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/*
Basic Unicode string class for Irrlicht .
Copyright ( c ) 2009 - 2011 John Norman
This software is provided ' as - is ' , without any express or implied
warranty . In no event will the authors be held liable for any
damages arising from the use of this software .
Permission is granted to anyone to use this software for any
purpose , including commercial applications , and to alter it and
redistribute it freely , subject to the following restrictions :
1. The origin of this software must not be misrepresented ; you
must not claim that you wrote the original software . If you use
this software in a product , an acknowledgment in the product
documentation would be appreciated but is not required .
2. Altered source versions must be plainly marked as such , and
must not be misrepresented as being the original software .
3. This notice may not be removed or altered from any source
distribution .
The original version of this class can be located at :
http : //irrlicht.suckerfreegames.com/
John Norman
john @ suckerfreegames . com
*/
# ifndef __IRR_USTRING_H_INCLUDED__
# define __IRR_USTRING_H_INCLUDED__
# if (__cplusplus > 199711L) || (_MSC_VER >= 1600) || defined(__GXX_EXPERIMENTAL_CXX0X__)
# define USTRING_CPP0X
# if defined(__GXX_EXPERIMENTAL_CXX0X__) && ((__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ >= 5)))
# define USTRING_CPP0X_NEWLITERALS
# endif
# endif
# include <stdio.h>
# include <string.h>
# include <stdlib.h>
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# ifdef _WIN32
# define __BYTE_ORDER 0
# define __LITTLE_ENDIAN 0
# define __BIG_ENDIAN 1
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# elif __MACH__
# include <machine/endian.h>
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# else
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# include <endian.h>
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# endif
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# ifdef USTRING_CPP0X
# include <utility>
# endif
# ifndef USTRING_NO_STL
# include <string>
# include <iterator>
# include <ostream>
# endif
# include "irrTypes.h"
# include "irrAllocator.h"
# include "irrArray.h"
# include "irrMath.h"
# include "irrString.h"
# include "path.h"
//! UTF-16 surrogate start values.
static const irr : : u16 UTF16_HI_SURROGATE = 0xD800 ;
static const irr : : u16 UTF16_LO_SURROGATE = 0xDC00 ;
//! Is a UTF-16 code point a surrogate?
# define UTF16_IS_SURROGATE(c) (((c) & 0xF800) == 0xD800)
# define UTF16_IS_SURROGATE_HI(c) (((c) & 0xFC00) == 0xD800)
# define UTF16_IS_SURROGATE_LO(c) (((c) & 0xFC00) == 0xDC00)
namespace irr
{
// Define our character types.
# ifdef USTRING_CPP0X_NEWLITERALS // C++0x
typedef char32_t uchar32_t ;
typedef char16_t uchar16_t ;
typedef char uchar8_t ;
# else
typedef u32 uchar32_t ;
typedef u16 uchar16_t ;
typedef u8 uchar8_t ;
# endif
namespace core
{
namespace unicode
{
//! The unicode replacement character. Used to replace invalid characters.
const irr : : u16 UTF_REPLACEMENT_CHARACTER = 0xFFFD ;
//! Convert a UTF-16 surrogate pair into a UTF-32 character.
//! \param high The high value of the pair.
//! \param low The low value of the pair.
//! \return The UTF-32 character expressed by the surrogate pair.
inline uchar32_t toUTF32 ( uchar16_t high , uchar16_t low )
{
// Convert the surrogate pair into a single UTF-32 character.
uchar32_t x = ( ( high & ( ( 1 < < 6 ) - 1 ) ) < < 10 ) | ( low & ( ( 1 < < 10 ) - 1 ) ) ;
uchar32_t wu = ( ( high > > 6 ) & ( ( 1 < < 5 ) - 1 ) ) + 1 ;
return ( wu < < 16 ) | x ;
}
//! Swaps the endianness of a 16-bit value.
//! \return The new value.
inline uchar16_t swapEndian16 ( const uchar16_t & c )
{
return ( ( c > > 8 ) & 0x00FF ) | ( ( c < < 8 ) & 0xFF00 ) ;
}
//! Swaps the endianness of a 32-bit value.
//! \return The new value.
inline uchar32_t swapEndian32 ( const uchar32_t & c )
{
return ( ( c > > 24 ) & 0x000000FF ) |
( ( c > > 8 ) & 0x0000FF00 ) |
( ( c < < 8 ) & 0x00FF0000 ) |
( ( c < < 24 ) & 0xFF000000 ) ;
}
//! The Unicode byte order mark.
const u16 BOM = 0xFEFF ;
//! The size of the Unicode byte order mark in terms of the Unicode character size.
const u8 BOM_UTF8_LEN = 3 ;
const u8 BOM_UTF16_LEN = 1 ;
const u8 BOM_UTF32_LEN = 1 ;
//! Unicode byte order marks for file operations.
const u8 BOM_ENCODE_UTF8 [ 3 ] = { 0xEF , 0xBB , 0xBF } ;
const u8 BOM_ENCODE_UTF16_BE [ 2 ] = { 0xFE , 0xFF } ;
const u8 BOM_ENCODE_UTF16_LE [ 2 ] = { 0xFF , 0xFE } ;
const u8 BOM_ENCODE_UTF32_BE [ 4 ] = { 0x00 , 0x00 , 0xFE , 0xFF } ;
const u8 BOM_ENCODE_UTF32_LE [ 4 ] = { 0xFF , 0xFE , 0x00 , 0x00 } ;
//! The size in bytes of the Unicode byte marks for file operations.
const u8 BOM_ENCODE_UTF8_LEN = 3 ;
const u8 BOM_ENCODE_UTF16_LEN = 2 ;
const u8 BOM_ENCODE_UTF32_LEN = 4 ;
//! Unicode encoding type.
enum EUTF_ENCODE
{
EUTFE_NONE = 0 ,
EUTFE_UTF8 ,
EUTFE_UTF16 ,
EUTFE_UTF16_LE ,
EUTFE_UTF16_BE ,
EUTFE_UTF32 ,
EUTFE_UTF32_LE ,
EUTFE_UTF32_BE
} ;
//! Unicode endianness.
enum EUTF_ENDIAN
{
EUTFEE_NATIVE = 0 ,
EUTFEE_LITTLE ,
EUTFEE_BIG
} ;
//! Returns the specified unicode byte order mark in a byte array.
//! The byte order mark is the first few bytes in a text file that signifies its encoding.
/** \param mode The Unicode encoding method that we want to get the byte order mark for.
If EUTFE_UTF16 or EUTFE_UTF32 is passed , it uses the native system endianness . * */
//! \return An array that contains a byte order mark.
inline core : : array < u8 > getUnicodeBOM ( EUTF_ENCODE mode )
{
# define COPY_ARRAY(source, size) \
memcpy ( ret . pointer ( ) , source , size ) ; \
ret . set_used ( size )
core : : array < u8 > ret ( 4 ) ;
switch ( mode )
{
case EUTFE_UTF8 :
COPY_ARRAY ( BOM_ENCODE_UTF8 , BOM_ENCODE_UTF8_LEN ) ;
break ;
case EUTFE_UTF16 :
# ifdef __BIG_ENDIAN__
COPY_ARRAY ( BOM_ENCODE_UTF16_BE , BOM_ENCODE_UTF16_LEN ) ;
# else
COPY_ARRAY ( BOM_ENCODE_UTF16_LE , BOM_ENCODE_UTF16_LEN ) ;
# endif
break ;
case EUTFE_UTF16_BE :
COPY_ARRAY ( BOM_ENCODE_UTF16_BE , BOM_ENCODE_UTF16_LEN ) ;
break ;
case EUTFE_UTF16_LE :
COPY_ARRAY ( BOM_ENCODE_UTF16_LE , BOM_ENCODE_UTF16_LEN ) ;
break ;
case EUTFE_UTF32 :
# ifdef __BIG_ENDIAN__
COPY_ARRAY ( BOM_ENCODE_UTF32_BE , BOM_ENCODE_UTF32_LEN ) ;
# else
COPY_ARRAY ( BOM_ENCODE_UTF32_LE , BOM_ENCODE_UTF32_LEN ) ;
# endif
break ;
case EUTFE_UTF32_BE :
COPY_ARRAY ( BOM_ENCODE_UTF32_BE , BOM_ENCODE_UTF32_LEN ) ;
break ;
case EUTFE_UTF32_LE :
COPY_ARRAY ( BOM_ENCODE_UTF32_LE , BOM_ENCODE_UTF32_LEN ) ;
break ;
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case EUTFE_NONE :
// TODO sapier: fixed warning only,
// don't know if something needs to be done here
break ;
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}
return ret ;
# undef COPY_ARRAY
}
//! Detects if the given data stream starts with a unicode BOM.
//! \param data The data stream to check.
//! \return The unicode BOM associated with the data stream, or EUTFE_NONE if none was found.
inline EUTF_ENCODE determineUnicodeBOM ( const char * data )
{
if ( memcmp ( data , BOM_ENCODE_UTF8 , 3 ) = = 0 ) return EUTFE_UTF8 ;
if ( memcmp ( data , BOM_ENCODE_UTF16_BE , 2 ) = = 0 ) return EUTFE_UTF16_BE ;
if ( memcmp ( data , BOM_ENCODE_UTF16_LE , 2 ) = = 0 ) return EUTFE_UTF16_LE ;
if ( memcmp ( data , BOM_ENCODE_UTF32_BE , 4 ) = = 0 ) return EUTFE_UTF32_BE ;
if ( memcmp ( data , BOM_ENCODE_UTF32_LE , 4 ) = = 0 ) return EUTFE_UTF32_LE ;
return EUTFE_NONE ;
}
} // end namespace unicode
//! UTF-16 string class.
template < typename TAlloc = irrAllocator < uchar16_t > >
class ustring16
{
public :
///------------------///
/// iterator classes ///
///------------------///
//! Access an element in a unicode string, allowing one to change it.
class _ustring16_iterator_access
{
public :
_ustring16_iterator_access ( const ustring16 < TAlloc > * s , u32 p ) : ref ( s ) , pos ( p ) { }
//! Allow the class to be interpreted as a single UTF-32 character.
operator uchar32_t ( ) const
{
return _get ( ) ;
}
//! Allow one to change the character in the unicode string.
//! \param c The new character to use.
//! \return Myself.
_ustring16_iterator_access & operator = ( const uchar32_t c )
{
_set ( c ) ;
return * this ;
}
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//! Increments the value by 1.
//! \return Myself.
_ustring16_iterator_access & operator + + ( )
{
_set ( _get ( ) + 1 ) ;
return * this ;
}
//! Increments the value by 1, returning the old value.
//! \return A unicode character.
uchar32_t operator + + ( int )
{
uchar32_t old = _get ( ) ;
_set ( old + 1 ) ;
return old ;
}
//! Decrements the value by 1.
//! \return Myself.
_ustring16_iterator_access & operator - - ( )
{
_set ( _get ( ) - 1 ) ;
return * this ;
}
//! Decrements the value by 1, returning the old value.
//! \return A unicode character.
uchar32_t operator - - ( int )
{
uchar32_t old = _get ( ) ;
_set ( old - 1 ) ;
return old ;
}
//! Adds to the value by a specified amount.
//! \param val The amount to add to this character.
//! \return Myself.
_ustring16_iterator_access & operator + = ( int val )
{
_set ( _get ( ) + val ) ;
return * this ;
}
//! Subtracts from the value by a specified amount.
//! \param val The amount to subtract from this character.
//! \return Myself.
_ustring16_iterator_access & operator - = ( int val )
{
_set ( _get ( ) - val ) ;
return * this ;
}
//! Multiples the value by a specified amount.
//! \param val The amount to multiply this character by.
//! \return Myself.
_ustring16_iterator_access & operator * = ( int val )
{
_set ( _get ( ) * val ) ;
return * this ;
}
//! Divides the value by a specified amount.
//! \param val The amount to divide this character by.
//! \return Myself.
_ustring16_iterator_access & operator / = ( int val )
{
_set ( _get ( ) / val ) ;
return * this ;
}
//! Modulos the value by a specified amount.
//! \param val The amount to modulo this character by.
//! \return Myself.
_ustring16_iterator_access & operator % = ( int val )
{
_set ( _get ( ) % val ) ;
return * this ;
}
//! Adds to the value by a specified amount.
//! \param val The amount to add to this character.
//! \return A unicode character.
uchar32_t operator + ( int val ) const
{
return _get ( ) + val ;
}
//! Subtracts from the value by a specified amount.
//! \param val The amount to subtract from this character.
//! \return A unicode character.
uchar32_t operator - ( int val ) const
{
return _get ( ) - val ;
}
//! Multiplies the value by a specified amount.
//! \param val The amount to multiply this character by.
//! \return A unicode character.
uchar32_t operator * ( int val ) const
{
return _get ( ) * val ;
}
//! Divides the value by a specified amount.
//! \param val The amount to divide this character by.
//! \return A unicode character.
uchar32_t operator / ( int val ) const
{
return _get ( ) / val ;
}
//! Modulos the value by a specified amount.
//! \param val The amount to modulo this character by.
//! \return A unicode character.
uchar32_t operator % ( int val ) const
{
return _get ( ) % val ;
}
private :
//! Gets a uchar32_t from our current position.
uchar32_t _get ( ) const
{
const uchar16_t * a = ref - > c_str ( ) ;
if ( ! UTF16_IS_SURROGATE ( a [ pos ] ) )
return static_cast < uchar32_t > ( a [ pos ] ) ;
else
{
if ( pos + 1 > = ref - > size_raw ( ) )
return 0 ;
return unicode : : toUTF32 ( a [ pos ] , a [ pos + 1 ] ) ;
}
}
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//! Sets a uchar32_t at our current position.
void _set ( uchar32_t c )
{
ustring16 < TAlloc > * ref2 = const_cast < ustring16 < TAlloc > * > ( ref ) ;
const uchar16_t * a = ref2 - > c_str ( ) ;
if ( c > 0xFFFF )
{
// c will be multibyte, so split it up into the high and low surrogate pairs.
uchar16_t x = static_cast < uchar16_t > ( c ) ;
uchar16_t vh = UTF16_HI_SURROGATE | ( ( ( ( c > > 16 ) & ( ( 1 < < 5 ) - 1 ) ) - 1 ) < < 6 ) | ( x > > 10 ) ;
uchar16_t vl = UTF16_LO_SURROGATE | ( x & ( ( 1 < < 10 ) - 1 ) ) ;
// If the previous position was a surrogate pair, just replace them. Else, insert the low pair.
if ( UTF16_IS_SURROGATE_HI ( a [ pos ] ) & & pos + 1 ! = ref2 - > size_raw ( ) )
ref2 - > replace_raw ( vl , static_cast < u32 > ( pos ) + 1 ) ;
else ref2 - > insert_raw ( vl , static_cast < u32 > ( pos ) + 1 ) ;
ref2 - > replace_raw ( vh , static_cast < u32 > ( pos ) ) ;
}
else
{
// c will be a single byte.
uchar16_t vh = static_cast < uchar16_t > ( c ) ;
// If the previous position was a surrogate pair, remove the extra byte.
if ( UTF16_IS_SURROGATE_HI ( a [ pos ] ) )
ref2 - > erase_raw ( static_cast < u32 > ( pos ) + 1 ) ;
ref2 - > replace_raw ( vh , static_cast < u32 > ( pos ) ) ;
}
}
const ustring16 < TAlloc > * ref ;
u32 pos ;
} ;
typedef typename ustring16 < TAlloc > : : _ustring16_iterator_access access ;
//! Iterator to iterate through a UTF-16 string.
