finalcut/src/fstring.cpp

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/***********************************************************************
* fstring.cpp - Unicode string class with UTF-8 support *
* *
* This file is part of the FINAL CUT widget toolkit *
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* *
* Copyright 2012-2021 Markus Gans *
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* *
* FINAL CUT is free software; you can redistribute it and/or modify *
* it under the terms of the GNU Lesser General Public License as *
* published by the Free Software Foundation; either version 3 of *
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* the License, or (at your option) any later version. *
* *
* FINAL CUT is distributed in the hope that it will be useful, but *
* WITHOUT ANY WARRANTY; without even the implied warranty of *
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *
* GNU Lesser General Public License for more details. *
* *
* You should have received a copy of the GNU Lesser General Public *
* License along with this program. If not, see *
* <http://www.gnu.org/licenses/>. *
***********************************************************************/
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#include <algorithm>
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#include <string>
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#include <utility>
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#include <vector>
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#include "final/fapplication.h"
#include "final/flog.h"
#include "final/fstring.h"
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namespace finalcut
{
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// static class attributes
wchar_t FString::null_char{L'\0'};
const wchar_t FString::const_null_char{L'\0'};
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//----------------------------------------------------------------------
// class FString
//----------------------------------------------------------------------
// constructors and destructor
//----------------------------------------------------------------------
FString::FString (int len)
{
if ( len > 0 )
_initLength(std::size_t(len));
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else
_initLength(0);
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}
//----------------------------------------------------------------------
FString::FString (std::size_t len)
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{
_initLength(len);
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}
//----------------------------------------------------------------------
FString::FString (std::size_t len, wchar_t c)
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{
_initLength(len);
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const wchar_t* ps = string;
wchar_t* pe = string + len;
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while ( pe != ps )
*--pe = c;
}
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//----------------------------------------------------------------------
FString::FString (std::size_t len, const UniChar& c)
: FString(len, wchar_t(c))
{ }
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//----------------------------------------------------------------------
FString::FString (const FString& s) // copy constructor
{
if ( ! s.isNull() )
_assign (s.string);
}
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//----------------------------------------------------------------------
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FString::FString (FString&& s) noexcept // move constructor
: string{s.string}
, length{s.length}
, bufsize{s.bufsize}
, c_string{s.c_string}
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{
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s.string = nullptr;
s.length = 0;
s.bufsize = 0;
s.c_string = nullptr;
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}
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//----------------------------------------------------------------------
FString::FString (const std::wstring& s)
{
if ( ! s.empty() )
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_assign (s.c_str());
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}
//----------------------------------------------------------------------
FString::FString (const wchar_t s[])
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{
if ( s )
_assign (s);
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}
//----------------------------------------------------------------------
FString::FString (const std::string& s)
{
if ( ! s.empty() )
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{
const wchar_t* wc_string = _to_wcstring(s.c_str());
_assign(wc_string);
delete[] wc_string;
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}
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}
//----------------------------------------------------------------------
FString::FString (const char s[])
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{
if ( s )
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{
const wchar_t* wc_string = _to_wcstring(s);
_assign( wc_string );
delete[] wc_string;
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}
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}
//----------------------------------------------------------------------
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FString::FString (const UniChar& c)
{
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std::array<wchar_t, 2> s{{ static_cast<wchar_t>(c), L'\0' }};
_assign (s.data());
}
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//----------------------------------------------------------------------
FString::FString (const wchar_t c)
{
if ( c )
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{
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std::array<wchar_t, 2> s{{ c, L'\0' }};
_assign (s.data());
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}
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}
//----------------------------------------------------------------------
FString::FString (const char c)
{
if ( c )
