#pragma once

#include <string>

namespace pfc {
	inline t_size _strParamLen(const char * str) {
		return strlen(str);
	}

	
	struct string_part_ref {
		const char * m_ptr;
		t_size m_len;


		static string_part_ref make(const char * ptr, t_size len);
		string_part_ref substring(t_size base) const;
		string_part_ref substring(t_size base, t_size len) const;
		static string_part_ref make( const char * str );
		bool equals( string_part_ref other ) const;
		bool equals( const char * str ) const;
	};

	inline string_part_ref string_part(const char * ptr, t_size len) {
		string_part_ref val = {ptr, len}; return val;
	}


	class NOVTABLE string_receiver {
	public:
		virtual void add_string(const char * p_string,t_size p_string_size = SIZE_MAX) = 0;
		inline void add_string_(const char * str) {add_string(str, _strParamLen(str));}

		void add_char(t_uint32 c);//adds unicode char to the string
		void add_byte(char c) {add_string(&c,1);}
		void add_chars(t_uint32 p_char,t_size p_count) {for(;p_count;p_count--) add_char(p_char);}
	protected:
		string_receiver() {}
		~string_receiver() {}
	};

	t_size scan_filename(const char * ptr);

	bool is_path_separator(unsigned c);
	bool is_path_bad_char(unsigned c);
	bool is_valid_utf8(const char * param,t_size max = SIZE_MAX);
	bool is_lower_ascii(const char * param);
	bool is_multiline(const char * p_string,t_size p_len = SIZE_MAX);
	bool has_path_bad_chars(const char * param);
	void recover_invalid_utf8(const char * src,char * out,unsigned replace);//out must be enough to hold strlen(char) + 1, or appropiately bigger if replace needs multiple chars
	void convert_to_lower_ascii(const char * src,t_size max,char * out,char replace = '?');//out should be at least strlen(src)+1 long

	template<typename char_t> inline char_t ascii_tolower(char_t c) {if (c >= 'A' && c <= 'Z') c += 'a' - 'A'; return c;}
	template<typename char_t> inline char_t ascii_toupper(char_t c) {if (c >= 'a' && c <= 'z') c += 'A' - 'a'; return c;}

	t_size string_find_first(const char * p_string,char p_tofind,t_size p_start = 0);	//returns infinite if not found
	t_size string_find_last(const char * p_string,char p_tofind,t_size p_start = SIZE_MAX);	//returns infinite if not found
	t_size string_find_first(const char * p_string,const char * p_tofind,t_size p_start = 0);	//returns infinite if not found
	t_size string_find_last(const char * p_string,const char * p_tofind,t_size p_start = SIZE_MAX);	//returns infinite if not found

	t_size string_find_first_ex(const char * p_string,t_size p_string_length,char p_tofind,t_size p_start = 0);	//returns infinite if not found
	t_size string_find_last_ex(const char * p_string,t_size p_string_length,char p_tofind,t_size p_start = SIZE_MAX);	//returns infinite if not found
	t_size string_find_first_ex(const char * p_string,t_size p_string_length,const char * p_tofind,t_size p_tofind_length,t_size p_start = 0);	//returns infinite if not found
	t_size string_find_last_ex(const char * p_string,t_size p_string_length,const char * p_tofind,t_size p_tofind_length,t_size p_start = SIZE_MAX);	//returns infinite if not found


	t_size string_find_first_nc(const char * p_string,t_size p_string_length,char c,t_size p_start = 0); // lengths MUST be valid, no checks are performed (faster than the other flavour)
	t_size string_find_first_nc(const char * p_string,t_size p_string_length,const char * p_tofind,t_size p_tofind_length,t_size p_start = 0); // lengths MUST be valid, no checks are performed (faster than the other falvour);


    bool string_has_prefix( const char * string, const char * prefix );
    bool string_has_prefix_i( const char * string, const char * prefix );
    bool string_has_suffix( const char * string, const char * suffix );
    bool string_has_suffix_i( const char * string, const char * suffix );
	
	template<typename t_char>
	t_size strlen_max_t(const t_char * ptr,t_size max) {
		PFC_ASSERT( ptr != NULL || max == 0 );
		t_size n = 0;
		while(n<max && ptr[n] != 0) n++;
		return n;
	}

	inline t_size strlen_max(const char * ptr,t_size max) throw() {return strlen_max_t(ptr,max);}
	inline t_size wcslen_max(const wchar_t * ptr,t_size max) throw() {return strlen_max_t(ptr,max);}

#ifdef _WINDOWS
	inline t_size tcslen_max(const TCHAR * ptr,t_size max) {return strlen_max_t(ptr,max);}
#endif
	
	bool string_is_numeric(const char * p_string,t_size p_length = SIZE_MAX) throw();
	template<typename char_t> inline bool char_is_numeric(char_t p_char) throw() {return p_char >= '0' && p_char <= '9';}
	inline bool char_is_hexnumeric(char p_char) throw() {return char_is_numeric(p_char) || (p_char >= 'a' && p_char <= 'f') || (p_char >= 'A' && p_char <= 'F');}
	inline bool char_is_ascii_alpha_upper(char p_char) throw() {return p_char >= 'A' && p_char <= 'Z';}
	inline bool char_is_ascii_alpha_lower(char p_char) throw() {return p_char >= 'a' && p_char <= 'z';}
	inline bool char_is_ascii_alpha(char p_char) throw() {return char_is_ascii_alpha_lower(p_char) || char_is_ascii_alpha_upper(p_char);}
	inline bool char_is_ascii_alphanumeric(char p_char) throw() {return char_is_ascii_alpha(p_char) || char_is_numeric(p_char);}
	
	unsigned atoui_ex(const char * ptr,t_size max);
	t_int64 atoi64_ex(const char * ptr,t_size max);
	t_uint64 atoui64_ex(const char * ptr,t_size max);
	
	//Throws exception_invalid_params on failure.
	unsigned char_to_hex(char c);
	unsigned char_to_dec(char c);