# ifndef USTRING_NO_STL
class _ustring16_const_iterator : public std : : iterator <
std : : bidirectional_iterator_tag , // iterator_category
access , // value_type
ptrdiff_t , // difference_type
const access , // pointer
const access // reference
>
# else
class _ustring16_const_iterator
# endif
{
public :
typedef _ustring16_const_iterator _Iter ;
typedef std : : iterator < std : : bidirectional_iterator_tag , access , ptrdiff_t , const access , const access > _Base ;
typedef const access const_pointer ;
typedef const access const_reference ;
# ifndef USTRING_NO_STL
typedef typename _Base : : value_type value_type ;
typedef typename _Base : : difference_type difference_type ;
typedef typename _Base : : difference_type distance_type ;
typedef typename _Base : : pointer pointer ;
typedef const_reference reference ;
# else
typedef access value_type ;
typedef u32 difference_type ;
typedef u32 distance_type ;
typedef const_pointer pointer ;
typedef const_reference reference ;
# endif
//! Constructors.
_ustring16_const_iterator ( const _Iter & i ) : ref ( i . ref ) , pos ( i . pos ) { }
_ustring16_const_iterator ( const ustring16 < TAlloc > & s ) : ref ( & s ) , pos ( 0 ) { }
_ustring16_const_iterator ( const ustring16 < TAlloc > & s , const u32 p ) : ref ( & s ) , pos ( 0 )
{
if ( ref - > size_raw ( ) = = 0 | | p = = 0 )
return ;
// Go to the appropriate position.
u32 i = p ;
u32 sr = ref - > size_raw ( ) ;
const uchar16_t * a = ref - > c_str ( ) ;
while ( i ! = 0 & & pos < sr )
{
if ( UTF16_IS_SURROGATE_HI ( a [ pos ] ) )
pos + = 2 ;
else + + pos ;
- - i ;
}
}
//! Test for equalness.
bool operator = = ( const _Iter & iter ) const
{
if ( ref = = iter . ref & & pos = = iter . pos )
return true ;
return false ;
}
//! Test for unequalness.
bool operator ! = ( const _Iter & iter ) const
{
if ( ref ! = iter . ref | | pos ! = iter . pos )
return true ;
return false ;
}
//! Switch to the next full character in the string.
_Iter & operator + + ( )
{ // ++iterator
if ( pos = = ref - > size_raw ( ) ) return * this ;
const uchar16_t * a = ref - > c_str ( ) ;
if ( UTF16_IS_SURROGATE_HI ( a [ pos ] ) )
pos + = 2 ; // TODO: check for valid low surrogate?
else + + pos ;
if ( pos > ref - > size_raw ( ) ) pos = ref - > size_raw ( ) ;
return * this ;
}
//! Switch to the next full character in the string, returning the previous position.
_Iter operator + + ( int )
{ // iterator++
_Iter _tmp ( * this ) ;
+ + * this ;
return _tmp ;
}
//! Switch to the previous full character in the string.
_Iter & operator - - ( )
{ // --iterator
if ( pos = = 0 ) return * this ;
const uchar16_t * a = ref - > c_str ( ) ;
- - pos ;
if ( UTF16_IS_SURROGATE_LO ( a [ pos ] ) & & pos ! = 0 ) // low surrogate, go back one more.
- - pos ;
return * this ;
}
//! Switch to the previous full character in the string, returning the previous position.
_Iter operator - - ( int )
{ // iterator--
_Iter _tmp ( * this ) ;
- - * this ;
return _tmp ;
}
//! Advance a specified number of full characters in the string.
//! \return Myself.
_Iter & operator + = ( const difference_type v )
{
if ( v = = 0 ) return * this ;
if ( v < 0 ) return operator - = ( v * - 1 ) ;
if ( pos > = ref - > size_raw ( ) )
return * this ;
// Go to the appropriate position.
// TODO: Don't force u32 on an x64 OS. Make it agnostic.
u32 i = ( u32 ) v ;
u32 sr = ref - > size_raw ( ) ;
const uchar16_t * a = ref - > c_str ( ) ;
while ( i ! = 0 & & pos < sr )
{
if ( UTF16_IS_SURROGATE_HI ( a [ pos ] ) )
pos + = 2 ;
else + + pos ;
- - i ;
}
if ( pos > sr )
pos = sr ;
return * this ;
}
//! Go back a specified number of full characters in the string.
//! \return Myself.
_Iter & operator - = ( const difference_type v )
{
if ( v = = 0 ) return * this ;
if ( v > 0 ) return operator + = ( v * - 1 ) ;
if ( pos = = 0 )
return * this ;
// Go to the appropriate position.
// TODO: Don't force u32 on an x64 OS. Make it agnostic.
u32 i = ( u32 ) v ;
const uchar16_t * a = ref - > c_str ( ) ;
while ( i ! = 0 & & pos ! = 0 )
{
- - pos ;
if ( UTF16_IS_SURROGATE_LO ( a [ pos ] ) ! = 0 & & pos ! = 0 )
- - pos ;
- - i ;
}
return * this ;
}
//! Return a new iterator that is a variable number of full characters forward from the current position.
_Iter operator + ( const difference_type v ) const
{
_Iter ret ( * this ) ;
ret + = v ;
return ret ;
}
//! Return a new iterator that is a variable number of full characters backward from the current position.
_Iter operator - ( const difference_type v ) const
{
_Iter ret ( * this ) ;
ret - = v ;
return ret ;
}
//! Returns the distance between two iterators.
difference_type operator - ( const _Iter & iter ) const
{
// Make sure we reference the same object!
if ( ref ! = iter . ref )
return difference_type ( ) ;
_Iter i = iter ;
difference_type ret ;
// Walk up.
if ( pos > i . pos )
{
while ( pos > i . pos )
{
+ + i ;
+ + ret ;
}
return ret ;
}
// Walk down.
while ( pos < i . pos )
{
- - i ;
- - ret ;
}
return ret ;
}
//! Accesses the full character at the iterator's position.
const_reference operator * ( ) const
{
if ( pos > = ref - > size_raw ( ) )
{
const uchar16_t * a = ref - > c_str ( ) ;
u32 p = ref - > size_raw ( ) ;
if ( UTF16_IS_SURROGATE_LO ( a [ p ] ) )
- - p ;
reference ret ( ref , p ) ;
return ret ;
}
const_reference ret ( ref , pos ) ;
return ret ;
}
//! Accesses the full character at the iterator's position.
reference operator * ( )
{
if ( pos > = ref - > size_raw ( ) )
{
const uchar16_t * a = ref - > c_str ( ) ;
u32 p = ref - > size_raw ( ) ;
if ( UTF16_IS_SURROGATE_LO ( a [ p ] ) )
- - p ;
reference ret ( ref , p ) ;
return ret ;
}
reference ret ( ref , pos ) ;
return ret ;
}
//! Accesses the full character at the iterator's position.
const_pointer operator - > ( ) const
{
return operator * ( ) ;
}
//! Accesses the full character at the iterator's position.
pointer operator - > ( )
{
return operator * ( ) ;
}
//! Is the iterator at the start of the string?
bool atStart ( ) const
{
return pos = = 0 ;
}
//! Is the iterator at the end of the string?
bool atEnd ( ) const
{
const uchar16_t * a = ref - > c_str ( ) ;
if ( UTF16_IS_SURROGATE ( a [ pos ] ) )
return ( pos + 1 ) > = ref - > size_raw ( ) ;
else return pos > = ref - > size_raw ( ) ;
}
//! Moves the iterator to the start of the string.
void toStart ( )
{
pos = 0 ;
}
//! Moves the iterator to the end of the string.
void toEnd ( )
{
pos = ref - > size_raw ( ) ;
}
//! Returns the iterator's position.
//! \return The iterator's position.
u32 getPos ( ) const
{
return pos ;
}
protected :
const ustring16 < TAlloc > * ref ;
u32 pos ;
} ;
//! Iterator to iterate through a UTF-16 string.
class _ustring16_iterator : public _ustring16_const_iterator
{
public :
typedef _ustring16_iterator _Iter ;
typedef _ustring16_const_iterator _Base ;
typedef typename _Base : : const_pointer const_pointer ;
typedef typename _Base : : const_reference const_reference ;
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typedef typename _Base : : value_type value_type ;
typedef typename _Base : : difference_type difference_type ;
typedef typename _Base : : distance_type distance_type ;
typedef access pointer ;
typedef access reference ;
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using _Base : : pos ;
using _Base : : ref ;
//! Constructors.
_ustring16_iterator ( const _Iter & i ) : _ustring16_const_iterator ( i ) { }
_ustring16_iterator ( const ustring16 < TAlloc > & s ) : _ustring16_const_iterator ( s ) { }
_ustring16_iterator ( const ustring16 < TAlloc > & s , const u32 p ) : _ustring16_const_iterator ( s , p ) { }
//! Accesses the full character at the iterator's position.
reference operator * ( ) const
{
if ( pos > = ref - > size_raw ( ) )
{
const uchar16_t * a = ref - > c_str ( ) ;
u32 p = ref - > size_raw ( ) ;
if ( UTF16_IS_SURROGATE_LO ( a [ p ] ) )
- - p ;
reference ret ( ref , p ) ;
return ret ;
}
reference ret ( ref , pos ) ;
return ret ;
}
//! Accesses the full character at the iterator's position.
reference operator * ( )
{
if ( pos > = ref - > size_raw ( ) )
{
const uchar16_t * a = ref - > c_str ( ) ;
u32 p = ref - > size_raw ( ) ;
if ( UTF16_IS_SURROGATE_LO ( a [ p ] ) )
- - p ;
reference ret ( ref , p ) ;
return ret ;
}
reference ret ( ref , pos ) ;
return ret ;
}
//! Accesses the full character at the iterator's position.
pointer operator - > ( ) const
{
return operator * ( ) ;
}
//! Accesses the full character at the iterator's position.
pointer operator - > ( )
{
return operator * ( ) ;
}
} ;
typedef typename ustring16 < TAlloc > : : _ustring16_iterator iterator ;
typedef typename ustring16 < TAlloc > : : _ustring16_const_iterator const_iterator ;
///----------------------///
/// end iterator classes ///
///----------------------///
//! Default constructor
ustring16 ( )
: array ( 0 ) , allocated ( 1 ) , used ( 0 )
{
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# if __BYTE_ORDER == __BIG_ENDIAN
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encoding = unicode : : EUTFE_UTF16_BE ;
# else
encoding = unicode : : EUTFE_UTF16_LE ;
# endif
array = allocator . allocate ( 1 ) ; // new u16[1];
array [ 0 ] = 0x0 ;
}
//! Constructor
ustring16 ( const ustring16 < TAlloc > & other )
: array ( 0 ) , allocated ( 0 ) , used ( 0 )
{
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# if __BYTE_ORDER == __BIG_ENDIAN
2013-02-03 13:19:09 +01:00
encoding = unicode : : EUTFE_UTF16_BE ;
# else
encoding = unicode : : EUTFE_UTF16_LE ;
# endif
* this = other ;
}
//! Constructor from other string types
template < class B , class A >
ustring16 ( const string < B , A > & other )
: array ( 0 ) , allocated ( 0 ) , used ( 0 )
{
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# if __BYTE_ORDER == __BIG_ENDIAN
2013-02-03 13:19:09 +01:00
encoding = unicode : : EUTFE_UTF16_BE ;
# else
encoding = unicode : : EUTFE_UTF16_LE ;
# endif
* this = other ;
}
# ifndef USTRING_NO_STL
//! Constructor from std::string
template < class B , class A , typename Alloc >
ustring16 ( const std : : basic_string < B , A , Alloc > & other )
: array ( 0 ) , allocated ( 0 ) , used ( 0 )
{
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# if __BYTE_ORDER == __BIG_ENDIAN
2013-02-03 13:19:09 +01:00
encoding = unicode : : EUTFE_UTF16_BE ;
# else
encoding = unicode : : EUTFE_UTF16_LE ;
# endif
* this = other . c_str ( ) ;
}
//! Constructor from iterator.
template < typename Itr >
ustring16 ( Itr first , Itr last )
: array ( 0 ) , allocated ( 0 ) , used ( 0 )
{
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# if __BYTE_ORDER == __BIG_ENDIAN
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encoding = unicode : : EUTFE_UTF16_BE ;
# else
encoding = unicode : : EUTFE_UTF16_LE ;
# endif
reserve ( std : : distance ( first , last ) ) ;
array [ used ] = 0 ;
for ( ; first ! = last ; + + first )
append ( ( uchar32_t ) * first ) ;
}
# endif
# ifndef USTRING_CPP0X_NEWLITERALS
//! Constructor for copying a character string from a pointer.
ustring16 ( const char * const c )
: array ( 0 ) , allocated ( 0 ) , used ( 0 )
{
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# if __BYTE_ORDER == __BIG_ENDIAN
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encoding = unicode : : EUTFE_UTF16_BE ;
# else
encoding = unicode : : EUTFE_UTF16_LE ;
# endif
loadDataStream ( c , strlen ( c ) ) ;
//append((uchar8_t*)c);
}
//! Constructor for copying a character string from a pointer with a given length.
ustring16 ( const char * const c , u32 length )
: array ( 0 ) , allocated ( 0 ) , used ( 0 )
{
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# if __BYTE_ORDER == __BIG_ENDIAN
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encoding = unicode : : EUTFE_UTF16_BE ;
# else
encoding = unicode : : EUTFE_UTF16_LE ;
# endif
loadDataStream ( c , length ) ;
}
# endif
//! Constructor for copying a UTF-8 string from a pointer.
ustring16 ( const uchar8_t * const c )
: array ( 0 ) , allocated ( 0 ) , used ( 0 )
{
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# if __BYTE_ORDER == __BIG_ENDIAN
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encoding = unicode : : EUTFE_UTF16_BE ;
# else
encoding = unicode : : EUTFE_UTF16_LE ;
# endif
append ( c ) ;
}
//! Constructor for copying a UTF-8 string from a single char.
ustring16 ( const char c )
: array ( 0 ) , allocated ( 0 ) , used ( 0 )
{
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# if __BYTE_ORDER == __BIG_ENDIAN
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encoding = unicode : : EUTFE_UTF16_BE ;
# else
encoding = unicode : : EUTFE_UTF16_LE ;
# endif
append ( ( uchar32_t ) c ) ;
}
//! Constructor for copying a UTF-8 string from a pointer with a given length.
ustring16 ( const uchar8_t * const c , u32 length )
: array ( 0 ) , allocated ( 0 ) , used ( 0 )
{
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# if __BYTE_ORDER == __BIG_ENDIAN
2013-02-03 13:19:09 +01:00
encoding = unicode : : EUTFE_UTF16_BE ;
# else
encoding = unicode : : EUTFE_UTF16_LE ;
# endif
append ( c , length ) ;
}
//! Constructor for copying a UTF-16 string from a pointer.
ustring16 ( const uchar16_t * const c )
: array ( 0 ) , allocated ( 0 ) , used ( 0 )
{
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# if __BYTE_ORDER == __BIG_ENDIAN
2013-02-03 13:19:09 +01:00
encoding = unicode : : EUTFE_UTF16_BE ;
# else
encoding = unicode : : EUTFE_UTF16_LE ;
# endif
append ( c ) ;
}
//! Constructor for copying a UTF-16 string from a pointer with a given length
ustring16 ( const uchar16_t * const c , u32 length )
: array ( 0 ) , allocated ( 0 ) , used ( 0 )
{
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# if __BYTE_ORDER == __BIG_ENDIAN
2013-02-03 13:19:09 +01:00
encoding = unicode : : EUTFE_UTF16_BE ;
# else
encoding = unicode : : EUTFE_UTF16_LE ;
# endif
append ( c , length ) ;
}
//! Constructor for copying a UTF-32 string from a pointer.
