.
y+=70;
//Recalc the size of the message box.
root->top=(SCREEN_HEIGHT-y)/2;
root->height=y;
//Now we need to add the buttons.
//Integer containing the number of buttons to add.
int count=0;
//Array with the return codes for the buttons.
int value[3]={0};
//Array containing the captation for the buttons.
string button[3]={"","",""};
switch(buttons){
case MsgBoxOKCancel:
count=2;
button[0]=_("OK");value[0]=MsgBoxOK;
button[1]=_("Cancel");value[1]=MsgBoxCancel;
break;
case MsgBoxAbortRetryIgnore:
count=3;
button[0]=_("Abort");value[0]=MsgBoxAbort;
button[1]=_("Retry");value[1]=MsgBoxRetry;
button[2]=_("Ignore");value[2]=MsgBoxIgnore;
break;
case MsgBoxYesNoCancel:
count=3;
button[0]=_("Yes");value[0]=MsgBoxYes;
button[1]=_("No");value[1]=MsgBoxNo;
button[2]=_("Cancel");value[2]=MsgBoxCancel;
break;
case MsgBoxYesNo:
count=2;
button[0]=_("Yes");value[0]=MsgBoxYes;
button[1]=_("No");value[1]=MsgBoxNo;
break;
case MsgBoxRetryCancel:
count=2;
button[0]=_("Retry");value[0]=MsgBoxRetry;
button[1]=_("Cancel");value[1]=MsgBoxCancel;
break;
default:
count=1;
button[0]=_("OK");value[0]=MsgBoxOK;
break;
}
//Now we start making the buttons.
{
//Reduce y so that the buttons fit inside the frame.
y-=40;
double places[3]={0.0};
if(count==1){
places[0]=0.5;
}else if(count==2){
places[0]=0.4;
places[1]=0.6;
}else if(count==3){
places[0]=0.3;
places[1]=0.5;
places[2]=0.7;
}
//Loop to add the buttons.
for(int i=0;i<count;i++){
obj=new GUIButton(root->width*places[i],y,-1,36,button[i].c_str(),value[i],true,true,GUIGravityCenter);
obj->eventCallback=&objHandler;
root->addChild(obj);
}
}
//Now we dim the screen and keep the GUI rendering/updating.
GUIOverlay* overlay=new GUIOverlay(root);
overlay->enterLoop(true);
//And return the result.
return (msgBoxResult)objHandler.ret;
}
struct fileDialogHandler:public GUIEventCallback{
public:
//The ret(urn) value, true=ok and false=cancel
bool ret;
//Boolean if it's a save dialog.
bool isSave;
//Boolean if the file should be verified.
bool verifyFile;
//Boolean if files should be listed instead of directories.
bool files;
//Pointer to the textfield containing the filename.
GUIObject* txtName;
//Pointer to the listbox containing the different files.
GUIListBox* lstFile;
//The extension the files listed should have.
const char* extension;
//The current filename.
string fileName;
//The current search path.
string path;
//Vector containing the search paths.
vector<string> searchPath;
public:
//Constructor.
fileDialogHandler(bool isSave=false,bool verifyFile=false, bool files=true):ret(false),
isSave(isSave),verifyFile(verifyFile),
files(files),txtName(NULL),lstFile(NULL),extension(NULL){}
void GUIEventCallback_OnEvent(std::string name,GUIObject* obj,int eventType){
//Check for the ok event.
if(name=="cmdOK"){
//Get the entered fileName from the text field.
std::string s=txtName->caption;
//If it doesn't contain a slash we need to add the path to the fileName.
if(s.find_first_of("/")==string::npos)
s=path+s;
//If the string empty we return.
if(s.empty() || s.find_first_of("*?")!=string::npos)
return;
//We only need to check for extensions if it isn't a folder dialog.
if(files){
//If there isn't right extension add it.
size_t found=s.find_first_of(".");
if(found!=string::npos)
s.replace(s.begin()+found+1,s.end(),extension);
else if (s.substr(found+1)!=extension)
s.append(string(".")+extension);
}
//Check if we should save or load the file.
//
if(isSave){
//Open the file with read permission to check if it already exists.
FILE* f;
f=fopen(processFileName(s).c_str(),"rb");
//Check if it exists.
if(f){
//Close the file.
fclose(f);
//Let the currentState render once to prevent multiple GUI overlapping and prevent the screen from going black.
currentState->render();
//Prompt the user with a Yes or No question.
/// TRANSLATORS: Filename is coming before this text
if(msgBox(tfm::format(_("%s already exists.\nDo you want to overwrite it?"),s),MsgBoxYesNo,_("Overwrite Prompt"))!=MsgBoxYes){
//He answered no, so we return.
return;
}
}
//Check if we should verify the file.
//Verifying only applies to files not to directories.
if(verifyFile && files){
//Open the file with write permission.
f=fopen(processFileName(s).c_str(),"wb");
//Check if their aren't problems.
if(f){
//Close the file.
fclose(f);
}else{
//Let the currentState render once to prevent multiple GUI overlapping and prevent the screen from going black.
currentState->render();
//The file can't be opened so tell the user.
msgBox(tfm::format(_("Can't open file %s."),s),MsgBoxOKOnly,_("Error"));
return;
}
}
}else if(verifyFile && files){
//We need to verify a file for opening.