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{
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std::array<wchar_t, 2> s{{ wchar_t(c & 0xff), L'\0' }};
_assign (s.data());
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}
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}
//----------------------------------------------------------------------
FString::~FString() // destructor
{
if ( string )
delete[](string);
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if ( c_string )
delete[](c_string);
}
// FString operators
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//----------------------------------------------------------------------
FString& FString::operator = (const FString& s)
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{
if ( &s != this )
_assign (s.string);
return *this;
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}
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//----------------------------------------------------------------------
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FString& FString::operator = (FString&& s) noexcept
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{
if ( &s != this )
{
if ( string )
delete[](string);
if ( c_string )
delete[](c_string);
string = s.string;
length = s.length;
bufsize = s.bufsize;
c_string = s.c_string;
s.string = nullptr;
s.length = 0;
s.bufsize = 0;
s.c_string = nullptr;
}
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return *this;
}
//----------------------------------------------------------------------
const FString& FString::operator += (const FString& s)
{
_insert (length, s.length, s.string);
return *this;
}
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//----------------------------------------------------------------------
FString& FString::operator << (const FString& s)
{
_insert (length, s.length, s.string);
return *this;
}
//----------------------------------------------------------------------
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FString& FString::operator << (const UniChar& c)
{
FString s{static_cast<wchar_t>(c)};
_insert (length, s.length, s.string);
return *this;
}
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//----------------------------------------------------------------------
FString& FString::operator << (const wchar_t c)
{
FString s{c};
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_insert (length, s.length, s.string);
return *this;
}
//----------------------------------------------------------------------
FString& FString::operator << (const char c)
{
FString s{c};
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_insert (length, s.length, s.string);
return *this;
}
//----------------------------------------------------------------------
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const FString& FString::operator >> (FString& s) const
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{
s._insert (s.length, length, string);
return *this;
}
//----------------------------------------------------------------------
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const FString& FString::operator >> (std::wstring& s) const
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{
s += std::wstring(string);
return *this;
}
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//----------------------------------------------------------------------
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const FString& FString::operator >> (std::string& s) const
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{
s += toString();
return *this;
}
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//----------------------------------------------------------------------
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const FString& FString::operator >> (wchar_t& c) const
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{
c = ( length > 0 ) ? string[0] : L'\0';
return *this;
}
//----------------------------------------------------------------------
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const FString& FString::operator >> (char& c) const
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{
c = ( length > 0 ) ? char(string[0] & 0xff) : '\0';
return *this;
}
//----------------------------------------------------------------------
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const FString& FString::operator >> (sInt16& num) const
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{
num = toShort();
return *this;
}
//----------------------------------------------------------------------
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const FString& FString::operator >> (uInt16& num) const
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{
num = toUShort();
return *this;
}
//----------------------------------------------------------------------
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const FString& FString::operator >> (sInt32& num) const
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{
num = toInt();
return *this;
}
//----------------------------------------------------------------------
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const FString& FString::operator >> (uInt32& num) const
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{
num = toUInt();
return *this;
}
//----------------------------------------------------------------------
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const FString& FString::operator >> (sInt64& num) const
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{
num = toLong();
return *this;
}
//----------------------------------------------------------------------
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const FString& FString::operator >> (uInt64& num) const
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{
num = toULong();
return *this;
}
//----------------------------------------------------------------------
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const FString& FString::operator >> (double& num) const
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{
num = toDouble();
return *this;
}
//----------------------------------------------------------------------