	//Throws exception_invalid_params or exception_overflow on failure.
	template<typename t_uint> t_uint atohex(const char * in, t_size inLen) {
		t_uint ret = 0;
		const t_uint guard = (t_uint)0xF << (sizeof(t_uint) * 8 - 4);
		for(t_size walk = 0; walk < inLen; ++walk) {
			if (ret & guard) throw exception_overflow();
			ret = (ret << 4) | char_to_hex(in[walk]);
		}
		return ret;
	}
	template<typename t_uint> t_uint atodec(const char * in, t_size inLen) {
		t_uint ret = 0;
		for(t_size walk = 0; walk < inLen; ++walk) {
			const t_uint prev = ret;
			ret = (ret * 10) + char_to_dec(in[walk]);
			if ((ret / 10) != prev) throw exception_overflow();
		}
		return ret;
	}

	t_size strlen_utf8(const char * s,t_size num = SIZE_MAX) throw();//returns number of characters in utf8 string; num - no. of bytes (optional)
	t_size utf8_char_len(const char * s,t_size max = SIZE_MAX) throw();//returns size of utf8 character pointed by s, in bytes, 0 on error
	t_size utf8_char_len_from_header(char c) throw();
	t_size utf8_chars_to_bytes(const char * string,t_size count) throw();

	t_size strcpy_utf8_truncate(const char * src,char * out,t_size maxbytes);

	template<typename char_t> void strcpy_t( char_t * out, const char_t * in ) {
		for(;;) { char_t c = *in++; *out++ = c; if (c == 0) break; }
	}

	t_size utf8_decode_char(const char * src,unsigned & out,t_size src_bytes) throw();//returns length in bytes
	t_size utf8_decode_char(const char * src,unsigned & out) throw();//returns length in bytes

	t_size utf8_encode_char(unsigned c,char * out) throw();//returns used length in bytes, max 6


	t_size utf16_decode_char(const char16_t * p_source,unsigned * p_out,t_size p_source_length = SIZE_MAX) throw();
	t_size utf16_encode_char(unsigned c,char16_t * out) throw();
    
#ifdef _MSC_VER
	t_size utf16_decode_char(const wchar_t * p_source,unsigned * p_out,t_size p_source_length = SIZE_MAX) throw();
	t_size utf16_encode_char(unsigned c,wchar_t * out) throw();
#endif

	t_size wide_decode_char(const wchar_t * p_source,unsigned * p_out,t_size p_source_length = SIZE_MAX) throw();
	t_size wide_encode_char(unsigned c,wchar_t * out) throw();


	t_size strstr_ex(const char * p_string,t_size p_string_len,const char * p_substring,t_size p_substring_len) throw();


	t_size skip_utf8_chars(const char * ptr,t_size count) throw();
	char * strdup_n(const char * src,t_size len);
	int wstricmp_ascii( const wchar_t * s1, const wchar_t * s2 ) throw();
	int stricmp_ascii(const char * s1,const char * s2) throw();
	int stricmp_ascii_ex(const char * s1,t_size len1,const char * s2,t_size len2) throw();
    int naturalSortCompare( const char * s1, const char * s2) throw();
    int naturalSortCompareI( const char * s1, const char * s2) throw();

	int strcmp_ex(const char* p1,t_size n1,const char* p2,t_size n2) throw();
	int strcmp_nc(const char* p1, size_t n1, const char * p2, size_t n2) throw();

	unsigned utf8_get_char(const char * src);

	inline bool utf8_advance(const char * & var) throw() {
		t_size delta = utf8_char_len(var);
		var += delta;
		return delta>0;
	}

	inline bool utf8_advance(char * & var) throw() {
		t_size delta = utf8_char_len(var);
		var += delta;
		return delta>0;
	}

	inline const char * utf8_char_next(const char * src) throw() {return src + utf8_char_len(src);}
	inline char * utf8_char_next(char * src) throw() {return src + utf8_char_len(src);}

	class NOVTABLE string_base : public pfc::string_receiver {
	public:
		virtual const char * get_ptr() const = 0;
		const char * c_str() const { return get_ptr(); }
		virtual void add_string(const char * p_string,t_size p_length = SIZE_MAX) = 0;//same as string_receiver method
		virtual void set_string(const char * p_string,t_size p_length = SIZE_MAX) {reset();add_string(p_string,p_length);}
		virtual void truncate(t_size len)=0;
		virtual t_size get_length() const {return strlen(get_ptr());}
		virtual char * lock_buffer(t_size p_requested_length) = 0;
		virtual void unlock_buffer() = 0;

		void set_string_(const char * str) {set_string(str, _strParamLen(str));}

		inline const char * toString() const {return get_ptr();}

		//! For compatibility with old conventions.
		inline t_size length() const {return get_length();}
		
		inline void reset() {truncate(0);}
		inline void clear() {truncate(0);}

		inline bool is_empty() const {return *get_ptr()==0;}
		
		void skip_trailing_chars( const char * lstChars );
		void skip_trailing_char(unsigned c = ' ');

		bool is_valid_utf8() const {return pfc::is_valid_utf8(get_ptr());}

		void convert_to_lower_ascii(const char * src,char replace = '?');

		inline const string_base & operator= (const char * src) {set_string_(src);return *this;}
		inline const string_base & operator+= (const char * src) {add_string_(src);return *this;}
		inline const string_base & operator= (const string_base & src) {set_string(src);return *this;}
		inline const string_base & operator+= (const string_base & src) {add_string(src);return *this;}

		bool operator==(const string_base & p_other) const {return strcmp(*this,p_other) == 0;}
		bool operator!=(const string_base & p_other) const {return strcmp(*this,p_other) != 0;}
		bool operator>(const string_base & p_other) const {return strcmp(*this,p_other) > 0;}
		bool operator<(const string_base & p_other) const {return strcmp(*this,p_other) < 0;}
		bool operator>=(const string_base & p_other) const {return strcmp(*this,p_other) >= 0;}
		bool operator<=(const string_base & p_other) const {return strcmp(*this,p_other) <= 0;}

