codebase / stimlib

  #ifndef STIM_FILENAME_H
  #define STIM_FILENAME_H
  
  #include <stdio.h>  /* defines FILENAME_MAX */
  #ifdef _WIN32
  	#include <windows.h>
      #include <direct.h>
      #define GetCurrentDir _getcwd
  	#define STIM_FILENAME_DIV '/'
  #else
      #include <unistd.h>
      #define GetCurrentDir getcwd
  	#define STIM_FILENAME_DIV '/'
   #endif
  
  #include <string>
  #include <sstream>
  #include <iomanip>
  #include <vector>
  #include <stack>
  #include <algorithm>
  #include <iostream>
  
  #include "../parser/parser.h"
  #ifdef BOOST_PRECOMPILED
  #include <boost/filesystem.hpp>
  #endif
  namespace stim{
  
  //filename class designed to work with both Windows and Unix
  
  class filename{
  
  private:
  	void init(){
  
  		absolute = false;
  
  	}
  
  protected:
  
  	std::string drive;				//drive letter (for Windows)
  	std::vector<std::string> path;	//directory hierarchy
  	std::string pref;				//file prefix (without extension)
  	std::string	ext;				//file extension
  
  	bool absolute;					//filename is an absolute path
  
  	//replaces win32 dividers with the Linux standard
  	std::string unix_div(std::string s) {
  		std::replace( s.begin(), s.end(), '\\', '/');
  		return s;
  	}
  
  	//break up a filename into a prefix and extension
  	void parse_name(std::string fname){
  
  		//find the extension
  		size_t xpos = fname.find_last_of('.');			//find the position of the extension period (if there is one)
  		if(xpos != std::string::npos){						//split the prefix and extension
  			pref = fname.substr(0, xpos);
  			ext = fname.substr(xpos + 1);
  		}
  		else
  			pref = fname;
  	}
  
  	/// Parse a file locator into its component parts
  	void parse(std::string &dr, std::vector<std::string> &p, std::string &pre, std::string &ex, bool &abs, std::string loc){
  		dr = "";					//initialize the drive to NULL (in a Unix system, this will always be NULL)
  		p.clear();					//empty out the path array
  		pre = "";					//initialize the file prefix to NULL (if no file name is given, this will remain NULL)
  		ex = "";					//initialize the file extension to NULL (if no extension exists, this will remain NULL)
  		abs = false;				//the default path is relative
  
  		loc = unix_div(loc);		//convert to unix style divisions (default representation)
  
  		if(loc.size() == 0) return;	//if the locator is NULL, just return (everything else will be NULL)
  
  		//determine the drive (if Windows)
  		#ifdef _WIN32			
  			if(loc[1] == ':'){				//if the second character is a colon, the character right before it is the drive
  				abs = true;			//this is an absolute path
  				dr = loc[0];				//copy the drive letter
  				loc = loc.substr(3);		//remove the drive information from the locator string
  			}
  		#else
  			if(loc[0] == STIM_FILENAME_DIV){
  				absolute = true;
  				loc = loc.substr(1);
  			}
  		#endif
  
  		std::string fname = loc.substr( loc.find_last_of('/') + 1 );	//find the file name (including extension)
  
  		//find the extension and prefix
  		size_t xpos = fname.find_last_of('.');				//find the position of the extension period (if there is one)
  		if(xpos != std::string::npos){						//split the prefix and extension
  			pre = fname.substr(0, xpos);
  			ex = fname.substr(xpos + 1);
  		}
  		else
  			pre = fname;
  	}
  
  	//parse a file locator string
  	void parse(std::string loc){
  		if(loc.size() == 0) return;
  
  		loc = unix_div(loc);
  
  		//determine the drive (if Windows)
  		drive = "";
  		#ifdef _WIN32
  			//if the second character is a colon, the character right before it is the drive
  			if(loc[1] == ':'){
  				absolute = true;			//this is an absolute path
  				drive = loc[0];				//copy the drive letter
  				loc = loc.substr(3);		//remove the drive information from the locator string
  			}
  		#else
  			if(loc[0] == STIM_FILENAME_DIV){
  				absolute = true;
  				loc = loc.substr(1);
  			}
  		#endif
  
  		//determine the file name
  		std::string fname = loc.substr( loc.find_last_of('/') + 1 );	//find the file name (including extension)
  
  		//parse the file name
  		parse_name(fname);
  
  		//find the directory hierarchy
  		std::string dir = loc.substr(0, loc.find_last_of('/') + 1 );
  		path = stim::parser::split(dir, '/');
  	}
  
  public:
  
  	filename(){
  		init();
  	}
  
  	filename(std::string loc){
  		init();
  		parse(loc);
  	}
  
  
  	/// Outputs the file name (including prefix and extension)
  	std::string get_name(){
  		if(pref == "" && ext == "")
  			return "";
  		else
  			return pref + "." + ext;
  	}
  