ustring16 ( const uchar32_t * const c )
: array ( 0 ) , allocated ( 0 ) , used ( 0 )
{
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# if __BYTE_ORDER == __BIG_ENDIAN
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encoding = unicode : : EUTFE_UTF16_BE ;
# else
encoding = unicode : : EUTFE_UTF16_LE ;
# endif
append ( c ) ;
}
//! Constructor for copying a UTF-32 from a pointer with a given length.
ustring16 ( const uchar32_t * const c , u32 length )
: array ( 0 ) , allocated ( 0 ) , used ( 0 )
{
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# if __BYTE_ORDER == __BIG_ENDIAN
2013-02-03 13:19:09 +01:00
encoding = unicode : : EUTFE_UTF16_BE ;
# else
encoding = unicode : : EUTFE_UTF16_LE ;
# endif
append ( c , length ) ;
}
//! Constructor for copying a wchar_t string from a pointer.
ustring16 ( const wchar_t * const c )
: array ( 0 ) , allocated ( 0 ) , used ( 0 )
{
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# if __BYTE_ORDER == __BIG_ENDIAN
2013-02-03 13:19:09 +01:00
encoding = unicode : : EUTFE_UTF16_BE ;
# else
encoding = unicode : : EUTFE_UTF16_LE ;
# endif
if ( sizeof ( wchar_t ) = = 4 )
append ( reinterpret_cast < const uchar32_t * const > ( c ) ) ;
else if ( sizeof ( wchar_t ) = = 2 )
append ( reinterpret_cast < const uchar16_t * const > ( c ) ) ;
else if ( sizeof ( wchar_t ) = = 1 )
append ( reinterpret_cast < const uchar8_t * const > ( c ) ) ;
}
//! Constructor for copying a wchar_t string from a pointer with a given length.
ustring16 ( const wchar_t * const c , u32 length )
: array ( 0 ) , allocated ( 0 ) , used ( 0 )
{
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# if __BYTE_ORDER == __BIG_ENDIAN
2013-02-03 13:19:09 +01:00
encoding = unicode : : EUTFE_UTF16_BE ;
# else
encoding = unicode : : EUTFE_UTF16_LE ;
# endif
if ( sizeof ( wchar_t ) = = 4 )
append ( reinterpret_cast < const uchar32_t * const > ( c ) , length ) ;
else if ( sizeof ( wchar_t ) = = 2 )
append ( reinterpret_cast < const uchar16_t * const > ( c ) , length ) ;
else if ( sizeof ( wchar_t ) = = 1 )
append ( reinterpret_cast < const uchar8_t * const > ( c ) , length ) ;
}
# ifdef USTRING_CPP0X
//! Constructor for moving a ustring16
ustring16 ( ustring16 < TAlloc > & & other )
: array ( other . array ) , encoding ( other . encoding ) , allocated ( other . allocated ) , used ( other . used )
{
//std::cout << "MOVE constructor" << std::endl;
other . array = 0 ;
other . allocated = 0 ;
other . used = 0 ;
}
# endif
//! Destructor
~ ustring16 ( )
{
allocator . deallocate ( array ) ; // delete [] array;
}
//! Assignment operator
ustring16 & operator = ( const ustring16 < TAlloc > & other )
{
if ( this = = & other )
return * this ;
used = other . size_raw ( ) ;
if ( used > = allocated )
{
allocator . deallocate ( array ) ; // delete [] array;
allocated = used + 1 ;
array = allocator . allocate ( used + 1 ) ; //new u16[used];
}
const uchar16_t * p = other . c_str ( ) ;
for ( u32 i = 0 ; i < = used ; + + i , + + p )
array [ i ] = * p ;
array [ used ] = 0 ;
// Validate our new UTF-16 string.
validate ( ) ;
return * this ;
}
# ifdef USTRING_CPP0X
//! Move assignment operator
ustring16 & operator = ( ustring16 < TAlloc > & & other )
{
if ( this ! = & other )
{
//std::cout << "MOVE operator=" << std::endl;
allocator . deallocate ( array ) ;
array = other . array ;
allocated = other . allocated ;
encoding = other . encoding ;
used = other . used ;
other . array = 0 ;
other . used = 0 ;
}
return * this ;
}
# endif
//! Assignment operator for other string types
template < class B , class A >
ustring16 < TAlloc > & operator = ( const string < B , A > & other )
{
* this = other . c_str ( ) ;
return * this ;
}
//! Assignment operator for UTF-8 strings
ustring16 < TAlloc > & operator = ( const uchar8_t * const c )
{
if ( ! array )
{
array = allocator . allocate ( 1 ) ; //new u16[1];
allocated = 1 ;
}
used = 0 ;
array [ used ] = 0x0 ;
if ( ! c ) return * this ;
//! Append our string now.
append ( c ) ;
return * this ;
}
//! Assignment operator for UTF-16 strings
ustring16 < TAlloc > & operator = ( const uchar16_t * const c )
{
if ( ! array )
{
array = allocator . allocate ( 1 ) ; //new u16[1];
allocated = 1 ;
}
used = 0 ;
array [ used ] = 0x0 ;
if ( ! c ) return * this ;
//! Append our string now.
append ( c ) ;
return * this ;
}
//! Assignment operator for UTF-32 strings
ustring16 < TAlloc > & operator = ( const uchar32_t * const c )
{
if ( ! array )
{
array = allocator . allocate ( 1 ) ; //new u16[1];
allocated = 1 ;
}
used = 0 ;
array [ used ] = 0x0 ;
if ( ! c ) return * this ;
//! Append our string now.
append ( c ) ;
return * this ;
}
//! Assignment operator for wchar_t strings.
/** Note that this assumes that a correct unicode string is stored in the wchar_t string.
Since wchar_t changes depending on its platform , it could either be a UTF - 8 , - 16 , or - 32 string .
This function assumes you are storing the correct unicode encoding inside the wchar_t string . * */
ustring16 < TAlloc > & operator = ( const wchar_t * const c )
{
if ( sizeof ( wchar_t ) = = 4 )
* this = reinterpret_cast < const uchar32_t * const > ( c ) ;
else if ( sizeof ( wchar_t ) = = 2 )
* this = reinterpret_cast < const uchar16_t * const > ( c ) ;
else if ( sizeof ( wchar_t ) = = 1 )
* this = reinterpret_cast < const uchar8_t * const > ( c ) ;
return * this ;
}
//! Assignment operator for other strings.
/** Note that this assumes that a correct unicode string is stored in the string. **/
template < class B >
ustring16 < TAlloc > & operator = ( const B * const c )
{
if ( sizeof ( B ) = = 4 )
* this = reinterpret_cast < const uchar32_t * const > ( c ) ;
else if ( sizeof ( B ) = = 2 )
* this = reinterpret_cast < const uchar16_t * const > ( c ) ;
else if ( sizeof ( B ) = = 1 )
* this = reinterpret_cast < const uchar8_t * const > ( c ) ;
return * this ;
}
//! Direct access operator
access operator [ ] ( const u32 index )
{
_IRR_DEBUG_BREAK_IF ( index > = size ( ) ) // bad index
iterator iter ( * this , index ) ;
return iter . operator * ( ) ;
}
//! Direct access operator
const access operator [ ] ( const u32 index ) const
{
_IRR_DEBUG_BREAK_IF ( index > = size ( ) ) // bad index
const_iterator iter ( * this , index ) ;
return iter . operator * ( ) ;
}
//! Equality operator
bool operator = = ( const uchar16_t * const str ) const
{
if ( ! str )
return false ;
u32 i ;
for ( i = 0 ; array [ i ] & & str [ i ] ; + + i )
if ( array [ i ] ! = str [ i ] )
return false ;
return ! array [ i ] & & ! str [ i ] ;
}
//! Equality operator
bool operator = = ( const ustring16 < TAlloc > & other ) const
{
for ( u32 i = 0 ; array [ i ] & & other . array [ i ] ; + + i )
if ( array [ i ] ! = other . array [ i ] )
return false ;
return used = = other . used ;
}
//! Is smaller comparator
bool operator < ( const ustring16 < TAlloc > & other ) const
{
for ( u32 i = 0 ; array [ i ] & & other . array [ i ] ; + + i )
{
s32 diff = array [ i ] - other . array [ i ] ;
if ( diff )
return diff < 0 ;
}
return used < other . used ;
}
//! Inequality operator
bool operator ! = ( const uchar16_t * const str ) const
{
return ! ( * this = = str ) ;
}
//! Inequality operator
bool operator ! = ( const ustring16 < TAlloc > & other ) const
{
return ! ( * this = = other ) ;
}
//! Returns the length of a ustring16 in full characters.
//! \return Length of a ustring16 in full characters.
u32 size ( ) const
{
const_iterator i ( * this , 0 ) ;
u32 pos = 0 ;
while ( ! i . atEnd ( ) )
{
+ + i ;
+ + pos ;
}
return pos ;
}
//! Informs if the ustring is empty or not.
//! \return True if the ustring is empty, false if not.
bool empty ( ) const
{
return ( size_raw ( ) = = 0 ) ;
}
//! Returns a pointer to the raw UTF-16 string data.
//! \return pointer to C-style NUL terminated array of UTF-16 code points.
const uchar16_t * c_str ( ) const
{
return array ;
}
//! Compares the first n characters of this string with another.
//! \param other Other string to compare to.
//! \param n Number of characters to compare.
//! \return True if the n first characters of both strings are equal.
bool equalsn ( const ustring16 < TAlloc > & other , u32 n ) const
{
u32 i ;
const uchar16_t * oa = other . c_str ( ) ;
for ( i = 0 ; array [ i ] & & oa [ i ] & & i < n ; + + i )
if ( array [ i ] ! = oa [ i ] )
return false ;
// if one (or both) of the strings was smaller then they
// are only equal if they have the same length
return ( i = = n ) | | ( used = = other . used ) ;
}
//! Compares the first n characters of this string with another.
//! \param str Other string to compare to.
//! \param n Number of characters to compare.
//! \return True if the n first characters of both strings are equal.
bool equalsn ( const uchar16_t * const str , u32 n ) const
{
if ( ! str )
return false ;
u32 i ;
for ( i = 0 ; array [ i ] & & str [ i ] & & i < n ; + + i )
if ( array [ i ] ! = str [ i ] )
return false ;
// if one (or both) of the strings was smaller then they
// are only equal if they have the same length
return ( i = = n ) | | ( array [ i ] = = 0 & & str [ i ] = = 0 ) ;
}
//! Appends a character to this ustring16
//! \param character The character to append.
//! \return A reference to our current string.
ustring16 < TAlloc > & append ( uchar32_t character )
{
if ( used + 2 > = allocated )
reallocate ( used + 2 ) ;
if ( character > 0xFFFF )
{
used + = 2 ;
// character will be multibyte, so split it up into a surrogate pair.
uchar16_t x = static_cast < uchar16_t > ( character ) ;
uchar16_t vh = UTF16_HI_SURROGATE | ( ( ( ( character > > 16 ) & ( ( 1 < < 5 ) - 1 ) ) - 1 ) < < 6 ) | ( x > > 10 ) ;
uchar16_t vl = UTF16_LO_SURROGATE | ( x & ( ( 1 < < 10 ) - 1 ) ) ;
array [ used - 2 ] = vh ;
array [ used - 1 ] = vl ;
}
else
{
+ + used ;
array [ used - 1 ] = character ;
}
array [ used ] = 0 ;
return * this ;
}
//! Appends a UTF-8 string to this ustring16
//! \param other The UTF-8 string to append.
//! \param length The length of the string to append.
//! \return A reference to our current string.
ustring16 < TAlloc > & append ( const uchar8_t * const other , u32 length = 0xffffffff )
{
if ( ! other )
return * this ;
// Determine if the string is long enough for a BOM.
u32 len = 0 ;
const uchar8_t * p = other ;
do
{
+ + len ;
} while ( * p + + & & len < unicode : : BOM_ENCODE_UTF8_LEN ) ;
// Check for BOM.
unicode : : EUTF_ENCODE c_bom = unicode : : EUTFE_NONE ;
if ( len = = unicode : : BOM_ENCODE_UTF8_LEN )
{
if ( memcmp ( other , unicode : : BOM_ENCODE_UTF8 , unicode : : BOM_ENCODE_UTF8_LEN ) = = 0 )
c_bom = unicode : : EUTFE_UTF8 ;
}
// If a BOM was found, don't include it in the string.
const uchar8_t * c2 = other ;
if ( c_bom ! = unicode : : EUTFE_NONE )
{
c2 = other + unicode : : BOM_UTF8_LEN ;
length - = unicode : : BOM_UTF8_LEN ;
}
// Calculate the size of the string to read in.
len = 0 ;
p = c2 ;
do
{
+ + len ;
} while ( * p + + & & len < length ) ;
if ( len > length )
len = length ;
// If we need to grow the array, do it now.
if ( used + len > = allocated )
reallocate ( used + ( len * 2 ) ) ;
u32 start = used ;
// Convert UTF-8 to UTF-16.
u32 pos = start ;
for ( u32 l = 0 ; l < len ; )
{
+ + used ;
if ( ( ( c2 [ l ] > > 6 ) & 0x03 ) = = 0x02 )
{ // Invalid continuation byte.
array [ pos + + ] = unicode : : UTF_REPLACEMENT_CHARACTER ;
+ + l ;
}
else if ( c2 [ l ] = = 0xC0 | | c2 [ l ] = = 0xC1 )
{ // Invalid byte - overlong encoding.
array [ pos + + ] = unicode : : UTF_REPLACEMENT_CHARACTER ;
+ + l ;
}
else if ( ( c2 [ l ] & 0xF8 ) = = 0xF0 )
{ // 4 bytes UTF-8, 2 bytes UTF-16.
// Check for a full string.
if ( ( l + 3 ) > = len )
{
array [ pos + + ] = unicode : : UTF_REPLACEMENT_CHARACTER ;
l + = 3 ;
break ;
}
// Validate.
bool valid = true ;
u8 l2 = 0 ;
if ( valid & & ( ( ( c2 [ l + 1 ] > > 6 ) & 0x03 ) = = 0x02 ) ) + + l2 ; else valid = false ;
if ( valid & & ( ( ( c2 [ l + 2 ] > > 6 ) & 0x03 ) = = 0x02 ) ) + + l2 ; else valid = false ;
if ( valid & & ( ( ( c2 [ l + 3 ] > > 6 ) & 0x03 ) = = 0x02 ) ) + + l2 ; else valid = false ;
if ( ! valid )
{
array [ pos + + ] = unicode : : UTF_REPLACEMENT_CHARACTER ;
l + = l2 ;
continue ;
}
// Decode.
uchar8_t b1 = ( ( c2 [ l ] & 0x7 ) < < 2 ) | ( ( c2 [ l + 1 ] > > 4 ) & 0x3 ) ;
uchar8_t b2 = ( ( c2 [ l + 1 ] & 0xF ) < < 4 ) | ( ( c2 [ l + 2 ] > > 2 ) & 0xF ) ;
uchar8_t b3 = ( ( c2 [ l + 2 ] & 0x3 ) < < 6 ) | ( c2 [ l + 3 ] & 0x3F ) ;
uchar32_t v = b3 | ( ( uchar32_t ) b2 < < 8 ) | ( ( uchar32_t ) b1 < < 16 ) ;
// Split v up into a surrogate pair.
uchar16_t x = static_cast < uchar16_t > ( v ) ;
uchar16_t vh = UTF16_HI_SURROGATE | ( ( ( ( v > > 16 ) & ( ( 1 < < 5 ) - 1 ) ) - 1 ) < < 6 ) | ( x > > 10 ) ;
uchar16_t vl = UTF16_LO_SURROGATE | ( x & ( ( 1 < < 10 ) - 1 ) ) ;
array [ pos + + ] = vh ;
array [ pos + + ] = vl ;
l + = 4 ;
+ + used ; // Using two shorts this time, so increase used by 1.
