/usr/include/xsd/cxx/parser/xml-schema.ixx is in xsdcxx 4.0.0-4.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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// copyright : Copyright (c) 2005-2014 Code Synthesis Tools CC
// license : GNU GPL v2 + exceptions; see accompanying LICENSE file
#include <new> // operator new/delete
#include <cstring> // std::memcpy, std::memcmp
namespace xsd
{
namespace cxx
{
namespace parser
{
// string_sequence
//
template <typename C>
string_sequence<C>::
string_sequence ()
{
}
template <typename C>
string_sequence<C>::
string_sequence (size_type n, const value_type& x)
: base (n, x)
{
}
template <typename C>
template <typename I>
string_sequence<C>::
string_sequence (const I& begin, const I& end)
: base (begin, end)
{
}
template <typename C>
inline bool
operator!= (const string_sequence<C>& a, const string_sequence<C>& b)
{
return !(a == b);
}
// qname
//
template <typename C>
inline qname<C>::
qname (const std::basic_string<C>& name)
: name_ (name)
{
}
template <typename C>
inline qname<C>::
qname (const std::basic_string<C>& prefix,
const std::basic_string<C>& name)
: prefix_ (prefix), name_ (name)
{
}
template <typename C>
void qname<C>::
swap (qname<C>& x)
{
prefix_.swap (x.prefix_);
name_.swap (x.name_);
}
template <typename C>
inline const std::basic_string<C>& qname<C>::
prefix () const
{
return prefix_;
}
template <typename C>
inline std::basic_string<C>& qname<C>::
prefix ()
{
return prefix_;
}
template <typename C>
inline void qname<C>::
prefix (const std::basic_string<C>& prefix)
{
prefix_ = prefix;
}
template <typename C>
inline const std::basic_string<C>& qname<C>::
name () const
{
return name_;
}
template <typename C>
inline std::basic_string<C>& qname<C>::
name ()
{
return name_;
}
template <typename C>
inline void qname<C>::
name (const std::basic_string<C>& name)
{
name_ = name;
}
template <typename C>
inline bool
operator== (const qname<C>& a, const qname<C>& b)
{
return a.prefix () == b.prefix () && a.name () == b.name ();
}
template <typename C>
inline bool
operator!= (const qname<C>& a, const qname<C>& b)
{
return !(a == b);
}
// buffer
//
inline buffer::
~buffer ()
{
if (data_)
operator delete (data_);
}
inline buffer::
buffer (size_t size)
: data_ (0), size_ (0), capacity_ (0)
{
capacity (size);
size_ = size;
}
inline buffer::
buffer (size_t size, size_t cap)
: data_ (0), size_ (0), capacity_ (0)
{
if (size > cap)
throw bounds ();
capacity (cap);
size_ = size;
}
inline buffer::
buffer (const void* data, size_t size)
: data_ (0), size_ (0), capacity_ (0)
{
capacity (size);
size_ = size;
if (size_)
std::memcpy (data_, data, size_);
}
inline buffer::
buffer (const void* data, size_t size, size_t cap)
: data_ (0), size_ (0), capacity_ (0)
{
if (size > cap)
throw bounds ();
capacity (cap);
size_ = size;
if (size_)
std::memcpy (data_, data, size_);
}
inline buffer::
buffer (void* data, size_t size, size_t cap, bool own)
: data_ (0), size_ (0), capacity_ (0)
{
if (size > cap)
throw bounds ();
if (own)
{
data_ = reinterpret_cast<char*> (data);
size_ = size;
capacity_ = cap;
}
else
{
capacity (cap);
size_ = size;
if (size_)
std::memcpy (data_, data, size_);
}
}
inline buffer::
buffer (const buffer& other)
: data_ (0), size_ (0), capacity_ (0)
{
capacity (other.capacity_);
size_ = other.size_;
if (size_)
std::memcpy (data_, other.data_, size_);
}
inline buffer& buffer::
operator= (const buffer& other)
{
if (this != &other)
{
capacity (other.capacity_, false);
size_ = other.size_;
if (size_)
std::memcpy (data_, other.data_, size_);
}
return *this;
}
inline size_t buffer::
capacity () const
{
return capacity_;
}
inline bool buffer::