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const FString& FString::operator >> (float& num) const
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{
num = toFloat();
return *this;
}
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//----------------------------------------------------------------------
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FString::operator bool () const
{
return string;
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}
//----------------------------------------------------------------------
const FString& FString::operator () () const
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{
return *this;
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}
// public methods of FString
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//----------------------------------------------------------------------
FString FString::clear()
{
if ( string )
delete[](string);
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length = 0;
bufsize = 0;
string = nullptr;
return *this;
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}
//----------------------------------------------------------------------
const wchar_t* FString::wc_str() const
{
// Returns a constant wide character string
return string;
}
//----------------------------------------------------------------------
wchar_t* FString::wc_str()
{
// Returns a wide character string
return string;
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}
//----------------------------------------------------------------------
const char* FString::c_str() const
{
// Returns a constant c-string
if ( length > 0 )
return _to_cstring(string);
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else if ( string )
return "";
else
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return nullptr;
}
//----------------------------------------------------------------------
char* FString::c_str()
{
// Returns a c-string
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if ( length > 0 )
return const_cast<char*>(_to_cstring(string));
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else if ( string )
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{
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static char empty_string{'\0'};
return &empty_string;
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}
else
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return nullptr;
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}
//----------------------------------------------------------------------
std::string FString::toString() const
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{
return {c_str(), length};
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}
//----------------------------------------------------------------------
FString FString::toLower() const
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{
FString s{*this};
auto to_lower = [] (wchar_t& c)
{
c = wchar_t(std::towlower(std::wint_t(c)));
};
std::for_each (s.begin(), s.end(), to_lower);
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return s;
}
//----------------------------------------------------------------------
FString FString::toUpper() const
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{
FString s{*this};
auto to_upper = [] (wchar_t& c)
{
c = wchar_t(std::towupper(std::wint_t(c)));
};
std::for_each (s.begin(), s.end(), to_upper);
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return s;
}
//----------------------------------------------------------------------
sInt16 FString::toShort() const
{
const long num = toLong();
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if ( num > SHRT_MAX )
throw std::overflow_error ("overflow");
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if ( num < SHRT_MIN )
throw std::underflow_error ("underflow");
return static_cast<sInt16>(num);
}
//----------------------------------------------------------------------
uInt16 FString::toUShort() const
{
const uLong num = toULong();
if ( num > USHRT_MAX )
throw std::overflow_error ("overflow");
return static_cast<uInt16>(num);
}
//----------------------------------------------------------------------
int FString::toInt() const
{
const long num = toLong();
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if ( num > INT_MAX )
throw std::overflow_error ("overflow");
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if ( num < INT_MIN )
throw std::underflow_error ("underflow");
return static_cast<int>(num);
}
//----------------------------------------------------------------------
uInt FString::toUInt() const
{
const uLong num = toULong();
if ( num > UINT_MAX )
throw std::overflow_error ("overflow");
return static_cast<uInt>(num);
}
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//----------------------------------------------------------------------
long FString::toLong() const
{
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bool neg{false};
long num{0};
long tenth_limit{LONG_MAX / 10};
long tenth_limit_digit{LONG_MAX % 10};
const FString s{trim()};
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const wchar_t* p = s.string;
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if ( ! p )
throw std::invalid_argument ("null value");
if ( ! *p )
throw std::invalid_argument ("empty value");
if ( *p == L'-' )
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{
p++;
neg = true;
tenth_limit = -(LONG_MIN / 10);
tenth_limit_digit += 1;
}
else if ( *p == L'+' )
{
p++;
}
while ( std::iswdigit(std::wint_t(*p)) )
{
auto d = uChar(*p - L'0');
if ( num > tenth_limit
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|| (num == tenth_limit && d > tenth_limit_digit) )
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{
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if ( neg )
throw std::underflow_error ("underflow");
else
throw std::overflow_error ("overflow");
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}
num = (num << 3) + (num << 1) + d; // (10 * num) + d
p++;
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}
if ( *p != L'\0' && ! std::iswdigit(std::wint_t(*p)) )
throw std::invalid_argument ("no valid number");
if ( neg )
num = (~num) + 1;
return static_cast<long>(num);
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}