FILE *f;
f=fopen(processFileName(s).c_str(),"rb");
//Check if it didn't fail.
if(f){
//Succes, so close the file.
fclose(f);
}else{
//Let the currentState render once to prevent multiple GUI overlapping and prevent the screen from going black.
currentState->render();
//Unable to open file so tell the user.
msgBox(tfm::format(_("Can't open file %s."),s),MsgBoxOKOnly,_("Error"));
return;
}
}
//If we haven't returned then it's fine.
//Set the fileName to the chosen file.
fileName=s;
//Delete the GUI.
if(GUIObjectRoot){
delete GUIObjectRoot;
GUIObjectRoot=NULL;
}
//Set return to true.
ret=true;
}else if(name=="cmdCancel"){
//Cancel means we can kill the gui.
if(GUIObjectRoot){
delete GUIObjectRoot;
GUIObjectRoot=NULL;
}
}else if(name=="lstFile"){
//Get a pointer to the listbox.
GUIListBox* obj1=lstFile;
//Make sure the option exist and change textfield to it.
if(obj1!=NULL && txtName!=NULL && obj1->value>=0 && obj1->value<(int)obj1->item.size()){
txtName->caption=obj1->item[obj1->value];
}
}else if(name=="lstSearchIn"){
//Get the searchpath listbox.
GUISingleLineListBox *obj1=dynamic_cast<GUISingleLineListBox*>(obj);
//Check if the entry exists.
if(obj1!=NULL && lstFile!=NULL && obj1->value>=0 && obj1->value<(int)searchPath.size()){
//Temp string.
string s;
//Get the new search path.
path=searchPath[obj1->value];
//Make sure it isn't empty.
if(!path.empty()){
//Process the filename.
s=processFileName(path);
}else{
//It's empty so we give the userpath.
s=getUserPath();
}
//Fill the list with files or directories.
if(files) {
lstFile->item=enumAllFiles(s,extension);
}else
lstFile->item=enumAllDirs(s);
//Remove any selection from the list.
lstFile->value=-1;
}
}
}
};
bool fileDialog(string& fileName,const char* title,const char* extension,const char* path,bool isSave,bool verifyFile,bool files){
//Pointer to GUIObject to make the GUI with.
GUIObject* obj;
//Create the fileDialogHandler, used for event handling.
fileDialogHandler objHandler(isSave,verifyFile,files);
//Vector containing the pathNames.
vector<string> pathNames;
//Set the extension of the objHandler.
objHandler.extension=extension;
//We now need to splits the given path into multiple path names.
if(path && path[0]){
//The string isn't empty.
//Pointer to the paths string.
char* lp=(char*)path;
//Pointer to the first newline.
char* lps=strchr(lp,'\n');
//Pointer used for checking if their's another newline.
//It will indicate if it's the last set or not.
char* lpe;
//Check for a newline.
if(lps){
//We have newline(s) so loop forever.
//We can only break out of the loop when the string ends.
for(;;){
//Add the first searchpath.
//This is the beginning of the string (lp) to the first newline. (lps)
objHandler.searchPath.push_back(string(lp,lps-lp));
//We should have another newline so search for it.
lpe=strchr(lps+1,'\n');
if(lpe){
//We found it so we add that to the pathname.
pathNames.push_back(string(lps+1,lpe-lps-1));
//And start over again by setting lp to the start of a new set of searchPath/pathName.
lp=lpe+1;
}else{
//There is no newline anymore, meaning the last entry, the rest of the string must be the pathName.
pathNames.push_back(string(lps+1));
//And break out of the loop.
break;
}
//We haven't broken out so search for a newline.
lps=strchr(lp,'\n');
//If there isn't a newline break.
if(!lps)
break;
}
}else{
//There is no newline thus the whole string is the searchPath.
objHandler.searchPath.push_back(path);
}
}else{
//Empty so put an empty string as searchPath.
objHandler.searchPath.push_back(string());
}
//It's time to create the GUI.
//If there are more than one pathNames we need to add a GUISingleLineListBox.
int base_y=pathNames.empty()?20:60;
//Create the frame.
GUIObject* root=new GUIFrame(100,100-base_y/2,600,400+base_y,title?title:(isSave?_("Save File"):_("Load File")));
//Create the search path list box if needed.
if(!pathNames.empty()){
root->addChild(new GUILabel(8,40,184,36,_("Search In")));
GUISingleLineListBox* obj1=new GUISingleLineListBox(160,40,432,36);
obj1->addItems(pathNames);
obj1->value=0;
obj1->name="lstSearchIn";
obj1->eventCallback=&objHandler;
root->addChild(obj1);
}
//Add the FileName label and textfield.
root->addChild(new GUILabel(8,20+base_y,184,36,_("File Name")));
{
//Fill the textbox with the given fileName.
string s=fileName;
if(!isSave){
//But only if it isn't empty.
if(s.empty() && extension && extension[0])
s=string("*.")+string(extension);
}
//Create the textbox and add it to the GUI.
objHandler.txtName=new GUITextBox(160,20+base_y,432,36,s.c_str());
root->addChild(objHandler.txtName);
}
//Now we add the ListBox containing the files or directories.
