lyx_mirror/src/support/trivstring.cpp

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/**
* \file trivstring.cpp
* This file is part of LyX, the document processor.
* Licence details can be found in the file COPYING.
*
* \author Georg Baum
*
* Full author contact details are available in file CREDITS.
*/
#include <config.h>
#include "support/trivstring.h"
#include "support/docstring.h"
#ifdef STD_STRING_USES_COW
#include <algorithm>
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#include <ostream>
#include <stdexcept>
using namespace std;
namespace lyx {
template trivial_string<char>::trivial_string(trivial_string const &);
template trivial_string<char_type>::trivial_string(trivial_string const &);
template<typename Char>
trivial_string<Char>::trivial_string(trivial_string const & that) : size_(that.size_)
{
if (use_sso())
copy(that.data_sso(), that.data_sso() + size_ + 1, data_sso());
else if (size_ > 0) {
data_ = new Char[size_ + 1];
copy(that.data_, that.data_ + size_ + 1, data_);
} else {
// Happens only for really big Char types
data_ = 0;
}
}
template<typename Char>
trivial_string<Char>::trivial_string(Char const * that, size_t n) : size_(n)
{
if (use_sso()) {
copy(that, that + size_, data_sso());
data_sso()[size_] = '\0';
} else if (size_ > 0) {
data_ = new Char[size_ + 1];
copy(that, that + size_, data_);
data_[size_] = '\0';
} else {
// Happens only for really big Char types
data_ = 0;
}
}
template trivial_string<char>::trivial_string(string const &);
template trivial_string<char_type>::trivial_string(docstring const &);
template<typename Char>
trivial_string<Char>::trivial_string(_stdstring const & that)
: size_(that.length())
{
if (use_sso()) {
copy(that.begin(), that.end(), data_sso());
data_sso()[size_] = '\0';
} else if (size_ > 0) {
data_ = new Char[size_ + 1];
copy(that.begin(), that.end(), data_);
data_[size_] = '\0';
} else {
// Happens only for really big Char types
data_ = 0;
}
}
template trivial_string<char> &
trivial_string<char>::operator=(trivial_string const &);
template trivial_string<char_type> &
trivial_string<char_type>::operator=(trivial_string const &);
template<typename Char>
trivial_string<Char> & trivial_string<Char>::operator=(trivial_string const & that)
{
if (&that == this)
return *this;
if (!use_sso())
delete[] data_;
size_ = that.size_;
if (use_sso())
copy(that.data_sso(), that.data_sso() + size_ + 1, data_sso());
else if (size_ > 0) {
data_ = new Char[size_ + 1];
copy(that.data_, that.data_ + size_ + 1, data_);
} else {
// Happens only for really big Char types
data_ = 0;
}
return *this;
}
template trivial_string<char> &
trivial_string<char>::operator=(string const &);
template trivial_string<char_type> &
trivial_string<char_type>::operator=(docstring const &);
template<typename Char>
trivial_string<Char> &
trivial_string<Char>::operator=(_stdstring const & that)
{
if (!use_sso())
delete[] data_;
size_ = that.size();
if (use_sso()) {
copy(that.begin(), that.end(), data_sso());
data_sso()[size_] = '\0';
} else if (size_ > 0) {
data_ = new Char[size_ + 1];
copy(that.begin(), that.end(), data_);
} else {
// Happens only for really big Char types
data_ = 0;
}
return *this;
}
template void
trivial_string<char>::swap(trivial_string<char> &);
template void
trivial_string<char_type>::swap(trivial_string<char_type> &);
template<typename Char>
void trivial_string<Char>::swap(trivial_string & that)
{
size_t const sizetmp = that.size_;
that.size_ = size_;
size_ = sizetmp;
Char * const datatmp = that.data_;
that.data_ = data_;
data_ = datatmp;
}
template<typename Char>
int trivial_string<Char>::compare(trivial_string const & other) const
{
size_t const lsize = this->length();
size_t const rsize = other.length();
size_t const len = min(lsize, rsize);
int r = char_traits<Char>::compare(c_str(), other.c_str(), len);
if (r == 0) {
if (lsize > rsize)
r = 1;
else if (lsize < rsize)
r = -1;
}
return r;
}
template trivial_string<char> trivial_string<char>::substr(size_t, size_t) const;
template trivial_string<char_type> trivial_string<char_type>::substr(size_t, size_t) const;
template<typename Char>
trivial_string<Char> trivial_string<Char>::substr(size_t pos, size_t n) const
{
if (pos > length())
throw out_of_range("trivial_string::substr");
if (n == _stdstring::npos)
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n = length() - pos;
size_t const l = min(pos + n, length());
return trivial_string(c_str() + pos, l - pos);
}
template trivial_string<char>::operator string() const;
template trivial_string<char_type>::operator docstring() const;
template<typename Char>
trivial_string<Char>::operator _stdstring() const
{
if (use_sso())
return _stdstring(data_sso(), size_);
if (size_ > 0)
return _stdstring(data_, size_);
// Happens only for really big Char types
return _stdstring();
}
template char const * trivial_string<char>::c_str() const;
template char_type const * trivial_string<char_type>::c_str() const;
template<typename Char> Char const * trivial_string<Char>::c_str() const
{
if (use_sso())
return data_sso();
if (size_ > 0)
return data_;
// Happens only for really big Char types
static const Char empty_char = '\0';
return &empty_char;
}
template char trivial_string<char>::operator[](size_t) const;
template char_type trivial_string<char_type>::operator[](size_t) const;
template <typename Char> Char trivial_string<Char>::operator[](size_t i) const
{
return c_str()[i];
}
template bool operator<(trivial_string<char> const &,
trivial_string<char> const &);
template bool operator<(trivial_string<char_type> const &,
trivial_string<char_type> const &);
template <typename Char>
bool operator<(trivial_string<Char> const & lhs, trivial_string<Char> const & rhs)
{
return lhs.compare(rhs) < 0;
}
template bool operator==(trivial_string<char> const &,
trivial_string<char> const &);
template bool operator==(trivial_string<char_type> const &,
trivial_string<char_type> const &);
template <typename Char>
bool operator==(trivial_string<Char> const & lhs, trivial_string<Char> const & rhs)
{
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return lhs.compare(rhs) == 0;
}
template bool operator==(trivial_string<char> const &, char const *);
template bool operator==(trivial_string<char_type> const &, char_type const *);
template <typename Char>
bool operator==(trivial_string<Char> const & lhs, Char const * rhs)
{
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return lhs.compare(trivial_string<Char>(rhs)) == 0;
}
template bool operator==(char const *, trivial_string<char> const &);
template bool operator==(char_type const *, trivial_string<char_type> const &);
template <typename Char>
bool operator==(Char const * lhs, trivial_string<Char> const & rhs)
{
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return rhs.compare(trivial_string<Char>(lhs)) == 0;
}
template ostream & operator<<(ostream &, trivial_string<char> const &);
template odocstream & operator<<(odocstream &, trivial_string<char_type> const &);
template <typename Char>
basic_ostream<Char, char_traits<Char> > &
operator<<(basic_ostream<Char, char_traits<Char> > & os, trivial_string<Char> const & s)
{
return os << basic_string<Char, char_traits<Char>, allocator<Char> >(s);
}
} // namespace lyx
#endif