//----------------------------------------------------------------------
uLong FString::toULong() const
{
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uLong num{0};
const uLong tenth_limit{ULONG_MAX / 10};
const uLong tenth_limit_digit{ULONG_MAX % 10};
const FString s{trim()};
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const wchar_t* p = s.string;
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if ( ! p )
throw std::invalid_argument ("null value");
if ( ! *p )
throw std::invalid_argument ("empty value");
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if ( *p == L'-' )
{
throw std::underflow_error ("underflow");
}
else if ( *p == L'+' )
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{
p++;
}
while ( std::iswdigit(std::wint_t(*p)) )
{
const auto d = uChar(*p - L'0');
if ( num > tenth_limit
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|| (num == tenth_limit && d > tenth_limit_digit) )
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{
throw std::overflow_error ("overflow");
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}
num = (num << 3) + (num << 1) + d; // (10 * num) + d
p++;
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}
if ( *p != L'\0' && ! std::iswdigit(std::wint_t(*p)) )
throw std::invalid_argument ("no valid number");
return static_cast<uLong>(num);
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}
//----------------------------------------------------------------------
float FString::toFloat() const
{
const double num = toDouble();
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if ( num > double(FLT_MAX) || num < double(-FLT_MAX) )
throw std::overflow_error ("overflow");
if ( std::fabs(num) < double(FLT_EPSILON) ) // num == 0.0f
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throw std::underflow_error ("underflow");
return static_cast<float>(num);
}
//----------------------------------------------------------------------
double FString::toDouble() const
{
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if ( ! string )
throw std::invalid_argument ("null value");
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if ( ! *string )
throw std::invalid_argument ("empty value");
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wchar_t* p{};
const double ret = std::wcstod(string, &p);
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if ( p != nullptr && *p != L'\0' )
throw std::invalid_argument ("no valid floating point value");
if ( errno == ERANGE )
{
if ( ret >= HUGE_VAL || ret <= -HUGE_VAL )
throw std::overflow_error ("overflow");
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if ( std::fabs(ret) < DBL_EPSILON ) // ret == 0.0l
throw std::underflow_error ("underflow");
}
return ret;
}
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//----------------------------------------------------------------------
FString FString::ltrim() const
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{
const FString s{*this};
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// handle NULL and empty string
if ( ! (string && *string) )
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return s;
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const wchar_t* p = s.string;
while ( std::iswspace(std::wint_t(*p)) )
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p++;
return p;
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}
//----------------------------------------------------------------------
FString FString::rtrim() const
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{
FString s{*this};
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// handle NULL and empty string
if ( ! (string && *string) )
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return s;
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wchar_t* p = s.string;
wchar_t* last = p + length;
while ( std::iswspace(std::wint_t(*--last)) && last > p )
s.length--;
if ( last == p && std::iswspace(std::wint_t(*last)) )
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s = L"";
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else
*(last + 1) = '\0';
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return s;
}
//----------------------------------------------------------------------
FString FString::trim() const
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{
// handle NULL and empty string
if ( ! (string && *string) )
return *this;
const FString s{ltrim()};
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return s.rtrim();
}
//----------------------------------------------------------------------
FString FString::left (std::size_t len) const
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{
FString s{*this};
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// handle NULL and empty string
if ( ! (string && *string) )
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return s;
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if ( len > length )
return s;
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wchar_t* p = s.string;
s.length = len;
*(p + len) = '\0';
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return s;
}
//----------------------------------------------------------------------
FString FString::right (std::size_t len) const
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{
const FString s{*this};
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// handle NULL and empty string
if ( ! (string && *string) )
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return s;
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if ( len > length )
return s;
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const wchar_t* p = s.string;
p += (length - len);
return p;
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}
//----------------------------------------------------------------------
FString FString::mid (std::size_t pos, std::size_t len) const
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{
const FString s{*this};
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// handle NULL and empty string
if ( ! (string && *string) )
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return s;
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if ( pos == 0 )
pos = 1;
