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/*
Miranda Crash Dumper Plugin
Copyright (C) 2008 - 2012 Boris Krasnovskiy All Rights Reserved
This program 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 version 2
of the License.
This program 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 this program. If not, see <http://www.gnu.org/licenses/>.
*/
#ifndef _BKSTRING_H_
#define _BKSTRING_H_
class bkstring
{
public:
typedef size_t size_type;
typedef TCHAR value_type;
typedef value_type* iterator;
typedef const value_type* const_iterator;
#if defined(_MSC_VER) && _MSC_VER > 1200
static const size_type npos = size_type(-1);
#else
enum { npos = -1 };
#endif
private:
value_type* buf;
size_type sizeAlloced;
size_type lenBuf;
void areserve(size_type len) { reserve(lenBuf + len); }
public:
explicit bkstring() : buf((TCHAR*)_T("")), sizeAlloced(0), lenBuf(0)
{}
bkstring(const value_type* _Ptr, size_type _Count) : sizeAlloced(0), lenBuf(0)
{ assign(_Ptr, _Count); }
bkstring(const value_type* _Ptr) : sizeAlloced(0), lenBuf(0)
{ assign(_Ptr); }
bkstring(size_type _Count, value_type _Ch) : sizeAlloced(0), lenBuf(0)
{ assign(_Count, _Ch); }
bkstring(const bkstring& _Str) : sizeAlloced(0), lenBuf(0)
{ assign(_Str); }
bkstring(const bkstring& _Str, size_type _Off, size_type _Count) : sizeAlloced(0), lenBuf(0)
{ assign(_Str, _Off, _Count); }
~bkstring();
size_type size(void) const { return lenBuf; }
const value_type* c_str(void) const { return buf; }
void clear(void) { if (lenBuf) { lenBuf = 0; buf[0] = 0; } }
void insert(const value_type *txt);
void reserve(size_type len);
bkstring& assign(const value_type* _Ptr)
{ return assign(_Ptr, _tcslen(_Ptr)); }
bkstring& assign(const bkstring& _Str)
{ return assign(_Str, 0, (size_type)npos); }
bkstring& assign(const value_type* _Ptr, size_type _Count);
bkstring& assign(const bkstring& _Str, size_type off, size_type _Count);
bkstring& assign(size_type _Count, value_type _Ch);
bkstring& append(const value_type* _Ptr);
bkstring& append(const value_type* _Ptr, size_type _Count);
bkstring& append(const bkstring& _Str, size_type _Off, size_type _Count);
bkstring& append(const bkstring& _Str);
bkstring& append(size_type _Count, value_type _Ch);
int compare(const bkstring& _Str) const
{ return _tcscmp(buf, _Str.c_str()); }
int compare(size_type _Pos1, size_type _Num1, const bkstring& _Str) const
{ return _tcsncmp(&buf[_Pos1], _Str.c_str(), _Num1); }
int compare(size_type _Pos1, size_type _Num1, const bkstring& _Str, size_type _Off, size_type _Count) const
{ return _tcsncmp(&buf[_Pos1], _Str.c_str()+_Off, min(_Num1, _Count)); }
int compare(const value_type* _Ptr) const
{ return _tcscmp(buf, _Ptr); }
int compare(size_type _Pos1, size_type _Num1, const value_type* _Ptr) const
{ return _tcsncmp(&buf[_Pos1], _Ptr, _Num1); }
int compare(size_type _Pos1, size_type _Num1, const value_type* _Ptr, size_type _Num2) const
{ return _tcsncmp(&buf[_Pos1], _Ptr, min(_Num1, _Num2)); }
int comparei(const bkstring& _Str) const
{ return _tcsicmp(buf, _Str.c_str()); }
int comparei(size_type _Pos1, size_type _Num1, const bkstring& _Str) const
{ return _tcsnicmp(&buf[_Pos1], _Str.c_str(), _Num1); }
int comparei(size_type _Pos1, size_type _Num1, const bkstring& _Str, size_type _Off, size_type _Count) const
{ return _tcsnicmp(&buf[_Pos1], _Str.c_str()+_Off, min(_Num1, _Count)); }
int comparei(const value_type* _Ptr) const
{ return _tcsicmp(buf, _Ptr); }
int comparei(size_type _Pos1, size_type _Num1, const value_type* _Ptr) const
{ return _tcsnicmp(&buf[_Pos1], _Ptr, _Num1); }
int comparei(size_type _Pos1, size_type _Num1, const value_type* _Ptr, size_type _Num2) const
{ return _tcsnicmp(&buf[_Pos1], _Ptr, min(_Num1, _Num2)); }
bool empty(void) const { return lenBuf == 0; };
bkstring& erase(size_type _Pos = 0, size_type _Count = npos);
size_type find(value_type _Ch, size_type _Off = 0) const;
size_type find(const value_type* _Ptr, size_type _Off = 0) const;
size_type find(bkstring& _Str, size_type _Off = 0) const
{ return find(_Str.c_str(), _Off); }
size_type find_last_of(value_type _Ch, size_type _Off = npos) const;
bkstring& insert(size_type _P0, const value_type* _Ptr)
{ return insert(_P0, _Ptr, _tcslen(_Ptr)); }