		inline operator const char * () const {return get_ptr();}

		t_size scan_filename() const {return pfc::scan_filename(get_ptr());}

		t_size find_first(char p_char,t_size p_start = 0) const {return pfc::string_find_first(get_ptr(),p_char,p_start);}
		t_size find_last(char p_char,t_size p_start = SIZE_MAX) const {return pfc::string_find_last(get_ptr(),p_char,p_start);}
		t_size find_first(const char * p_string,t_size p_start = 0) const {return pfc::string_find_first(get_ptr(),p_string,p_start);}
		t_size find_last(const char * p_string,t_size p_start = SIZE_MAX) const {return pfc::string_find_last(get_ptr(),p_string,p_start);}

		void fix_dir_separator(char c = '\\'); // Backwards compat function, "do what I mean" applied on non Windows
		void end_with(char c);
		void end_with_slash();
		bool ends_with(char c) const;
		void delimit(const char* c) {if (length()>0) add_string(c);}
        char last_char() const;
        void truncate_last_char();
        void truncate_number_suffix();

		bool truncate_eol(t_size start = 0);
		bool fix_eol(const char * append = " (...)",t_size start = 0);
		bool limit_length(t_size length_in_chars,const char * append = " (...)");

		void truncate_filename() {truncate(scan_filename());}
		void truncate_to_parent_path();
		void add_filename( const char * fn ) {end_with_slash(); *this += fn; }

		//! Replaces one string with another. Returns the number of occurances - zero if the string was not altered.
        size_t replace_string ( const char * replace, const char * replaceWith, t_size start = 0);
		//! Replaces one string with another, writing the output to another string object. \n
		//! Returns the number of occurances replaced. \n
		//! Special: returns zero if no occurances were found - and the target string is NOT modified if so. Use with care!
		size_t replace_string_ex( pfc::string_base & target, const char * replace, const char * replaceWith, t_size start = 0) const;

        string_base & _formatter() const {return const_cast<string_base&>(*this);}
        
        bool has_prefix( const char * prefix) const { return string_has_prefix( get_ptr(), prefix ); }
        bool has_prefix_i( const char * prefix ) const { return string_has_prefix_i( get_ptr(), prefix); }
        bool has_suffix( const char * suffix ) const { return string_has_suffix( get_ptr(), suffix); }
        bool has_suffix_i( const char * suffix ) const { return string_has_suffix_i( get_ptr(), suffix); }

		bool equals( const char * other ) const { return strcmp(*this, other) == 0; }
	protected:
		string_base() {}
		~string_base() {}
	};

	template<t_size max_length>
	class string_fixed_t : public pfc::string_base {
	public:
		inline string_fixed_t() {init();}
		inline string_fixed_t(const string_fixed_t<max_length> & p_source) {init(); *this = p_source;}
		inline string_fixed_t(const char * p_source) {init(); set_string(p_source);}
		
		inline const string_fixed_t<max_length> & operator=(const string_fixed_t<max_length> & p_source) {set_string(p_source);return *this;}
		inline const string_fixed_t<max_length> & operator=(const char * p_source) {set_string(p_source);return *this;}

		char * lock_buffer(t_size p_requested_length) {
			if (p_requested_length >= max_length) return NULL;
			memset(m_data,0,sizeof(m_data));
			return m_data;
		}
		void unlock_buffer() {
			m_length = strlen(m_data);
		}

		inline operator const char * () const {return m_data;}
		
		const char * get_ptr() const {return m_data;}

		void add_string(const char * ptr,t_size len) {
			len = strlen_max(ptr,len);
			if (m_length + len < m_length || m_length + len > max_length) throw pfc::exception_overflow();
			for(t_size n=0;n<len;n++) {
				m_data[m_length++] = ptr[n];
			}
			m_data[m_length] = 0;
		}
		void truncate(t_size len) {
			if (len > max_length) len = max_length;
			if (m_length > len) {
				m_length = len;
				m_data[len] = 0;
			}
		}
		t_size get_length() const {return m_length;}
	private:
		inline void init() {
			PFC_STATIC_ASSERT(max_length>1);
			m_length = 0; m_data[0] = 0;
		}
		t_size m_length;
		char m_data[max_length+1];
	};

	template<template<typename> class t_alloc>
	class string8_t : public pfc::string_base {
	private:
		typedef string8_t<t_alloc> t_self;
	protected:
		pfc::array_t<char,t_alloc> m_data;
		t_size used;

		inline void makespace(t_size s) {
			if (t_alloc<char>::alloc_prioritizes_speed) {
				m_data.set_size(s);
			} else {
				const t_size old_size = m_data.get_size();
				if (old_size < s)
					m_data.set_size(s + 16);
				else if (old_size > s + 32)
					m_data.set_size(s);
			}
		}

		inline const char * _get_ptr() const throw() {return used > 0 ? m_data.get_ptr() : "";}

	public:
		inline void set_string_(const char * str) {set_string_nc(str, strlen(str));}
		inline void add_string_(const char * str) {add_string_nc(str, strlen(str));}
		void set_string_nc(const char * ptr, t_size len) {
			PFC_ASSERT(! m_data.is_owned(ptr) );
			PFC_ASSERT( strlen_max(ptr, len) == len );
			makespace(len+1);
			pfc::memcpy_t(m_data.get_ptr(),ptr,len);
			used=len;
			m_data[used]=0;
		}
		void add_string_nc(const char * ptr, t_size len) {
			PFC_ASSERT(! m_data.is_owned(ptr) );
			PFC_ASSERT( strlen_max(ptr, len) == len );
			makespace(used+len+1);
			pfc::memcpy_t(m_data.get_ptr() + used,ptr,len);
			used+=len;
			m_data[used]=0;
		}
		inline const t_self & operator= (const char * src) {set_string_(src);return *this;}
		inline const t_self & operator+= (const char * src) {add_string_(src);return *this;}
		inline const t_self & operator= (const string_base & src) {set_string(src);return *this;}
		inline const t_self & operator+= (const string_base & src) {add_string(src);return *this;}
		inline const t_self & operator= (const t_self & src) {set_string(src);return *this;}
		inline const t_self & operator+= (const t_self & src) {add_string(src);return *this;}
		