if ( pos <= length && pos + len > length )
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len = length - pos + 1;
if ( pos > length || pos + len - 1 > length || len == 0 )
return {L""};
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wchar_t* p = s.string;
wchar_t* first = p + pos - 1;
*(first + len) = '\0';
return first;
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}
//----------------------------------------------------------------------
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FStringList FString::split (const FString& delimiter) const
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{
const FString s{*this};
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FStringList string_list{};
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// handle NULL and empty string
if ( ! (string && *string) )
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return string_list;
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2019-08-25 22:16:00 +02:00
wchar_t* rest{nullptr};
const wchar_t* token = _extractToken(&rest, s.string, delimiter.wc_str());
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while ( token )
{
string_list.emplace_back(token);
token = _extractToken (&rest, nullptr, delimiter.wc_str());
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}
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return string_list;
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}
//----------------------------------------------------------------------
FString& FString::setString (const FString& s)
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{
_assign (s.string);
return *this;
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}
//----------------------------------------------------------------------
FString& FString::setNumber (sInt64 num)
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{
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std::array<wchar_t, 30> buf{};
2020-04-13 12:40:11 +02:00
wchar_t* s = &buf[29]; // Pointer to the last character
auto abs_num = static_cast<uInt64>(num);
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if ( num < 0 )
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abs_num = static_cast<uInt64>(-num);
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*s = '\0';
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do
{
*--s = L"0123456789"[abs_num % 10];
abs_num /= 10;
}
while ( abs_num );
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if ( num < 0 )
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*--s = '-';
_assign (s);
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return *this;
}
//----------------------------------------------------------------------
FString& FString::setNumber (uInt64 num)
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{
wchar_t buf[30]{};
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wchar_t* s = &buf[29]; // Pointer to the last character
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*s = '\0';
do
{
*--s = L"0123456789"[num % 10];
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num /= 10;
}
while ( num );
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_assign (s);
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return *this;
}
//----------------------------------------------------------------------
FString& FString::setNumber (lDouble f_num, int precision)
{
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std::array<wchar_t, 20> format{}; // = "%.<precision>Lg"
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wchar_t* s = &format[0];
*s++ = L'%';
*s++ = L'.';
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// The precision can not have more than 2 digits
if ( precision > 99 )
precision = 99;
if ( precision >= 10 )
{
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// The precision value is 2 digits long
*s++ = precision / 10 + L'0';
*s++ = precision % 10 + L'0';
}
else
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{
// The precision value has only 1 digit
*s++ = precision + L'0';
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}
*s++ = L'L';
*s++ = L'g';
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*s = L'\0';
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return sprintf(format.data(), f_num);
}
//----------------------------------------------------------------------
FString& FString::setFormatedNumber (sInt64 num, char separator)
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{
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int n{0};
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std::array<wchar_t, 30> buf{};
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wchar_t* s = &buf[29]; // Pointer to the last character
auto abs_num = static_cast<uInt64>(num);
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if ( separator == 0 )
separator = ' ';
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if ( num < 0 )
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abs_num = static_cast<uInt64>(-num);
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*s = L'\0';
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do
{
*--s = L"0123456789"[abs_num % 10];
abs_num /= 10;
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n++;
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if ( abs_num && n % 3 == 0 )
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*--s = separator;
}
while ( abs_num );
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if ( num < 0 )
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*--s = '-';
_assign (s);
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return *this;
}
//----------------------------------------------------------------------
FString& FString::setFormatedNumber (uInt64 num, char separator)
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{
2019-08-25 22:16:00 +02:00
int n{0};
wchar_t buf[30]{};
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wchar_t* s = &buf[29]; // Pointer to the last character
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*s = L'\0';
if ( separator == 0 )
separator = ' ';
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do
{
*--s = L"0123456789"[num % 10];