{
GUIListBox* obj1=new GUIListBox(8,60+base_y,584,292);
//Get the searchPath.
string s=objHandler.searchPath[0];
//Make sure it isn't empty.
if(!s.empty()){
objHandler.path=s;
s=processFileName(s);
}else{
s=getUserPath();
}
//Check if we should list files or directories.
if(files){
//Fill the list with files.
obj1->item=enumAllFiles(s,extension);
}else{
//Fill the list with directories.
obj1->item=enumAllDirs(s);
}
obj1->name="lstFile";
obj1->eventCallback=&objHandler;
root->addChild(obj1);
objHandler.lstFile=obj1;
}
//Now create the OK and Cancel buttons.
obj=new GUIButton(200,360+base_y,192,36,_("OK"));
obj->name="cmdOK";
obj->eventCallback=&objHandler;
root->addChild(obj);
obj=new GUIButton(400,360+base_y,192,36,_("Cancel"));
obj->name="cmdCancel";
obj->eventCallback=&objHandler;
root->addChild(obj);
//Create the gui overlay.
GUIOverlay* overlay=new GUIOverlay(root);
overlay->enterLoop();
//Now determine what the return value is (and if there is one).
if(objHandler.ret)
fileName=objHandler.fileName;
return objHandler.ret;
}
diff --git a/src/LevelPack.cpp b/src/LevelPack.cpp
index 2584b90..ae07280 100644
--- a/src/LevelPack.cpp
+++ b/src/LevelPack.cpp
@@ -1,568 +1,595 @@
/*
* 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 "LevelPack.h"
#include "Functions.h"
#include "FileManager.h"
#include "TreeStorageNode.h"
#include "POASerializer.h"
#include "MD5.h"
#include <string>
#include <vector>
#include <fstream>
#include <algorithm>
#include <iostream>
using namespace std;
LevelPack::LevelPack():currentLevel(0),loaded(false),levels(),customTheme(false){
//We need to set the pointer to the dictionaryManager to NULL.
dictionaryManager=NULL;
//The type of levelpack is determined in the loadLevels method, but 'fallback' is CUSTOM.
type=CUSTOM;
-
}
LevelPack::~LevelPack(){
//We call clear, since that already takes care of the deletion, including the dictionaryManager.
clear();
}
void LevelPack::clear(){
currentLevel=0;
loaded=false;
levels.clear();
levelpackDescription.clear();
levelpackPath.clear();
levelProgressFile.clear();
congratulationText.clear();
//Also delete the dictionaryManager if it isn't null.
if(dictionaryManager){
delete dictionaryManager;
dictionaryManager=NULL;
}
}
bool LevelPack::loadLevels(const std::string& levelListFile){
//We're going to load a new levellist so first clean any existing levels.
clear();
//If the levelListFile is empty we have nothing to load so we return false.
if(levelListFile.empty()){
cerr<<"ERROR: No levellist file given."<<endl;
return false;
}
//Determine the levelpack type.
if(levelListFile.find(getDataPath())==0){
type=MAIN;
}else if(levelListFile.find(getUserPath(USER_DATA)+"levelpacks/")==0){
type=ADDON;
}else{
type=CUSTOM;
}
//Process the levelListFile, create a new string since lecelListFile is constant.
string levelListNew=levelListFile;
levelpackPath=pathFromFileName(levelListNew);
//Create two input streams, one for the levellist file and one for the levelprogress.
ifstream level(levelListNew.c_str());
if(!level){
cerr<<"ERROR: Can't load level list "<<levelListNew<<endl;
return false;
}
//Load the level list file.
TreeStorageNode obj;
{
POASerializer objSerializer;
if(!objSerializer.readNode(level,&obj,true)){
cerr<<"ERROR: Invalid file format of level list "<<levelListNew<<endl;
return false;
}
}
//Check for folders inside the levelpack folder.
{
//Get all the sub directories.
vector<string> v;
v=enumAllDirs(pathFromFileName(levelListNew),false);
//Check if there's a locale folder containing translations.
if(std::find(v.begin(),v.end(),"locale")!=v.end()){
//Folder is present so configure the levelDictionaryManager.
dictionaryManager=new tinygettext::DictionaryManager();
dictionaryManager->add_directory(pathFromFileName(levelListNew)+"locale/");
dictionaryManager->set_charset("UTF-8");
dictionaryManager->set_language(tinygettext::Language::from_name(language));
}else{
dictionaryManager=NULL;
}
//Check for a theme folder.
if(std::find(v.begin(),v.end(),"theme")!=v.end()){
customTheme=true;
}
}
//Look for the name.
{
vector<string> &v=obj.attributes["name"];
if(!v.empty()){
levelpackName=v[0];
}else{
//Name is not defined so take the folder name.
levelpackName=pathFromFileName(levelListFile);
//Remove the last character '/'
levelpackName=levelpackName.substr(0,levelpackName.size()-1);
levelpackName=fileNameFromPath(levelpackName);
}
}
//Look for the description.
{
vector<string> &v=obj.attributes["description"];
if(!v.empty())
levelpackDescription=v[0];
}
//Look for the congratulation text.
{
vector<string> &v=obj.attributes["congratulations"];
if(!v.empty())
congratulationText=v[0];
}
//Loop through the level list entries.
for(unsigned int i=0;i<obj.subNodes.size();i++){
TreeStorageNode* obj1=obj.subNodes[i];
if(obj1==NULL)
continue;
if(!obj1->value.empty() && obj1->name=="levelfile"){
Level level;
level.file=obj1->value[0];
level.targetTime=0;
level.targetRecordings=0;
-
+
+ //The path to the file to open.