  	/// Output the file extension only (usually three characters after a '.')
  	std::string get_extension(){
  		return ext;
  	}
  
  	std::string extension(){
  		return ext;
  	}
  
  	void extension(std::string e){
  		ext = e;
  	}
  
  	/// Output the file prefix only (name before the extension)
  	std::string get_prefix(){
  		return pref;
  	}
  
  	std::string prefix(){
  		return pref;
  	}
  
  	void prefix(std::string p){
  		pref = p;
  	}
  
  	/// Output the entire path (not including the filename)
  	///		ex. "c:\this\is\the\directory\"
  	std::string dir(){
  		std::stringstream ss;
  
  		//if the path is absolute
  		if(absolute){
  			//output the drive letter if in Windows
  			#ifdef _WIN32
  				ss<<drive<<":";
  			#endif
  			ss<<STIM_FILENAME_DIV;
  		}
  
  		//output the directory
  		for(unsigned int d = 0; d < path.size(); d++)
  			ss<<path[d]<<STIM_FILENAME_DIV;
  
  		return ss.str();
  
  	}
  
  	void clear()
  	{
  		drive = "";				//drive letter (for Windows)
  		path.resize(0);
  		pref= "";				//file prefix (without extension)
  		ext = "";				//file extension
  	}
  
  	/// Output the entire string, including the path and filename
  	///		ex. "c:\this\is\a\directory\file.txt"
  	std::string str(){
  		std::stringstream ss;					//create a string stream
  		ss<<dir()<<get_name();					//push the directory and filename to that stream
  		return ss.str();						//convert the stream to a string and return it
  	}
  
  	//*****************************************************************************************************************
  	// output is the directory and the prefix and the extension of the files, which are looking for in that directory.
  	/// David: I have no idea what this is doing. It looks identical to dir()
  	std::string dir_fname(){
  		std::stringstream ss;
  
  		//if the path is absolute
  		if(absolute){
  			//output the drive letter if in Windows
  			#ifdef _WIN32
  				ss<<drive<<":";
  			#endif
  			ss<<STIM_FILENAME_DIV;
  		}
  
  
  		for(unsigned int d = 0; d < path.size(); d++)
  			ss<<path[d]<<STIM_FILENAME_DIV;
  		ss<<get_name();
  
  		return ss.str();
  
  	}
  
  	// output is the directory and the name of the file which are found in that given directory
  	std::string f_name(std::string file_name){
  		std::stringstream ss;
  
  		if(absolute){ 								//if the path is absolute
  			#ifdef _WIN32
  				ss<<drive<<":";						//output the drive letter if in Windows
  			#endif
  			ss<<STIM_FILENAME_DIV;					//output a path divider
  		}
  
  		for(unsigned int d = 0; d < path.size(); d++)	//for each directory in the current path
  			ss<<path[d]<<STIM_FILENAME_DIV;				//add that directory, interspersing path dividers
  
  		stim::filename fn = file_name;					
  			std::string fn_prefix = fn.pref;
  			std::string fn_ext = fn.ext;
  		ss<<fn_prefix + '.' + fn_ext;
  
  		return ss.str();
  
  	}
  
  	/// Returns a list of files using the current filename as a template.
  	/// For example:
  	///			C:\this\is\a\path\file*.txt
  	///		can be used as a template to find a series of files file001.txt, file002.txt, file003.txt, etc.
  	std::vector<stim::filename> get_list(){
  		//this is OS dependent, so we're starting with Windows
  		//the Unix version requires Boost
  
  #ifdef _WIN32
  		stim::filename filepath(dir_fname());									//initialize filepath with the mask					
  
  		HANDLE            hFind = INVALID_HANDLE_VALUE;							//allocate data structures for looping through files
  		WIN32_FIND_DATAA   FindFileData;
  		std::vector<stim::filename> file_list;									//initialize a list to hold all matching filenames
  
  		hFind = FindFirstFileA((filepath.str().c_str()), &FindFileData);		//find the first file that matches the specified file path
  
  		if (hFind == INVALID_HANDLE_VALUE) { 									//if there are no matching files
  			printf ("Invalid file handle. Error is %u.\n", GetLastError());		//print an error
  		}
  		else {
  			std::string file_name = FindFileData.cFileName;						//save the file name
  			std::string file_path = dir();										//the file is in the specified directory, so save it
  			stim::filename current_file(file_path + file_name);					//create a stim::filename structure representing this file
  			file_list.push_back(current_file);									//push the new stim::filename to the file list
  