		inline const t_self & operator= (string_part_ref src) {set_string(src);return *this;}
		inline const t_self & operator+= (string_part_ref src) {add_string(src);return *this;}

		inline operator const char * () const throw() {return _get_ptr();}

		string8_t() : used(0) {}
		string8_t(const char * p_string) : used(0) {set_string_(p_string);}
		string8_t(const char * p_string,t_size p_length) : used(0) {set_string(p_string,p_length);}
		string8_t(const t_self & p_string) : used(0) {set_string(p_string);}
		string8_t(const string_base & p_string) : used(0) {set_string(p_string);}
		string8_t(string_part_ref ref) : used(0) {set_string(ref);}

		void prealloc(t_size p_size) {m_data.prealloc(p_size+1);}

		const char * get_ptr() const throw() {return _get_ptr();}

		void add_string(const char * p_string,t_size p_length = SIZE_MAX);
		void set_string(const char * p_string,t_size p_length = SIZE_MAX);
		
		void set_string(string_part_ref ref) {set_string_nc(ref.m_ptr, ref.m_len);}
		void add_string(string_part_ref ref) {add_string_nc(ref.m_ptr, ref.m_len);}

		void truncate(t_size len)
		{
			if (used>len) {used=len;m_data[len]=0;makespace(used+1);}
		}

		t_size get_length() const throw() {return used;}


		void set_char(unsigned offset,char c);

		t_size replace_nontext_chars(char p_replace = '_');
		t_size replace_char(unsigned c1,unsigned c2,t_size start = 0);
		t_size replace_byte(char c1,char c2,t_size start = 0);
		void fix_filename_chars(char def = '_',char leave=0);//replace "bad" characters, leave parameter can be used to keep eg. path separators
		void remove_chars(t_size first,t_size count); //slow
		void insert_chars(t_size first,const char * src, t_size count);//slow
		void insert_chars(t_size first,const char * src);

		//for string_buffer class
		char * lock_buffer(t_size n)
		{
			if (n + 1 == 0) throw exception_overflow();
			makespace(n+1);
			pfc::memset_t(m_data,(char)0);
			return m_data.get_ptr();;
		}

		void unlock_buffer() {
			if (m_data.get_size() > 0) {
				used=strlen(m_data.get_ptr());
				makespace(used+1);
			}
		}

		void force_reset() {used=0;m_data.force_reset();}

		inline static void g_swap(t_self & p_item1,t_self & p_item2) {
			pfc::swap_t(p_item1.m_data,p_item2.m_data);
			pfc::swap_t(p_item1.used,p_item2.used);
		}
	};

	typedef string8_t<pfc::alloc_standard> string8;
	typedef string8_t<pfc::alloc_fast> string8_fast;
	typedef string8_t<pfc::alloc_fast_aggressive> string8_fast_aggressive;
	//for backwards compatibility
	typedef string8_t<pfc::alloc_fast_aggressive> string8_fastalloc;


	template<template<typename> class t_alloc> class traits_t<string8_t<t_alloc> > : public pfc::combine_traits<pfc::traits_vtable,pfc::traits_t<pfc::array_t<char,t_alloc> > > {
	public:
		enum {
			needs_constructor = true,
		};
	};
}



#include "string8_impl.h"

#define PFC_DEPRECATE_PRINTF PFC_DEPRECATE("Use string8/string_fixed_t with operator<< overloads instead.")

namespace pfc {

	class string_buffer {
	private:
		string_base & m_owner;
		char * m_buffer;
	public:
		explicit string_buffer(string_base & p_string,t_size p_requested_length) : m_owner(p_string) {m_buffer = m_owner.lock_buffer(p_requested_length);}
		~string_buffer() {m_owner.unlock_buffer();}
		char * get_ptr() {return m_buffer;}
		operator char* () {return m_buffer;}
	};

	class PFC_DEPRECATE_PRINTF string_printf : public string8_fastalloc {
	public:
		static void g_run(string_base & out,const char * fmt,va_list list);
		void run(const char * fmt,va_list list);

		explicit string_printf(const char * fmt,...);
	};

	class PFC_DEPRECATE_PRINTF string_printf_va : public string8_fastalloc {
	public:
		string_printf_va(const char * fmt,va_list list);
	};

	class format_time {
	public:
		format_time(t_uint64 p_seconds);
		const char * get_ptr() const {return m_buffer;}
		operator const char * () const {return m_buffer;}
	protected:
		string_fixed_t<127> m_buffer;
	};


	class format_time_ex {
	public:
		format_time_ex(double p_seconds,unsigned p_extra = 3);
		const char * get_ptr() const {return m_buffer;}
		operator const char * () const {return m_buffer;}
	private:
		string_fixed_t<127> m_buffer;
	};


	double parse_timecode( const char * tc );

	class string_filename : public string8 {
	public:
		explicit string_filename(const char * fn);
	};

	class string_filename_ext : public string8 {
	public:
		explicit string_filename_ext(const char * fn);
	};

	class string_extension
	{
		char buffer[32];
	public:
		inline const char * get_ptr() const {return buffer;}
		inline t_size length() const {return strlen(buffer);}
		inline operator const char * () const {return buffer;}
		inline const char * toString() const {return buffer;}
		explicit string_extension(const char * src);
	};

	size_t find_extension_offset( const char * path );

	const char * filename_ext_v2(const char * fn, char slash = 0);

	class string_replace_extension
	{
	public:
		string_replace_extension(const char * p_path,const char * p_ext);
		inline operator const char*() const {return m_data;}
	private:
		string8 m_data;
	};