+ string levelFile;
+ if(type!=COLLECTION)
+ levelFile=levelpackPath+level.file;
+ else
+ levelFile=level.file;
+
//Open the level file to retrieve the name and target time/recordings.
TreeStorageNode obj;
POASerializer objSerializer;
- if(objSerializer.loadNodeFromFile((levelpackPath+level.file).c_str(),&obj,true)){
+ if(objSerializer.loadNodeFromFile(levelFile.c_str(),&obj,true)){
//Calc the MD5 FIRST because query obj.attributes will modify internal structure.
obj.name.clear();
obj.calcMD5(level.md5Digest);
//Get the name of the level.
vector<string>& v=obj.attributes["name"];
if(!v.empty())
level.name=v[0];
//If the name is empty then we set it to the file name.
if(level.name.empty())
level.name=fileNameFromPath(level.file);
//Get the target time of the level.
v=obj.attributes["time"];
if(!v.empty())
level.targetTime=atoi(v[0].c_str());
else
level.targetTime=-1;
//Get the target recordings of the level.
v=obj.attributes["recordings"];
if(!v.empty())
level.targetRecordings=atoi(v[0].c_str());
else
level.targetRecordings=-1;
}
//The default for locked is true, unless it's the first one.
level.locked=!levels.empty();
level.won=false;
level.time=-1;
level.recordings=-1;
//Add the level to the levels.
levels.push_back(level);
}
}
loaded=true;
return true;
}
void LevelPack::loadProgress(){
//Make sure that a levelProgressFile is set.
if(levelProgressFile.empty()){
levelProgressFile=getLevelProgressPath();
}
//Open the file.
ifstream levelProgress;
levelProgress.open(processFileName(this->levelProgressFile).c_str());
//Check if the file exists.
if(levelProgress){
//Now load the progress/statistics.
TreeStorageNode obj;
{
POASerializer objSerializer;
if(!objSerializer.readNode(levelProgress,&obj,true)){
cerr<<"ERROR: Invalid file format of level progress file."<<endl;
}
}
//Loop through the entries.
for(unsigned int i=0;i<obj.subNodes.size();i++){
TreeStorageNode* obj1=obj.subNodes[i];
if(obj1==NULL)
continue;
if(!obj1->value.empty() && obj1->name=="level"){
//We've found an entry for a level, now search the correct level.
Level* level=NULL;
for(unsigned int o=0;o<levels.size();o++){
if(obj1->value[0]==levels[o].file){
level=&levels[o];
break;
}
}
//Check if we found the level.
if(!level)
continue;
//Get the progress/statistics.
for(map<string,vector<string> >::iterator i=obj1->attributes.begin();i!=obj1->attributes.end();++i){
if(i->first=="locked"){
level->locked=(i->second[0]=="1");
}
if(i->first=="won"){
level->won=(i->second[0]=="1");
}
if(i->first=="time"){
level->time=(atoi(i->second[0].c_str()));
}
if(i->first=="recordings"){
level->recordings=(atoi(i->second[0].c_str()));
}
}
}
}
}
}
void LevelPack::saveLevels(const std::string& levelListFile){
//Get the fileName.
string levelListNew=processFileName(levelListFile);
//Open an output stream.
ofstream level(levelListNew.c_str());
//Check if we can use the file.
if(!level){
cerr<<"ERROR: Can't save level list "<<levelListNew<<endl;
return;
}
//Storage node that will contain the data that should be written.
TreeStorageNode obj;
+ //Also store the name of the levelpack.
+ if(!levelpackName.empty())
+ obj.attributes["name"].push_back(levelpackName);
+
//Make sure that there's a description.
if(!levelpackDescription.empty())
obj.attributes["description"].push_back(levelpackDescription);
//Make sure that there's a congratulation text.
if(!congratulationText.empty())
obj.attributes["congratulations"].push_back(congratulationText);
//Add the levels to the file.
for(unsigned int i=0;i<levels.size();i++){
TreeStorageNode* obj1=new TreeStorageNode;
obj1->name="levelfile";
obj1->value.push_back(fileNameFromPath(levels[i].file));
obj1->value.push_back(levels[i].name);
obj.subNodes.push_back(obj1);
}
//Write the it away.
POASerializer objSerializer;
objSerializer.writeNode(&obj,level,false,true);
}
void LevelPack::updateLanguage(){
if(dictionaryManager!=NULL)
dictionaryManager->set_language(tinygettext::Language::from_name(language));
}
void LevelPack::addLevel(const string& levelFileName,int levelno){
//Fill in the details.
Level level;
- if(!levelpackPath.empty() && levelFileName.compare(0,levelpackPath.length(),levelpackPath)==0){
+ if(type!=COLLECTION && !levelpackPath.empty() && levelFileName.compare(0,levelpackPath.length(),levelpackPath)==0){
level.file=fileNameFromPath(levelFileName);
}else{
level.file=levelFileName;
}
level.targetTime=0;
level.targetRecordings=0;
//Get the name of the level.