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num /= 10;
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n++;
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if ( num && n % 3 == 0 )
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*--s = separator;
}
while ( num );
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_assign (s);
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return *this;
}
// FString operators
//----------------------------------------------------------------------
bool FString::operator < (const FString& s) const
{
if ( string && ! s.string )
return false;
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if ( ! string && s.string )
return true;
if ( ! (string || s.string) )
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return false;
return std::wcscmp(string, s.string) < 0;
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}
//----------------------------------------------------------------------
bool FString::operator <= (const FString& s) const
{
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if ( ! (string || s.string) )
return true;
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if ( string && ! s.string )
return false;
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if ( ! string && s.string )
return true;
return std::wcscmp(string, s.string) <= 0;
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}
//----------------------------------------------------------------------
bool FString::operator == (const FString& s) const
{
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if ( ! (string || s.string) )
return true;
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if ( bool(string) != bool(s.string) || length != s.length )
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return false;
return std::wcscmp(string, s.string) == 0;
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}
//----------------------------------------------------------------------
bool FString::operator != (const FString& s) const
{
return ! ( *this == s );
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}
//----------------------------------------------------------------------
bool FString::operator >= (const FString& s) const
{
if ( string && ! s.string )
return true;
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if ( ! string && s.string )
return false;
if ( ! (string || s.string) )
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return true;
return std::wcscmp(string, s.string) >= 0;
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}
//----------------------------------------------------------------------
bool FString::operator > (const FString& s) const
{
2018-03-01 00:00:30 +01:00
if ( ! (string || s.string) )
return false;
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if ( string && ! s.string )
return true;
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if ( ! string && s.string )
return false;
return std::wcscmp(string, s.string) > 0;
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}
//----------------------------------------------------------------------
const FString& FString::insert (const FString& s, int pos)
{
if ( isNegative(pos) || uInt(pos) > length )
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throw std::out_of_range("");
_insert (uInt(pos), s.length, s.string);
return *this;
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}
//----------------------------------------------------------------------
const FString& FString::insert (const FString& s, std::size_t pos)
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{
2018-03-07 00:48:06 +01:00
if ( pos > length )
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throw std::out_of_range("");
_insert (pos, s.length, s.string);
return *this;
2015-05-23 13:35:12 +02:00
}
//----------------------------------------------------------------------
FString FString::replace (const FString& from, const FString& to) const
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{
FString s{*this};
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// handle NULL and empty string
if ( ! (string && *string) )
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return s;
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if ( from.isNull() || to.isNull() )
return s;
2018-03-14 00:53:28 +01:00
if ( from.isEmpty() )
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return s;
2019-08-25 22:16:00 +02:00
const wchar_t* p = s.string;
const std::size_t from_length = from.getLength();
const std::size_t to_length = to.getLength();
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std::size_t pos{0};
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while ( *p )
{
if ( std::wcsncmp(p, from.string, from_length) == 0 )
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{
s._remove(pos, from_length);
s._insert(pos, to_length, to.string);
pos += to_length;
p = s.string + pos;
}
else
{
pos++;
p++;
}
}
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return s;
}
//----------------------------------------------------------------------
FString FString::replaceControlCodes() const
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{
FString s{*this};
for (auto&& c : s)
{
if ( c <= L'\x1f' )
{
c += L'\x2400';
}
else if ( c == L'\x7f' )
{
c = L'\x2421';
}
else if ( c >= L'\x80' && c <= L'\x9f' )
{
c = L' ';
}
else if ( ! std::iswprint(std::wint_t(c)) )
c = L' ';
}
return s;
}
//----------------------------------------------------------------------
FString FString::expandTabs (int tabstop) const
{
FString instr{string};
2019-08-25 22:16:00 +02:00
FString outstr{};
2017-03-26 20:40:04 +02:00
if ( tabstop <= 0 )
return instr;
const FStringList tab_split = instr.split("\t");
const uLong last = tab_split.size();
2019-08-25 22:16:00 +02:00
for (std::size_t i{0}; i < last; i++)
{
const auto len = tab_split[i].getLength();
const auto tab_len = std::size_t(tabstop);
2018-03-08 17:57:17 +01:00
if ( i == last - 1 )
outstr += tab_split[i];
else
outstr += tab_split[i] + FString(tab_len - (len % tab_len), L' ');
}
return outstr;
}
//----------------------------------------------------------------------
FString FString::removeDel() const
{
FString s{*this};
std::size_t i{0};
std::size_t count{0};