	class string_directory
	{
	public:
		string_directory(const char * p_path);
		inline operator const char*() const {return m_data;}
	private:
		string8 m_data;
	};

	void float_to_string(char * out,t_size out_max,double val,unsigned precision,bool force_sign = false);//doesnt add E+X etc, has internal range limits, useful for storing float numbers as strings without having to bother with international coma/dot settings BS
	double string_to_float(const char * src,t_size len = SIZE_MAX);

	template<>
	inline void swap_t(string8 & p_item1,string8 & p_item2)
	{
		string8::g_swap(p_item1,p_item2);
	}

	class format_float
	{
	public:
		format_float(double p_val,unsigned p_width = 0,unsigned p_prec = 7);
		format_float(const format_float & p_source) {*this = p_source;}

		inline const char * get_ptr() const {return m_buffer.get_ptr();}
		inline const char * toString() const {return m_buffer.get_ptr();}
		inline operator const char*() const {return m_buffer.get_ptr();}
	private:
		string8 m_buffer;
	};

	class format_int
	{
	public:
		format_int(t_int64 p_val,unsigned p_width = 0,unsigned p_base = 10);
		format_int(const format_int & p_source) {*this = p_source;}
		inline const char * get_ptr() const {return m_buffer;}
		inline const char * toString() const {return m_buffer;}
		inline operator const char*() const {return m_buffer;}
	private:
		char m_buffer[64];
	};


	class format_uint {
	public:
		format_uint(t_uint64 p_val,unsigned p_width = 0,unsigned p_base = 10);
		format_uint(const format_uint & p_source) {*this = p_source;}
		inline const char * get_ptr() const {return m_buffer;}
		inline const char * toString() const {return m_buffer;}
		inline operator const char*() const {return m_buffer;}
	private:
		char m_buffer[64];
	};

	class format_hex
	{
	public:
		format_hex(t_uint64 p_val,unsigned p_width = 0);
		format_hex(const format_hex & p_source) {*this = p_source;}
		inline const char * get_ptr() const {return m_buffer;}
		inline const char * toString() const {return m_buffer;}
		inline operator const char*() const {return m_buffer;}
	private:
		char m_buffer[17];
	};

	class format_hex_lowercase
	{
	public:
		format_hex_lowercase(t_uint64 p_val,unsigned p_width = 0);
		format_hex_lowercase(const format_hex_lowercase & p_source) {*this = p_source;}
		inline const char * get_ptr() const {return m_buffer;}
		inline operator const char*() const {return m_buffer;}
		inline const char * toString() const {return m_buffer;}
	private:
		char m_buffer[17];
	};
	
	char format_hex_char_lowercase(unsigned p_val);
	char format_hex_char(unsigned p_val);

    
	typedef string8_fastalloc string_formatter;
#define PFC_string_formatter() ::pfc::string_formatter()._formatter()

	class format_hexdump
	{
	public:
		format_hexdump(const void * p_buffer,t_size p_bytes,const char * p_spacing = " ");

		inline const char * get_ptr() const {return m_formatter;}
		inline operator const char * () const {return m_formatter;}
		inline const char * toString() const {return m_formatter;}
	private:
		string_formatter m_formatter;
	};

	class format_hexdump_lowercase
	{
	public:
		format_hexdump_lowercase(const void * p_buffer,t_size p_bytes,const char * p_spacing = " ");

		inline const char * get_ptr() const {return m_formatter;}
		inline operator const char * () const {return m_formatter;}
		inline const char * toString() const {return m_formatter;}

	private:
		string_formatter m_formatter;
	};

	class format_fixedpoint
	{
	public:
		format_fixedpoint(t_int64 p_val,unsigned p_point);
		inline const char * get_ptr() const {return m_buffer;}
		inline operator const char*() const {return m_buffer;}
		inline const char * toString() const {return m_buffer;}
	private:
		string_formatter m_buffer;
	};

	class format_char {
	public:
		format_char(char p_char) {m_buffer[0] = p_char; m_buffer[1] = 0;}
		inline const char * get_ptr() const {return m_buffer;}
		inline operator const char*() const {return m_buffer;}
		inline const char * toString() const {return m_buffer;}
	private:
		char m_buffer[2];
	};

	template<typename t_stringbuffer = pfc::string8_fastalloc>
	class format_pad_left {
	public:
		format_pad_left(t_size p_chars,t_uint32 p_padding /* = ' ' */,const char * p_string,t_size p_string_length = SIZE_MAX) {
			t_size source_len = 0, source_walk = 0;
			
			while(source_walk < p_string_length && source_len < p_chars) {
				unsigned dummy;
				t_size delta = pfc::utf8_decode_char(p_string + source_walk, dummy, p_string_length - source_walk);
				if (delta == 0) break;
				source_len++;
				source_walk += delta;
			}

			m_buffer.add_string(p_string,source_walk);
			m_buffer.add_chars(p_padding,p_chars - source_len);
		}
		inline const char * get_ptr() const {return m_buffer;}
		inline operator const char*() const {return m_buffer;}
		inline const char * toString() const {return m_buffer;}
	private:
		t_stringbuffer m_buffer;
	};

	template<typename t_stringbuffer = pfc::string8_fastalloc>
	class format_pad_right {
	public:
		format_pad_right(t_size p_chars,t_uint32 p_padding /* = ' ' */,const char * p_string,t_size p_string_length = SIZE_MAX) {
			t_size source_len = 0, source_walk = 0;
			
			while(source_walk < p_string_length && source_len < p_chars) {
				unsigned dummy;
				t_size delta = pfc::utf8_decode_char(p_string + source_walk, dummy, p_string_length - source_walk);
				if (delta == 0) break;
				source_len++;
				source_walk += delta;
			}

			m_buffer.add_chars(p_padding,p_chars - source_len);
			m_buffer.add_string(p_string,source_walk);
		}
		inline const char * get_ptr() const {return m_buffer;}
		inline operator const char*() const {return m_buffer;}
		inline const char * toString() const {return m_buffer;}
	private:
		t_stringbuffer m_buffer;
	};



	class format_file_size_short : public string_formatter {
	public:
		format_file_size_short(t_uint64 size) { format(size); }
		format_file_size_short(t_uint64 size, uint64_t * usedScale) { format(size); *usedScale = m_scale; }
		t_uint64 get_used_scale() const {return m_scale;}
	private:
		void format(uint64_t size);
		t_uint64 m_scale;
	};