TreeStorageNode obj;
POASerializer objSerializer;
if(objSerializer.loadNodeFromFile(levelFileName.c_str(),&obj,true)){
//Calc the MD5 FIRST because query obj.attributes will modify internal structure.
obj.name.clear();
obj.calcMD5(level.md5Digest);
//Get the name of the level.
vector<string>& v=obj.attributes["name"];
if(!v.empty())
level.name=v[0];
//If the name is empty then we set it to the file name.
if(level.name.empty())
level.name=fileNameFromPath(levelFileName);
//Get the target time of the level.
v=obj.attributes["time"];
if(!v.empty())
level.targetTime=atoi(v[0].c_str());
else
level.targetTime=-1;
//Get the target recordings of the level.
v=obj.attributes["recordings"];
if(!v.empty())
level.targetRecordings=atoi(v[0].c_str());
else
level.targetRecordings=-1;
}
//Set if it should be locked or not.
level.won=false;
level.time=-1;
level.recordings=-1;
level.locked=levels.empty()?false:true;
//Check if the level should be at the end or somewhere in the middle.
if(levelno<0 || levelno>=int(levels.size())){
levels.push_back(level);
}else{
levels.insert(levels.begin()+levelno,level);
}
//NOTE: We set loaded to true.
loaded=true;
}
void LevelPack::moveLevel(unsigned int level1,unsigned int level2){
if(level1>=levels.size())
return;
if(level2>=levels.size())
return;
if(level1==level2)
return;
levels.insert(levels.begin()+level2,levels[level1]);
if(level2<=level1)
levels.erase(levels.begin()+level1+1);
else
levels.erase(levels.begin()+level1);
}
void LevelPack::saveLevelProgress(){
//Check if the levels are loaded and a progress file is given.
if(!loaded || levelProgressFile.empty())
return;
//Open the progress file.
ofstream levelProgress(processFileName(levelProgressFile).c_str());
if(!levelProgress)
return;
//Open an output stream.
TreeStorageNode node;
//Loop through the levels.
for(unsigned int o=0;o<levels.size();o++){
TreeStorageNode* obj=new TreeStorageNode;
node.subNodes.push_back(obj);
char s[64];
//Set the name of the node.
obj->name="level";
obj->value.push_back(levels[o].file);
//Set the values.
obj->attributes["locked"].push_back(levels[o].locked?"1":"0");
obj->attributes["won"].push_back(levels[o].won?"1":"0");
sprintf(s,"%d",levels[o].time);
obj->attributes["time"].push_back(s);
sprintf(s,"%d",levels[o].recordings);
obj->attributes["recordings"].push_back(s);
}
//Create a POASerializer and write away the leve node.
POASerializer objSerializer;
objSerializer.writeNode(&node,levelProgress,true,true);
}
const string& LevelPack::getLevelName(int level){
if(level<0)
level=currentLevel;
return levels[level].name;
}
const unsigned char* LevelPack::getLevelMD5(int level){
if(level<0)
level=currentLevel;
return levels[level].md5Digest;
}
void LevelPack::getLevelAutoSaveRecordPath(int level,std::string &bestTimeFilePath,std::string &bestRecordingFilePath,bool createPath){
if(level<0)
level=currentLevel;
bestTimeFilePath.clear();
bestRecordingFilePath.clear();
//get level pack path.
string levelpackPath=LevelPack::levelpackPath;
string s=levels[level].file;
//process level pack name
for(;;){
string::size_type lps=levelpackPath.find_last_of("/\\");
if(lps==string::npos){
break;
}else if(lps==levelpackPath.size()-1){
levelpackPath.resize(lps);
}else{
levelpackPath=levelpackPath.substr(lps+1);
break;
}
}
//profess file name
{
string::size_type lps=s.find_last_of("/\\");
if(lps!=string::npos) s=s.substr(lps+1);
}
//check if it's custom level
{
string path="%USER%/records/autosave/";
if(!levelpackPath.empty()){
path+=levelpackPath;
path+='/';
}
path=processFileName(path);
if(createPath) createDirectory(path.c_str());
s=path+s;
}
//calculate MD5
s+='-';
s+=Md5::toString(levels[level].md5Digest);
//over
bestTimeFilePath=s+"-best-time.mnmsrec";
bestRecordingFilePath=s+"-best-recordings.mnmsrec";
}
string LevelPack::getLevelProgressPath(){
- if(/*levelProgressFile.empty()*/true){
+ if(levelProgressFile.empty()){
levelProgressFile="%USER%/progress/";
+
+ //Use the levelpack folder name instead of the levelpack name.
+ //NOTE: Remove the trailing slash.
+ string folderName=levelpackPath.substr(0,levelpackPath.size()-1);
+ folderName=fileNameFromPath(folderName);
+
//Depending on the levelpack type add a folder.
switch(type){
case MAIN:
+ levelProgressFile+="main/";
+ levelProgressFile+=folderName+".progress";
break;
case ADDON:
levelProgressFile+="addon/";
+ levelProgressFile+=folderName+".progress";
break;
case CUSTOM:
levelProgressFile+="custom/";
+ levelProgressFile+=folderName+".progress";
+ break;
+ case COLLECTION:
+ //NOTE: For collections we use their name since they don't have a folder.
+ //FIXME: Make sure the name contains legal characters.
+ levelProgressFile+=levelpackName+".progress";
break;
}
- //Use the levelpack folder name instead of the levelpack name.