capacity (size_t cap)
{
return capacity (cap, true);
}
inline size_t buffer::
size () const
{
return size_;
}
inline bool buffer::
size (size_t size)
{
bool r (false);
if (size > capacity_)
r = capacity (size);
size_ = size;
return r;
}
inline const char* buffer::
data () const
{
return data_;
}
inline char* buffer::
data ()
{
return data_;
}
inline const char* buffer::
begin () const
{
return data_;
}
inline char* buffer::
begin ()
{
return data_;
}
inline const char* buffer::
end () const
{
return data_ + size_;
}
inline char* buffer::
end ()
{
return data_ + size_;
}
inline void buffer::
swap (buffer& other)
{
char* tmp_data (data_);
size_t tmp_size (size_);
size_t tmp_capacity (capacity_);
data_ = other.data_;
size_ = other.size_;
capacity_ = other.capacity_;
other.data_ = tmp_data;
other.size_ = tmp_size;
other.capacity_ = tmp_capacity;
}
inline bool buffer::
capacity (size_t capacity, bool copy)
{
if (size_ > capacity)
throw bounds ();
if (capacity <= capacity_)
{
return false; // Do nothing if shrinking is requested.
}
else
{
char* data (reinterpret_cast<char*> (operator new (capacity)));
if (copy && size_ > 0)
std::memcpy (data, data_, size_);
if (data_)
operator delete (data_);
data_ = data;
capacity_ = capacity;
return true;
}
}
inline bool
operator== (const buffer& a, const buffer& b)
{
return a.size () == b.size () &&
std::memcmp (a.data (), b.data (), a.size ()) == 0;
}
inline bool
operator!= (const buffer& a, const buffer& b)
{
return !(a == b);
}
// time_zone
//
inline time_zone::
time_zone ()
: present_ (false)
{
}
inline time_zone::
time_zone (short h, short m)
: present_ (true), hours_ (h), minutes_ (m)
{
}
inline bool time_zone::
zone_present () const
{
return present_;
}
inline void time_zone::
zone_reset ()
{
present_ = false;
}
inline short time_zone::
zone_hours () const
{
return hours_;
}
inline void time_zone::
zone_hours (short h)
{
hours_ = h;
present_ = true;
}
inline short time_zone::
zone_minutes () const
{
return minutes_;
}
inline void time_zone::
zone_minutes (short m)
{
minutes_ = m;
present_ = true;
}
inline bool
operator== (const time_zone& x, const time_zone& y)
{
return x.zone_present ()
? y.zone_present () &&
x.zone_hours () == y.zone_hours () &&
x.zone_minutes () == y.zone_minutes ()
: !y.zone_present ();
}
inline bool
operator!= (const time_zone& x, const time_zone& y)
{
return !(x == y);
}
// gday
//
inline gday::
gday (unsigned short day)
: day_ (day)
{
}
inline gday::
gday (unsigned short day, short zh, short zm)
: time_zone (zh, zm), day_ (day)
{
}
inline unsigned short gday::
day () const
{
return day_;
}
inline void gday::
day (unsigned short day)
{
day_ = day;
}
inline bool
operator== (const gday& a, const gday& b)
{
const time_zone& az = a;
const time_zone& bz = b;
return a.day () == b.day () && az == bz;
}
inline bool
operator!= (const gday& a, const gday& b)
{
return !(a == b);
}
// gmonth
//
inline gmonth::
gmonth (unsigned short month)
: month_ (month)
{
}
inline gmonth::
gmonth (unsigned short month, short zh, short zm)
: time_zone (zh, zm), month_ (month)
{
}
inline unsigned short gmonth::
month () const
{
return month_;
}
inline void gmonth::
month (unsigned short month)
{
month_ = month;
}
inline bool
operator== (const gmonth& a, const gmonth& b)
{
const time_zone& az = a;
const time_zone& bz = b;
return a.month () == b.month () && az == bz;
}
inline bool
operator!= (const gmonth& a, const gmonth& b)
{
return !(a == b);
}
// gyear
//
inline gyear::
gyear (int year)
: year_ (year)
{
}
inline gyear::
gyear (int year, short zh, short zm)
: time_zone (zh, zm), year_ (year)
{
}
inline int gyear::
year () const
{
return year_;
}