}

inline pfc::string_base & operator<<(pfc::string_base & p_fmt,const char * p_source) {p_fmt.add_string_(p_source); return p_fmt;}
inline pfc::string_base & operator<<(pfc::string_base & p_fmt,pfc::string_part_ref source) {p_fmt.add_string(source.m_ptr, source.m_len); return p_fmt;}
inline pfc::string_base & operator<<(pfc::string_base & p_fmt,short p_val) {p_fmt.add_string(pfc::format_int(p_val)); return p_fmt;}
inline pfc::string_base & operator<<(pfc::string_base & p_fmt,unsigned short p_val) {p_fmt.add_string(pfc::format_uint(p_val)); return p_fmt;}
inline pfc::string_base & operator<<(pfc::string_base & p_fmt,int p_val) {p_fmt.add_string(pfc::format_int(p_val)); return p_fmt;}
inline pfc::string_base & operator<<(pfc::string_base & p_fmt,unsigned p_val) {p_fmt.add_string(pfc::format_uint(p_val)); return p_fmt;}
inline pfc::string_base & operator<<(pfc::string_base & p_fmt,long p_val) {p_fmt.add_string(pfc::format_int(p_val)); return p_fmt;}
inline pfc::string_base & operator<<(pfc::string_base & p_fmt,unsigned long p_val) {p_fmt.add_string(pfc::format_uint(p_val)); return p_fmt;}
inline pfc::string_base & operator<<(pfc::string_base & p_fmt,long long p_val) {p_fmt.add_string(pfc::format_int(p_val)); return p_fmt;}
inline pfc::string_base & operator<<(pfc::string_base & p_fmt,unsigned long long p_val) {p_fmt.add_string(pfc::format_uint(p_val)); return p_fmt;}
inline pfc::string_base & operator<<(pfc::string_base & p_fmt,double p_val) {p_fmt.add_string(pfc::format_float(p_val)); return p_fmt;}
inline pfc::string_base & operator<<(pfc::string_base & p_fmt,std::exception const & p_exception) {p_fmt.add_string(p_exception.what()); return p_fmt;}

template<template<typename> class t_alloc> inline pfc::string8_t<t_alloc> & operator<< (pfc::string8_t<t_alloc> & str, const char * src) {str.add_string_(src); return str;}
template<template<typename> class t_alloc> inline pfc::string8_t<t_alloc> & operator<< (pfc::string8_t<t_alloc> & str, pfc::string_base const & src) {str.add_string(src); return str;}
template<template<typename> class t_alloc> inline pfc::string8_t<t_alloc> & operator<< (pfc::string8_t<t_alloc> & str, pfc::string_part_ref src) {str.add_string(src); return str;}


namespace pfc {

	class format_array : public string_formatter {
	public:
		template<typename t_source> format_array(t_source const & source, const char * separator = ", ") {
			const t_size count = array_size_t(source);
			if (count > 0) {
				*this << source[0];
				for(t_size walk = 1; walk < count; ++walk) *this << separator << source[walk];
			}
		}
	};


	class format_hexdump_ex {
	public:
		template<typename TWord> format_hexdump_ex(const TWord * buffer, t_size bufLen, const char * spacing = " ") {
			for(t_size n = 0; n < bufLen; n++) {
				if (n > 0 && spacing != NULL) m_formatter << spacing;
				m_formatter << format_hex(buffer[n],sizeof(TWord) * 2);
			}
		}
		inline const char * get_ptr() const {return m_formatter;}
		inline operator const char * () const {return m_formatter;}
		inline const char * toString() const {return m_formatter;}
	private:
		string_formatter m_formatter;
	};





	template<typename t_char>
	class string_simple_t {
	private:
		typedef string_simple_t<t_char> t_self;
	public:
		t_size length() const {
			t_size s = m_buffer.get_size();
			if (s == 0) return 0; else return s-1;
		}
		bool is_empty() const {return m_buffer.get_size() == 0;}

		void set_string_nc(const t_char * p_source, t_size p_length) {
			if (p_length == 0) {
				m_buffer.set_size(0);
			} else {
				m_buffer.set_size(p_length + 1);
				pfc::memcpy_t(m_buffer.get_ptr(),p_source,p_length);
				m_buffer[p_length] = 0;
			}
		}
		void set_string(const t_char * p_source) {
			set_string_nc(p_source, pfc::strlen_t(p_source));
		}
		void set_string(const t_char * p_source, t_size p_length) {
			set_string_nc(p_source, strlen_max_t(p_source, p_length));
		}
		void add_string(const t_char * p_source, t_size p_length) {
			add_string_nc(p_source, strlen_max_t(p_source, p_length));
		}
		void add_string(const t_char * p_source) {
			add_string_nc(p_source, strlen_t(p_source));
		}
		void add_string_nc(const t_char * p_source, t_size p_length) {
			if (p_length > 0) {
				t_size base = length();
				m_buffer.set_size( base + p_length + 1 );
				memcpy_t(m_buffer.get_ptr() + base, p_source, p_length);
				m_buffer[base + p_length] = 0;
			}
		}
		string_simple_t() {}
		string_simple_t(const t_char * p_source) {set_string(p_source);}
		string_simple_t(const t_char * p_source, t_size p_length) {set_string(p_source, p_length);}
		const t_self & operator=(const t_char * p_source) {set_string(p_source);return *this;}
		operator const t_char* () const {return get_ptr();}
		const t_char * get_ptr() const {return m_buffer.get_size() > 0 ? m_buffer.get_ptr() : pfc::empty_string_t<t_char>();}
		const t_char * c_str() const { return get_ptr(); }
	private:
		pfc::array_t<t_char> m_buffer;
	};