- //NOTE: Remove the trailing slash.
- string folderName=levelpackPath.substr(0,levelpackPath.size()-1);
- folderName=fileNameFromPath(folderName);
- levelProgressFile+=folderName+".progress";
}
return levelProgressFile;
}
void LevelPack::setLevelName(unsigned int level,const std::string& name){
if(level<levels.size())
levels[level].name=name;
}
-const string& LevelPack::getLevelFile(int level){
+const string LevelPack::getLevelFile(int level){
if(level<0)
level=currentLevel;
- return levels[level].file;
+
+ string levelFile;
+ if(type!=COLLECTION)
+ levelFile=levelpackPath+levels[level].file;
+ else
+ levelFile=levels[level].file;
+
+ return levelFile;
}
const string& LevelPack::getLevelpackPath(){
return levelpackPath;
}
struct LevelPack::Level* LevelPack::getLevel(int level){
if(level<0)
return &levels[currentLevel];
return &levels[level];
}
void LevelPack::resetLevel(int level){
if(level<0)
level=currentLevel;
//Set back to default.
levels[level].locked=(level!=0);
levels[level].won=false;
levels[level].time=-1;
levels[level].recordings=-1;
}
void LevelPack::nextLevel(){
currentLevel++;
}
bool LevelPack::getLocked(unsigned int level){
return levels[level].locked;
}
void LevelPack::setCurrentLevel(unsigned int level){
currentLevel=level;
}
void LevelPack::setLocked(unsigned int level,bool locked){
levels[level].locked=locked;
}
void LevelPack::swapLevel(unsigned int level1,unsigned int level2){
if(level1<levels.size()&&level2<levels.size()){
swap(levels[level1],levels[level2]);
}
}
void LevelPack::removeLevel(unsigned int level){
if(level<levels.size()){
levels.erase(levels.begin()+level);
}
}
diff --git a/src/LevelPack.h b/src/LevelPack.h
index afcaee1..65911e5 100644
--- a/src/LevelPack.h
+++ b/src/LevelPack.h
@@ -1,204 +1,212 @@
/*
* 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 LEVELPACK_H
#define LEVELPACK_H
#ifdef __APPLE__
#include <SDL_mixer/SDL_mixer.h>
#include <SDL_ttf/SDL_ttf.h>
#else
#include <SDL/SDL_mixer.h>
#include <SDL/SDL_ttf.h>
#endif
#include <vector>
#include <string>
#include "GameObjects.h"
#include "Player.h"
#include "libs/tinygettext/tinygettext.hpp"
enum LevelPackType{
+ //Main levelpacks are distibuted along with the game and located in the data path.
MAIN,
+ //Addon levelpacks are downloaded/added packs which reside in the user data path.
ADDON,
- CUSTOM
+ //Custom levelpacks are user made and are located in the
+ CUSTOM,
+
+ //Collection levelpacks can contain levels from different locations.
+ //This type is used for the Levels and Custom Levels levelpacks.
+ //NOTE: The levelpackPath is ignored for these type of levelpacks since levels can be anywhere.
+ COLLECTION
};
class LevelPack{
public:
//A level entry structure.
struct Level{
//The name of the level.
string name;
//The filename of the level.
string file;
//Boolean if the level is locked.
bool locked;
//Boolean if the level is won.
bool won;
//Integer containing the number of ticks (40 = 1s) it took to finish the level.
//If there's no time the value will be -1.
int time;
//Integer containing the target time to get a medal.
int targetTime;
//Integer containing the number of recordings used to finish the level.
//When not won the value is -1.
int recordings;
//Integer containing the target recordings to get a medal.
int targetRecordings;
//MD5 of level node. :/
unsigned char md5Digest[16];
};
private:
//Index of the current level.
int currentLevel;
//Boolean if the levels are loaded.
bool loaded;
//Vector containing the filenames of the levels.
std::vector<Level> levels;
//The file name of the level progress.
std::string levelProgressFile;
public:
//The name of the levelpack.
std::string levelpackName;
//The location the levelpack is stored.
std::string levelpackPath;
//A description of the levelpack.
std::string levelpackDescription;
//The type of levelpack.
LevelPackType type;
//The text that will be displayed when the levels are finished.
std::string congratulationText;
//The dictionaryManager of the levelpack, used to translate strings.
tinygettext::DictionaryManager* dictionaryManager;
//Boolean if the levelpack has a custom theme/partial theme bundled with it.
//NOTE: Themes can't be preloaded since they would be destroyed by the ThemeStack.
bool customTheme;
//Constructor.
LevelPack();
//Destructor.
~LevelPack();
//gettext function
inline tinygettext::DictionaryManager* getDictionaryManager() const{
return dictionaryManager;
}
//Method for updating the language to the configured one.
//NOTE: This is called when changing the translation in the Options menu.
void updateLanguage();
//Adds a level to the levels.
//levelFileName: The filename of the level to add.
//level: The index of the level to add.
void addLevel(const std::string& levelFileName,int levelno=-1);
//Removes a level from the levels.
//level: The index of the level to remove.
void removeLevel(unsigned int level);
//Moves the level to a given index.
//level1: The level to move.
//level2: The destination.
void moveLevel(unsigned int level1,unsigned int level2);
//Swaps two level.
//level1: The first level to swap.