inline void gyear::
year (int year)
{
year_ = year;
}
inline bool
operator== (const gyear& a, const gyear& b)
{
const time_zone& az = a;
const time_zone& bz = b;
return a.year () == b.year () && az == bz;
}
inline bool
operator!= (const gyear& a, const gyear& b)
{
return !(a == b);
}
// gmonth_day
//
inline gmonth_day::
gmonth_day (unsigned short month, unsigned short day)
: month_ (month), day_ (day)
{
}
inline gmonth_day::
gmonth_day (unsigned short month,
unsigned short day,
short zh, short zm)
: time_zone (zh, zm), month_ (month), day_ (day)
{
}
inline unsigned short gmonth_day::
month () const
{
return month_;
}
inline void gmonth_day::
month (unsigned short month)
{
month_ = month;
}
inline unsigned short gmonth_day::
day () const
{
return day_;
}
inline void gmonth_day::
day (unsigned short day)
{
day_ = day;
}
inline bool
operator== (const gmonth_day& a, const gmonth_day& b)
{
const time_zone& az = a;
const time_zone& bz = b;
return a.month () == b.month () &&
a.day () == b.day () &&
az == bz;
}
inline bool
operator!= (const gmonth_day& a, const gmonth_day& b)
{
return !(a == b);
}
// gyear_month
//
inline gyear_month::
gyear_month (int year, unsigned short month)
: year_ (year), month_ (month)
{
}
inline gyear_month::
gyear_month (int year, unsigned short month,
short zh, short zm)
: time_zone (zh, zm), year_ (year), month_ (month)
{
}
inline int gyear_month::
year () const
{
return year_;
}
inline void gyear_month::
year (int year)
{
year_ = year;
}
inline unsigned short gyear_month::
month () const
{
return month_;
}
inline void gyear_month::
month (unsigned short month)
{
month_ = month;
}
inline bool
operator== (const gyear_month& a, const gyear_month& b)
{
const time_zone& az = a;
const time_zone& bz = b;
return a.year () == b.year () &&
a.month () == b.month () &&
az == bz;
}
inline bool
operator!= (const gyear_month& a, const gyear_month& b)
{
return !(a == b);
}
// date
//
inline date::
date (int year, unsigned short month, unsigned short day)
: year_ (year), month_ (month), day_ (day)
{
}
inline date::
date (int year, unsigned short month, unsigned short day,
short zh, short zm)
: time_zone (zh, zm), year_ (year), month_ (month), day_ (day)
{
}
inline int date::
year () const
{
return year_;
}
inline void date::
year (int year)
{
year_ = year;
}
inline unsigned short date::
month () const
{
return month_;
}
inline void date::
month (unsigned short month)
{
month_ = month;
}
inline unsigned short date::
day () const
{
return day_;
}
inline void date::
day (unsigned short day)
{
day_ = day;
}
inline bool
operator== (const date& a, const date& b)
{
const time_zone& az = a;
const time_zone& bz = b;
return a.year () == b.year () &&
a.month () == b.month () &&
a.day () == b.day () &&
az == bz;
}
inline bool
operator!= (const date& a, const date& b)
{
return !(a == b);
}
// time
//
inline time::
time (unsigned short hours, unsigned short minutes, double seconds)
: hours_ (hours), minutes_ (minutes), seconds_ (seconds)
{
}
inline time::
time (unsigned short hours, unsigned short minutes, double seconds,
short zh, short zm)
: time_zone (zh, zm),
hours_ (hours), minutes_ (minutes), seconds_ (seconds)
{
}
inline unsigned short time::
hours () const
{
return hours_;
}
inline void time::
hours (unsigned short hours)
{
hours_ = hours;
}
inline unsigned short time::
minutes () const
{
return minutes_;
}
inline void time::
minutes (unsigned short minutes)
{
minutes_ = minutes;
}
inline double time::
seconds () const
{
return seconds_;
}
inline void time::
seconds (double seconds)
{
seconds_ = seconds;
}
inline bool
operator== (const time& a, const time& b)
{
const time_zone& az = a;
