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|
/****************************************************************************
**
** Implementation of the TQString class and related Unicode functions
**
** Created : 920722
**
** Copyright (C) 2015 Timothy Pearson. All rights reserved.
** Copyright (C) 1992-2008 Trolltech ASA. All rights reserved.
**
** This file is part of the tools module of the TQt GUI Toolkit.
**
** This file may be used under the terms of the GNU General
** Public License versions 2.0 or 3.0 as published by the Free
** Software Foundation and appearing in the files LICENSE.GPL2
** and LICENSE.GPL3 included in the packaging of this file.
** Alternatively you may (at your option) use any later version
** of the GNU General Public License if such license has been
** publicly approved by Trolltech ASA (or its successors, if any)
** and the KDE Free TQt Foundation.
**
** Please review the following information to ensure GNU General
** Public Licensing requirements will be met:
** http://trolltech.com/products/qt/licenses/licensing/opensource/.
** If you are unsure which license is appropriate for your use, please
** review the following information:
** http://trolltech.com/products/qt/licenses/licensing/licensingoverview
** or contact the sales department at sales@trolltech.com.
**
** This file may be used under the terms of the Q Public License as
** defined by Trolltech ASA and appearing in the file LICENSE.TQPL
** included in the packaging of this file. Licensees holding valid TQt
** Commercial licenses may use this file in accordance with the TQt
** Commercial License Agreement provided with the Software.
**
** This file is provided "AS IS" with NO WARRANTY OF ANY KIND,
** INCLUDING THE WARRANTIES OF DESIGN, MERCHANTABILITY AND FITNESS FOR
** A PARTICULAR PURPOSE. Trolltech reserves all rights not granted
** herein.
**
**********************************************************************/
// Don't define it while compiling this module, or USERS of TQt will
// not be able to link.
#ifdef TQT_NO_CAST_ASCII
#undef TQT_NO_CAST_ASCII
#endif
// WARNING
// When MAKE_QSTRING_THREAD_SAFE is defined, overall TQt3 performance suffers badly!
// TQString is thread unsafe in many other areas; perhaps this option is not even useful?
// #define MAKE_QSTRING_THREAD_SAFE 1
#include "tqstring.h"
#include "tqregexp.h"
#include "tqdatastream.h"
#ifndef TQT_NO_TEXTCODEC
#include "tqtextcodec.h"
#endif
#include "ntqlocale.h"
#include "qlocale_p.h"
#include "qunicodetables_p.h"
#include <limits.h>
#include <stdarg.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#ifndef Q_OS_TEMP
#include <locale.h>
#endif
#if defined(TQ_WS_WIN)
#include "qt_windows.h"
#endif
#if defined(Q_OS_LINUX)
#include <sys/mman.h>
#endif
#if !defined( TQT_NO_COMPONENT ) && !defined( QT_LITE_COMPONENT )
#include "ntqcleanuphandler.h"
#endif
#if defined(Q_OS_LINUX)
#define LINUX_MEMLOCK_LIMIT_BYTES 16384
#define LINUX_MEMLOCK_LIMIT_CHARACTERS LINUX_MEMLOCK_LIMIT_BYTES/sizeof(TQChar)
#endif
#ifndef LLONG_MAX
#define LLONG_MAX TQ_INT64_C(9223372036854775807)
#endif
#ifndef LLONG_MIN
#define LLONG_MIN (-LLONG_MAX - TQ_INT64_C(1))
#endif
#ifndef ULLONG_MAX
#define ULLONG_MAX TQ_UINT64_C(18446744073709551615)
#endif
#if defined(TQT_THREAD_SUPPORT) && defined(MAKE_QSTRING_THREAD_SAFE)
#include "tqmutex.h"
#endif // TQT_THREAD_SUPPORT && MAKE_QSTRING_THREAD_SAFE
extern TQMutex *tqt_sharedStringMutex;
static int ucstrcmp( const TQString &as, const TQString &bs )
{
const TQChar *a = as.unicode();
const TQChar *b = bs.unicode();
if ( a == b )
return 0;
if ( a == 0 )
return 1;
if ( b == 0 )
return -1;
int l=TQMIN(as.length(),bs.length());
while ( l-- && *a == *b )
a++,b++;
if ( l==-1 )
return ( as.length()-bs.length() );
return a->unicode() - b->unicode();
}
static int ucstrncmp( const TQChar *a, const TQChar *b, int l )
{
while ( l-- && *a == *b )
a++,b++;
if ( l==-1 )
return 0;
return a->unicode() - b->unicode();
}
static int ucstrnicmp( const TQChar *a, const TQChar *b, int l )
{
while ( l-- && ::lower( *a ) == ::lower( *b ) )
a++,b++;
if ( l==-1 )
return 0;
return ::lower( *a ).unicode() - ::lower( *b ).unicode();
}
static uint computeNewMax( uint len )
{
if (len >= 0x80000000)
return len;
uint newMax = 4;
while ( newMax < len )
newMax *= 2;
// try to save some memory
if ( newMax >= 1024 * 1024 && len <= newMax - (newMax >> 2) )
newMax -= newMax >> 2;
return newMax;
}
static bool qIsUpper(char c)
{
return c >= 'A' && c <= 'Z';
}
static bool qIsDigit(char c)
{
return c >= '0' && c <= '9';
}
static char qToLower(char c)
{
if (c >= 'A' && c <= 'Z')
return c - 'A' + 'a';
else
return c;
}
/*!
\class TQCharRef tqstring.h
\reentrant
\brief The TQCharRef class is a helper class for TQString.
\ingroup text
When you get an object of type TQCharRef, if you can assign to it,
the assignment will apply to the character in the string from
which you got the reference. That is its whole purpose in life.
The TQCharRef becomes invalid once modifications are made to the
string: if you want to keep the character, copy it into a TQChar.
Most of the TQChar member functions also exist in TQCharRef.
However, they are not explicitly documented here.
\sa TQString::operator[]() TQString::at() TQChar
*/
/*!
\class TQChar tqstring.h
\reentrant
\brief The TQChar class provides a lightweight Unicode character.
\ingroup text
Unicode characters are (so far) 16-bit entities without any markup
or structure. This class represents such an entity. It is
lightweight, so it can be used everywhere. Most compilers treat it
like a "short int". (In a few years it may be necessary to make
TQChar 32-bit when more than 65536 Unicode code points have been
defined and come into use.)
TQChar provides a full complement of testing/classification
functions, converting to and from other formats, converting from
composed to decomposed Unicode, and trying to compare and
case-convert if you ask it to.
The classification functions include functions like those in
ctype.h, but operating on the full range of Unicode characters.
They all return TRUE if the character is a certain type of
character; otherwise they return FALSE. These classification
functions are isNull() (returns TRUE if the character is U+0000),
isPrint() (TRUE if the character is any sort of printable
character, including whitespace), isPunct() (any sort of
punctation), isMark() (Unicode Mark), isLetter (a letter),
isNumber() (any sort of numeric character), isLetterOrNumber(),
and isDigit() (decimal digits). All of these are wrappers around
category() which return the Unicode-defined category of each
character.
TQChar further provides direction(), which indicates the "natural"
writing direction of this character. The joining() function
indicates how the character joins with its neighbors (needed
mostly for Arabic) and finally mirrored(), which indicates whether
the character needs to be mirrored when it is printed in its
"unnatural" writing direction.
Composed Unicode characters (like å) can be converted to
decomposed Unicode ("a" followed by "ring above") by using
decomposition().
In Unicode, comparison is not necessarily possible and case
conversion is very difficult at best. Unicode, covering the
"entire" world, also includes most of the world's case and sorting
problems. TQt tries, but not very hard: operator==() and friends
will do comparison based purely on the numeric Unicode value (code
point) of the characters, and upper() and lower() will do case
changes when the character has a well-defined upper/lower-case
equivalent. There is no provision for locale-dependent case
folding rules or comparison; these functions are meant to be fast
so they can be used unambiguously in data structures. (See
TQString::localeAwareCompare() though.)
The conversion functions include unicode() (to a scalar), latin1()
(to scalar, but converts all non-Latin-1 characters to 0), row()
(gives the Unicode row), cell() (gives the Unicode cell),
digitValue() (gives the integer value of any of the numerous digit
characters), and a host of constructors.
More information can be found in the document \link unicode.html
About Unicode. \endlink
\sa TQString TQCharRef
*/
/*!
\enum TQChar::Category
This enum maps the Unicode character categories.
The following characters are normative in Unicode:
\value Mark_NonSpacing Unicode class name Mn
\value Mark_SpacingCombining Unicode class name Mc
\value Mark_Enclosing Unicode class name Me
\value Number_DecimalDigit Unicode class name Nd
\value Number_Letter Unicode class name Nl
\value Number_Other Unicode class name No
\value Separator_Space Unicode class name Zs
\value Separator_Line Unicode class name Zl
\value Separator_Paragraph Unicode class name Zp
\value Other_Control Unicode class name Cc
\value Other_Format Unicode class name Cf
\value Other_Surrogate Unicode class name Cs
\value Other_PrivateUse Unicode class name Co
\value Other_NotAssigned Unicode class name Cn
The following categories are informative in Unicode:
\value Letter_Uppercase Unicode class name Lu
\value Letter_Lowercase Unicode class name Ll
\value Letter_Titlecase Unicode class name Lt
\value Letter_Modifier Unicode class name Lm
\value Letter_Other Unicode class name Lo
\value Punctuation_Connector Unicode class name Pc
\value Punctuation_Dash Unicode class name Pd
\value Punctuation_Open Unicode class name Ps
\value Punctuation_Close Unicode class name Pe
\value Punctuation_InitialQuote Unicode class name Pi
\value Punctuation_FinalQuote Unicode class name Pf
\value Punctuation_Other Unicode class name Po
\value Symbol_Math Unicode class name Sm
\value Symbol_Currency Unicode class name Sc
\value Symbol_Modifier Unicode class name Sk
\value Symbol_Other Unicode class name So
There are two categories that are specific to TQt:
\value NoCategory used when TQt is dazed and confused and cannot
make sense of anything.