  			// List all the other files in the directory.
  			while (FindNextFileA(hFind, &FindFileData) != 0){ 					//iterate until there are no more matching files
  				file_name = FindFileData.cFileName;								//save the next file
  				current_file = (f_name(file_name));								//append the directory
  				file_list.push_back(current_file);								//push it to the list
  			}
  			FindClose(hFind);													//close the file data structure
  		}
  		return file_list;														//return the list of files
  
  #elif BOOST_PRECOMPILED
  
  		boost::filesystem::path p(dir());	//create a path from the current filename
  		std::vector<stim::filename> file_list;
  		if(boost::filesystem::exists(p)){
  			if(boost::filesystem::is_directory(p)){
  				typedef std::vector<boost::filesystem::path> vec;             // store paths,
  				vec v;                                // so we can sort them later
  				std::copy(boost::filesystem::directory_iterator(p), boost::filesystem::directory_iterator(), back_inserter(v));
  				std::sort(v.begin(), v.end());             // sort, since directory iteration
  				  // is not ordered on some file systems
  				//compare file names to the current template (look for wild cards)
  				for (vec::const_iterator it(v.begin()), it_end(v.end()); it != it_end; ++it)
  				{
  					//if the filename is a wild card *or* it matches the read file name
  					if( prefix == "*" || prefix == (*it).filename().stem().string()){
  						//if the extension is a wild card *or* it matches the read file extension
  						if( ext == "*" || "." + ext == (*it).filename().extension().string()){
  							file_list.push_back((*it).string());	//include it in the final list
  						}
  
  					}
  
  
  
  				}
  
  			}
  
  		}
  		return file_list;
  #else
  		std::cout<<"ERROR: UNIX systems don't support file lists without the Boost precompiled libraries."<<std::endl;
  		exit(1);
  #endif
  		
  	}
  	//**************************************************************************************************
  
  	//gets the current working directory
  	static stim::filename cwd(){
  
  
  		char cCurrentPath[FILENAME_MAX];
  
  		 if (!GetCurrentDir(cCurrentPath, sizeof(cCurrentPath))){
  			 std::cout<<"ERROR getting current working directory."<<std::endl;
  			 exit(1);
  		 }
  
  		 std::cout<<cCurrentPath<<std::endl;
  		 return stim::filename(std::string(cCurrentPath) + STIM_FILENAME_DIV);
  	}
  
  	void set_name(std::string fname){
  		parse_name(fname);
  	}
  
  	//append a string to the filename and return a new filename
  	stim::filename append(std::string s){
  		stim::filename result = *this;		//create a new filename, copy the current filename
  		result.pref = pref + s;			//append the string to the filename
  		return result;
  	}
  
  	//get a path relative to the current one
  	stim::filename get_relative(std::string rel){
  
  		std::vector<std::string> rel_path = stim::parser::split(rel, STIM_FILENAME_DIV);
  
  		//if the relative path doesn't contain a file, add a blank string to be used as the filename
  		if(rel[rel.size()-1] == STIM_FILENAME_DIV)
  			rel_path.push_back("");
  
  		//create a stack representing the current absolute path
  		std::stack<std::string, std::vector<std::string> > s(path);
  
  		//for each token in the relative path
  		for(int d=0; d<rel_path.size() - 1; d++){
  
  			//if the token is a double-dot, pop a directory off of the stack
  			if(rel_path[d] == "..")
  				s.pop();
  			else
  				s.push(rel_path[d]);
  		}
  
  		std::string* end   = &s.top() + 1;
  		std::string* begin = end - s.size();
  		std::vector<std::string> result_path(begin, end);
  
  		//create a new path to be returned
  		stim::filename result = *this;
  		result.path = result_path;
  		result.set_name(rel_path.back());
  
  		return result;
  	}
  
  	/// This function replaces a wildcard in the prefix with the specified string
  	stim::filename insert(std::string str){
  
  		stim::filename result = *this;				//initialize the result filename to the current filename
  		size_t loc = result.pref.find('*');		//find a wild card in the string
  		if(loc == std::string::npos)						//if a wildcard isn't found
  			result.pref += str;							//append the value to the prefix
  		else
  			result.pref.replace(loc, 1, str);			//replace the wildcard with the string
  		return result;								//return the result
  	}
  
  	stim::filename insert(size_t i, size_t n = 2){
  
  		std::stringstream ss;
  		ss << std::setw(n) << std::setfill('0') << i;
  		return insert(ss.str());
  	}
  
  	bool is_relative(){
  		return !absolute;
  	}
  
  	bool is_absolute(){
  		return absolute;
  	}
  
  
  
  
  
  
  
  
  
  };
  
  
  }	//end namespace stim
  
  
  #endif