//level2: The second level to swap.
void swapLevel(unsigned int level1,unsigned int level2);
//Get the levelFile for a given level.
- //level: The level index to get the levelFileName from.
- //Returns: String containing the levelFileName.
- const std::string& getLevelFile(int level=-1);
+ //level: The level index to get the levelFile from.
+ //Returns: String containing the levelFileName (full path to the file).
+ const std::string getLevelFile(int level=-1);
//Get the levelpackPath of the levels.
//Returns: String containing the levelpackPath.
const std::string& getLevelpackPath();
//Get the levelName for a given level.
//level: The level index to get the levelName from.
//Returns: String containing the levelName.
const std::string& getLevelName(int level=-1);
//Sets the levelName for a given level.
//level: The level index to get the levelName from.
//name: The new name of the level.
void setLevelName(unsigned int level,const std::string& name);
//Get the MD5 for a given level.
//level: The level index.
//Returns: const unsigned char[16] containing the digest.
const unsigned char* getLevelMD5(int level=-1);
//get level's auto-save record path,
//using level's MD5, file name and other information.
void getLevelAutoSaveRecordPath(int level,std::string &bestTimeFilePath,std::string &bestRecordingFilePath,bool createPath);
//Method for getting the path to the progress file.
//Returns: The path + filename to the progress file.
std::string getLevelProgressPath();
//Set the currentLevel.
//level: The new current level.
void setCurrentLevel(unsigned int level);
//Get the currentLevel.
//Returns: The currentLevel.
inline int getCurrentLevel(){return currentLevel;}
//Get the levelCount.
//Returns: The level count.
inline int getLevelCount(){return levels.size();}
//Method that will return the requested level.
//level: The index of the level, default is the current level.
//Returns: Pointer to the requested level structure.
struct Level* getLevel(int level=-1);
//Method that will reset any progress/statistics for a given level.
//level: The index of the level to reset, default is currentLevel.
void resetLevel(int level=-1);
//Check if a certain level is locked.
//level: The index of the level to check.
//Returns: True if the level is locked.
bool getLocked(unsigned int level);
//Set a level locked or not.
//level: The level to (un)lock.
//locked: The new status of the level, default is unlocked (false).
void setLocked(unsigned int level,bool locked=false);
//Empties the levels.
void clear();
bool loadLevels(const std::string& levelListFile);
void loadProgress();
void saveLevels(const std::string& levelListFile);
void saveLevelProgress();
void nextLevel();
};
#endif
diff --git a/src/LevelPackManager.cpp b/src/LevelPackManager.cpp
index 4361207..38ccc9a 100644
--- a/src/LevelPackManager.cpp
+++ b/src/LevelPackManager.cpp
@@ -1,134 +1,134 @@
-/*
- * Copyright (C) 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 "LevelPackManager.h"
-#include "LevelPack.h"
-#include "FileManager.h"
-#include <stdio.h>
-
-void LevelPackManager::loadLevelPack(std::string path){
- //Load the levelpack.
- LevelPack* levelpack=new LevelPack();
- levelpack->loadLevels(path+"/levels.lst");
-
- //Check if the entry doesn't already exist.
- if(levelpacks.find(levelpack->levelpackPath)!=levelpacks.end()){
- cerr<<"WARNING: Levelpack entry \""+levelpack->levelpackPath+"\" already exist."<<endl;
- return;
- }
-
- //It doesn't exist so add it.
- levelpacks[levelpack->levelpackPath]=levelpack;
+/*
+ * Copyright (C) 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 "LevelPackManager.h"
+#include "LevelPack.h"
+#include "FileManager.h"
+#include <stdio.h>
+
+void LevelPackManager::loadLevelPack(std::string path){
+ //Load the levelpack.
+ LevelPack* levelpack=new LevelPack();
+ levelpack->loadLevels(path+"/levels.lst");
+
+ //Check if the entry doesn't already exist.
+ if(levelpacks.find(levelpack->levelpackPath)!=levelpacks.end()){
+ cerr<<"WARNING: Levelpack entry \""+levelpack->levelpackPath+"\" already exist."<<endl;
+ return;
+ }
+
+ //It doesn't exist so add it.
+ levelpacks[levelpack->levelpackPath]=levelpack;
//Check if it's the tutorial level pack.
//FIXME: If the folder name contains "tutorial" then it doesn't work :|
if(levelpack->type==MAIN
&& levelpack->levelpackPath.find("tutorial")!=string::npos)
{
tutorialLevelPackPath=levelpack->levelpackPath;
}
-}
-
-void LevelPackManager::addLevelPack(LevelPack* levelpack){
- //Check if the entry doesn't already exist.
- if(levelpacks.find(levelpack->levelpackPath)!=levelpacks.end()){
- cerr<<"WARNING: Levelpack entry \""+levelpack->levelpackPath+"\" already exist."<<endl;
- return;
- }
-
- //It doesn't exist so add it.
- levelpacks[levelpack->levelpackPath]=levelpack;
-}
-
-void LevelPackManager::removeLevelPack(std::string path){
- std::map<std::string,LevelPack*>::iterator it=levelpacks.find(path);
-
- //Check if the entry exists.