\value Punctuation_Dask old typo alias for Punctuation_Dash
*/
/*!
\enum TQChar::Direction
This enum type defines the Unicode direction attributes. See \link
http://www.unicode.org/ the Unicode Standard\endlink for a
description of the values.
In order to conform to C/C++ naming conventions "Dir" is prepended
to the codes used in the Unicode Standard.
*/
/*!
\enum TQChar::Decomposition
This enum type defines the Unicode decomposition attributes. See
\link http://www.unicode.org/ the Unicode Standard\endlink for a
description of the values.
*/
/*!
\enum TQChar::Joining
This enum type defines the Unicode joining attributes. See \link
http://www.unicode.org/ the Unicode Standard\endlink for a
description of the values.
*/
/*!
\enum TQChar::CombiningClass
This enum type defines names for some of the Unicode combining
classes. See \link http://www.unicode.org/ the Unicode
Standard\endlink for a description of the values.
*/
/*!
\fn void TQChar::setCell( uchar cell )
\internal
*/
/*!
\fn void TQChar::setRow( uchar row )
\internal
*/
/*!
\fn TQChar::TQChar()
Constructs a null TQChar (one that isNull()).
*/
/*!
\fn TQChar::TQChar( char c )
Constructs a TQChar corresponding to ASCII/Latin-1 character \a c.
*/
/*!
\fn TQChar::TQChar( uchar c )
Constructs a TQChar corresponding to ASCII/Latin-1 character \a c.
*/
/*!
\fn TQChar::TQChar( uchar c, uchar r )
Constructs a TQChar for Unicode cell \a c in row \a r.
*/
/*!
\fn TQChar::TQChar( const TQChar& c )
Constructs a copy of \a c. This is a deep copy, if such a
lightweight object can be said to have deep copies.
*/
/*!
\fn TQChar::TQChar( ushort rc )
Constructs a TQChar for the character with Unicode code point \a rc.
*/
/*!
\fn TQChar::TQChar( short rc )
Constructs a TQChar for the character with Unicode code point \a rc.
*/
/*!
\fn TQChar::TQChar( uint rc )
Constructs a TQChar for the character with Unicode code point \a rc.
*/
/*!
\fn TQChar::TQChar( int rc )
Constructs a TQChar for the character with Unicode code point \a rc.
*/
/*!
\fn bool TQChar::networkOrdered ()
\obsolete
Returns TRUE if this character is in network byte order (MSB
first); otherwise returns FALSE. This is platform dependent.
*/
/*!
\fn bool TQChar::isNull() const
Returns TRUE if the character is the Unicode character 0x0000
(ASCII NUL); otherwise returns FALSE.
*/
/*!
\fn uchar TQChar::cell () const
Returns the cell (least significant byte) of the Unicode
character.
*/
/*!
\fn uchar TQChar::row () const
Returns the row (most significant byte) of the Unicode character.
*/
/*!
Returns TRUE if the character is a printable character; otherwise
returns FALSE. This is any character not of category Cc or Cn.
Note that this gives no indication of whether the character is
available in a particular \link TQFont font\endlink.
*/
bool TQChar::isPrint() const
{
Category c = ::category( *this );
return !(c == Other_Control || c == Other_NotAssigned);
}
/*!
Returns TRUE if the character is a separator character
(Separator_* categories); otherwise returns FALSE.
*/
bool TQChar::isSpace() const
{
return ::isSpace( *this );
}
/*!
Returns TRUE if the character is a mark (Mark_* categories);
otherwise returns FALSE.
*/
bool TQChar::isMark() const
{
Category c = ::category( *this );
return c >= Mark_NonSpacing && c <= Mark_Enclosing;
}
/*!
Returns TRUE if the character is a punctuation mark (Punctuation_*
categories); otherwise returns FALSE.
*/
bool TQChar::isPunct() const
{
Category c = ::category( *this );
return (c >= Punctuation_Connector && c <= Punctuation_Other);
}
/*!
Returns TRUE if the character is a letter (Letter_* categories);
otherwise returns FALSE.
*/
bool TQChar::isLetter() const
{
Category c = ::category( *this );
return (c >= Letter_Uppercase && c <= Letter_Other);
}
/*!
Returns TRUE if the character is a number (of any sort - Number_*
categories); otherwise returns FALSE.
\sa isDigit()
*/
bool TQChar::isNumber() const
{
Category c = ::category( *this );
return c >= Number_DecimalDigit && c <= Number_Other;
}
/*!
Returns TRUE if the character is a letter or number (Letter_* or
Number_* categories); otherwise returns FALSE.
*/
bool TQChar::isLetterOrNumber() const
{
Category c = ::category( *this );
return (c >= Letter_Uppercase && c <= Letter_Other)
|| (c >= Number_DecimalDigit && c <= Number_Other);
}
/*!
Returns TRUE if the character is a decimal digit
(Number_DecimalDigit); otherwise returns FALSE.
*/
bool TQChar::isDigit() const
{
return (::category( *this ) == Number_DecimalDigit);
}
/*!
Returns TRUE if the character is a symbol (Symbol_* categories);
otherwise returns FALSE.
*/
bool TQChar::isSymbol() const
{
Category c = ::category( *this );
return c >= Symbol_Math && c <= Symbol_Other;
}
/*!
Returns the numeric value of the digit, or -1 if the character is
not a digit.
*/
int TQChar::digitValue() const
{
#ifndef TQT_NO_UNICODETABLES
int pos = TQUnicodeTables::decimal_info[row()];
if( !pos )
return -1;
return TQUnicodeTables::decimal_info[(pos<<8) + cell()];
#else
// ##### just latin1
if ( ucs < '0' || ucs > '9' )
return -1;
else
return ucs - '0';
#endif
}
/*!
Returns the character category.
\sa Category
*/
TQChar::Category TQChar::category() const
{
return ::category( *this );
}
/*!
Returns the character's direction.
\sa Direction
*/
TQChar::Direction TQChar::direction() const
{
return ::direction( *this );
}
/*!
\warning This function is not supported (it may change to use
Unicode character classes).
Returns information about the joining properties of the character
(needed for example, for Arabic).
*/
TQChar::Joining TQChar::joining() const
{
return ::joining( *this );
}
/*!
Returns TRUE if the character is a mirrored character (one that
should be reversed if the text direction is reversed); otherwise
returns FALSE.
*/
bool TQChar::mirrored() const
{
return ::mirrored( *this );
}
/*!
Returns the mirrored character if this character is a mirrored
character, otherwise returns the character itself.
*/
TQChar TQChar::mirroredChar() const
{
return ::mirroredChar( *this );
}
#ifndef TQT_NO_UNICODETABLES
// ### REMOVE ME 4.0
static TQString shared_decomp;
#endif
/*!
\nonreentrant
Decomposes a character into its parts. Returns TQString::null if no
decomposition exists.
*/
const TQString &TQChar::decomposition() const
{
#ifndef TQT_NO_UNICODETABLES
int pos = TQUnicodeTables::decomposition_info[row()];
if(!pos) return TQString::null;
pos = TQUnicodeTables::decomposition_info[(pos<<8)+cell()];
if(!pos) return TQString::null;
pos+=2;
TQString s;
TQ_UINT16 c;
while ( (c = TQUnicodeTables::decomposition_map[pos++]) != 0 )
s += TQChar( c );
// ### In 4.0, return s, and not shared_decomp. shared_decomp
// prevents this function from being reentrant.
shared_decomp = s;
return shared_decomp;
#else
return TQString::null;
#endif
}
/*!
Returns the tag defining the composition of the character. Returns
TQChar::Single if no decomposition exists.
*/
TQChar::Decomposition TQChar::decompositionTag() const
{
#ifndef TQT_NO_UNICODETABLES
int pos = TQUnicodeTables::decomposition_info[row()];
if(!pos) return TQChar::Single;
pos = TQUnicodeTables::decomposition_info[(pos<<8)+cell()];
if(!pos) return TQChar::Single;
return (TQChar::Decomposition) TQUnicodeTables::decomposition_map[pos];
#else
return Single; // ########### FIX eg. just latin1
#endif
}
/*!
Returns the combining class for the character as defined in the
Unicode standard. This is mainly useful as a positioning hint for
marks attached to a base character.
The TQt text rendering engine uses this information to correctly
position non spacing marks around a base character.
*/
unsigned char TQChar::combiningClass() const
{
return ::combiningClass( *this );
}
/*!
Returns the lowercase equivalent if the character is uppercase;
otherwise returns the character itself.
*/
TQChar TQChar::lower() const
{
return ::lower( *this );
}
/*!
Returns the uppercase equivalent if the character is lowercase;
otherwise returns the character itself.
*/
TQChar TQChar::upper() const
{
return ::upper( *this );
}
/*!
\fn TQChar::operator char() const
Returns the Latin-1 character equivalent to the TQChar, or 0. This
is mainly useful for non-internationalized software.
\sa unicode()
*/
/*!
\fn ushort TQChar::unicode() const
Returns the numeric Unicode value equal to the TQChar. Normally,
you should use TQChar objects as they are equivalent, but for some
low-level tasks (e.g. indexing into an array of Unicode
information), this function is useful.
*/
/*!
\fn ushort & TQChar::unicode()
\overload
Returns a reference to the numeric Unicode value equal to the
TQChar.
*/
/*****************************************************************************
Documentation of TQChar related functions
*****************************************************************************/
/*!
\fn bool operator==( TQChar c1, TQChar c2 )
\relates TQChar
Returns TRUE if \a c1 and \a c2 are the same Unicode character;
otherwise returns FALSE.