const time_zone& bz = b;
return a.hours () == b.hours () &&
a.minutes () == b.minutes () &&
a.seconds () == b.seconds () &&
az == bz;
}
inline bool
operator!= (const time& a, const time& b)
{
return !(a == b);
}
// date_time
//
inline date_time::
date_time (int year, unsigned short month, unsigned short day,
unsigned short hours, unsigned short minutes, double seconds)
: year_ (year), month_ (month), day_ (day),
hours_ (hours), minutes_ (minutes), seconds_ (seconds)
{
}
inline date_time::
date_time (int year, unsigned short month, unsigned short day,
unsigned short hours, unsigned short minutes, double seconds,
short zh, short zm)
: time_zone (zh, zm),
year_ (year), month_ (month), day_ (day),
hours_ (hours), minutes_ (minutes), seconds_ (seconds)
{
}
inline int date_time::
year () const
{
return year_;
}
inline void date_time::
year (int year)
{
year_ = year;
}
inline unsigned short date_time::
month () const
{
return month_;
}
inline void date_time::
month (unsigned short month)
{
month_ = month;
}
inline unsigned short date_time::
day () const
{
return day_;
}
inline void date_time::
day (unsigned short day)
{
day_ = day;
}
inline unsigned short date_time::
hours () const
{
return hours_;
}
inline void date_time::
hours (unsigned short hours)
{
hours_ = hours;
}
inline unsigned short date_time::
minutes () const
{
return minutes_;
}
inline void date_time::
minutes (unsigned short minutes)
{
minutes_ = minutes;
}
inline double date_time::
seconds () const
{
return seconds_;
}
inline void date_time::
seconds (double seconds)
{
seconds_ = seconds;
}
inline bool
operator== (const date_time& a, const date_time& b)
{
const time_zone& az = a;
const time_zone& bz = b;
return a.year () == b.year () &&
a.month () == b.month () &&
a.day () == b.day () &&
a.hours () == b.hours () &&
a.minutes () == b.minutes () &&
a.seconds () == b.seconds () &&
az == bz;
}
inline bool
operator!= (const date_time& a, const date_time& b)
{
return !(a == b);
}
// duration
//
inline duration::
duration (bool negative,
unsigned int years, unsigned int months, unsigned int days,
unsigned int hours, unsigned int minutes, double seconds)
: negative_ (negative),
years_ (years), months_ (months), days_ (days),
hours_ (hours), minutes_ (minutes), seconds_ (seconds)
{
}
inline bool duration::
negative () const
{
return negative_;
}
inline void duration::
negative (bool negative)
{
negative_ = negative;
}
inline unsigned int duration::
years () const
{
return years_;
}
inline void duration::
years (unsigned int years)
{
years_ = years;
}
inline unsigned int duration::
months () const
{
return months_;
}
inline void duration::
months (unsigned int months)
{
months_ = months;
}
inline unsigned int duration::
days () const
{
return days_;
}
inline void duration::
days (unsigned int days)
{
days_ = days;
}
inline unsigned int duration::
hours () const
{
return hours_;
}
inline void duration::
hours (unsigned int hours)
{
hours_ = hours;
}
inline unsigned int duration::
minutes () const
{
return minutes_;
}
inline void duration::
minutes (unsigned int minutes)
{
minutes_ = minutes;
}
inline double duration::
seconds () const
{
return seconds_;
}
inline void duration::
seconds (double seconds)
{
seconds_ = seconds;
}
inline bool
operator== (const duration& a, const duration& b)
{
return a.negative () == b.negative () &&
a.years () == b.years () &&
a.months () == b.months () &&
a.days () == b.days () &&
a.hours () == b.hours () &&
a.minutes () == b.minutes () &&
a.seconds () == b.seconds ();
}
inline bool
operator!= (const duration& a, const duration& b)
{
return !(a == b);
}
}
}
}
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