}
else if ( ( c2 [ l ] & 0xF0 ) = = 0xE0 )
{ // 3 bytes UTF-8, 1 byte UTF-16.
// Check for a full string.
if ( ( l + 2 ) > = len )
{
array [ pos + + ] = unicode : : UTF_REPLACEMENT_CHARACTER ;
l + = 2 ;
break ;
}
// Validate.
bool valid = true ;
u8 l2 = 0 ;
if ( valid & & ( ( ( c2 [ l + 1 ] > > 6 ) & 0x03 ) = = 0x02 ) ) + + l2 ; else valid = false ;
if ( valid & & ( ( ( c2 [ l + 2 ] > > 6 ) & 0x03 ) = = 0x02 ) ) + + l2 ; else valid = false ;
if ( ! valid )
{
array [ pos + + ] = unicode : : UTF_REPLACEMENT_CHARACTER ;
l + = l2 ;
continue ;
}
// Decode.
uchar8_t b1 = ( ( c2 [ l ] & 0xF ) < < 4 ) | ( ( c2 [ l + 1 ] > > 2 ) & 0xF ) ;
uchar8_t b2 = ( ( c2 [ l + 1 ] & 0x3 ) < < 6 ) | ( c2 [ l + 2 ] & 0x3F ) ;
uchar16_t ch = b2 | ( ( uchar16_t ) b1 < < 8 ) ;
array [ pos + + ] = ch ;
l + = 3 ;
}
else if ( ( c2 [ l ] & 0xE0 ) = = 0xC0 )
{ // 2 bytes UTF-8, 1 byte UTF-16.
// Check for a full string.
if ( ( l + 1 ) > = len )
{
array [ pos + + ] = unicode : : UTF_REPLACEMENT_CHARACTER ;
l + = 1 ;
break ;
}
// Validate.
if ( ( ( c2 [ l + 1 ] > > 6 ) & 0x03 ) ! = 0x02 )
{
array [ pos + + ] = unicode : : UTF_REPLACEMENT_CHARACTER ;
+ + l ;
continue ;
}
// Decode.
uchar8_t b1 = ( c2 [ l ] > > 2 ) & 0x7 ;
uchar8_t b2 = ( ( c2 [ l ] & 0x3 ) < < 6 ) | ( c2 [ l + 1 ] & 0x3F ) ;
uchar16_t ch = b2 | ( ( uchar16_t ) b1 < < 8 ) ;
array [ pos + + ] = ch ;
l + = 2 ;
}
else
{ // 1 byte UTF-8, 1 byte UTF-16.
// Validate.
if ( c2 [ l ] > 0x7F )
{ // Values above 0xF4 are restricted and aren't used. By now, anything above 0x7F is invalid.
array [ pos + + ] = unicode : : UTF_REPLACEMENT_CHARACTER ;
}
else array [ pos + + ] = static_cast < uchar16_t > ( c2 [ l ] ) ;
+ + l ;
}
}
array [ used ] = 0 ;
// Validate our new UTF-16 string.
validate ( ) ;
return * this ;
}
//! Appends a UTF-16 string to this ustring16
//! \param other The UTF-16 string to append.
//! \param length The length of the string to append.
//! \return A reference to our current string.
ustring16 < TAlloc > & append ( const uchar16_t * const other , u32 length = 0xffffffff )
{
if ( ! other )
return * this ;
// Determine if the string is long enough for a BOM.
u32 len = 0 ;
const uchar16_t * p = other ;
do
{
+ + len ;
} while ( * p + + & & len < unicode : : BOM_ENCODE_UTF16_LEN ) ;
// Check for the BOM to determine the string's endianness.
unicode : : EUTF_ENDIAN c_end = unicode : : EUTFEE_NATIVE ;
if ( memcmp ( other , unicode : : BOM_ENCODE_UTF16_LE , unicode : : BOM_ENCODE_UTF16_LEN ) = = 0 )
c_end = unicode : : EUTFEE_LITTLE ;
else if ( memcmp ( other , unicode : : BOM_ENCODE_UTF16_BE , unicode : : BOM_ENCODE_UTF16_LEN ) = = 0 )
c_end = unicode : : EUTFEE_BIG ;
// If a BOM was found, don't include it in the string.
const uchar16_t * c2 = other ;
if ( c_end ! = unicode : : EUTFEE_NATIVE )
{
c2 = other + unicode : : BOM_UTF16_LEN ;
length - = unicode : : BOM_UTF16_LEN ;
}
// Calculate the size of the string to read in.
len = 0 ;
p = c2 ;
do
{
+ + len ;
} while ( * p + + & & len < length ) ;
if ( len > length )
len = length ;
// If we need to grow the size of the array, do it now.
if ( used + len > = allocated )
reallocate ( used + ( len * 2 ) ) ;
u32 start = used ;
used + = len ;
// Copy the string now.
unicode : : EUTF_ENDIAN m_end = getEndianness ( ) ;
for ( u32 l = start ; l < start + len ; + + l )
{
array [ l ] = ( uchar16_t ) c2 [ l ] ;
if ( c_end ! = unicode : : EUTFEE_NATIVE & & c_end ! = m_end )
array [ l ] = unicode : : swapEndian16 ( array [ l ] ) ;
}
array [ used ] = 0 ;
// Validate our new UTF-16 string.
validate ( ) ;
return * this ;
}
//! Appends a UTF-32 string to this ustring16
//! \param other The UTF-32 string to append.
//! \param length The length of the string to append.
//! \return A reference to our current string.
ustring16 < TAlloc > & append ( const uchar32_t * const other , u32 length = 0xffffffff )
{
if ( ! other )
return * this ;
// Check for the BOM to determine the string's endianness.
unicode : : EUTF_ENDIAN c_end = unicode : : EUTFEE_NATIVE ;
if ( memcmp ( other , unicode : : BOM_ENCODE_UTF32_LE , unicode : : BOM_ENCODE_UTF32_LEN ) = = 0 )
c_end = unicode : : EUTFEE_LITTLE ;
else if ( memcmp ( other , unicode : : BOM_ENCODE_UTF32_BE , unicode : : BOM_ENCODE_UTF32_LEN ) = = 0 )
c_end = unicode : : EUTFEE_BIG ;
// If a BOM was found, don't include it in the string.
const uchar32_t * c2 = other ;
if ( c_end ! = unicode : : EUTFEE_NATIVE )
{
c2 = other + unicode : : BOM_UTF32_LEN ;
length - = unicode : : BOM_UTF32_LEN ;
}
// Calculate the size of the string to read in.
u32 len = 0 ;
const uchar32_t * p = c2 ;
do
{
+ + len ;
} while ( * p + + & & len < length ) ;
if ( len > length )
len = length ;
// If we need to grow the size of the array, do it now.
// In case all of the UTF-32 string is split into surrogate pairs, do len * 2.
if ( used + ( len * 2 ) > = allocated )
reallocate ( used + ( ( len * 2 ) * 2 ) ) ;
u32 start = used ;
// Convert UTF-32 to UTF-16.
unicode : : EUTF_ENDIAN m_end = getEndianness ( ) ;
u32 pos = start ;
for ( u32 l = 0 ; l < len ; + + l )
{
+ + used ;
uchar32_t ch = c2 [ l ] ;
if ( c_end ! = unicode : : EUTFEE_NATIVE & & c_end ! = m_end )
ch = unicode : : swapEndian32 ( ch ) ;
if ( ch > 0xFFFF )
{
// Split ch up into a surrogate pair as it is over 16 bits long.
uchar16_t x = static_cast < uchar16_t > ( ch ) ;
uchar16_t vh = UTF16_HI_SURROGATE | ( ( ( ( ch > > 16 ) & ( ( 1 < < 5 ) - 1 ) ) - 1 ) < < 6 ) | ( x > > 10 ) ;
uchar16_t vl = UTF16_LO_SURROGATE | ( x & ( ( 1 < < 10 ) - 1 ) ) ;
array [ pos + + ] = vh ;
array [ pos + + ] = vl ;
+ + used ; // Using two shorts, so increased used again.
}
else if ( ch > = 0xD800 & & ch < = 0xDFFF )
{
// Between possible UTF-16 surrogates (invalid!)
array [ pos + + ] = unicode : : UTF_REPLACEMENT_CHARACTER ;
}
else array [ pos + + ] = static_cast < uchar16_t > ( ch ) ;
}
array [ used ] = 0 ;
// Validate our new UTF-16 string.
validate ( ) ;
return * this ;
}
//! Appends a ustring16 to this ustring16
//! \param other The string to append to this one.
//! \return A reference to our current string.
ustring16 < TAlloc > & append ( const ustring16 < TAlloc > & other )
{
const uchar16_t * oa = other . c_str ( ) ;
u32 len = other . size_raw ( ) ;
if ( used + len > = allocated )
reallocate ( used + len ) ;
for ( u32 l = 0 ; l < len ; + + l )
array [ used + l ] = oa [ l ] ;
used + = len ;
array [ used ] = 0 ;
return * this ;
}
//! Appends a certain amount of characters of a ustring16 to this ustring16.
//! \param other The string to append to this one.
//! \param length How many characters of the other string to add to this one.
//! \return A reference to our current string.
ustring16 < TAlloc > & append ( const ustring16 < TAlloc > & other , u32 length )
{
if ( other . size ( ) = = 0 )
return * this ;
if ( other . size ( ) < length )
{
append ( other ) ;
return * this ;
}
if ( used + length * 2 > = allocated )
reallocate ( used + length * 2 ) ;
const_iterator iter ( other , 0 ) ;
u32 l = length ;
while ( ! iter . atEnd ( ) & & l )
{
uchar32_t c = * iter ;
append ( c ) ;
+ + iter ;
- - l ;
}
return * this ;
}
//! Reserves some memory.
//! \param count The amount of characters to reserve.
void reserve ( u32 count )
{
if ( count < allocated )
return ;
reallocate ( count ) ;
}
//! Finds first occurrence of character.
//! \param c The character to search for.
//! \return Position where the character has been found, or -1 if not found.
s32 findFirst ( uchar32_t c ) const
{
const_iterator i ( * this , 0 ) ;
s32 pos = 0 ;
while ( ! i . atEnd ( ) )
{
uchar32_t t = * i ;
if ( c = = t )
return pos ;
+ + pos ;
+ + i ;
}
return - 1 ;
}
//! Finds first occurrence of a character of a list.
//! \param c A list of characters to find. For example if the method should find the first occurrence of 'a' or 'b', this parameter should be "ab".
//! \param count The amount of characters in the list. Usually, this should be strlen(c).
//! \return Position where one of the characters has been found, or -1 if not found.
s32 findFirstChar ( const uchar32_t * const c , u32 count = 1 ) const
{
if ( ! c | | ! count )
return - 1 ;
const_iterator i ( * this , 0 ) ;
s32 pos = 0 ;
while ( ! i . atEnd ( ) )
{
uchar32_t t = * i ;
for ( u32 j = 0 ; j < count ; + + j )
if ( t = = c [ j ] )
return pos ;
+ + pos ;
+ + i ;
}
return - 1 ;
}
//! Finds first position of a character not in a given list.
//! \param c A list of characters to NOT find. For example if the method should find the first occurrence of a character not 'a' or 'b', this parameter should be "ab".
//! \param count The amount of characters in the list. Usually, this should be strlen(c).
//! \return Position where the character has been found, or -1 if not found.
s32 findFirstCharNotInList ( const uchar32_t * const c , u32 count = 1 ) const
{
if ( ! c | | ! count )
return - 1 ;
const_iterator i ( * this , 0 ) ;
s32 pos = 0 ;
while ( ! i . atEnd ( ) )
{
uchar32_t t = * i ;
u32 j ;
for ( j = 0 ; j < count ; + + j )
if ( t = = c [ j ] )
break ;
if ( j = = count )
return pos ;
+ + pos ;
+ + i ;
}
return - 1 ;
}
//! Finds last position of a character not in a given list.
//! \param c A list of characters to NOT find. For example if the method should find the first occurrence of a character not 'a' or 'b', this parameter should be "ab".
//! \param count The amount of characters in the list. Usually, this should be strlen(c).
//! \return Position where the character has been found, or -1 if not found.
s32 findLastCharNotInList ( const uchar32_t * const c , u32 count = 1 ) const
{
if ( ! c | | ! count )
return - 1 ;
const_iterator i ( end ( ) ) ;
- - i ;
s32 pos = size ( ) - 1 ;
while ( ! i . atStart ( ) )
{
uchar32_t t = * i ;
u32 j ;
for ( j = 0 ; j < count ; + + j )
if ( t = = c [ j ] )
break ;
if ( j = = count )
return pos ;
- - pos ;
- - i ;
}
return - 1 ;
}
//! Finds next occurrence of character.
//! \param c The character to search for.
//! \param startPos The position in the string to start searching.
//! \return Position where the character has been found, or -1 if not found.
s32 findNext ( uchar32_t c , u32 startPos ) const
{
const_iterator i ( * this , startPos ) ;
s32 pos = startPos ;
while ( ! i . atEnd ( ) )
{
uchar32_t t = * i ;
if ( t = = c )
return pos ;
+ + pos ;
+ + i ;
}
return - 1 ;
}
//! Finds last occurrence of character.
//! \param c The character to search for.
//! \param start The start position of the reverse search ( default = -1, on end ).
//! \return Position where the character has been found, or -1 if not found.
s32 findLast ( uchar32_t c , s32 start = - 1 ) const
{
u32 s = size ( ) ;
start = core : : clamp ( start < 0 ? ( s32 ) s : start , 0 , ( s32 ) s ) - 1 ;
const_iterator i ( * this , start ) ;
u32 pos = start ;
while ( ! i . atStart ( ) )
{
uchar32_t t = * i ;
if ( t = = c )
return pos ;
- - pos ;
- - i ;
}
return - 1 ;
}
//! Finds last occurrence of a character in a list.
//! \param c A list of strings to find. For example if the method should find the last occurrence of 'a' or 'b', this parameter should be "ab".
//! \param count The amount of characters in the list. Usually, this should be strlen(c).
//! \return Position where one of the characters has been found, or -1 if not found.
s32 findLastChar ( const uchar32_t * const c , u32 count = 1 ) const
{
if ( ! c | | ! count )
return - 1 ;
const_iterator i ( end ( ) ) ;
- - i ;
s32 pos = size ( ) ;
while ( ! i . atStart ( ) )
{
uchar32_t t = * i ;
for ( u32 j = 0 ; j < count ; + + j )
if ( t = = c [ j ] )
return pos ;
- - pos ;
- - i ;
}
return - 1 ;
}
//! Finds another ustring16 in this ustring16.
//! \param str The string to find.
//! \param start The start position of the search.
//! \return Positions where the ustring16 has been found, or -1 if not found.
s32 find ( const ustring16 < TAlloc > & str , const u32 start = 0 ) const
{
u32 my_size = size ( ) ;
u32 their_size = str . size ( ) ;
if ( their_size = = 0 | | my_size - start < their_size )
return - 1 ;
const_iterator i ( * this , start ) ;
s32 pos = start ;
while ( ! i . atEnd ( ) )
{
const_iterator i2 ( i ) ;
const_iterator j ( str , 0 ) ;
uchar32_t t1 = ( uchar32_t ) * i2 ;
uchar32_t t2 = ( uchar32_t ) * j ;
while ( t1 = = t2 )
{
+ + i2 ;
+ + j ;
if ( j . atEnd ( ) )
return pos ;
t1 = ( uchar32_t ) * i2 ;
t2 = ( uchar32_t ) * j ;
}
+ + i ;
+ + pos ;
}
return - 1 ;
}
//! Finds another ustring16 in this ustring16.