*/
/*!
\fn bool operator==( char ch, TQChar c )
\overload
\relates TQChar
Returns TRUE if \a c is the ASCII/Latin-1 character \a ch;
otherwise returns FALSE.
*/
/*!
\fn bool operator==( TQChar c, char ch )
\overload
\relates TQChar
Returns TRUE if \a c is the ASCII/Latin-1 character \a ch;
otherwise returns FALSE.
*/
/*!
\fn int operator!=( TQChar c1, TQChar c2 )
\relates TQChar
Returns TRUE if \a c1 and \a c2 are not the same Unicode
character; otherwise returns FALSE.
*/
/*!
\fn int operator!=( char ch, TQChar c )
\overload
\relates TQChar
Returns TRUE if \a c is not the ASCII/Latin-1 character \a ch;
otherwise returns FALSE.
*/
/*!
\fn int operator!=( TQChar c, char ch )
\overload
\relates TQChar
Returns TRUE if \a c is not the ASCII/Latin-1 character \a ch;
otherwise returns FALSE.
*/
/*!
\fn int operator<=( TQChar c1, TQChar c2 )
\relates TQChar
Returns TRUE if the numeric Unicode value of \a c1 is less than
that of \a c2, or they are the same Unicode character; otherwise
returns FALSE.
*/
/*!
\fn int operator<=( TQChar c, char ch )
\overload
\relates TQChar
Returns TRUE if the numeric Unicode value of \a c is less than or
equal to that of the ASCII/Latin-1 character \a ch; otherwise
returns FALSE.
*/
/*!
\fn int operator<=( char ch, TQChar c )
\overload
\relates TQChar
Returns TRUE if the numeric Unicode value of the ASCII/Latin-1
character \a ch is less than or equal to that of \a c; otherwise
returns FALSE.
*/
/*!
\fn int operator>=( TQChar c1, TQChar c2 )
\relates TQChar
Returns TRUE if the numeric Unicode value of \a c1 is greater than
that of \a c2, or they are the same Unicode character; otherwise
returns FALSE.
*/
/*!
\fn int operator>=( TQChar c, char ch )
\overload
\relates TQChar
Returns TRUE if the numeric Unicode value of \a c is greater than
or equal to that of the ASCII/Latin-1 character \a ch; otherwise
returns FALSE.
*/
/*!
\fn int operator>=( char ch, TQChar c )
\overload
\relates TQChar
Returns TRUE if the numeric Unicode value of the ASCII/Latin-1
character \a ch is greater than or equal to that of \a c;
otherwise returns FALSE.
*/
/*!
\fn int operator<( TQChar c1, TQChar c2 )
\relates TQChar
Returns TRUE if the numeric Unicode value of \a c1 is less than
that of \a c2; otherwise returns FALSE.
*/
/*!
\fn int operator<( TQChar c, char ch )
\overload
\relates TQChar
Returns TRUE if the numeric Unicode value of \a c is less than that
of the ASCII/Latin-1 character \a ch; otherwise returns FALSE.
*/
/*!
\fn int operator<( char ch, TQChar c )
\overload
\relates TQChar
Returns TRUE if the numeric Unicode value of the ASCII/Latin-1
character \a ch is less than that of \a c; otherwise returns
FALSE.
*/
/*!
\fn int operator>( TQChar c1, TQChar c2 )
\relates TQChar
Returns TRUE if the numeric Unicode value of \a c1 is greater than
that of \a c2; otherwise returns FALSE.
*/
/*!
\fn int operator>( TQChar c, char ch )
\overload
\relates TQChar
Returns TRUE if the numeric Unicode value of \a c is greater than
that of the ASCII/Latin-1 character \a ch; otherwise returns FALSE.
*/
/*!
\fn int operator>( char ch, TQChar c )
\overload
\relates TQChar
Returns TRUE if the numeric Unicode value of the ASCII/Latin-1
character \a ch is greater than that of \a c; otherwise returns
FALSE.
*/
#ifndef TQT_NO_UNICODETABLES
// small class used internally in TQString::Compose()
class TQLigature
{
public:
TQLigature( TQChar c );
TQ_UINT16 first() { cur = ligatures; return cur ? *cur : 0; }
TQ_UINT16 next() { return cur && *cur ? *(cur++) : 0; }
TQ_UINT16 current() { return cur ? *cur : 0; }
int match(TQString & str, unsigned int index);
TQChar head();
TQChar::Decomposition tag();
private:
TQ_UINT16 *ligatures;
TQ_UINT16 *cur;
};
TQLigature::TQLigature( TQChar c )
{
int pos = TQUnicodeTables::ligature_info[c.row()];
if( !pos )
ligatures = 0;
else
{
pos = TQUnicodeTables::ligature_info[(pos<<8)+c.cell()];
ligatures = (TQ_UINT16 *)&(TQUnicodeTables::ligature_map[pos]);
}
cur = ligatures;
}
TQChar TQLigature::head()
{
if(current())
return TQChar(TQUnicodeTables::decomposition_map[current()+1]);
return TQChar::null;
}
TQChar::Decomposition TQLigature::tag()
{
if(current())
return (TQChar::Decomposition) TQUnicodeTables::decomposition_map[current()];
return TQChar::Canonical;
}
int TQLigature::match(TQString & str, unsigned int index)
{
unsigned int i=index;
if(!current()) return 0;
TQ_UINT16 lig = current() + 2;
TQ_UINT16 ch;
while ((i < str.length()) && (ch = TQUnicodeTables::decomposition_map[lig])) {
if (str[(int)i] != TQChar(ch))
return 0;
i++;
lig++;
}
if (!TQUnicodeTables::decomposition_map[lig])
{
return i-index;
}
return 0;
}
// this function is just used in TQString::compose()
static inline bool format(TQChar::Decomposition tag, TQString & str,
int index, int len)
{
unsigned int l = index + len;
unsigned int r = index;
bool left = FALSE, right = FALSE;
left = ((l < str.length()) &&
((str[(int)l].joining() == TQChar::Dual) ||
(str[(int)l].joining() == TQChar::Right)));
if (r > 0) {
r--;
//printf("joining(right) = %d\n", str[(int)r].joining());
right = (str[(int)r].joining() == TQChar::Dual);
}
switch (tag) {
case TQChar::Medial:
return (left & right);
case TQChar::Initial:
return (left && !right);
case TQChar::Final:
return (right);// && !left);
case TQChar::Isolated:
default:
return (!right && !left);
}
} // format()
#endif
TQStringData::TQStringData() : TQShared(),
unicode(0),
ascii(0),
len(0),
issimpletext(TRUE),
maxl(0),
islatin1(FALSE),
security_unpaged(FALSE),
cString(0) {
#if defined(TQT_THREAD_SUPPORT) && defined(MAKE_QSTRING_THREAD_SAFE)
mutex = new TQMutex(FALSE);
#endif // TQT_THREAD_SUPPORT && MAKE_QSTRING_THREAD_SAFE
ref();
}
TQStringData::TQStringData(TQChar *u, uint l, uint m) : TQShared(),
unicode(u),
ascii(0),
len(l),
issimpletext(FALSE),
maxl(m),
islatin1(FALSE),
security_unpaged(FALSE),
cString(0) {
#if defined(TQT_THREAD_SUPPORT) && defined(MAKE_QSTRING_THREAD_SAFE)
mutex = new TQMutex(FALSE);
#endif // TQT_THREAD_SUPPORT && MAKE_QSTRING_THREAD_SAFE
}
TQStringData::~TQStringData() {
if ( unicode ) {
delete[] ((char*)unicode);
}
#if defined(Q_OS_LINUX)
if ( ascii && security_unpaged ) {
munlock(ascii, LINUX_MEMLOCK_LIMIT_BYTES);
}
#endif
if ( ascii ) {
delete[] ascii;
}
if (cString) {
delete cString;
}
#if defined(TQT_THREAD_SUPPORT) && defined(MAKE_QSTRING_THREAD_SAFE)
if ( mutex ) {
delete mutex;
mutex = NULL;
}
#endif // TQT_THREAD_SUPPORT && MAKE_QSTRING_THREAD_SAFE
}
void TQStringData::setDirty() {
if ( ascii ) {
delete [] ascii;
ascii = 0;
}
if (cString) {
delete cString;
cString = 0;
}
issimpletext = FALSE;
}
/*
TQString::compose() and visual() were developed by Gordon Tisher
<tisher@uniserve.ca>, with input from Lars Knoll <knoll@mpi-hd.mpg.de>,
who developed the unicode data tables.
*/
/*!
\warning This function is not supported in TQt 3.x. It is provided
for experimental and illustrative purposes only. It is mainly of
interest to those experimenting with Arabic and other
composition-rich texts.
Applies possible ligatures to a TQString. Useful when
composition-rich text requires rendering with glyph-poor fonts,
but it also makes compositions such as TQChar(0x0041) ('A') and
TQChar(0x0308) (Unicode accent diaresis), giving TQChar(0x00c4)
(German A Umlaut).
*/
void TQString::compose()
{
#ifndef TQT_NO_UNICODETABLES
unsigned int index=0, len;
unsigned int cindex = 0;
TQChar code, head;
TQMemArray<TQChar> dia;
TQString composed = *this;
while (index < length()) {
code = at(index);
//printf("\n\nligature for 0x%x:\n", code.unicode());
TQLigature ligature(code);
ligature.first();
while ( ligature.current() ) {
if ((len = ligature.match(*this, index)) != 0) {
head = ligature.head();
unsigned short code = head.unicode();
// we exclude Arabic presentation forms A and a few
// other ligatures, which are undefined in most fonts
if(!(code > 0xfb50 && code < 0xfe80) &&
!(code > 0xfb00 && code < 0xfb2a)) {
// joining info is only needed for Arabic
if (format(ligature.tag(), *this, index, len)) {
//printf("using ligature 0x%x, len=%d\n",code,len);
// replace letter
composed.replace(cindex, len, TQChar(head));
index += len-1;
// we continue searching in case we have a final
// form because medial ones are preferred.
if ( len != 1 || ligature.tag() !=TQChar::Final )
break;
}
}
}
ligature.next();
}
cindex++;
index++;
}
*this = composed;
#endif
}
// These macros are used for efficient allocation of TQChar strings.