	typedef string_simple_t<char> string_simple;

	template<typename t_char> class traits_t<string_simple_t<t_char> > : public traits_t<array_t<t_char> > {};
}


namespace pfc {
	class comparator_strcmp {
	public:
		inline static int compare(const char * p_item1,const char * p_item2) {return strcmp(p_item1,p_item2);}
		inline static int compare(const wchar_t * item1, const wchar_t * item2) {return wcscmp(item1, item2);}
		
		static int compare(const char * p_item1, string_part_ref p_item2) {
			return strcmp_ex(p_item1, SIZE_MAX, p_item2.m_ptr, p_item2.m_len);
		}
		static int compare(string_part_ref p_item1, string_part_ref p_item2) {
			return strcmp_ex(p_item1.m_ptr, p_item1.m_len, p_item2.m_ptr, p_item2.m_len);
		}
		static int compare(string_part_ref p_item1, const char * p_item2) {
			return strcmp_ex(p_item1.m_ptr, p_item1.m_len, p_item2, SIZE_MAX);
		}
	};

	class comparator_stricmp_ascii {
	public:
		inline static int compare(const char * p_item1,const char * p_item2) {return stricmp_ascii(p_item1,p_item2);}
	};


    class comparator_naturalSort {
    public:
        inline static int compare( const char * i1, const char * i2 ) throw() {return naturalSortCompare(i1, i2); }
    };

	template<typename t_source> static void stringCombine(pfc::string_base & out, t_source const & in, const char * separator, const char * separatorLast) {
		out.reset();
		for(typename t_source::const_iterator walk = in.first(); walk.is_valid(); ++walk) {
			if (!out.is_empty()) {
				if (walk == in.last()) out << separatorLast;
				else out << separator;
			}
			out << stringToPtr(*walk);
		}
	}

	template<typename t_output, typename t_splitCheck>
	void splitStringEx(t_output & p_output, const t_splitCheck & p_check, const char * p_string, t_size p_stringLen = SIZE_MAX) {
		t_size walk = 0, splitBase = 0;
		const t_size max = strlen_max(p_string,p_stringLen);
		for(;walk < max;) {
			t_size delta = p_check(p_string + walk,max - walk);
			if (delta > 0) {
				if (walk > splitBase) p_output(p_string + splitBase, walk - splitBase);
				splitBase = walk + delta;
			} else {
				delta = utf8_char_len(p_string + walk, max - walk);
				if (delta == 0) break;
			}
			walk += delta;
		}
		if (walk > splitBase) p_output(p_string + splitBase, walk - splitBase);
	}

	class __splitStringSimple_calculateSubstringCount {
	public:
		__splitStringSimple_calculateSubstringCount() : m_count() {}
		void operator() (const char *, t_size) {++m_count;}
		t_size get() const {return m_count;}
	private:
		t_size m_count;
	};

	template<typename t_param> class _splitStringSimple_check;

	template<> class _splitStringSimple_check<const char*> {
	public:
		_splitStringSimple_check(const char * p_chars) {
			m_chars.set_size(strlen_utf8(p_chars));
			for(t_size walk = 0, ptr = 0; walk < m_chars.get_size(); ++walk) {
				ptr += utf8_decode_char(p_chars + ptr,m_chars[walk]);
			}
		}
		t_size operator()(const char * p_string, t_size p_stringLen) const {
			t_uint32 c;
			t_size delta = utf8_decode_char(p_string, c, p_stringLen);
			if (delta > 0) {
				for(t_size walk = 0; walk < m_chars.get_size(); ++walk) {
					if (m_chars[walk] == c) return delta;
				}
			}
			return 0;
		}
	private:
		array_t<t_uint32> m_chars;
	};
	template<> class _splitStringSimple_check<char> {
	public:
		_splitStringSimple_check(char c) : m_char(c) {}
		t_size operator()(const char * str, t_size len) const {
			PFC_ASSERT( len > 0 );
			if (*str == m_char) return 1;
			else return 0;
		}
	private:
		const char m_char;
	};
	template<typename t_array>
	class __splitStringSimple_arrayWrapper {
	public:
		__splitStringSimple_arrayWrapper(t_array & p_array) : m_walk(), m_array(p_array) {}
		void operator()(const char * p_string, t_size p_stringLen) {
			m_array[m_walk++] = string_part(p_string,p_stringLen);
		}
	private:
		t_size m_walk;
		t_array & m_array;
	};
	template<typename t_list>
	class __splitStringSimple_listWrapper {
	public:
		__splitStringSimple_listWrapper(t_list & p_list) : m_list(p_list) {}
		void operator()(const char * p_string, t_size p_stringLen) {
			m_list += string_part(p_string, p_stringLen);
		}
	private:
		t_list & m_list;
	};

	template<typename t_array, typename t_split>
	void splitStringSimple_toArray(t_array & p_output, t_split p_split, const char * p_string, t_size p_stringLen = SIZE_MAX) {
		_splitStringSimple_check<t_split> strCheck(p_split);

		{
			__splitStringSimple_calculateSubstringCount wrapper;
			splitStringEx(wrapper,strCheck,p_string,p_stringLen);
			p_output.set_size(wrapper.get());
		}

		{
			__splitStringSimple_arrayWrapper<t_array> wrapper(p_output);
			splitStringEx(wrapper,strCheck,p_string,p_stringLen);
		}
	}
	template<typename t_list, typename t_split>
	void splitStringSimple_toList(t_list & p_output, t_split p_split, const char * p_string, t_size p_stringLen = SIZE_MAX) {
		_splitStringSimple_check<t_split> strCheck(p_split);