//! \param str The string to find.
//! \param start The start position of the search.
//! \return Positions where the string has been found, or -1 if not found.
s32 find_raw ( const ustring16 < TAlloc > & str , const u32 start = 0 ) const
{
const uchar16_t * data = str . c_str ( ) ;
if ( data & & * data )
{
u32 len = 0 ;
while ( data [ len ] )
+ + len ;
if ( len > used )
return - 1 ;
for ( u32 i = start ; i < = used - len ; + + i )
{
u32 j = 0 ;
while ( data [ j ] & & array [ i + j ] = = data [ j ] )
+ + j ;
if ( ! data [ j ] )
return i ;
}
}
return - 1 ;
}
//! Returns a substring.
//! \param begin: Start of substring.
//! \param length: Length of substring.
//! \return A reference to our current string.
ustring16 < TAlloc > subString ( u32 begin , s32 length ) const
{
u32 len = size ( ) ;
// if start after ustring16
// or no proper substring length
if ( ( length < = 0 ) | | ( begin > = len ) )
return ustring16 < TAlloc > ( " " ) ;
// clamp length to maximal value
if ( ( length + begin ) > len )
length = len - begin ;
ustring16 < TAlloc > o ;
o . reserve ( ( length + 1 ) * 2 ) ;
const_iterator i ( * this , begin ) ;
while ( ! i . atEnd ( ) & & length )
{
o . append ( * i ) ;
+ + i ;
- - length ;
}
return o ;
}
//! Appends a character to this ustring16.
//! \param c Character to append.
//! \return A reference to our current string.
ustring16 < TAlloc > & operator + = ( char c )
{
append ( ( uchar32_t ) c ) ;
return * this ;
}
//! Appends a character to this ustring16.
//! \param c Character to append.
//! \return A reference to our current string.
ustring16 < TAlloc > & operator + = ( uchar32_t c )
{
append ( c ) ;
return * this ;
}
//! Appends a number to this ustring16.
//! \param c Number to append.
//! \return A reference to our current string.
ustring16 < TAlloc > & operator + = ( short c )
{
append ( core : : stringc ( c ) ) ;
return * this ;
}
//! Appends a number to this ustring16.
//! \param c Number to append.
//! \return A reference to our current string.
ustring16 < TAlloc > & operator + = ( unsigned short c )
{
append ( core : : stringc ( c ) ) ;
return * this ;
}
# ifdef USTRING_CPP0X_NEWLITERALS
//! Appends a number to this ustring16.
//! \param c Number to append.
//! \return A reference to our current string.
ustring16 < TAlloc > & operator + = ( int c )
{
append ( core : : stringc ( c ) ) ;
return * this ;
}
//! Appends a number to this ustring16.
//! \param c Number to append.
//! \return A reference to our current string.
ustring16 < TAlloc > & operator + = ( unsigned int c )
{
append ( core : : stringc ( c ) ) ;
return * this ;
}
# endif
2013-11-03 17:28:16 +01:00
2013-02-03 13:19:09 +01:00
//! Appends a number to this ustring16.
//! \param c Number to append.
//! \return A reference to our current string.
ustring16 < TAlloc > & operator + = ( long c )
{
append ( core : : stringc ( c ) ) ;
return * this ;
}
//! Appends a number to this ustring16.
//! \param c Number to append.
//! \return A reference to our current string.
ustring16 < TAlloc > & operator + = ( unsigned long c )
{
append ( core : : stringc ( c ) ) ;
return * this ;
}
//! Appends a number to this ustring16.
//! \param c Number to append.
//! \return A reference to our current string.
ustring16 < TAlloc > & operator + = ( double c )
{
append ( core : : stringc ( c ) ) ;
return * this ;
}
//! Appends a char ustring16 to this ustring16.
//! \param c Char ustring16 to append.
//! \return A reference to our current string.
ustring16 < TAlloc > & operator + = ( const uchar16_t * const c )
{
append ( c ) ;
return * this ;
}
//! Appends a ustring16 to this ustring16.
//! \param other ustring16 to append.
//! \return A reference to our current string.
ustring16 < TAlloc > & operator + = ( const ustring16 < TAlloc > & other )
{
append ( other ) ;
return * this ;
}
//! Replaces all characters of a given type with another one.
//! \param toReplace Character to replace.
//! \param replaceWith Character replacing the old one.
//! \return A reference to our current string.
ustring16 < TAlloc > & replace ( uchar32_t toReplace , uchar32_t replaceWith )
{
iterator i ( * this , 0 ) ;
while ( ! i . atEnd ( ) )
{
typename ustring16 < TAlloc > : : access a = * i ;
if ( ( uchar32_t ) a = = toReplace )
a = replaceWith ;
+ + i ;
}
return * this ;
}
//! Replaces all instances of a string with another one.
//! \param toReplace The string to replace.
//! \param replaceWith The string replacing the old one.
//! \return A reference to our current string.
ustring16 < TAlloc > & replace ( const ustring16 < TAlloc > & toReplace , const ustring16 < TAlloc > & replaceWith )
{
if ( toReplace . size ( ) = = 0 )
return * this ;
const uchar16_t * other = toReplace . c_str ( ) ;
const uchar16_t * replace = replaceWith . c_str ( ) ;
const u32 other_size = toReplace . size_raw ( ) ;
const u32 replace_size = replaceWith . size_raw ( ) ;
// Determine the delta. The algorithm will change depending on the delta.
s32 delta = replace_size - other_size ;
// A character for character replace. The string will not shrink or grow.
if ( delta = = 0 )
{
s32 pos = 0 ;
while ( ( pos = find_raw ( other , pos ) ) ! = - 1 )
{
for ( u32 i = 0 ; i < replace_size ; + + i )
array [ pos + i ] = replace [ i ] ;
+ + pos ;
}
return * this ;
}
// We are going to be removing some characters. The string will shrink.
if ( delta < 0 )
{
u32 i = 0 ;
for ( u32 pos = 0 ; pos < = used ; + + i , + + pos )
{
// Is this potentially a match?
if ( array [ pos ] = = * other )
{
// Check to see if we have a match.
u32 j ;
for ( j = 0 ; j < other_size ; + + j )
{
if ( array [ pos + j ] ! = other [ j ] )
break ;
}
// If we have a match, replace characters.
if ( j = = other_size )
{
for ( j = 0 ; j < replace_size ; + + j )
array [ i + j ] = replace [ j ] ;
i + = replace_size - 1 ;
pos + = other_size - 1 ;
continue ;
}
}
// No match found, just copy characters.
array [ i - 1 ] = array [ pos ] ;
}
array [ i ] = 0 ;
used = i ;
return * this ;
}
// We are going to be adding characters, so the string size will increase.
// Count the number of times toReplace exists in the string so we can allocate the new size.
u32 find_count = 0 ;
s32 pos = 0 ;
while ( ( pos = find_raw ( other , pos ) ) ! = - 1 )
{
+ + find_count ;
+ + pos ;
}
// Re-allocate the string now, if needed.
u32 len = delta * find_count ;
if ( used + len > = allocated )
reallocate ( used + len ) ;
// Start replacing.
pos = 0 ;
while ( ( pos = find_raw ( other , pos ) ) ! = - 1 )
{
uchar16_t * start = array + pos + other_size - 1 ;
uchar16_t * ptr = array + used ;
uchar16_t * end = array + used + delta ;
// Shift characters to make room for the string.
while ( ptr ! = start )
{
* end = * ptr ;
- - ptr ;
- - end ;
}
// Add the new string now.
for ( u32 i = 0 ; i < replace_size ; + + i )
array [ pos + i ] = replace [ i ] ;
pos + = replace_size ;
used + = delta ;
}
// Terminate the string and return ourself.
array [ used ] = 0 ;
return * this ;
}
//! Removes characters from a ustring16..
//! \param c The character to remove.
//! \return A reference to our current string.
ustring16 < TAlloc > & remove ( uchar32_t c )
{
u32 pos = 0 ;
u32 found = 0 ;
u32 len = ( c > 0xFFFF ? 2 : 1 ) ; // Remove characters equal to the size of c as a UTF-16 character.
for ( u32 i = 0 ; i < = used ; + + i )
{
uchar32_t uc32 = 0 ;
if ( ! UTF16_IS_SURROGATE_HI ( array [ i ] ) )
uc32 | = array [ i ] ;
else if ( i + 1 < = used )
{
// Convert the surrogate pair into a single UTF-32 character.
uc32 = unicode : : toUTF32 ( array [ i ] , array [ i + 1 ] ) ;
}
u32 len2 = ( uc32 > 0xFFFF ? 2 : 1 ) ;
if ( uc32 = = c )
{
found + = len ;
continue ;
}
array [ pos + + ] = array [ i ] ;
if ( len2 = = 2 )
array [ pos + + ] = array [ + + i ] ;
}
used - = found ;
array [ used ] = 0 ;
return * this ;
}
//! Removes a ustring16 from the ustring16.
//! \param toRemove The string to remove.
//! \return A reference to our current string.
ustring16 < TAlloc > & remove ( const ustring16 < TAlloc > & toRemove )
{
u32 size = toRemove . size_raw ( ) ;
if ( size = = 0 ) return * this ;
const uchar16_t * tra = toRemove . c_str ( ) ;
u32 pos = 0 ;
u32 found = 0 ;
for ( u32 i = 0 ; i < = used ; + + i )
{
u32 j = 0 ;
while ( j < size )
{
if ( array [ i + j ] ! = tra [ j ] )
break ;
+ + j ;
}
if ( j = = size )
{
found + = size ;
i + = size - 1 ;
continue ;
}
array [ pos + + ] = array [ i ] ;
}
used - = found ;
array [ used ] = 0 ;
return * this ;
}
//! Removes characters from the ustring16.
//! \param characters The characters to remove.
//! \return A reference to our current string.
ustring16 < TAlloc > & removeChars ( const ustring16 < TAlloc > & characters )
{
if ( characters . size_raw ( ) = = 0 )
return * this ;
u32 pos = 0 ;
u32 found = 0 ;
const_iterator iter ( characters ) ;
for ( u32 i = 0 ; i < = used ; + + i )
{
uchar32_t uc32 = 0 ;
if ( ! UTF16_IS_SURROGATE_HI ( array [ i ] ) )
uc32 | = array [ i ] ;
else if ( i + 1 < = used )
{
// Convert the surrogate pair into a single UTF-32 character.
uc32 = unicode : : toUTF32 ( array [ i ] , array [ i + 1 ] ) ;
}
u32 len2 = ( uc32 > 0xFFFF ? 2 : 1 ) ;
bool cont = false ;
iter . toStart ( ) ;
while ( ! iter . atEnd ( ) )
{
uchar32_t c = * iter ;
if ( uc32 = = c )
{
found + = ( c > 0xFFFF ? 2 : 1 ) ; // Remove characters equal to the size of c as a UTF-16 character.
+ + i ;
cont = true ;
break ;
}
+ + iter ;
}
if ( cont ) continue ;
array [ pos + + ] = array [ i ] ;
if ( len2 = = 2 )
array [ pos + + ] = array [ + + i ] ;
}
used - = found ;
array [ used ] = 0 ;
return * this ;
}
//! Trims the ustring16.
//! Removes the specified characters (by default, Latin-1 whitespace) from the begining and the end of the ustring16.
//! \param whitespace The characters that are to be considered as whitespace.
//! \return A reference to our current string.
ustring16 < TAlloc > & trim ( const ustring16 < TAlloc > & whitespace = " \t \n \r " )
{
core : : array < uchar32_t > utf32white = whitespace . toUTF32 ( ) ;
// find start and end of the substring without the specified characters
const s32 begin = findFirstCharNotInList ( utf32white . const_pointer ( ) , whitespace . used + 1 ) ;
if ( begin = = - 1 )
return ( * this = " " ) ;
const s32 end = findLastCharNotInList ( utf32white . const_pointer ( ) , whitespace . used + 1 ) ;
return ( * this = subString ( begin , ( end + 1 ) - begin ) ) ;
}
//! Erases a character from the ustring16.
//! May be slow, because all elements following after the erased element have to be copied.
//! \param index Index of element to be erased.
//! \return A reference to our current string.
ustring16 < TAlloc > & erase ( u32 index )
{
_IRR_DEBUG_BREAK_IF ( index > used ) // access violation
iterator i ( * this , index ) ;
uchar32_t t = * i ;
u32 len = ( t > 0xFFFF ? 2 : 1 ) ;
for ( u32 j = static_cast < u32 > ( i . getPos ( ) ) + len ; j < = used ; + + j )
array [ j - len ] = array [ j ] ;
used - = len ;
array [ used ] = 0 ;
return * this ;
}
//! Validate the existing ustring16, checking for valid surrogate pairs and checking for proper termination.
//! \return A reference to our current string.
ustring16 < TAlloc > & validate ( )
{
// Validate all unicode characters.
for ( u32 i = 0 ; i < allocated ; + + i )
{
// Terminate on existing null.
if ( array [ i ] = = 0 )
{
used = i ;
return * this ;
}
if ( UTF16_IS_SURROGATE ( array [ i ] ) )
{
if ( ( ( i + 1 ) > = allocated ) | | UTF16_IS_SURROGATE_LO ( array [ i ] ) )
array [ i ] = unicode : : UTF_REPLACEMENT_CHARACTER ;
else if ( UTF16_IS_SURROGATE_HI ( array [ i ] ) & & ! UTF16_IS_SURROGATE_LO ( array [ i + 1 ] ) )
array [ i ] = unicode : : UTF_REPLACEMENT_CHARACTER ;
+ + i ;
}
if ( array [ i ] > = 0xFDD0 & & array [ i ] < = 0xFDEF )
array [ i ] = unicode : : UTF_REPLACEMENT_CHARACTER ;
}
// terminate
used = 0 ;
if ( allocated > 0 )
{
used = allocated - 1 ;
array [ used ] = 0 ;
}
return * this ;
}
//! Gets the last char of the ustring16, or 0.
//! \return The last char of the ustring16, or 0.
uchar32_t lastChar ( ) const
{
if ( used < 1 )
return 0 ;
if ( UTF16_IS_SURROGATE_LO ( array [ used - 1 ] ) )
{
// Make sure we have a paired surrogate.
if ( used < 2 )
return 0 ;
// Check for an invalid surrogate.
if ( ! UTF16_IS_SURROGATE_HI ( array [ used - 2 ] ) )
return 0 ;
// Convert the surrogate pair into a single UTF-32 character.
return unicode : : toUTF32 ( array [ used - 2 ] , array [ used - 1 ] ) ;
}
else
{
return array [ used - 1 ] ;
}
}
//! Split the ustring16 into parts.
/** This method will split a ustring16 at certain delimiter characters
into the container passed in as reference . The type of the container
has to be given as template parameter . It must provide a push_back and
a size method .
\ param ret The result container
\ param c C - style ustring16 of delimiter characters
\ param count Number of delimiter characters
\ param ignoreEmptyTokens Flag to avoid empty substrings in the result
container . If two delimiters occur without a character in between , an
empty substring would be placed in the result . If this flag is set ,
only non - empty strings are stored .
\ param keepSeparators Flag which allows to add the separator to the
result ustring16 . If this flag is true , the concatenation of the
substrings results in the original ustring16 . Otherwise , only the
characters between the delimiters are returned .