for (auto&& c : s)
{
if ( c == 0x7f )
{
count++;
}
else if ( count > 0 )
{
count--;
}
else // count == 0
{
s.string[i] = c;
i++;
}
}
s.string[i] = L'\0';
s.length = i;
return s;
}
//----------------------------------------------------------------------
FString FString::removeBackspaces() const
{
FString s{*this};
std::size_t i{0};
for (auto&& c : s)
{
if ( c != L'\b' )
{
s.string[i] = c;
i++;
}
else if ( i > 0 )
{
i--;
}
}
s.string[i] = L'\0';
s.length = i;
return s;
}
2018-03-10 05:27:55 +01:00
//----------------------------------------------------------------------
const FString& FString::overwrite (const FString& s, int pos)
{
if ( pos < 0 )
return overwrite (s, 0);
return overwrite (s, std::size_t(pos));
2018-03-10 05:27:55 +01:00
}
//----------------------------------------------------------------------
const FString& FString::overwrite (const FString& s, std::size_t pos)
{
2018-03-10 05:27:55 +01:00
if ( pos > length )
pos = length;
if ( length >= (pos + s.length) )
{
std::wcsncpy (string + pos, s.string, s.length);
}
else
{
std::wcsncpy (string + pos, s.string, length - pos);
_insert (length, pos + s.length - length, s.string + length - pos);
}
return *this;
}
2018-03-10 05:27:55 +01:00
//----------------------------------------------------------------------
const FString& FString::remove (std::size_t pos, std::size_t len)
{
2018-03-10 05:27:55 +01:00
if ( pos > length )
return *this;
if ( pos + len > length )
len = length - pos;
_remove (pos, len);
return *this;
}
//----------------------------------------------------------------------
2018-03-10 05:27:55 +01:00
bool FString::includes (const FString& s) const
{
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if ( ! s )
return false;
if ( ! (string && s.string) )
2018-02-25 21:42:18 +01:00
return false;
return std::wcsstr(string, s.string) != nullptr;
}
// private methods of FString
//----------------------------------------------------------------------
inline void FString::_initLength (std::size_t len)
{
if ( len == 0 )
return;
length = len;
bufsize = FWDBUFFER + len + 1;
2017-08-12 22:55:29 +02:00
try
{
string = new wchar_t[bufsize];
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std::wmemset (string, L'\0', bufsize);
}
2020-05-13 23:47:14 +02:00
catch (const std::bad_alloc&)
2017-08-12 22:55:29 +02:00
{
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badAllocOutput ("wchar_t[bufsize]");
2017-08-12 22:55:29 +02:00
}
}
//----------------------------------------------------------------------
void FString::_assign (const wchar_t s[])
{
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if ( ! s )
{
clear();
return;
}
2018-03-10 13:17:57 +01:00
if ( string && std::wcscmp(string, s) == 0 )
return; // string == s
2020-04-25 02:32:33 +02:00
std::size_t new_length{std::wcslen(s)};
if ( ! string || new_length > capacity() )
{
if ( string )
delete[](string);
bufsize = FWDBUFFER + new_length + 1;
try
{
string = new wchar_t[bufsize];
}
2020-05-13 23:47:14 +02:00
catch (const std::bad_alloc&)
{
2020-05-13 23:47:14 +02:00
badAllocOutput ("wchar_t[bufsize]");
return;
}
}
2017-04-11 00:30:27 +02:00
std::wcsncpy (string, s, bufsize);
length = new_length;
string[capacity()] = L'\0';
}
//----------------------------------------------------------------------
void FString::_insert (std::size_t len, const wchar_t s[])
{
if ( len == 0 ) // String s is a null or a empty string
return;
2018-10-02 01:03:44 +02:00
if ( string )
delete[](string);
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length = len;
bufsize = FWDBUFFER + length + 1;
2018-10-02 01:03:44 +02:00
try
{
string = new wchar_t[bufsize];
2018-10-02 01:03:44 +02:00
}
2020-05-13 23:47:14 +02:00
catch (const std::bad_alloc&)
2018-10-02 01:03:44 +02:00
{
2020-05-13 23:47:14 +02:00
badAllocOutput ("wchar_t[bufsize]");
2018-10-02 01:03:44 +02:00
return;
}
std::wcsncpy (string, s, bufsize);
string[capacity()] = L'\0';
2018-10-02 01:03:44 +02:00
}
2018-10-02 01:03:44 +02:00
//----------------------------------------------------------------------
void FString::_insert ( std::size_t pos
, std::size_t len
, const wchar_t s[] )
2018-10-02 01:03:44 +02:00
{
if ( len == 0 ) // String s is a null or a empty string
return;
2018-10-02 01:03:44 +02:00
if ( ! string ) // string is null
{
_insert (len, s);
}
else
{
2019-08-25 22:16:00 +02:00
std::size_t x{};
if ( length + len <= capacity() )
{
// output string <= bufsize
for (x = length; x + 1 > pos; x--) // shifting right side + '\0'
string[x + len] = string[x];
for (x = 0; x < len; x++) // insert string
string[x + pos] = s[x];
length += len;
}
else
{
// output string > bufsize
bufsize = FWDBUFFER + length + len + 1;
2019-08-25 22:16:00 +02:00
wchar_t* sptr{};
try
{
sptr = new wchar_t[bufsize]; // generate new string
}
2020-05-13 23:47:14 +02:00
catch (const std::bad_alloc&)
{
2020-05-13 23:47:14 +02:00
badAllocOutput ("wchar_t[bufsize]");
return;
}
2019-08-25 22:16:00 +02:00
std::size_t y{0};
for (x = 0; x < pos; x++) // left side
sptr[y++] = string[x];
for (x = 0 ; x < len; x++) // insert string
sptr[y++] = s[x];
for (x = pos; x < length + 1; x++) // right side + '\0'
sptr[y++] = string[x];
length += len;
delete[](string); // delete old string
string = sptr;
}
}
}
//----------------------------------------------------------------------
void FString::_remove (std::size_t pos, std::size_t len)
{
if ( capacity() - length + len <= FWDBUFFER )
{
// shifting left side to pos
for (std::size_t i = pos; i + len < length + 1; i++)
string[i] = string[i + len];
length -= len;
}
else
{
bufsize = length + 1 - len + FWDBUFFER;
2019-08-25 22:16:00 +02:00
wchar_t* sptr{};
try
{
sptr = new wchar_t[bufsize]; // generate new string
}
2020-05-13 23:47:14 +02:00
catch (const std::bad_alloc&)
{
2020-05-13 23:47:14 +02:00
badAllocOutput ("wchar_t[bufsize]");
return;
}
2020-04-13 12:40:11 +02:00
std::size_t x{};
std::size_t y{};
for (x = 0; x < pos; x++) // left side
sptr[y++] = string[x];
for (x = pos + len; x < length + 1; x++) // right side + '\0'
sptr[y++] = string[x];
delete[](string); // delete old string
string = sptr;
length -= len;
}
}
//----------------------------------------------------------------------
inline const char* FString::_to_cstring (const wchar_t s[]) const
{