// IMPORTANT! If you change these, make sure you also change the
// "delete unicode" statement in ~TQStringData() in tqstring.h correspondingly!
#define QT_ALLOC_QCHAR_VEC( N ) (TQChar*) new char[ sizeof(TQChar)*( N ) ]
#define QT_DELETE_QCHAR_VEC( P ) delete[] ((char*)( P ))
/*!
This utility function converts the 8-bit string \a ba to Unicode,
returning the result.
The caller is responsible for deleting the return value with
delete[].
*/
TQChar* TQString::latin1ToUnicode( const TQByteArray& ba, uint* len )
{
if ( ba.isNull() ) {
*len = 0;
return 0;
}
int l = 0;
while ( l < (int)ba.size() && ba[l] )
l++;
char* str = ba.data();
TQChar *uc = new TQChar[ l ]; // Can't use macro, since function is public
TQChar *result = uc;
if ( len )
*len = l;
while (l--)
*uc++ = *str++;
return result;
}
static TQChar* internalLatin1ToUnicode( const TQByteArray& ba, uint* len )
{
if ( ba.isNull() ) {
*len = 0;
return 0;
}
int l = 0;
while ( l < (int)ba.size() && ba[l] )
l++;
char* str = ba.data();
TQChar *uc = QT_ALLOC_QCHAR_VEC( l );
TQChar *result = uc;
if ( len )
*len = l;
while (l--)
*uc++ = *str++;
return result;
}
/*!
\overload
This utility function converts the '\0'-terminated 8-bit string \a
str to Unicode, returning the result and setting \a *len to the
length of the Unicode string.
The caller is responsible for deleting the return value with
delete[].
*/
TQChar* TQString::latin1ToUnicode( const char *str, uint* len, uint maxlen )
{
TQChar* result = 0;
uint l = 0;
if ( str ) {
if ( maxlen != (uint)-1 ) {
while ( l < maxlen && str[l] )
l++;
} else {
// Faster?
l = int(strlen( str ));
}
TQChar *uc = new TQChar[ l ]; // Can't use macro since function is public
result = uc;
uint i = l;
while ( i-- )
*uc++ = *str++;
}
if ( len )
*len = l;
return result;
}
static TQChar* internalLatin1ToUnicode( const char *str, uint* len, uint maxlen = (uint)-1 )
{
TQChar* result = 0;
uint l = 0;
if ( str ) {
if ( maxlen != (uint)-1 ) {
while ( l < maxlen && str[l] ) {
l++;
}
}
else {
// Faster?
l = int(strlen( str ));
}
TQChar *uc = QT_ALLOC_QCHAR_VEC( l );
result = uc;
uint i = l;
while ( i-- ) {
*uc++ = *str++;
}
}
if ( len ) {
*len = l;
}
return result;
}
/*!
ABI compatibility
*/
char* TQString::unicodeToLatin1(const TQChar *uc, uint l)
{
return unicodeToLatin1(uc, l, false);
}
/*!
This utility function converts \a l 16-bit characters from \a uc
to ASCII, returning a '\0'-terminated string.
The caller is responsible for deleting the resultant string with
delete[].
*/
char* TQString::unicodeToLatin1(const TQChar *uc, uint l, bool unpaged)
{
if (!uc) {
return 0;
}
char *a = new char[l+1];
char *result = a;
if (unpaged) {
#if defined(Q_OS_LINUX)
mlock(result, LINUX_MEMLOCK_LIMIT_BYTES);
#endif
}
while (l--) {
*a++ = (uc->unicode() > 0xff) ? '?' : (char)uc->unicode();
uc++;
}
*a = '\0';
return result;
}
/*****************************************************************************
TQString member functions
*****************************************************************************/
/*!
\class TQString tqstring.h
\reentrant
\brief The TQString class provides an abstraction of Unicode text
and the classic C '\0'-terminated char array.
\ingroup tools
\ingroup shared
\ingroup text
\mainclass
TQString uses \link shclass.html implicit sharing\endlink, which
makes it very efficient and easy to use.
In all of the TQString methods that take \c {const char *}
parameters, the \c {const char *} is interpreted as a classic
C-style '\0'-terminated ASCII string. It is legal for the \c
{const char *} parameter to be 0. If the \c {const char *} is not
'\0'-terminated, the results are undefined. Functions that copy
classic C strings into a TQString will not copy the terminating
'\0' character. The TQChar array of the TQString (as returned by
unicode()) is generally not terminated by a '\0'. If you need to
pass a TQString to a function that requires a C '\0'-terminated
string use latin1().
\keyword TQString::null
A TQString that has not been assigned to anything is \e null, i.e.
both the length and data pointer is 0. A TQString that references
the empty string ("", a single '\0' char) is \e empty. Both null
and empty TQStrings are legal parameters to the methods. Assigning
\c{(const char *) 0} to TQString gives a null TQString. For
convenience, \c TQString::null is a null TQString. When sorting,
empty strings come first, followed by non-empty strings, followed
by null strings. We recommend using \c{if ( !str.isNull() )} to
check for a non-null string rather than \c{if ( !str )}; see \l
operator!() for an explanation.
Note that if you find that you are mixing usage of \l TQCString,
TQString, and \l TQByteArray, this causes lots of unnecessary
copying and might indicate that the true nature of the data you
are dealing with is uncertain. If the data is '\0'-terminated 8-bit
data, use \l TQCString; if it is unterminated (i.e. contains '\0's)
8-bit data, use \l TQByteArray; if it is text, use TQString.
Lists of strings are handled by the TQStringList class. You can
split a string into a list of strings using TQStringList::split(),
and join a list of strings into a single string with an optional
separator using TQStringList::join(). You can obtain a list of
strings from a string list that contain a particular substring or
that match a particular \link tqregexp.html regex\endlink using
TQStringList::grep().
<b>Note for C programmers</b>
Due to C++'s type system and the fact that TQString is implicitly
shared, TQStrings can be treated like ints or other simple base
types. For example:
\code
TQString boolToString( bool b )
{
TQString result;
if ( b )
result = "True";
else
result = "False";
return result;
}
\endcode
The variable, result, is an auto variable allocated on the stack.
When return is called, because we're returning by value, The copy
constructor is called and a copy of the string is returned. (No
actual copying takes place thanks to the implicit sharing, see
below.)
Throughout TQt's source code you will encounter TQString usages like
this:
\code
TQString func( const TQString& input )
{
TQString output = input;
// process output
return output;
}
\endcode
The 'copying' of input to output is almost as fast as copying a
pointer because behind the scenes copying is achieved by
incrementing a reference count. TQString (like all TQt's implicitly
shared classes) operates on a copy-on-write basis, only copying if
an instance is actually changed.
If you wish to create a deep copy of a TQString without losing any
Unicode information then you should use TQDeepCopy.
\sa TQChar TQCString TQByteArray TQConstString
*/
/*! \enum TQt::ComparisonFlags
\internal
*/
/*!
\enum TQt::StringComparisonMode
This enum type is used to set the string comparison mode when
searching for an item. It is used by TQListBox, TQListView and
TQIconView, for example. We'll refer to the string being searched
as the 'target' string.
\value CaseSensitive The strings must match case sensitively.
\value ExactMatch The target and search strings must match exactly.
\value BeginsWith The target string begins with the search string.
\value EndsWith The target string ends with the search string.
\value Contains The target string contains the search string.
If you OR these flags together (excluding \c CaseSensitive), the
search criteria be applied in the following order: \c ExactMatch,
\c BeginsWith, \c EndsWith, \c Contains.
Matching is case-insensitive unless \c CaseSensitive is set. \c
CaseSensitive can be OR-ed with any combination of the other
flags.
*/
TQ_EXPORT TQStringData *TQString::shared_null = 0;
const TQString TQString::null;
const TQChar TQChar::null;
const TQChar TQChar::replacement((ushort)0xfffd);
const TQChar TQChar::byteOrderMark((ushort)0xfeff);
const TQChar TQChar::byteOrderSwapped((ushort)0xfffe);
const TQChar TQChar::nbsp((ushort)0x00a0);
TQStringData* TQString::makeSharedNull()
{
#if defined(TQT_THREAD_SUPPORT) && defined(MAKE_QSTRING_THREAD_SAFE)
if (tqt_sharedStringMutex) tqt_sharedStringMutex->lock();
#endif // TQT_THREAD_SUPPORT && MAKE_QSTRING_THREAD_SAFE
if (TQString::shared_null) {
#if defined(TQT_THREAD_SUPPORT) && defined(MAKE_QSTRING_THREAD_SAFE)
if (tqt_sharedStringMutex) tqt_sharedStringMutex->unlock();
#endif // TQT_THREAD_SUPPORT && MAKE_QSTRING_THREAD_SAFE
return TQString::shared_null;
}
TQString::shared_null = new TQStringData;
#if defined( Q_OS_MAC ) || defined(Q_OS_SOLARIS) || defined(Q_OS_HPUX) || defined(Q_OS_AIX)
TQString *that = const_cast<TQString *>(&TQString::null);
that->d = TQString::shared_null;
#endif
#if defined(TQT_THREAD_SUPPORT) && defined(MAKE_QSTRING_THREAD_SAFE)
if (tqt_sharedStringMutex) tqt_sharedStringMutex->unlock();
#endif // TQT_THREAD_SUPPORT && MAKE_QSTRING_THREAD_SAFE
return TQString::shared_null;
}
/*!