bkstring& insert(size_type _P0, const bkstring& _Str)
{ return insert(_P0, _Str.c_str(), _Str.size()); };
bkstring& insert(size_type _P0, const value_type* _Ptr, size_type _Count);
bkstring& insert(size_type _P0, size_type _Count, value_type _Ch);
bkstring substr(size_type _Off = 0, size_type _Count = npos) const
{ return bkstring(*this, _Off, _Count); }
bkstring& operator = (const bkstring& _Str)
{ return assign(_Str); }
bkstring& operator =(const value_type* _Ptr)
{ return assign(_Ptr); }
bkstring& operator = (const value_type _Ch)
{ return assign(1, _Ch); }
bkstring& operator +=(const bkstring& _Str)
{ return append(_Str); }
bkstring& operator += (const value_type* _Ptr)
{ return append(_Ptr); }
bkstring& operator += (const value_type _Ch)
{ return append(1, _Ch); }
value_type& operator[] (int ind) const
{ return buf[ind]; }
friend bkstring operator+ (const bkstring& _Str1, const bkstring& _Str2)
{ bkstring s(_Str1); return s.append(_Str2); }
friend bkstring operator+ (const bkstring& _Str1, const value_type* _Ptr2)
{ bkstring s(_Str1); return s.append(_Ptr2); }
friend bkstring operator+(const value_type* _Ptr1, const bkstring& _Str2)
{ bkstring s(_Ptr1); return s.append(_Str2); }
friend bkstring operator+ (const bkstring& _Str1, const value_type _Ch)
{ bkstring s(_Str1); return s.append(1, _Ch); }
friend bool operator==(const bkstring& _Str1, const bkstring& _Str2)
{ return _Str1.compare(_Str2) == 0; }
friend bool operator==(const bkstring& _Str1, const value_type* _Ptr2)
{ return _Str1.compare(_Ptr2) == 0; }
friend bool operator==(const value_type* _Ptr1, const bkstring& _Str2)
{ return _Str2.compare(_Ptr1) == 0; }
friend bool operator!=(const bkstring& _Str1, const bkstring& _Str2)
{ return _Str1.compare(_Str2) != 0; }
friend bool operator!=(const bkstring& _Str1, const value_type* _Ptr2)
{ return _Str1.compare(_Ptr2) != 0; }
friend bool operator!=(const value_type* _Ptr1, const bkstring& _Str2)
{ return _Str2.compare(_Ptr1) != 0; }
friend bool operator<(const bkstring& _Str1, const bkstring& _Str2)
{ return _Str1.compare(_Str2) < 0; }
friend bool operator<(const bkstring& _Str1, const value_type* _Ptr2)
{ return _Str1.compare(_Ptr2) < 0; }
friend bool operator<(const value_type* _Ptr1, const bkstring& _Str2)
{ return _Str2.compare(_Ptr1) > 0; }
friend bool operator>(const bkstring& _Str1, const bkstring& _Str2)
{ return _Str1.compare(_Str2) > 0; }
friend bool operator>(const bkstring& _Str1, const value_type* _Ptr2)
{ return _Str1.compare(_Ptr2) > 0; }
friend bool operator>(const value_type* _Ptr1, const bkstring& _Str2)
{ return _Str2.compare(_Ptr1) < 0; }
friend bool operator<=(const bkstring& _Str1, const bkstring& _Str2)
{ return _Str1.compare(_Str2) <= 0; }
friend bool operator<=(const bkstring& _Str1, const value_type* _Ptr2)
{ return _Str1.compare(_Ptr2) <= 0; }
friend bool operator<=(const value_type* _Ptr1, const bkstring& _Str2)
{ return _Str2.compare(_Ptr1) >= 0; }
friend bool operator>=(const bkstring& _Str1, const bkstring& _Str2)
{ return _Str1.compare(_Str2) >= 0; }
friend bool operator>=(const bkstring& _Str1, const value_type* _Ptr2)
{ return _Str1.compare(_Ptr2) >= 0; }
friend bool operator>=(const value_type* _Ptr1, const bkstring& _Str2)
{ return _Str2.compare(_Ptr1) <= 0; }
friend bool operator==(const value_type _Ch1, const bkstring& _Str2)
{ return (_Str2.size() == 1) && (_Str2[0] == _Ch1); }
friend bool operator==(const bkstring& _Str1, const value_type _Ch2)
{ return (_Str1.size() == 1) && (_Str1[0] == _Ch2); }
friend bool operator!=(const value_type _Ch1, const bkstring& _Str2)
{ return (_Str2.size() != 1) || (_Str2[0] != _Ch1); }
friend bool operator!=(const bkstring& _Str1, const value_type _Ch2)
{ return (_Str1.size() != 1) || (_Str1[0] != _Ch2); }
iterator begin(void)
{ return buf; }
const_iterator begin(void) const
{ return buf; }
iterator end(void)
{ return buf + lenBuf; }
const_iterator end(void) const
{ return buf + lenBuf; }
// Custom extentions
void appendfmt(const value_type *fmt, ...);
size_type sizebytes(void) const { return lenBuf * sizeof(value_type); }
};
//const bkstring::size_type bkstring::npos = -1;
#endif
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