		__splitStringSimple_listWrapper<t_list> wrapper(p_output);
		splitStringEx(wrapper,strCheck,p_string,p_stringLen);
	}

	template<typename t_out> void splitStringByLines(t_out & out, const char * str) {
		for(;;) {
			const char * next = strchr(str, '\n');
			if (next == NULL) {
				out += string_part(str, strlen(str)); break;
			}
			const char * walk = next;
			while(walk > str && walk[-1] == '\r') --walk;
			out += string_part(str, walk - str);
			str = next + 1;
		}
	}
	template<typename t_out> void splitStringByChar(t_out & out, const char * str, char c) {
		for(;;) {
			const char * next = strchr(str, c);
			if (next == NULL) {
				out += string_part(str, strlen(str)); break;
			}
			out += string_part(str, next - str);
			str = next + 1;
		}
	}
	template<typename t_out> void splitStringBySubstring(t_out & out, const char * str, const char * split) {
		for(;;) {
			const char * next = strstr(str, split);
			if (next == NULL) {
				out += string_part(str, strlen(str)); break;
			}
			out += string_part(str, next - str);
			str = next + strlen(split);
		}
	}

	void stringToUpperAppend(string_base & p_out, const char * p_source, t_size p_sourceLen);
	void stringToLowerAppend(string_base & p_out, const char * p_source, t_size p_sourceLen);
	int stringCompareCaseInsensitive(const char * s1, const char * s2);
	int stringCompareCaseInsensitiveEx(string_part_ref s1, string_part_ref s2);
	t_uint32 charLower(t_uint32 param);
	t_uint32 charUpper(t_uint32 param);
	bool stringEqualsI_utf8(const char * p1,const char * p2) throw();
	bool stringEqualsI_ascii(const char * p1,const char * p2) throw();
	char ascii_tolower_lookup(char c);

	template<typename T> inline const char * stringToPtr(T const& val) {return val.get_ptr();}
	inline const char * stringToPtr(const char* val) {return val;}

	template<typename T> static string_part_ref stringToRef(T const & val) {return string_part(stringToPtr(val), val.length());}
	inline string_part_ref stringToRef(string_part_ref val) {return val;}
	inline string_part_ref stringToRef(const char * val) {return string_part(val, strlen(val));}




	class string_base_ref : public string_base {
	public:
		string_base_ref(const char * ptr) : m_ptr(ptr), m_len(strlen(ptr)) {}
		const char * get_ptr() const {return m_ptr;}
		t_size get_length() const {return m_len;}
	private:
		void add_string(const char *,t_size) {throw pfc::exception_not_implemented();}
		void set_string(const char *,t_size) {throw pfc::exception_not_implemented();}
		void truncate(t_size) {throw pfc::exception_not_implemented();}
		char * lock_buffer(t_size) {throw pfc::exception_not_implemented();}
		void unlock_buffer() {throw pfc::exception_not_implemented();}
	private:
		const char * const m_ptr;
		t_size const m_len;
	};

	//! Writes a string to a fixed-size buffer. Truncates the string if necessary. Always writes a null terminator.
	template<typename TChar, t_size len, typename TSource>
	void stringToBuffer(TChar (&buffer)[len], const TSource & source) {
		PFC_STATIC_ASSERT(len>0);
		t_size walk;
		for(walk = 0; walk < len - 1 && source[walk] != 0; ++walk) {
			buffer[walk] = source[walk];
		}
		buffer[walk] = 0;
	}

	//! Same as stringToBuffer() but throws exception_overflow() if the string could not be fully written, including null terminator.
	template<typename TChar, t_size len, typename TSource>
	void stringToBufferGuarded(TChar (&buffer)[len], const TSource & source) {
		t_size walk;
		for(walk = 0; source[walk] != 0; ++walk) {
			if (walk >= len) throw exception_overflow();
			buffer[walk] = source[walk];
		}
		if (walk >= len) throw exception_overflow();
		buffer[walk] = 0;
	}


	template<typename t_char> int _strcmp_partial_ex(const t_char * p_string,t_size p_string_length,const t_char * p_substring,t_size p_substring_length) throw() {
		for(t_size walk=0;walk<p_substring_length;walk++) {
			t_char stringchar = (walk>=p_string_length ? 0 : p_string[walk]);
			t_char substringchar = p_substring[walk];
			int result = compare_t(stringchar,substringchar);
			if (result != 0) return result;
		}
		return 0;
	}

	template<typename t_char> int strcmp_partial_ex_t(const t_char * p_string,t_size p_string_length,const t_char * p_substring,t_size p_substring_length) throw() {
		p_string_length = strlen_max_t(p_string,p_string_length); p_substring_length = strlen_max_t(p_substring,p_substring_length);
		return _strcmp_partial_ex(p_string,p_string_length,p_substring,p_substring_length);
	}

	template<typename t_char>
	int strcmp_partial_t(const t_char * p_string,const t_char * p_substring) throw() {return strcmp_partial_ex_t(p_string,SIZE_MAX,p_substring,SIZE_MAX);}

	inline int strcmp_partial_ex(const char * str, t_size strLen, const char * substr, t_size substrLen) throw() {return strcmp_partial_ex_t(str, strLen, substr, substrLen); }
	inline int strcmp_partial(const char * str, const char * substr) throw() {return strcmp_partial_t(str, substr); }

    int stricmp_ascii_partial( const char * str, const char * substr) throw();
    
	void urlEncodeAppendRaw(pfc::string_base & out, const char * in, t_size inSize);
	void urlEncodeAppend(pfc::string_base & out, const char * in);
	void urlEncode(pfc::string_base & out, const char * in);


	char * strDup(const char * src); // POSIX strdup() clone, prevent MSVC complaining

	string8 lineEndingsToWin( const char * str );

	string8 stringToUpper( const char * str, size_t len = SIZE_MAX );
	string8 stringToLower( const char * str, size_t len = SIZE_MAX );
}