\fn TQString::TQString()
Constructs a null string, i.e. both the length and data pointer
are 0.
\sa isNull()
*/
// FIXME
// Original TQt3 code stated that there is
// "No safe way to pre-init shared_null on ALL compilers/linkers"
// Is this still true?
TQString::TQString() :
d(0)
{
d = shared_null ? shared_null : makeSharedNull();
}
/*!
Constructs a string of length one, containing the character \a ch.
*/
TQString::TQString( TQChar ch )
{
d = new TQStringData( QT_ALLOC_QCHAR_VEC( 1 ), 1, 1 );
d->unicode[0] = ch;
}
/*!
Constructs an implicitly shared copy of \a s. This is very fast
since it only involves incrementing a reference count.
*/
TQString::TQString( const TQString &s ) :
d(s.d)
{
if ( d && (d != shared_null) ) {
#if defined(TQT_THREAD_SUPPORT) && defined(MAKE_QSTRING_THREAD_SAFE)
d->mutex->lock();
#endif // TQT_THREAD_SUPPORT && MAKE_QSTRING_THREAD_SAFE
d->ref();
#if defined(TQT_THREAD_SUPPORT) && defined(MAKE_QSTRING_THREAD_SAFE)
d->mutex->unlock();
#endif // TQT_THREAD_SUPPORT && MAKE_QSTRING_THREAD_SAFE
}
}
/*!
\internal
Private function.
Constructs a string with preallocated space for \a size characters.
The string is empty.
\sa isNull()
*/
TQString::TQString( int size, bool /*dummy*/ )
{
if ( size ) {
int l = size;
TQChar* uc = QT_ALLOC_QCHAR_VEC( l );
d = new TQStringData( uc, 0, l );
} else {
d = shared_null ? shared_null : (shared_null=new TQStringData);
}
}
/*!
Constructs a string that is a deep copy of \a ba interpreted as a
classic C string.
*/
TQString::TQString( const TQByteArray& ba )
{
#ifndef TQT_NO_TEXTCODEC
if ( TQTextCodec::codecForCStrings() ) {
d = 0;
*this = fromAscii( ba.data(), ba.size() );
return;
}
#endif
uint l;
TQChar *uc = internalLatin1ToUnicode(ba,&l);
d = new TQStringData(uc,l,l);
}
/*!
Constructs a string that is a deep copy of the first \a length
characters in the TQChar array.
If \a unicode and \a length are 0, then a null string is created.
If only \a unicode is 0, the string is empty but has \a length
characters of space preallocated: TQString expands automatically
anyway, but this may speed up some cases a little. We recommend
using the plain constructor and setLength() for this purpose since
it will result in more readable code.
\sa isNull() setLength()
*/
TQString::TQString( const TQChar* unicode, uint length )
{
if ( !unicode && !length ) {
d = shared_null ? shared_null : makeSharedNull();
}
else {
TQChar* uc = QT_ALLOC_QCHAR_VEC( length );
if ( unicode ) {
memcpy(uc, unicode, length*sizeof(TQChar));
}
d = new TQStringData(uc,unicode ? length : 0,length);
}
}
/*!
Constructs a string that is a deep copy of \a str, interpreted as
a classic C string. The encoding is assumed to be Latin-1, unless
you change it using TQTextCodec::setCodecForCStrings().
If \a str is 0, then a null string is created.
This is a cast constructor, but it is perfectly safe: converting a
Latin-1 \c{const char *} to TQString preserves all the information. You
can disable this constructor by defining \c TQT_NO_CAST_ASCII when
you compile your applications. You can also make TQString objects
by using setLatin1(), fromLatin1(), fromLocal8Bit(), and
fromUtf8(). Or whatever encoding is appropriate for the 8-bit data
you have.
\sa isNull(), fromAscii()
*/
TQString::TQString( const char *str )
{
#ifndef TQT_NO_TEXTCODEC
if ( TQTextCodec::codecForCStrings() ) {
d = 0;
*this = fromAscii( str );
return;
}
#endif
uint l;
TQChar *uc = internalLatin1ToUnicode(str,&l);
d = new TQStringData(uc,l,l);
}
#ifndef TQT_NO_STL
/*!
Constructs a string that is a deep copy of \a str.
This is the same as fromAscii(\a str).
*/
TQString::TQString( const std::string &str )
{
#ifndef TQT_NO_TEXTCODEC
if ( TQTextCodec::codecForCStrings() ) {
d = 0;
*this = fromAscii( str.c_str() );
return;
}
#endif
uint l;
TQChar *uc = internalLatin1ToUnicode(str.c_str(),&l);
d = new TQStringData(uc,l,l);
}
#endif
TQString::TQString( TQStringData* dd, bool /* dummy */ ) {
d = dd;
}
/*!
\fn TQString::~TQString()
Destroys the string and frees the string's data if this is the
last reference to the string.
*/
TQString::~TQString()
{
#if defined(QT_CHECK_RANGE)
if (!d) {
tqWarning( "TQString::~TQString: Double free or delete detected!" );
return;
}
#endif
if (d == shared_null) {
return;
}
#if defined(TQT_THREAD_SUPPORT) && defined(MAKE_QSTRING_THREAD_SAFE)
d->mutex->lock();
#endif // TQT_THREAD_SUPPORT && MAKE_QSTRING_THREAD_SAFE
if ( d->deref() ) {
#if defined(TQT_THREAD_SUPPORT) && defined(MAKE_QSTRING_THREAD_SAFE)
d->mutex->unlock();
#endif // TQT_THREAD_SUPPORT && MAKE_QSTRING_THREAD_SAFE
d->deleteSelf();
d = NULL;
}
else {
#if defined(TQT_THREAD_SUPPORT) && defined(MAKE_QSTRING_THREAD_SAFE)
d->mutex->unlock();
#endif // TQT_THREAD_SUPPORT && MAKE_QSTRING_THREAD_SAFE
}
}
/*!
Deallocates any space reserved solely by this TQString.
If the string does not share its data with another TQString
instance, nothing happens; otherwise the function creates a new,
unique copy of this string. This function is called whenever the
string is modified.
*/
void TQString::real_detach()
{
setLength( length() );
}
void TQString::deref()
{
if ( d && (d != shared_null) ) {
#if defined(TQT_THREAD_SUPPORT) && defined(MAKE_QSTRING_THREAD_SAFE)
d->mutex->lock();
#endif // TQT_THREAD_SUPPORT && MAKE_QSTRING_THREAD_SAFE
if ( d->deref() ) {
#if defined(TQT_THREAD_SUPPORT) && defined(MAKE_QSTRING_THREAD_SAFE)
d->mutex->unlock();
#endif // TQT_THREAD_SUPPORT && MAKE_QSTRING_THREAD_SAFE
if ( d != shared_null ) {
delete d;
}
d = 0;
}
else {
#if defined(TQT_THREAD_SUPPORT) && defined(MAKE_QSTRING_THREAD_SAFE)
d->mutex->unlock();
#endif // TQT_THREAD_SUPPORT && MAKE_QSTRING_THREAD_SAFE
}
}
}
void TQStringData::deleteSelf()
{
delete this;
}
/*!
\fn TQString& TQString::operator=( TQChar c )
Sets the string to contain just the single character \a c.
*/
/*!
\fn TQString& TQString::operator=( const std::string& s )
\overload
Makes a deep copy of \a s and returns a reference to the deep
copy.
*/
/*!
\fn TQString& TQString::operator=( char c )
\overload
Sets the string to contain just the single character \a c.
*/
/*!
\overload
Assigns a shallow copy of \a s to this string and returns a
reference to this string. This is very fast because the string
isn't actually copied.
*/
TQString &TQString::operator=( const TQString &s )
{
if ( s.d && (s.d != shared_null) ) {
#if defined(TQT_THREAD_SUPPORT) && defined(MAKE_QSTRING_THREAD_SAFE)
s.d->mutex->lock();
#endif // TQT_THREAD_SUPPORT && MAKE_QSTRING_THREAD_SAFE
s.d->ref();
#if defined(TQT_THREAD_SUPPORT) && defined(MAKE_QSTRING_THREAD_SAFE)
s.d->mutex->unlock();
#endif // TQT_THREAD_SUPPORT && MAKE_QSTRING_THREAD_SAFE
}
deref();
d = s.d;
return *this;
}
/*!
\overload
Assigns a deep copy of \a cstr, interpreted as a classic C
string, to this string. Returns a reference to this string.
*/
TQString &TQString::operator=( const TQCString& cstr )
{
return setAscii( cstr );
}
/*!
\overload
Assigns a deep copy of \a str, interpreted as a classic C string
to this string and returns a reference to this string.
If \a str is 0, then a null string is created.
\sa isNull()
*/
TQString &TQString::operator=( const char *str )
{
return setAscii(str);
}
/*!
\fn bool TQString::isNull() const
Returns TRUE if the string is null; otherwise returns FALSE. A
null string is always empty.
\code
TQString a; // a.unicode() == 0, a.length() == 0
a.isNull(); // TRUE, because a.unicode() == 0
a.isEmpty(); // TRUE, because a.length() == 0
\endcode
\sa isEmpty(), length()
*/
/*!
\fn bool TQString::isEmpty() const
Returns TRUE if the string is empty, i.e. if length() == 0;
otherwise returns FALSE. Null strings are also empty.
\code
TQString a( "" );
a.isEmpty(); // TRUE
a.isNull(); // FALSE
TQString b;
b.isEmpty(); // TRUE
b.isNull(); // TRUE
\endcode
\sa isNull(), length()
*/
/*!
\fn uint TQString::length() const
Returns the length of the string.
Null strings and empty strings have zero length.
\sa isNull(), isEmpty()
*/
/*!
If \a newLen is less than the length of the string, then the
string is truncated at position \a newLen. Otherwise nothing
happens.