\ return The number of resulting substrings
*/
template < class container >
u32 split ( container & ret , const uchar32_t * const c , u32 count = 1 , bool ignoreEmptyTokens = true , bool keepSeparators = false ) const
{
if ( ! c )
return 0 ;
const_iterator i ( * this ) ;
const u32 oldSize = ret . size ( ) ;
u32 pos = 0 ;
u32 lastpos = 0 ;
u32 lastpospos = 0 ;
bool lastWasSeparator = false ;
while ( ! i . atEnd ( ) )
{
uchar32_t ch = * i ;
bool foundSeparator = false ;
for ( u32 j = 0 ; j < count ; + + j )
{
if ( ch = = c [ j ] )
{
if ( ( ! ignoreEmptyTokens | | pos - lastpos ! = 0 ) & &
! lastWasSeparator )
ret . push_back ( ustring16 < TAlloc > ( & array [ lastpospos ] , pos - lastpos ) ) ;
foundSeparator = true ;
lastpos = ( keepSeparators ? pos : pos + 1 ) ;
lastpospos = ( keepSeparators ? i . getPos ( ) : i . getPos ( ) + 1 ) ;
break ;
}
}
lastWasSeparator = foundSeparator ;
+ + pos ;
+ + i ;
}
u32 s = size ( ) + 1 ;
if ( s > lastpos )
ret . push_back ( ustring16 < TAlloc > ( & array [ lastpospos ] , s - lastpos ) ) ;
return ret . size ( ) - oldSize ;
}
//! Split the ustring16 into parts.
/** This method will split a ustring16 at certain delimiter characters
into the container passed in as reference . The type of the container
has to be given as template parameter . It must provide a push_back and
a size method .
\ param ret The result container
\ param c A unicode string of delimiter characters
\ param ignoreEmptyTokens Flag to avoid empty substrings in the result
container . If two delimiters occur without a character in between , an
empty substring would be placed in the result . If this flag is set ,
only non - empty strings are stored .
\ param keepSeparators Flag which allows to add the separator to the
result ustring16 . If this flag is true , the concatenation of the
substrings results in the original ustring16 . Otherwise , only the
characters between the delimiters are returned .
\ return The number of resulting substrings
*/
template < class container >
u32 split ( container & ret , const ustring16 < TAlloc > & c , bool ignoreEmptyTokens = true , bool keepSeparators = false ) const
{
core : : array < uchar32_t > v = c . toUTF32 ( ) ;
return split ( ret , v . pointer ( ) , v . size ( ) , ignoreEmptyTokens , keepSeparators ) ;
}
//! Gets the size of the allocated memory buffer for the string.
//! \return The size of the allocated memory buffer.
u32 capacity ( ) const
{
return allocated ;
}
//! Returns the raw number of UTF-16 code points in the string which includes the individual surrogates.
//! \return The raw number of UTF-16 code points, excluding the trialing NUL.
u32 size_raw ( ) const
{
return used ;
}
//! Inserts a character into the string.
//! \param c The character to insert.
//! \param pos The position to insert the character.
//! \return A reference to our current string.
ustring16 < TAlloc > & insert ( uchar32_t c , u32 pos )
{
u8 len = ( c > 0xFFFF ? 2 : 1 ) ;
if ( used + len > = allocated )
reallocate ( used + len ) ;
used + = len ;
iterator iter ( * this , pos ) ;
for ( u32 i = used - 2 ; i > iter . getPos ( ) ; - - i )
array [ i ] = array [ i - len ] ;
if ( c > 0xFFFF )
{
// c will be multibyte, so split it up into a surrogate pair.
uchar16_t x = static_cast < uchar16_t > ( c ) ;
uchar16_t vh = UTF16_HI_SURROGATE | ( ( ( ( c > > 16 ) & ( ( 1 < < 5 ) - 1 ) ) - 1 ) < < 6 ) | ( x > > 10 ) ;
uchar16_t vl = UTF16_LO_SURROGATE | ( x & ( ( 1 < < 10 ) - 1 ) ) ;
array [ iter . getPos ( ) ] = vh ;
array [ iter . getPos ( ) + 1 ] = vl ;
}
else
{
array [ iter . getPos ( ) ] = static_cast < uchar16_t > ( c ) ;
}
array [ used ] = 0 ;
return * this ;
}
//! Inserts a string into the string.
//! \param c The string to insert.
//! \param pos The position to insert the string.
//! \return A reference to our current string.
ustring16 < TAlloc > & insert ( const ustring16 < TAlloc > & c , u32 pos )
{
u32 len = c . size_raw ( ) ;
if ( len = = 0 ) return * this ;
if ( used + len > = allocated )
reallocate ( used + len ) ;
used + = len ;
iterator iter ( * this , pos ) ;
for ( u32 i = used - 2 ; i > iter . getPos ( ) + len ; - - i )
array [ i ] = array [ i - len ] ;
const uchar16_t * s = c . c_str ( ) ;
for ( u32 i = 0 ; i < len ; + + i )
{
array [ pos + + ] = * s ;
+ + s ;
}
array [ used ] = 0 ;
return * this ;
}
//! Inserts a character into the string.
//! \param c The character to insert.
//! \param pos The position to insert the character.
//! \return A reference to our current string.
ustring16 < TAlloc > & insert_raw ( uchar16_t c , u32 pos )
{
if ( used + 1 > = allocated )
reallocate ( used + 1 ) ;
+ + used ;
for ( u32 i = used - 1 ; i > pos ; - - i )
array [ i ] = array [ i - 1 ] ;
array [ pos ] = c ;
array [ used ] = 0 ;
return * this ;
}
//! Removes a character from string.
//! \param pos Position of the character to remove.
//! \return A reference to our current string.
ustring16 < TAlloc > & erase_raw ( u32 pos )
{
for ( u32 i = pos ; i < = used ; + + i )
{
array [ i ] = array [ i + 1 ] ;
}
- - used ;
array [ used ] = 0 ;
return * this ;
}
//! Replaces a character in the string.
//! \param c The new character.
//! \param pos The position of the character to replace.
//! \return A reference to our current string.
ustring16 < TAlloc > & replace_raw ( uchar16_t c , u32 pos )
{
array [ pos ] = c ;
return * this ;
}
//! Returns an iterator to the beginning of the string.
//! \return An iterator to the beginning of the string.
iterator begin ( )
{
iterator i ( * this , 0 ) ;
return i ;
}
//! Returns an iterator to the beginning of the string.
//! \return An iterator to the beginning of the string.
const_iterator begin ( ) const
{
const_iterator i ( * this , 0 ) ;
return i ;
}
//! Returns an iterator to the beginning of the string.
//! \return An iterator to the beginning of the string.
const_iterator cbegin ( ) const
{
const_iterator i ( * this , 0 ) ;
return i ;
}
//! Returns an iterator to the end of the string.
//! \return An iterator to the end of the string.
iterator end ( )
{
iterator i ( * this , 0 ) ;
i . toEnd ( ) ;
return i ;
}
//! Returns an iterator to the end of the string.
//! \return An iterator to the end of the string.
const_iterator end ( ) const
{
const_iterator i ( * this , 0 ) ;
i . toEnd ( ) ;
return i ;
}
//! Returns an iterator to the end of the string.
//! \return An iterator to the end of the string.
const_iterator cend ( ) const
{
const_iterator i ( * this , 0 ) ;
i . toEnd ( ) ;
return i ;
}
//! Converts the string to a UTF-8 encoded string.
//! \param addBOM If true, the proper unicode byte-order mark will be prefixed to the string.
//! \return A string containing the UTF-8 encoded string.
core : : string < uchar8_t > toUTF8_s ( const bool addBOM = false ) const
{
core : : string < uchar8_t > ret ;
ret . reserve ( used * 4 + ( addBOM ? unicode : : BOM_UTF8_LEN : 0 ) + 1 ) ;
const_iterator iter ( * this , 0 ) ;
// Add the byte order mark if the user wants it.
if ( addBOM )
{
ret . append ( unicode : : BOM_ENCODE_UTF8 [ 0 ] ) ;
ret . append ( unicode : : BOM_ENCODE_UTF8 [ 1 ] ) ;
ret . append ( unicode : : BOM_ENCODE_UTF8 [ 2 ] ) ;
}
while ( ! iter . atEnd ( ) )
{
uchar32_t c = * iter ;
if ( c > 0xFFFF )
{ // 4 bytes
uchar8_t b1 = ( 0x1E < < 3 ) | ( ( c > > 18 ) & 0x7 ) ;
uchar8_t b2 = ( 0x2 < < 6 ) | ( ( c > > 12 ) & 0x3F ) ;
uchar8_t b3 = ( 0x2 < < 6 ) | ( ( c > > 6 ) & 0x3F ) ;
uchar8_t b4 = ( 0x2 < < 6 ) | ( c & 0x3F ) ;
ret . append ( b1 ) ;
ret . append ( b2 ) ;
ret . append ( b3 ) ;
ret . append ( b4 ) ;
}
else if ( c > 0x7FF )
{ // 3 bytes
uchar8_t b1 = ( 0xE < < 4 ) | ( ( c > > 12 ) & 0xF ) ;
uchar8_t b2 = ( 0x2 < < 6 ) | ( ( c > > 6 ) & 0x3F ) ;
uchar8_t b3 = ( 0x2 < < 6 ) | ( c & 0x3F ) ;
ret . append ( b1 ) ;
ret . append ( b2 ) ;
ret . append ( b3 ) ;
}
else if ( c > 0x7F )
{ // 2 bytes
uchar8_t b1 = ( 0x6 < < 5 ) | ( ( c > > 6 ) & 0x1F ) ;
uchar8_t b2 = ( 0x2 < < 6 ) | ( c & 0x3F ) ;
ret . append ( b1 ) ;
ret . append ( b2 ) ;
}
else
{ // 1 byte
ret . append ( static_cast < uchar8_t > ( c ) ) ;
}
+ + iter ;
}
return ret ;
}
//! Converts the string to a UTF-8 encoded string array.
//! \param addBOM If true, the proper unicode byte-order mark will be prefixed to the string.
//! \return An array containing the UTF-8 encoded string.
core : : array < uchar8_t > toUTF8 ( const bool addBOM = false ) const
{
core : : array < uchar8_t > ret ( used * 4 + ( addBOM ? unicode : : BOM_UTF8_LEN : 0 ) + 1 ) ;
const_iterator iter ( * this , 0 ) ;
// Add the byte order mark if the user wants it.
if ( addBOM )
{
ret . push_back ( unicode : : BOM_ENCODE_UTF8 [ 0 ] ) ;
ret . push_back ( unicode : : BOM_ENCODE_UTF8 [ 1 ] ) ;
ret . push_back ( unicode : : BOM_ENCODE_UTF8 [ 2 ] ) ;
}
while ( ! iter . atEnd ( ) )
{
uchar32_t c = * iter ;
if ( c > 0xFFFF )
{ // 4 bytes
uchar8_t b1 = ( 0x1E < < 3 ) | ( ( c > > 18 ) & 0x7 ) ;
uchar8_t b2 = ( 0x2 < < 6 ) | ( ( c > > 12 ) & 0x3F ) ;
uchar8_t b3 = ( 0x2 < < 6 ) | ( ( c > > 6 ) & 0x3F ) ;
uchar8_t b4 = ( 0x2 < < 6 ) | ( c & 0x3F ) ;
ret . push_back ( b1 ) ;
ret . push_back ( b2 ) ;
ret . push_back ( b3 ) ;
ret . push_back ( b4 ) ;
}
else if ( c > 0x7FF )
{ // 3 bytes
uchar8_t b1 = ( 0xE < < 4 ) | ( ( c > > 12 ) & 0xF ) ;
uchar8_t b2 = ( 0x2 < < 6 ) | ( ( c > > 6 ) & 0x3F ) ;
uchar8_t b3 = ( 0x2 < < 6 ) | ( c & 0x3F ) ;
ret . push_back ( b1 ) ;
ret . push_back ( b2 ) ;
ret . push_back ( b3 ) ;
}
else if ( c > 0x7F )
{ // 2 bytes
uchar8_t b1 = ( 0x6 < < 5 ) | ( ( c > > 6 ) & 0x1F ) ;
uchar8_t b2 = ( 0x2 < < 6 ) | ( c & 0x3F ) ;
ret . push_back ( b1 ) ;
ret . push_back ( b2 ) ;
}
else
{ // 1 byte
ret . push_back ( static_cast < uchar8_t > ( c ) ) ;
}
+ + iter ;
}
ret . push_back ( 0 ) ;
return ret ;
}
# ifdef USTRING_CPP0X_NEWLITERALS // C++0x
//! Converts the string to a UTF-16 encoded string.
//! \param endian The desired endianness of the string.
//! \param addBOM If true, the proper unicode byte-order mark will be prefixed to the string.
//! \return A string containing the UTF-16 encoded string.
core : : string < char16_t > toUTF16_s ( const unicode : : EUTF_ENDIAN endian = unicode : : EUTFEE_NATIVE , const bool addBOM = false ) const
{
core : : string < char16_t > ret ;
ret . reserve ( used + ( addBOM ? unicode : : BOM_UTF16_LEN : 0 ) + 1 ) ;
// Add the BOM if specified.
if ( addBOM )
{
if ( endian = = unicode : : EUTFEE_NATIVE )
ret [ 0 ] = unicode : : BOM ;
else if ( endian = = unicode : : EUTFEE_LITTLE )
{
uchar8_t * ptr8 = reinterpret_cast < uchar8_t * > ( ret . c_str ( ) ) ;
* ptr8 + + = unicode : : BOM_ENCODE_UTF16_LE [ 0 ] ;
* ptr8 = unicode : : BOM_ENCODE_UTF16_LE [ 1 ] ;
}
else
{
uchar8_t * ptr8 = reinterpret_cast < uchar8_t * > ( ret . c_str ( ) ) ;
* ptr8 + + = unicode : : BOM_ENCODE_UTF16_BE [ 0 ] ;
* ptr8 = unicode : : BOM_ENCODE_UTF16_BE [ 1 ] ;
}
}
ret . append ( array ) ;
if ( endian ! = unicode : : EUTFEE_NATIVE & & getEndianness ( ) ! = endian )
{
char16_t * ptr = ret . c_str ( ) ;
for ( u32 i = 0 ; i < ret . size ( ) ; + + i )
* ptr + + = unicode : : swapEndian16 ( * ptr ) ;
}
return ret ;
}
# endif
//! Converts the string to a UTF-16 encoded string array.
//! Unfortunately, no toUTF16_s() version exists due to limitations with Irrlicht's string class.
//! \param endian The desired endianness of the string.
//! \param addBOM If true, the proper unicode byte-order mark will be prefixed to the string.
//! \return An array containing the UTF-16 encoded string.
core : : array < uchar16_t > toUTF16 ( const unicode : : EUTF_ENDIAN endian = unicode : : EUTFEE_NATIVE , const bool addBOM = false ) const
{
core : : array < uchar16_t > ret ( used + ( addBOM ? unicode : : BOM_UTF16_LEN : 0 ) + 1 ) ;
uchar16_t * ptr = ret . pointer ( ) ;
// Add the BOM if specified.
if ( addBOM )
{
if ( endian = = unicode : : EUTFEE_NATIVE )
* ptr = unicode : : BOM ;
else if ( endian = = unicode : : EUTFEE_LITTLE )
{
uchar8_t * ptr8 = reinterpret_cast < uchar8_t * > ( ptr ) ;
* ptr8 + + = unicode : : BOM_ENCODE_UTF16_LE [ 0 ] ;
* ptr8 = unicode : : BOM_ENCODE_UTF16_LE [ 1 ] ;
}
else
{
uchar8_t * ptr8 = reinterpret_cast < uchar8_t * > ( ptr ) ;
* ptr8 + + = unicode : : BOM_ENCODE_UTF16_BE [ 0 ] ;
* ptr8 = unicode : : BOM_ENCODE_UTF16_BE [ 1 ] ;
}
+ + ptr ;
}
memcpy ( ( void * ) ptr , ( void * ) array , used * sizeof ( uchar16_t ) ) ;
if ( endian ! = unicode : : EUTFEE_NATIVE & & getEndianness ( ) ! = endian )
{
for ( u32 i = 0 ; i < = used ; + + i )
2013-11-03 17:28:16 +01:00
ptr [ i ] = unicode : : swapEndian16 ( ptr [ i ] ) ;
2013-02-03 13:19:09 +01:00
}
ret . set_used ( used + ( addBOM ? unicode : : BOM_UTF16_LEN : 0 ) ) ;
ret . push_back ( 0 ) ;
return ret ;
}
# ifdef USTRING_CPP0X_NEWLITERALS // C++0x
//! Converts the string to a UTF-32 encoded string.