- if(it!=levelpacks.end()){
- levelpacks.erase(it);
- }else{
- cerr<<"WARNING: Levelpack entry \""+path+"\" doesn't exist."<<endl;
- }
-}
-
-LevelPack* LevelPackManager::getLevelPack(std::string path){
- std::map<std::string,LevelPack*>::iterator it=levelpacks.find(path);
-
- //Check if the entry exists.
- if(it!=levelpacks.end()){
- return it->second;
- }else{
- cerr<<"WARNING: Levelpack entry \""+path+"\" doesn't exist."<<endl;
- return NULL;
- }
-}
-
-vector<pair<string,string> > LevelPackManager::enumLevelPacks(int type){
- //The vector that will be returned.
- vector<pair<string,string> > v;
-
- //Now do the type dependent adding.
- switch(type){
- case ALL_PACKS:
- {
- std::map<std::string,LevelPack*>::iterator i;
- for(i=levelpacks.begin();i!=levelpacks.end();++i){
- //We add everything except the "Custom Levels" pack since that's also in "Levels".
- if(i->first!="Custom Levels")
- v.push_back(pair<string,string>(i->first,i->second->levelpackName));
- }
- break;
- }
- case CUSTOM_PACKS:
- {
- std::map<std::string,LevelPack*>::iterator i;
- for(i=levelpacks.begin();i!=levelpacks.end();++i){
- //Only add levelpacks that are of the custom type.
- if(i->second->type==CUSTOM)
- v.push_back(pair<string,string>(i->first,i->second->levelpackName));
- }
- break;
- }
- }
-
- //And return the vector.
- return v;
-}
-
-void LevelPackManager::updateLanguage(){
- std::map<std::string,LevelPack*>::iterator i;
- for(i=levelpacks.begin();i!=levelpacks.end();++i){
- i->second->updateLanguage();
- }
-}
-
-LevelPackManager::~LevelPackManager(){
- //We call destroy().
- destroy();
-}
-
-void LevelPackManager::destroy(){
- //Loop through the levelpacks and delete them.
- std::map<std::string,LevelPack*>::iterator i;
- for(i=levelpacks.begin();i!=levelpacks.end();++i){
- delete i->second;
- }
- levelpacks.clear();
- tutorialLevelPackPath.clear();
-}
+}
+
+void LevelPackManager::addLevelPack(LevelPack* levelpack){
+ //Check if the entry doesn't already exist.
+ if(levelpacks.find(levelpack->levelpackPath)!=levelpacks.end()){
+ cerr<<"WARNING: Levelpack entry \""+levelpack->levelpackPath+"\" already exist."<<endl;
+ return;
+ }
+
+ //It doesn't exist so add it.
+ levelpacks[levelpack->levelpackPath]=levelpack;
+}
+
+void LevelPackManager::removeLevelPack(std::string path){
+ std::map<std::string,LevelPack*>::iterator it=levelpacks.find(path);
+
+ //Check if the entry exists.
+ if(it!=levelpacks.end()){
+ levelpacks.erase(it);
+ }else{
+ cerr<<"WARNING: Levelpack entry \""+path+"\" doesn't exist."<<endl;
+ }
+}
+
+LevelPack* LevelPackManager::getLevelPack(std::string path){
+ std::map<std::string,LevelPack*>::iterator it=levelpacks.find(path);
+
+ //Check if the entry exists.
+ if(it!=levelpacks.end()){
+ return it->second;
+ }else{
+ cerr<<"WARNING: Levelpack entry \""+path+"\" doesn't exist."<<endl;
+ return NULL;
+ }
+}
+
+vector<pair<string,string> > LevelPackManager::enumLevelPacks(int type){
+ //The vector that will be returned.
+ vector<pair<string,string> > v;
+
+ //Now do the type dependent adding.
+ switch(type){
+ case ALL_PACKS:
+ {
+ std::map<std::string,LevelPack*>::iterator i;
+ for(i=levelpacks.begin();i!=levelpacks.end();++i){
+ //We add everything except the "Custom Levels" pack since that's also in "Levels".
+ if(i->second->levelpackName!="Custom Levels")
+ v.push_back(pair<string,string>(i->first,i->second->levelpackName));
+ }
+ break;
+ }
+ case CUSTOM_PACKS:
+ {
+ std::map<std::string,LevelPack*>::iterator i;
+ for(i=levelpacks.begin();i!=levelpacks.end();++i){
+ //Only add levelpacks that are of the custom type, one exception is the "Custom Levels" pack.
+ if(i->second->type==CUSTOM || i->second->levelpackName=="Custom Levels")
+ v.push_back(pair<string,string>(i->first,i->second->levelpackName));
+ }
+ break;
+ }
+ }
+
+ //And return the vector.
+ return v;
+}
+
+void LevelPackManager::updateLanguage(){
+ std::map<std::string,LevelPack*>::iterator i;
+ for(i=levelpacks.begin();i!=levelpacks.end();++i){
+ i->second->updateLanguage();
+ }
+}
+
+LevelPackManager::~LevelPackManager(){
+ //We call destroy().
+ destroy();
+}
+
+void LevelPackManager::destroy(){
+ //Loop through the levelpacks and delete them.
+ std::map<std::string,LevelPack*>::iterator i;
+ for(i=levelpacks.begin();i!=levelpacks.end();++i){
+ delete i->second;
+ }
+ levelpacks.clear();
+ tutorialLevelPackPath.clear();
+}
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