\code
TQString s = "truncate me";
s.truncate( 5 ); // s == "trunc"
\endcode
\sa setLength()
*/
void TQString::truncate( uint newLen )
{
if ( newLen < d->len )
setLength( newLen );
}
/*!
Ensures that at least \a newLen characters are allocated to the
string, and sets the length of the string to \a newLen. Any new
space allocated contains arbitrary data.
\sa reserve(), truncate()
*/
void TQString::setLength( uint newLen )
{
#if defined(TQT_THREAD_SUPPORT) && defined(MAKE_QSTRING_THREAD_SAFE)
d->mutex->lock();
#endif // TQT_THREAD_SUPPORT && MAKE_QSTRING_THREAD_SAFE
if ( d->count != 1 || newLen > d->maxl ||
( newLen * 4 < d->maxl && d->maxl > 4 ) ) {
// detach, grow or shrink
uint newMax = computeNewMax( newLen );
TQChar* nd = QT_ALLOC_QCHAR_VEC( newMax );
if ( nd ) {
uint len = TQMIN( d->len, newLen );
memcpy( nd, d->unicode, sizeof(TQChar) * len );
bool unpaged = d->security_unpaged;
#if defined(TQT_THREAD_SUPPORT) && defined(MAKE_QSTRING_THREAD_SAFE)
d->mutex->unlock();
#endif // TQT_THREAD_SUPPORT && MAKE_QSTRING_THREAD_SAFE
deref();
d = new TQStringData( nd, newLen, newMax );
setSecurityUnPaged(unpaged);
}
else {
#if defined(TQT_THREAD_SUPPORT) && defined(MAKE_QSTRING_THREAD_SAFE)
d->mutex->unlock();
#endif // TQT_THREAD_SUPPORT && MAKE_QSTRING_THREAD_SAFE
}
}
else {
d->len = newLen;
#if defined(TQT_THREAD_SUPPORT) && defined(MAKE_QSTRING_THREAD_SAFE)
d->mutex->unlock();
#endif // TQT_THREAD_SUPPORT && MAKE_QSTRING_THREAD_SAFE
d->setDirty();
}
}
/*!
\fn uint TQString::capacity() const
Returns the number of characters this string can hold
in the allocated memory.
\sa reserve(), squeeze()
*/
/*!
Ensures that at least \a minCapacity characters are allocated to
the string.
This function is useful for code that needs to build up a long
string and wants to avoid repeated reallocation. In this example,
we want to add to the string until some condition is true, and
we're fairly sure that size is big enough:
\code
TQString result;
int len = 0;
result.reserve(maxLen);
while (...) {
result[len++] = ... // fill part of the space
}
result.squeeze();
\endcode
If \e maxLen is an underestimate, the worst that will happen is
that the loop will slow down.
If it is not possible to allocate enough memory, the string
remains unchanged.
\sa capacity(), squeeze(), setLength()
*/
void TQString::reserve( uint minCapacity )
{
if ( d->maxl < minCapacity ) {
TQChar *nd = QT_ALLOC_QCHAR_VEC( minCapacity );
if ( nd ) {
uint len = d->len;
if ( len )
memcpy( nd, d->unicode, sizeof(TQChar) * len );
bool unpaged = d->security_unpaged;
deref();
d = new TQStringData( nd, len, minCapacity );
setSecurityUnPaged(unpaged);
}
}
}
/*!
Squeezes the string's capacity to the current content.
\sa capacity(), reserve()
*/
void TQString::squeeze()
{
if ( d->maxl > d->len ) {
TQChar *nd = QT_ALLOC_QCHAR_VEC( d->len );
if ( nd ) {
uint len = d->len;
if ( len )
memcpy( nd, d->unicode, sizeof(TQChar) * len );
bool unpaged = d->security_unpaged;
deref();
d = new TQStringData( nd, len, len );
setSecurityUnPaged(unpaged);
}
}
}
/*!
\internal
Like setLength, but doesn't shrink the allocated memory.
*/
void TQString::grow( uint newLen )
{
#if defined(TQT_THREAD_SUPPORT) && defined(MAKE_QSTRING_THREAD_SAFE)
d->mutex->lock();
#endif // TQT_THREAD_SUPPORT && MAKE_QSTRING_THREAD_SAFE
if ( d->count != 1 || newLen > d->maxl ) {
#if defined(TQT_THREAD_SUPPORT) && defined(MAKE_QSTRING_THREAD_SAFE)
d->mutex->unlock();
#endif // TQT_THREAD_SUPPORT && MAKE_QSTRING_THREAD_SAFE
setLength( newLen );
}
else {
d->len = newLen;
#if defined(TQT_THREAD_SUPPORT) && defined(MAKE_QSTRING_THREAD_SAFE)
d->mutex->unlock();
#endif // TQT_THREAD_SUPPORT && MAKE_QSTRING_THREAD_SAFE
d->setDirty();
}
}
struct ArgEscapeData
{
uint min_escape; // lowest escape sequence number
uint occurrences; // number of occurences of the lowest escape
// sequence number
uint locale_occurrences; // number of occurences of the lowest escape
// sequence number which contain 'L'
uint escape_len; // total length of escape sequences which will
// be replaced
};
static ArgEscapeData findArgEscapes(const TQString &s)
{
const TQChar *uc_begin = s.unicode();
const TQChar *uc_end = uc_begin + s.length();
ArgEscapeData d;
d.min_escape = 10;
d.occurrences = 0;
d.escape_len = 0;
d.locale_occurrences = 0;
const TQChar *c = uc_begin;
while (c != uc_end) {
while (c != uc_end && c->unicode() != '%')
++c;
if (c == uc_end || ++c == uc_end)
break;
bool locale_arg = FALSE;
if (c->unicode() == 'L') {
locale_arg = TRUE;
if (++c == uc_end)
break;
}
if (c->unicode() < '0' || c->unicode() > '9')
continue;
uint escape = c->unicode() - '0';
++c;
if (escape > d.min_escape)
continue;
if (escape < d.min_escape) {
d.min_escape = escape;
d.occurrences = 0;
d.escape_len = 0;
d.locale_occurrences = 0;
}
/* Only the first instance is replaced,
escape_len should hold the length of only the first escape
sequence */
if (d.occurrences == 0)
{
++d.occurrences;
if (locale_arg) {
++d.locale_occurrences;
d.escape_len += 3;
}
else
d.escape_len += 2;
}
}
return d;
}
static TQString replaceArgEscapes(const TQString &s, const ArgEscapeData &d, int field_width,
const TQString &arg, const TQString &larg)
{
const TQChar *uc_begin = s.unicode();
const TQChar *uc_end = uc_begin + s.length();
uint abs_field_width = TQABS(field_width);
uint result_len = s.length()
- d.escape_len
+ (d.occurrences - d.locale_occurrences)
*TQMAX(abs_field_width, arg.length())
+ d.locale_occurrences
*TQMAX(abs_field_width, larg.length());
TQString result;
result.setLength(result_len);
TQChar *result_buff = (TQChar*) result.unicode();
TQChar *rc = result_buff;
const TQChar *c = uc_begin;
uint repl_cnt = 0;
while (c != uc_end) {
/* We don't have to check if we run off the end of the string with c,
because as long as d.occurrences > 0 we KNOW there are valid escape
sequences. */
const TQChar *text_start = c;
while (c->unicode() != '%')
++c;
const TQChar *escape_start = c++;
bool locale_arg = FALSE;
if (c->unicode() == 'L') {
locale_arg = TRUE;
++c;
}
if (c->unicode() != '0' + d.min_escape) {
memcpy(rc, text_start, (c - text_start)*sizeof(TQChar));
rc += c - text_start;
}
else {
++c;
memcpy(rc, text_start, (escape_start - text_start)*sizeof(TQChar));
rc += escape_start - text_start;
uint pad_chars;
if (locale_arg)
pad_chars = TQMAX(abs_field_width, larg.length()) - larg.length();
else
pad_chars = TQMAX(abs_field_width, arg.length()) - arg.length();
if (field_width > 0) { // left padded
for (uint i = 0; i < pad_chars; ++i)
(rc++)->unicode() = ' ';
}
if (locale_arg) {
memcpy(rc, larg.unicode(), larg.length()*sizeof(TQChar));
rc += larg.length();
}
else {
memcpy(rc, arg.unicode(), arg.length()*sizeof(TQChar));
rc += arg.length();
}
if (field_width < 0) { // right padded
for (uint i = 0; i < pad_chars; ++i)
(rc++)->unicode() = ' ';
}
if (++repl_cnt == d.occurrences) {
memcpy(rc, c, (uc_end - c)*sizeof(TQChar));
rc += uc_end - c;
Q_ASSERT(rc - result_buff == (int)result_len);
c = uc_end;
}
}
}
return result;
}
/*!
This function will return a string that replaces the lowest
numbered occurrence of \c %1, \c %2, ..., \c %9 with \a a.
The \a fieldWidth value specifies the minimum amount of space that
\a a is padded to. A positive value will produce right-aligned
text, whereas a negative value will produce left-aligned text.
The following example shows how we could create a 'status' string
when processing a list of files:
\code
TQString status = TQString( "Processing file %1 of %2: %3" )
.arg( i ) // current file's number
.arg( total ) // number of files to process
.arg( fileName ); // current file's name
\endcode
It is generally fine to use filenames and numbers as we have done
in the example above. But note that using arg() to construct
natural language sentences does not usually translate well into
other languages because sentence structure and word order often
differ between languages.
If there is no place marker (\c %1, \c %2, etc.), a warning
message (tqWarning()) is output and the result is undefined.
\warning If any placeholder occurs more than once, the result is undefined.
*/
TQString TQString::arg( const TQString& a, int fieldWidth ) const
{
ArgEscapeData d = findArgEscapes(*this);
if (d.occurrences == 0) {
tqWarning( "TQString::arg(): Argument missing: %s, %s", latin1(),
a.latin1() );
return *this;
}
return replaceArgEscapes(*this, d, fieldWidth, a, a);
}
/*!