//! \param endian The desired endianness of the string.
//! \param addBOM If true, the proper unicode byte-order mark will be prefixed to the string.
//! \return A string containing the UTF-32 encoded string.
core : : string < char32_t > toUTF32_s ( const unicode : : EUTF_ENDIAN endian = unicode : : EUTFEE_NATIVE , const bool addBOM = false ) const
{
core : : string < char32_t > ret ;
ret . reserve ( size ( ) + 1 + ( addBOM ? unicode : : BOM_UTF32_LEN : 0 ) ) ;
const_iterator iter ( * this , 0 ) ;
// Add the BOM if specified.
if ( addBOM )
{
if ( endian = = unicode : : EUTFEE_NATIVE )
ret . append ( unicode : : BOM ) ;
else
{
union
{
uchar32_t full ;
u8 chunk [ 4 ] ;
} t ;
if ( endian = = unicode : : EUTFEE_LITTLE )
{
t . chunk [ 0 ] = unicode : : BOM_ENCODE_UTF32_LE [ 0 ] ;
t . chunk [ 1 ] = unicode : : BOM_ENCODE_UTF32_LE [ 1 ] ;
t . chunk [ 2 ] = unicode : : BOM_ENCODE_UTF32_LE [ 2 ] ;
t . chunk [ 3 ] = unicode : : BOM_ENCODE_UTF32_LE [ 3 ] ;
}
else
{
t . chunk [ 0 ] = unicode : : BOM_ENCODE_UTF32_BE [ 0 ] ;
t . chunk [ 1 ] = unicode : : BOM_ENCODE_UTF32_BE [ 1 ] ;
t . chunk [ 2 ] = unicode : : BOM_ENCODE_UTF32_BE [ 2 ] ;
t . chunk [ 3 ] = unicode : : BOM_ENCODE_UTF32_BE [ 3 ] ;
}
ret . append ( t . full ) ;
}
}
while ( ! iter . atEnd ( ) )
{
uchar32_t c = * iter ;
if ( endian ! = unicode : : EUTFEE_NATIVE & & getEndianness ( ) ! = endian )
c = unicode : : swapEndian32 ( c ) ;
ret . append ( c ) ;
+ + iter ;
}
return ret ;
}
# endif
//! Converts the string to a UTF-32 encoded string array.
//! Unfortunately, no toUTF32_s() version exists due to limitations with Irrlicht's string class.
//! \param endian The desired endianness of the string.
//! \param addBOM If true, the proper unicode byte-order mark will be prefixed to the string.
//! \return An array containing the UTF-32 encoded string.
core : : array < uchar32_t > toUTF32 ( const unicode : : EUTF_ENDIAN endian = unicode : : EUTFEE_NATIVE , const bool addBOM = false ) const
{
core : : array < uchar32_t > ret ( size ( ) + ( addBOM ? unicode : : BOM_UTF32_LEN : 0 ) + 1 ) ;
const_iterator iter ( * this , 0 ) ;
// Add the BOM if specified.
if ( addBOM )
{
if ( endian = = unicode : : EUTFEE_NATIVE )
ret . push_back ( unicode : : BOM ) ;
else
{
union
{
uchar32_t full ;
u8 chunk [ 4 ] ;
} t ;
if ( endian = = unicode : : EUTFEE_LITTLE )
{
t . chunk [ 0 ] = unicode : : BOM_ENCODE_UTF32_LE [ 0 ] ;
t . chunk [ 1 ] = unicode : : BOM_ENCODE_UTF32_LE [ 1 ] ;
t . chunk [ 2 ] = unicode : : BOM_ENCODE_UTF32_LE [ 2 ] ;
t . chunk [ 3 ] = unicode : : BOM_ENCODE_UTF32_LE [ 3 ] ;
}
else
{
t . chunk [ 0 ] = unicode : : BOM_ENCODE_UTF32_BE [ 0 ] ;
t . chunk [ 1 ] = unicode : : BOM_ENCODE_UTF32_BE [ 1 ] ;
t . chunk [ 2 ] = unicode : : BOM_ENCODE_UTF32_BE [ 2 ] ;
t . chunk [ 3 ] = unicode : : BOM_ENCODE_UTF32_BE [ 3 ] ;
}
ret . push_back ( t . full ) ;
}
}
ret . push_back ( 0 ) ;
while ( ! iter . atEnd ( ) )
{
uchar32_t c = * iter ;
if ( endian ! = unicode : : EUTFEE_NATIVE & & getEndianness ( ) ! = endian )
c = unicode : : swapEndian32 ( c ) ;
ret . push_back ( c ) ;
+ + iter ;
}
return ret ;
}
//! Converts the string to a wchar_t encoded string.
/** The size of a wchar_t changes depending on the platform. This function will store a
correct UTF - 8 , - 16 , or - 32 encoded string depending on the size of a wchar_t . * */
//! \param endian The desired endianness of the string.
//! \param addBOM If true, the proper unicode byte-order mark will be prefixed to the string.
//! \return A string containing the wchar_t encoded string.
core : : string < wchar_t > toWCHAR_s ( const unicode : : EUTF_ENDIAN endian = unicode : : EUTFEE_NATIVE , const bool addBOM = false ) const
{
if ( sizeof ( wchar_t ) = = 4 )
{
core : : array < uchar32_t > a ( toUTF32 ( endian , addBOM ) ) ;
core : : stringw ret ( a . pointer ( ) ) ;
return ret ;
}
else if ( sizeof ( wchar_t ) = = 2 )
{
if ( endian = = unicode : : EUTFEE_NATIVE & & addBOM = = false )
{
core : : stringw ret ( array ) ;
return ret ;
}
else
{
core : : array < uchar16_t > a ( toUTF16 ( endian , addBOM ) ) ;
core : : stringw ret ( a . pointer ( ) ) ;
return ret ;
}
}
else if ( sizeof ( wchar_t ) = = 1 )
{
core : : array < uchar8_t > a ( toUTF8 ( addBOM ) ) ;
core : : stringw ret ( a . pointer ( ) ) ;
return ret ;
}
// Shouldn't happen.
return core : : stringw ( ) ;
}
//! Converts the string to a wchar_t encoded string array.
/** The size of a wchar_t changes depending on the platform. This function will store a
correct UTF - 8 , - 16 , or - 32 encoded string depending on the size of a wchar_t . * */
//! \param endian The desired endianness of the string.
//! \param addBOM If true, the proper unicode byte-order mark will be prefixed to the string.
//! \return An array containing the wchar_t encoded string.
core : : array < wchar_t > toWCHAR ( const unicode : : EUTF_ENDIAN endian = unicode : : EUTFEE_NATIVE , const bool addBOM = false ) const
{
if ( sizeof ( wchar_t ) = = 4 )
{
core : : array < uchar32_t > a ( toUTF32 ( endian , addBOM ) ) ;
core : : array < wchar_t > ret ( a . size ( ) ) ;
ret . set_used ( a . size ( ) ) ;
memcpy ( ( void * ) ret . pointer ( ) , ( void * ) a . pointer ( ) , a . size ( ) * sizeof ( uchar32_t ) ) ;
return ret ;
}
if ( sizeof ( wchar_t ) = = 2 )
{
if ( endian = = unicode : : EUTFEE_NATIVE & & addBOM = = false )
{
core : : array < wchar_t > ret ( used ) ;
ret . set_used ( used ) ;
memcpy ( ( void * ) ret . pointer ( ) , ( void * ) array , used * sizeof ( uchar16_t ) ) ;
return ret ;
}
else
{
core : : array < uchar16_t > a ( toUTF16 ( endian , addBOM ) ) ;
core : : array < wchar_t > ret ( a . size ( ) ) ;
ret . set_used ( a . size ( ) ) ;
memcpy ( ( void * ) ret . pointer ( ) , ( void * ) a . pointer ( ) , a . size ( ) * sizeof ( uchar16_t ) ) ;
return ret ;
}
}
if ( sizeof ( wchar_t ) = = 1 )
{
core : : array < uchar8_t > a ( toUTF8 ( addBOM ) ) ;
core : : array < wchar_t > ret ( a . size ( ) ) ;
ret . set_used ( a . size ( ) ) ;
memcpy ( ( void * ) ret . pointer ( ) , ( void * ) a . pointer ( ) , a . size ( ) * sizeof ( uchar8_t ) ) ;
return ret ;
}
// Shouldn't happen.
return core : : array < wchar_t > ( ) ;
}
//! Converts the string to a properly encoded io::path string.
//! \param endian The desired endianness of the string.
//! \param addBOM If true, the proper unicode byte-order mark will be prefixed to the string.
//! \return An io::path string containing the properly encoded string.
io : : path toPATH_s ( const unicode : : EUTF_ENDIAN endian = unicode : : EUTFEE_NATIVE , const bool addBOM = false ) const
{
# if defined(_IRR_WCHAR_FILESYSTEM)
return toWCHAR_s ( endian , addBOM ) ;
# else
return toUTF8_s ( addBOM ) ;
# endif
}
//! Loads an unknown stream of data.
//! Will attempt to determine if the stream is unicode data. Useful for loading from files.
//! \param data The data stream to load from.
//! \param data_size The length of the data string.
//! \return A reference to our current string.
ustring16 < TAlloc > & loadDataStream ( const char * data , size_t data_size )
{
// Clear our string.
* this = " " ;
if ( ! data )
return * this ;
unicode : : EUTF_ENCODE e = unicode : : determineUnicodeBOM ( data ) ;
switch ( e )
{
default :
case unicode : : EUTFE_UTF8 :
append ( ( uchar8_t * ) data , data_size ) ;
break ;
case unicode : : EUTFE_UTF16 :
case unicode : : EUTFE_UTF16_BE :
case unicode : : EUTFE_UTF16_LE :
append ( ( uchar16_t * ) data , data_size / 2 ) ;
break ;
case unicode : : EUTFE_UTF32 :
case unicode : : EUTFE_UTF32_BE :
case unicode : : EUTFE_UTF32_LE :
append ( ( uchar32_t * ) data , data_size / 4 ) ;
break ;
}
return * this ;
}
//! Gets the encoding of the Unicode string this class contains.
//! \return An enum describing the current encoding of this string.
const unicode : : EUTF_ENCODE getEncoding ( ) const
{
return encoding ;
}
//! Gets the endianness of the Unicode string this class contains.
//! \return An enum describing the endianness of this string.
const unicode : : EUTF_ENDIAN getEndianness ( ) const
{
if ( encoding = = unicode : : EUTFE_UTF16_LE | |
encoding = = unicode : : EUTFE_UTF32_LE )
return unicode : : EUTFEE_LITTLE ;
else return unicode : : EUTFEE_BIG ;
}
private :
//! Reallocate the string, making it bigger or smaller.
//! \param new_size The new size of the string.
void reallocate ( u32 new_size )
{
uchar16_t * old_array = array ;
array = allocator . allocate ( new_size + 1 ) ; //new u16[new_size];
allocated = new_size + 1 ;
if ( old_array = = 0 ) return ;
u32 amount = used < new_size ? used : new_size ;
for ( u32 i = 0 ; i < = amount ; + + i )
array [ i ] = old_array [ i ] ;
if ( allocated < = used )
used = allocated - 1 ;
array [ used ] = 0 ;
allocator . deallocate ( old_array ) ; // delete [] old_array;
}
//--- member variables
uchar16_t * array ;
unicode : : EUTF_ENCODE encoding ;
u32 allocated ;
u32 used ;
TAlloc allocator ;
//irrAllocator<uchar16_t> allocator;
} ;
typedef ustring16 < irrAllocator < uchar16_t > > ustring ;
//! Appends two ustring16s.
template < typename TAlloc >
inline ustring16 < TAlloc > operator + ( const ustring16 < TAlloc > & left , const ustring16 < TAlloc > & right )
{
ustring16 < TAlloc > ret ( left ) ;
ret + = right ;
return ret ;
}
//! Appends a ustring16 and a null-terminated unicode string.
template < typename TAlloc , class B >
inline ustring16 < TAlloc > operator + ( const ustring16 < TAlloc > & left , const B * const right )
{
ustring16 < TAlloc > ret ( left ) ;
ret + = right ;
return ret ;
}
//! Appends a ustring16 and a null-terminated unicode string.
template < class B , typename TAlloc >
inline ustring16 < TAlloc > operator + ( const B * const left , const ustring16 < TAlloc > & right )
{
ustring16 < TAlloc > ret ( left ) ;
ret + = right ;
return ret ;
}
//! Appends a ustring16 and an Irrlicht string.
template < typename TAlloc , typename B , typename BAlloc >
inline ustring16 < TAlloc > operator + ( const ustring16 < TAlloc > & left , const string < B , BAlloc > & right )
{
ustring16 < TAlloc > ret ( left ) ;
ret + = right ;
return ret ;
}
//! Appends a ustring16 and an Irrlicht string.
template < typename TAlloc , typename B , typename BAlloc >
inline ustring16 < TAlloc > operator + ( const string < B , BAlloc > & left , const ustring16 < TAlloc > & right )
{
ustring16 < TAlloc > ret ( left ) ;
ret + = right ;
return ret ;
}
//! Appends a ustring16 and a std::basic_string.
template < typename TAlloc , typename B , typename A , typename BAlloc >
inline ustring16 < TAlloc > operator + ( const ustring16 < TAlloc > & left , const std : : basic_string < B , A , BAlloc > & right )
{
ustring16 < TAlloc > ret ( left ) ;
ret + = right ;
return ret ;
}
//! Appends a ustring16 and a std::basic_string.
template < typename TAlloc , typename B , typename A , typename BAlloc >
inline ustring16 < TAlloc > operator + ( const std : : basic_string < B , A , BAlloc > & left , const ustring16 < TAlloc > & right )
{
ustring16 < TAlloc > ret ( left ) ;
ret + = right ;
return ret ;
}
//! Appends a ustring16 and a char.
template < typename TAlloc >
inline ustring16 < TAlloc > operator + ( const ustring16 < TAlloc > & left , const char right )
{
ustring16 < TAlloc > ret ( left ) ;
ret + = right ;
return ret ;
}
//! Appends a ustring16 and a char.
template < typename TAlloc >
inline ustring16 < TAlloc > operator + ( const char left , const ustring16 < TAlloc > & right )
{
ustring16 < TAlloc > ret ( left ) ;
ret + = right ;
return ret ;
}
# ifdef USTRING_CPP0X_NEWLITERALS
//! Appends a ustring16 and a uchar32_t.
template < typename TAlloc >
inline ustring16 < TAlloc > operator + ( const ustring16 < TAlloc > & left , const uchar32_t right )
{
ustring16 < TAlloc > ret ( left ) ;
ret + = right ;
return ret ;
}
//! Appends a ustring16 and a uchar32_t.