if ( ! s ) // handle NULL string
2020-02-19 21:59:13 +01:00
return nullptr;
if ( ! *s ) // handle empty string
{
try
{
// Generate a empty string ("")
c_string = new char[1]();
}
2020-05-13 23:47:14 +02:00
catch (const std::bad_alloc&)
{
2020-05-13 23:47:14 +02:00
badAllocOutput ("char[1]");
2020-02-19 21:59:13 +01:00
return nullptr;
}
return c_string;
}
if ( c_string )
delete[](c_string);
2019-08-25 22:16:00 +02:00
const wchar_t* src = s;
2020-08-12 22:28:02 +02:00
auto state = std::mbstate_t();
auto size = std::wcsrtombs(nullptr, &src, 0, &state) + 1;
try
{
c_string = new char[size];
// pre-initialiaze the whole string with '\0'
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std::memset (c_string, '\0', size);
}
2020-05-13 23:47:14 +02:00
catch (const std::bad_alloc&)
{
2020-08-12 22:28:02 +02:00
badAllocOutput ("char[size]");
2020-02-19 21:59:13 +01:00
return nullptr;
}
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const auto mblength = std::wcsrtombs (c_string, &src, size, &state);
2020-08-12 22:28:02 +02:00
if ( mblength == static_cast<std::size_t>(-1) && errno != EILSEQ )
{
delete[](c_string);
c_string = nullptr;
return "";
}
return c_string;
}
//----------------------------------------------------------------------
inline const wchar_t* FString::_to_wcstring (const char s[]) const
{
if ( ! s ) // handle NULL string
2020-02-19 21:59:13 +01:00
return nullptr;
if ( ! *s ) // handle empty string
{
try
{
// Generate a empty wide string (L"")
return new wchar_t[1]();
}
2020-05-13 23:47:14 +02:00
catch (const std::bad_alloc&)
{
2020-05-13 23:47:14 +02:00
badAllocOutput ("wchar_t[1]");
2020-02-19 21:59:13 +01:00
return nullptr;
}
}
2019-08-25 22:16:00 +02:00
const char* src = s;
wchar_t* dest{};
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auto state = std::mbstate_t();
auto size = std::mbsrtowcs(nullptr, &src, 0, &state) + 1;
if ( size == 0 ) // ...malformed UTF-8 string
return nullptr;
try
{
dest = new wchar_t[size];
// pre-initialiaze the whole string with '\0'
2020-08-12 22:28:02 +02:00
std::wmemset (dest, L'\0', size);
}
2020-05-13 23:47:14 +02:00
catch (const std::bad_alloc&)
{
2020-08-12 22:28:02 +02:00
badAllocOutput ("wchar_t[size]");
2020-02-19 21:59:13 +01:00
return nullptr;
}
2020-08-12 22:28:02 +02:00
const auto wclength = std::mbsrtowcs (dest, &src, size, &state);
2015-05-23 13:35:12 +02:00
2020-08-12 22:28:02 +02:00
if ( wclength == static_cast<std::size_t>(-1) )
2015-05-23 13:35:12 +02:00
{
if ( src != s )
return dest;
else
2015-05-23 13:35:12 +02:00
{
delete[] dest;
2020-02-19 21:59:13 +01:00
return nullptr;
2015-05-23 13:35:12 +02:00
}
}
if ( wclength == size )
dest[size - 1] = '\0';
if ( wclength )
return dest;
else
2015-05-23 13:35:12 +02:00
{
delete[] dest;
2020-02-19 21:59:13 +01:00
return nullptr;
2015-05-23 13:35:12 +02:00
}
}
//----------------------------------------------------------------------
inline const wchar_t* FString::_extractToken ( wchar_t* rest[]
, const wchar_t s[]
2020-07-12 15:25:21 +02:00
, const wchar_t delim[] ) const
2015-05-23 13:35:12 +02:00
{
2019-08-25 22:16:00 +02:00
wchar_t* token = ( s ) ? const_cast<wchar_t*>(s) : *rest;
2015-05-23 13:35:12 +02:00
2018-03-14 00:53:28 +01:00
if ( ! token )
2020-02-19 21:59:13 +01:00
return nullptr;
2018-03-14 00:53:28 +01:00
if ( ! token[0] )
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return nullptr;
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*rest = std::wcspbrk(token, delim);
if ( *rest )
*(*rest)++ = '\0';
else
*rest = token + std::wcslen(token);
return token;
}
// FString non-member operators
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//----------------------------------------------------------------------
FString operator + (const FString& s1, const FString& s2)
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{
FString tmp{s1};
tmp._insert (tmp.length, s2.length, s2.wc_str());
return tmp;
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}
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//----------------------------------------------------------------------
std::ostream& operator << (std::ostream& outstr, const FString& s)
{
const auto width = std::size_t(outstr.width());
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if ( s.length > 0 )
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{
outstr << s._to_cstring(s.string);
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}
else if ( width > 0 )
{
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const FString fill_str{width, wchar_t(outstr.fill())};
outstr << s._to_cstring(fill_str.string);
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}
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return outstr;
}
//----------------------------------------------------------------------
std::istream& operator >> (std::istream& instr, FString& s)
{
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std::array<char, FString::INPBUFFER + 1> buf{};
instr.getline (buf.data(), FString::INPBUFFER);
const wchar_t* wc_str = s._to_wcstring(buf.data());
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if ( wc_str )
{
s._assign (wc_str);
delete[] wc_str;
}
return instr;
}
//----------------------------------------------------------------------
std::wostream& operator << (std::wostream& outstr, const FString& s)
{
const auto width = std::size_t(outstr.width());
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if ( s.length > 0 )
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{
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outstr << s.string;
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}
else if ( width > 0 )
{
const FString fill_str{width, outstr.fill()};
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outstr << fill_str.string;
}
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return outstr;
}
//----------------------------------------------------------------------
std::wistream& operator >> (std::wistream& instr, FString& s)
{
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std::array<wchar_t, FString::INPBUFFER + 1> buf{};
instr.getline (buf.data(), FString::INPBUFFER);
s._assign (buf.data());
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return instr;
}
} // namespace finalcut