\fn TQString TQString::arg( const TQString& a1, const TQString& a2 ) const
\overload
This is the same as str.arg(\a a1).arg(\a a2), except that
the strings are replaced in one pass. This can make a difference
if \a a1 contains e.g. \c{%1}:
\code
TQString str( "%1 %2" );
str.arg( "Hello", "world" ); // returns "Hello world"
str.arg( "Hello" ).arg( "world" ); // returns "Hello world"
str.arg( "(%1)", "Hello" ); // returns "(%1) Hello"
str.arg( "(%1)" ).arg( "Hello" ); // returns "(Hello) %2"
\endcode
*/
/*!
\fn TQString TQString::arg( const TQString& a1, const TQString& a2,
const TQString& a3 ) const
\overload
This is the same as calling str.arg(\a a1).arg(\a a2).arg(\a a3),
except that the strings are replaced in one pass.
*/
/*!
\fn TQString TQString::arg( const TQString& a1, const TQString& a2,
const TQString& a3, const TQString& a4 ) const
\overload
This is the same as calling
str.arg(\a a1).arg(\a a2).arg(\a a3).arg(\a a4),
except that the strings are replaced in one pass.
*/
/*!
\overload
The \a fieldWidth value specifies the minimum amount of space that
\a a is padded to. A positive value will produce a right-aligned
number, whereas a negative value will produce a left-aligned
number.
\a a is expressed in base \a base, which is 10 by default and must
be between 2 and 36.
The '%' can be followed by an 'L', in which case the sequence is
replaced with a localized representation of \a a. The conversion
uses the default locale. The default locale is determined from the
system's locale settings at application startup. It can be changed
using TQLocale::setDefault(). The 'L' flag is ignored if \a base is
not 10.
\code
TQString str;
str = TQString( "Decimal 63 is %1 in hexadecimal" )
.arg( 63, 0, 16 );
// str == "Decimal 63 is 3f in hexadecimal"
TQLocale::setDefault(TQLocale::English, TQLocale::UnitedStates);
str = TQString( "%1 %L2 %L3" )
.arg( 12345 )
.arg( 12345 )
.arg( 12345, 0, 16 );
// str == "12345 12,345 3039"
\endcode
*/
TQString TQString::arg( long a, int fieldWidth, int base ) const
{
return arg((TQ_LLONG)a, fieldWidth, base);
}
/*!
\overload
\a a is expressed in base \a base, which is 10 by default and must
be between 2 and 36. If \a base is 10, the '%L' syntax can be used
to produce localized strings.
*/
TQString TQString::arg( ulong a, int fieldWidth, int base ) const
{
return arg((TQ_ULLONG)a, fieldWidth, base);
}
/*!
\overload
\a a is expressed in base \a base, which is 10 by default and must
be between 2 and 36. If \a base is 10, the '%L' syntax can be used
to produce localized strings.
*/
TQString TQString::arg( TQ_LLONG a, int fieldWidth, int base ) const
{
ArgEscapeData d = findArgEscapes(*this);
if (d.occurrences == 0) {
tqWarning( "TQString::arg(): Argument missing: %s, %lld", latin1(),
a );
return *this;
}
TQString arg;
if (d.occurrences > d.locale_occurrences)
arg = number(a, base);
TQString locale_arg;
if (d.locale_occurrences > 0) {
TQLocale locale;
locale_arg = locale.d->longLongToString(a, -1, base, -1, TQLocalePrivate::ThousandsGroup);
}
return replaceArgEscapes(*this, d, fieldWidth, arg, locale_arg);
}
/*!
\overload
\a a is expressed in base \a base, which is 10 by default and must
be between 2 and 36. If \a base is 10, the '%L' syntax can be used
to produce localized strings.
*/
TQString TQString::arg( TQ_ULLONG a, int fieldWidth, int base ) const
{
ArgEscapeData d = findArgEscapes(*this);
if (d.occurrences == 0) {
tqWarning( "TQString::arg(): Argument missing: %s, %llu", latin1(),
a );
return *this;
}
TQString arg;
if (d.occurrences > d.locale_occurrences)
arg = number(a, base);
TQString locale_arg;
if (d.locale_occurrences > 0) {
TQLocale locale;
locale_arg = locale.d->unsLongLongToString(a, -1, base, -1, TQLocalePrivate::ThousandsGroup);
}
return replaceArgEscapes(*this, d, fieldWidth, arg, locale_arg);
}
/*!
\fn TQString TQString::arg( int a, int fieldWidth, int base ) const
\overload
\a a is expressed in base \a base, which is 10 by default and must
be between 2 and 36. If \a base is 10, the '%L' syntax can be used
to produce localized strings.
*/
/*!
\fn TQString TQString::arg( uint a, int fieldWidth, int base ) const
\overload
\a a is expressed in base \a base, which is 10 by default and must
be between 2 and 36. If \a base is 10, the '%L' syntax can be used
to produce localized strings.
*/
/*!
\fn TQString TQString::arg( short a, int fieldWidth, int base ) const
\overload
\a a is expressed in base \a base, which is 10 by default and must
be between 2 and 36. If \a base is 10, the '%L' syntax can be used
to produce localized strings.
*/
/*!
\fn TQString TQString::arg( ushort a, int fieldWidth, int base ) const
\overload
\a a is expressed in base \a base, which is 10 by default and must
be between 2 and 36. If \a base is 10, the '%L' syntax can be used
to produce localized strings.
*/
/*!
\overload
\a a is assumed to be in the Latin-1 character set.
*/
TQString TQString::arg( char a, int fieldWidth ) const
{
TQString c;
c += a;
return arg( c, fieldWidth );
}
/*!
\overload
*/
TQString TQString::arg( TQChar a, int fieldWidth ) const
{
TQString c;
c += a;
return arg( c, fieldWidth );
}
/*!
\overload
\target arg-formats
Argument \a a is formatted according to the \a fmt format specified,
which is 'g' by default and can be any of the following:
\table
\header \i Format \i Meaning
\row \i \c e \i format as [-]9.9e[+|-]999
\row \i \c E \i format as [-]9.9E[+|-]999
\row \i \c f \i format as [-]9.9
\row \i \c g \i use \c e or \c f format, whichever is the most concise
\row \i \c G \i use \c E or \c f format, whichever is the most concise
\endtable
With 'e', 'E', and 'f', \a prec is the number of digits after the
decimal point. With 'g' and 'G', \a prec is the maximum number of
significant digits (trailing zeroes are omitted).
\code
double d = 12.34;
TQString ds = TQString( "'E' format, precision 3, gives %1" )
.arg( d, 0, 'E', 3 );
// ds == "'E' format, precision 3, gives 1.234E+01"
\endcode
The '%L' syntax can be used to produce localized strings.
*/
TQString TQString::arg( double a, int fieldWidth, char fmt, int prec ) const
{
ArgEscapeData d = findArgEscapes(*this);
if (d.occurrences == 0) {
tqWarning( "TQString::arg(): Argument missing: %s, %g", latin1(),
a );
return *this;
}
TQString arg;
if (d.occurrences > d.locale_occurrences)
arg = number(a, fmt, prec);
TQString locale_arg;
if (d.locale_occurrences > 0) {
TQLocale locale;
TQLocalePrivate::DoubleForm form = TQLocalePrivate::DFDecimal;
uint flags = 0;
if (qIsUpper(fmt))
flags = TQLocalePrivate::CapitalEorX;
fmt = qToLower(fmt);
switch (fmt) {
case 'f':
form = TQLocalePrivate::DFDecimal;
break;
case 'e':
form = TQLocalePrivate::DFExponent;
break;
case 'g':
form = TQLocalePrivate::DFSignificantDigits;
break;
default:
#if defined(QT_CHECK_RANGE)
tqWarning( "TQString::setNum: Invalid format char '%c'", fmt );
#endif
break;
}
flags |= TQLocalePrivate::ThousandsGroup;
locale_arg = locale.d->doubleToString(a, prec, form, -1, flags);
}
return replaceArgEscapes(*this, d, fieldWidth, arg, locale_arg);
}
TQString TQString::multiArg( int numArgs, const TQString& a1, const TQString& a2,
const TQString& a3, const TQString& a4 ) const
{
TQString result;
union {
int digitUsed[10];
int argForDigit[10];
};
const TQChar *uc = d->unicode;
const TQString *args[4];
const int len = (int) length();
const int end = len - 1;
int lastDigit = -1;
int i;
memset( digitUsed, 0, sizeof(digitUsed) );
args[0] = &a1;
args[1] = &a2;
args[2] = &a3;
args[3] = &a4;
for ( i = 0; i < end; i++ ) {
if ( uc[i] == '%' ) {
int digit = uc[i + 1].unicode() - '0';
if ( digit >= 0 && digit <= 9 )
digitUsed[digit]++;
}
}
for ( i = 0; i < numArgs; i++ ) {
do {
++lastDigit;
} while ( lastDigit < 10 && digitUsed[lastDigit] == 0 );
if ( lastDigit == 10 ) {
tqWarning( "TQString::arg(): Argument missing: %s, %s",
latin1(), args[i]->latin1() );
numArgs = i;
lastDigit = 9;
break;
}
argForDigit[lastDigit] = i;
}
i = 0;
while ( i < len ) {
if ( uc[i] == '%' && i != end ) {
int digit = uc[i + 1].unicode() - '0';
if ( digit >= 0 && digit <= lastDigit ) {
result += *args[argForDigit[digit]];
i += 2;
continue;
}
}
result += uc[i++];
}
return result;
}
/*!
Safely builds a formatted string from the format string \a cformat
and an arbitrary list of arguments. The format string supports all
the escape sequences of printf() in the standard C library.