template < typename TAlloc >
inline ustring16 < TAlloc > operator + ( const uchar32_t left , const ustring16 < TAlloc > & right )
{
ustring16 < TAlloc > ret ( left ) ;
ret + = right ;
return ret ;
}
# endif
//! Appends a ustring16 and a short.
template < typename TAlloc >
inline ustring16 < TAlloc > operator + ( const ustring16 < TAlloc > & left , const short right )
{
ustring16 < TAlloc > ret ( left ) ;
ret + = core : : stringc ( right ) ;
return ret ;
}
//! Appends a ustring16 and a short.
template < typename TAlloc >
inline ustring16 < TAlloc > operator + ( const short left , const ustring16 < TAlloc > & right )
{
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ustring16 < TAlloc > ret ( ( core : : stringc ( left ) ) ) ;
2013-02-03 13:19:09 +01:00
ret + = right ;
return ret ;
}
//! Appends a ustring16 and an unsigned short.
template < typename TAlloc >
inline ustring16 < TAlloc > operator + ( const ustring16 < TAlloc > & left , const unsigned short right )
{
ustring16 < TAlloc > ret ( left ) ;
ret + = core : : stringc ( right ) ;
return ret ;
}
//! Appends a ustring16 and an unsigned short.
template < typename TAlloc >
inline ustring16 < TAlloc > operator + ( const unsigned short left , const ustring16 < TAlloc > & right )
{
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ustring16 < TAlloc > ret ( ( core : : stringc ( left ) ) ) ;
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ret + = right ;
return ret ;
}
//! Appends a ustring16 and an int.
template < typename TAlloc >
inline ustring16 < TAlloc > operator + ( const ustring16 < TAlloc > & left , const int right )
{
ustring16 < TAlloc > ret ( left ) ;
ret + = core : : stringc ( right ) ;
return ret ;
}
//! Appends a ustring16 and an int.
template < typename TAlloc >
inline ustring16 < TAlloc > operator + ( const int left , const ustring16 < TAlloc > & right )
{
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ustring16 < TAlloc > ret ( ( core : : stringc ( left ) ) ) ;
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ret + = right ;
return ret ;
}
//! Appends a ustring16 and an unsigned int.
template < typename TAlloc >
inline ustring16 < TAlloc > operator + ( const ustring16 < TAlloc > & left , const unsigned int right )
{
ustring16 < TAlloc > ret ( left ) ;
ret + = core : : stringc ( right ) ;
return ret ;
}
//! Appends a ustring16 and an unsigned int.
template < typename TAlloc >
inline ustring16 < TAlloc > operator + ( const unsigned int left , const ustring16 < TAlloc > & right )
{
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ustring16 < TAlloc > ret ( ( core : : stringc ( left ) ) ) ;
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ret + = right ;
return ret ;
}
//! Appends a ustring16 and a long.
template < typename TAlloc >
inline ustring16 < TAlloc > operator + ( const ustring16 < TAlloc > & left , const long right )
{
ustring16 < TAlloc > ret ( left ) ;
ret + = core : : stringc ( right ) ;
return ret ;
}
//! Appends a ustring16 and a long.
template < typename TAlloc >
inline ustring16 < TAlloc > operator + ( const long left , const ustring16 < TAlloc > & right )
{
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ustring16 < TAlloc > ret ( ( core : : stringc ( left ) ) ) ;
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ret + = right ;
return ret ;
}
//! Appends a ustring16 and an unsigned long.
template < typename TAlloc >
inline ustring16 < TAlloc > operator + ( const ustring16 < TAlloc > & left , const unsigned long right )
{
ustring16 < TAlloc > ret ( left ) ;
ret + = core : : stringc ( right ) ;
return ret ;
}
//! Appends a ustring16 and an unsigned long.
template < typename TAlloc >
inline ustring16 < TAlloc > operator + ( const unsigned long left , const ustring16 < TAlloc > & right )
{
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ustring16 < TAlloc > ret ( ( core : : stringc ( left ) ) ) ;
2013-02-03 13:19:09 +01:00
ret + = right ;
return ret ;
}
//! Appends a ustring16 and a float.
template < typename TAlloc >
inline ustring16 < TAlloc > operator + ( const ustring16 < TAlloc > & left , const float right )
{
ustring16 < TAlloc > ret ( left ) ;
ret + = core : : stringc ( right ) ;
return ret ;
}
//! Appends a ustring16 and a float.
template < typename TAlloc >
inline ustring16 < TAlloc > operator + ( const float left , const ustring16 < TAlloc > & right )
{
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ustring16 < TAlloc > ret ( ( core : : stringc ( left ) ) ) ;
2013-02-03 13:19:09 +01:00
ret + = right ;
return ret ;
}
//! Appends a ustring16 and a double.
template < typename TAlloc >
inline ustring16 < TAlloc > operator + ( const ustring16 < TAlloc > & left , const double right )
{
ustring16 < TAlloc > ret ( left ) ;
ret + = core : : stringc ( right ) ;
return ret ;
}
//! Appends a ustring16 and a double.
template < typename TAlloc >
inline ustring16 < TAlloc > operator + ( const double left , const ustring16 < TAlloc > & right )
{
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ustring16 < TAlloc > ret ( ( core : : stringc ( left ) ) ) ;
2013-02-03 13:19:09 +01:00
ret + = right ;
return ret ;
}
# ifdef USTRING_CPP0X
//! Appends two ustring16s.
template < typename TAlloc >
inline ustring16 < TAlloc > & & operator + ( const ustring16 < TAlloc > & left , ustring16 < TAlloc > & & right )
{
//std::cout << "MOVE operator+(&, &&)" << std::endl;
right . insert ( left , 0 ) ;
return std : : move ( right ) ;
}
//! Appends two ustring16s.
template < typename TAlloc >
inline ustring16 < TAlloc > & & operator + ( ustring16 < TAlloc > & & left , const ustring16 < TAlloc > & right )
{
//std::cout << "MOVE operator+(&&, &)" << std::endl;
left . append ( right ) ;
return std : : move ( left ) ;
}
//! Appends two ustring16s.
template < typename TAlloc >
inline ustring16 < TAlloc > & & operator + ( ustring16 < TAlloc > & & left , ustring16 < TAlloc > & & right )
{
//std::cout << "MOVE operator+(&&, &&)" << std::endl;
if ( ( right . size_raw ( ) < = left . capacity ( ) - left . size_raw ( ) ) | |
( right . capacity ( ) - right . size_raw ( ) < left . size_raw ( ) ) )
{
left . append ( right ) ;
return std : : move ( left ) ;
}
else
{
right . insert ( left , 0 ) ;
return std : : move ( right ) ;
}
}
//! Appends a ustring16 and a null-terminated unicode string.
template < typename TAlloc , class B >
inline ustring16 < TAlloc > & & operator + ( ustring16 < TAlloc > & & left , const B * const right )
{
//std::cout << "MOVE operator+(&&, B*)" << std::endl;
left . append ( right ) ;
return std : : move ( left ) ;
}
//! Appends a ustring16 and a null-terminated unicode string.
template < class B , typename TAlloc >
inline ustring16 < TAlloc > & & operator + ( const B * const left , ustring16 < TAlloc > & & right )
{
//std::cout << "MOVE operator+(B*, &&)" << std::endl;
right . insert ( left , 0 ) ;
return std : : move ( right ) ;
}
//! Appends a ustring16 and an Irrlicht string.
template < typename TAlloc , typename B , typename BAlloc >
inline ustring16 < TAlloc > & & operator + ( const string < B , BAlloc > & left , ustring16 < TAlloc > & & right )
{
//std::cout << "MOVE operator+(&, &&)" << std::endl;
right . insert ( left , 0 ) ;
return std : : move ( right ) ;
}
//! Appends a ustring16 and an Irrlicht string.
template < typename TAlloc , typename B , typename BAlloc >
inline ustring16 < TAlloc > & & operator + ( ustring16 < TAlloc > & & left , const string < B , BAlloc > & right )
{
//std::cout << "MOVE operator+(&&, &)" << std::endl;
left . append ( right ) ;
return std : : move ( left ) ;
}
//! Appends a ustring16 and a std::basic_string.
template < typename TAlloc , typename B , typename A , typename BAlloc >
inline ustring16 < TAlloc > & & operator + ( const std : : basic_string < B , A , BAlloc > & left , ustring16 < TAlloc > & & right )
{
//std::cout << "MOVE operator+(&, &&)" << std::endl;
right . insert ( core : : ustring16 < TAlloc > ( left ) , 0 ) ;
return std : : move ( right ) ;
}
//! Appends a ustring16 and a std::basic_string.
template < typename TAlloc , typename B , typename A , typename BAlloc >
inline ustring16 < TAlloc > & & operator + ( ustring16 < TAlloc > & & left , const std : : basic_string < B , A , BAlloc > & right )
{
//std::cout << "MOVE operator+(&&, &)" << std::endl;
left . append ( right ) ;
return std : : move ( left ) ;
}
//! Appends a ustring16 and a char.
template < typename TAlloc >
inline ustring16 < TAlloc > operator + ( ustring16 < TAlloc > & & left , const char right )
{
left . append ( ( uchar32_t ) right ) ;
return std : : move ( left ) ;
}
//! Appends a ustring16 and a char.
template < typename TAlloc >
inline ustring16 < TAlloc > operator + ( const char left , ustring16 < TAlloc > & & right )
{
right . insert ( ( uchar32_t ) left , 0 ) ;
return std : : move ( right ) ;
}
# ifdef USTRING_CPP0X_NEWLITERALS
//! Appends a ustring16 and a uchar32_t.
template < typename TAlloc >
inline ustring16 < TAlloc > operator + ( ustring16 < TAlloc > & & left , const uchar32_t right )
{
left . append ( right ) ;
return std : : move ( left ) ;
}
//! Appends a ustring16 and a uchar32_t.
template < typename TAlloc >
inline ustring16 < TAlloc > operator + ( const uchar32_t left , ustring16 < TAlloc > & & right )
{
right . insert ( left , 0 ) ;
return std : : move ( right ) ;
}
# endif
//! Appends a ustring16 and a short.
template < typename TAlloc >
inline ustring16 < TAlloc > operator + ( ustring16 < TAlloc > & & left , const short right )
{
left . append ( core : : stringc ( right ) ) ;
return std : : move ( left ) ;
}
//! Appends a ustring16 and a short.
template < typename TAlloc >
inline ustring16 < TAlloc > operator + ( const short left , ustring16 < TAlloc > & & right )
{
right . insert ( core : : stringc ( left ) , 0 ) ;
return std : : move ( right ) ;
}
//! Appends a ustring16 and an unsigned short.
template < typename TAlloc >
inline ustring16 < TAlloc > operator + ( ustring16 < TAlloc > & & left , const unsigned short right )
{
left . append ( core : : stringc ( right ) ) ;
return std : : move ( left ) ;
}
//! Appends a ustring16 and an unsigned short.
template < typename TAlloc >
inline ustring16 < TAlloc > operator + ( const unsigned short left , ustring16 < TAlloc > & & right )
{
right . insert ( core : : stringc ( left ) , 0 ) ;
return std : : move ( right ) ;
}
//! Appends a ustring16 and an int.
template < typename TAlloc >
inline ustring16 < TAlloc > operator + ( ustring16 < TAlloc > & & left , const int right )
{
left . append ( core : : stringc ( right ) ) ;
return std : : move ( left ) ;
}
//! Appends a ustring16 and an int.
template < typename TAlloc >
inline ustring16 < TAlloc > operator + ( const int left , ustring16 < TAlloc > & & right )
{
right . insert ( core : : stringc ( left ) , 0 ) ;
return std : : move ( right ) ;
}
//! Appends a ustring16 and an unsigned int.
template < typename TAlloc >
inline ustring16 < TAlloc > operator + ( ustring16 < TAlloc > & & left , const unsigned int right )
{
left . append ( core : : stringc ( right ) ) ;
return std : : move ( left ) ;
}
//! Appends a ustring16 and an unsigned int.
template < typename TAlloc >
inline ustring16 < TAlloc > operator + ( const unsigned int left , ustring16 < TAlloc > & & right )
{
right . insert ( core : : stringc ( left ) , 0 ) ;
return std : : move ( right ) ;
}
//! Appends a ustring16 and a long.
template < typename TAlloc >
inline ustring16 < TAlloc > operator + ( ustring16 < TAlloc > & & left , const long right )
{
left . append ( core : : stringc ( right ) ) ;
return std : : move ( left ) ;
}
//! Appends a ustring16 and a long.
template < typename TAlloc >
inline ustring16 < TAlloc > operator + ( const long left , ustring16 < TAlloc > & & right )
{
right . insert ( core : : stringc ( left ) , 0 ) ;
return std : : move ( right ) ;
}
//! Appends a ustring16 and an unsigned long.
template < typename TAlloc >
inline ustring16 < TAlloc > operator + ( ustring16 < TAlloc > & & left , const unsigned long right )
{
left . append ( core : : stringc ( right ) ) ;
return std : : move ( left ) ;
}
//! Appends a ustring16 and an unsigned long.
template < typename TAlloc >
inline ustring16 < TAlloc > operator + ( const unsigned long left , ustring16 < TAlloc > & & right )
{
right . insert ( core : : stringc ( left ) , 0 ) ;
return std : : move ( right ) ;
}
//! Appends a ustring16 and a float.
template < typename TAlloc >
inline ustring16 < TAlloc > operator + ( ustring16 < TAlloc > & & left , const float right )
{
left . append ( core : : stringc ( right ) ) ;
return std : : move ( left ) ;
}
//! Appends a ustring16 and a float.
template < typename TAlloc >
inline ustring16 < TAlloc > operator + ( const float left , ustring16 < TAlloc > & & right )
{
right . insert ( core : : stringc ( left ) , 0 ) ;
return std : : move ( right ) ;
}
//! Appends a ustring16 and a double.
template < typename TAlloc >
inline ustring16 < TAlloc > operator + ( ustring16 < TAlloc > & & left , const double right )
{
left . append ( core : : stringc ( right ) ) ;
return std : : move ( left ) ;
}
//! Appends a ustring16 and a double.
template < typename TAlloc >
inline ustring16 < TAlloc > operator + ( const double left , ustring16 < TAlloc > & & right )
{
right . insert ( core : : stringc ( left ) , 0 ) ;
return std : : move ( right ) ;
}
# endif
# ifndef USTRING_NO_STL
//! Writes a ustring16 to an ostream.
template < typename TAlloc >
inline std : : ostream & operator < < ( std : : ostream & out , const ustring16 < TAlloc > & in )
{
out < < in . toUTF8_s ( ) . c_str ( ) ;
return out ;
}
//! Writes a ustring16 to a wostream.
template < typename TAlloc >
inline std : : wostream & operator < < ( std : : wostream & out , const ustring16 < TAlloc > & in )
{
out < < in . toWCHAR_s ( ) . c_str ( ) ;
return out ;
}
# endif
# ifndef USTRING_NO_STL
namespace unicode
{
//! Hashing algorithm for hashing a ustring. Used for things like unordered_maps.
//! Algorithm taken from std::hash<std::string>.
class hash : public std : : unary_function < core : : ustring , size_t >
{
public :
size_t operator ( ) ( const core : : ustring & s ) const
{
size_t ret = 2166136261U ;
size_t index = 0 ;
size_t stride = 1 + s . size_raw ( ) / 10 ;
core : : ustring : : const_iterator i = s . begin ( ) ;
while ( i ! = s . end ( ) )
{
// TODO: Don't force u32 on an x64 OS. Make it agnostic.
ret = 16777619U * ret ^ ( size_t ) s [ ( u32 ) index ] ;
index + = stride ;
i + = stride ;
}
return ( ret ) ;
}
} ;
} // end namespace unicode
# endif
} // end namespace core
} // end namespace irr
# endif