The %s escape sequence expects a utf8() encoded string. The format
string \e cformat is expected to be in latin1. If you need a
Unicode format string, use arg() instead. For typesafe string
building, with full Unicode support, you can use TQTextOStream like
this:
\code
TQString str;
TQString s = ...;
int x = ...;
TQTextOStream( &str ) << s << " : " << x;
\endcode
For \link TQObject::tr() translations,\endlink especially if the
strings contains more than one escape sequence, you should
consider using the arg() function instead. This allows the order
of the replacements to be controlled by the translator, and has
Unicode support.
The %lc escape sequence expects a unicode character of type ushort
(as returned by TQChar::unicode()).
The %ls escape sequence expects a pointer to a zero-terminated
array of unicode characters of type ushort (as returned by
TQString::ucs2()).
\sa arg()
*/
#ifndef TQT_NO_SPRINTF
TQString &TQString::sprintf(const char *cformat, ...)
{
va_list ap;
va_start(ap, cformat);
if ( !cformat || !*cformat ) {
// TQt 1.x compat
*this = fromLatin1( "" );
} else {
vsprintf(cformat, ap);
}
va_end(ap);
return *this;
}
TQString &TQString::vsprintf( const char* cformat, va_list ap )
{
TQLocale locale(TQLocale::C);
// Parse cformat
TQString result;
const char *c = cformat;
for (;;) {
// Copy non-escape chars to result
while (*c != '\0' && *c != '%')
result.append(*c++);
if (*c == '\0')
break;
// Found '%'
const char *escape_start = c;
++c;
if (*c == '\0') {
result.append('%'); // a % at the end of the string - treat as non-escape text
break;
}
if (*c == '%') {
result.append('%'); // %%
++c;
continue;
}
// Parse flag characters
unsigned flags = 0;
bool no_more_flags = FALSE;
do {
switch (*c) {
case '#': flags |= TQLocalePrivate::Alternate; break;
case '0': flags |= TQLocalePrivate::ZeroPadded; break;
case '-': flags |= TQLocalePrivate::LeftAdjusted; break;
case ' ': flags |= TQLocalePrivate::BlankBeforePositive; break;
case '+': flags |= TQLocalePrivate::AlwaysShowSign; break;
case '\'': flags |= TQLocalePrivate::ThousandsGroup; break;
default: no_more_flags = TRUE; break;
}
if (!no_more_flags)
++c;
} while (!no_more_flags);
if (*c == '\0') {
result.append(escape_start); // incomplete escape, treat as non-escape text
break;
}
// Parse field width
int width = -1; // -1 means unspecified
if (qIsDigit(*c)) {
TQString width_str;
while (*c != '\0' && qIsDigit(*c))
width_str.append(*c++);
// can't be negative - started with a digit
// contains at least one digit
width = width_str.toInt();
}
else if (*c == '*') {
width = va_arg(ap, int);
if (width < 0)
width = -1; // treat all negative numbers as unspecified
++c;
}
if (*c == '\0') {
result.append(escape_start); // incomplete escape, treat as non-escape text
break;
}
// Parse precision
int precision = -1; // -1 means unspecified
if (*c == '.') {
++c;
if (qIsDigit(*c)) {
TQString precision_str;
while (*c != '\0' && qIsDigit(*c))
precision_str.append(*c++);
// can't be negative - started with a digit
// contains at least one digit
precision = precision_str.toInt();
}
else if (*c == '*') {
precision = va_arg(ap, int);
if (precision < 0)
precision = -1; // treat all negative numbers as unspecified
++c;
}
}
if (*c == '\0') {
result.append(escape_start); // incomplete escape, treat as non-escape text
break;
}
// Parse the length modifier
enum LengthMod { lm_none, lm_hh, lm_h, lm_l, lm_ll, lm_L, lm_j, lm_z, lm_t };
LengthMod length_mod = lm_none;
switch (*c) {
case 'h':
++c;
if (*c == 'h') {
length_mod = lm_hh;
++c;
}
else
length_mod = lm_h;
break;
case 'l':
++c;
if (*c == 'l') {
length_mod = lm_ll;
++c;
}
else
length_mod = lm_l;
break;
case 'L':
++c;
length_mod = lm_L;
break;
case 'j':
++c;
length_mod = lm_j;
break;
case 'z':
case 'Z':
++c;
length_mod = lm_z;
break;
case 't':
++c;
length_mod = lm_t;
break;
default: break;
}
if (*c == '\0') {
result.append(escape_start); // incomplete escape, treat as non-escape text
break;
}
// Parse the conversion specifier and do the conversion
TQString subst;
switch (*c) {
case 'd':
case 'i': {
TQ_LLONG i;
switch (length_mod) {
case lm_none: i = va_arg(ap, int); break;
case lm_hh: i = va_arg(ap, int); break;
case lm_h: i = va_arg(ap, int); break;
case lm_l: i = va_arg(ap, long int); break;
case lm_ll: i = va_arg(ap, TQ_LLONG); break;
case lm_j: i = va_arg(ap, long int); break;
case lm_z: i = va_arg(ap, size_t); break;
case lm_t: i = va_arg(ap, int); break;
default: i = 0; break;
}
subst = locale.d->longLongToString(i, precision, 10, width, flags);
++c;
break;
}
case 'o':
case 'u':
case 'x':
case 'X': {
TQ_ULLONG u;
switch (length_mod) {
case lm_none: u = va_arg(ap, unsigned int); break;
case lm_hh: u = va_arg(ap, unsigned int); break;
case lm_h: u = va_arg(ap, unsigned int); break;
case lm_l: u = va_arg(ap, unsigned long int); break;
case lm_ll: u = va_arg(ap, TQ_ULLONG); break;
default: u = 0; break;
}
if (qIsUpper(*c))
flags |= TQLocalePrivate::CapitalEorX;
int base = 10;
switch (qToLower(*c)) {
case 'o':
base = 8; break;
case 'u':
base = 10; break;
case 'x':
base = 16; break;
default: break;
}
subst = locale.d->unsLongLongToString(u, precision, base, width, flags);
++c;
break;
}
case 'E':
case 'e':
case 'F':
case 'f':
case 'G':
case 'g':
case 'A':
case 'a': {
double d;
if (length_mod == lm_L)
d = va_arg(ap, long double); // not supported - converted to a double
else
d = va_arg(ap, double);
if (qIsUpper(*c))
flags |= TQLocalePrivate::CapitalEorX;
TQLocalePrivate::DoubleForm form = TQLocalePrivate::DFDecimal;
switch (qToLower(*c)) {
case 'e': form = TQLocalePrivate::DFExponent; break;
case 'a': // not supported - decimal form used instead
case 'f': form = TQLocalePrivate::DFDecimal; break;
case 'g': form = TQLocalePrivate::DFSignificantDigits; break;
default: break;
}
subst = locale.d->doubleToString(d, precision, form, width, flags);
++c;
break;
}
case 'c': {
if (length_mod == lm_l)
subst = TQChar((ushort) va_arg(ap, int));
else
subst = (uchar) va_arg(ap, int);
++c;
break;
}
case 's': {
if (length_mod == lm_l) {
const ushort *buff = va_arg(ap, const ushort*);
const ushort *ch = buff;
while (*ch != 0)
++ch;
subst.setUnicodeCodes(buff, ch - buff);
} else
subst = TQString::fromUtf8(va_arg(ap, const char*));
if (precision != -1)
subst.truncate(precision);
++c;
break;
}
case 'p': {
TQ_ULLONG i;
#ifdef Q_OS_WIN64
i = (TQ_ULLONG) va_arg(ap, void*);
#else
i = (TQ_ULONG) va_arg(ap, void*);
#endif
#ifdef Q_OS_WIN32
flags |= TQLocalePrivate::CapitalEorX; // Windows does 1234ABCD
#else
flags |= TQLocalePrivate::Alternate; // Unix and Mac do 0x1234abcd
#endif
subst = locale.d->unsLongLongToString(i, precision, 16, width, flags);
++c;
break;
}
case 'n':
switch (length_mod) {
case lm_hh: {
signed char *n = va_arg(ap, signed char*);
*n = result.length();
break;
}
case lm_h: {
short int *n = va_arg(ap, short int*);
*n = result.length();
break;
}
case lm_l: {
long int *n = va_arg(ap, long int*);
*n = result.length();
break;
}
case lm_ll: {
TQ_LLONG *n = va_arg(ap, TQ_LLONG*);
volatile uint tmp = result.length(); // egcs-2.91.66 gets internal
*n = tmp; // compiler error without volatile
break;
}
default: {
int *n = va_arg(ap, int*);
*n = result.length();
break;
}
}
++c;
break;
default: // bad escape, treat as non-escape text
for (const char *cc = escape_start; cc != c; ++cc)
result.append(*cc);
continue;
}
if (flags & TQLocalePrivate::LeftAdjusted)
result.append(subst.leftJustify(width));
else
result.append(subst.rightJustify(width));
}
*this = result;
return *this;
}
#endif
/*!
Fills the string with \a len characters of value \a c, and returns
a reference to the string.
If \a len is negative (the default), the current string length is
used.
\code
TQString str;
str.fill( 'g', 5 ); // string == "ggggg"
\endcode
*/
TQString& TQString::fill( TQChar c, int len )
{
if ( len < 0 )
len = length();
if ( len == 0 ) {
*this = "";
} else {
bool unpaged = d->security_unpaged;
deref();
TQChar * nd = QT_ALLOC_QCHAR_VEC( len );
d = new TQStringData(nd,len,len);
setSecurityUnPaged(unpaged);
while (len--) *nd++ = c;
}
return *this;
}
/*!
\fn TQString TQString::copy() const
\obsolete
In TQt 2.0 and later, all calls to this function are needless. Just
remove them.
*/
/*!
\overload
Finds the first occurrence of the character \a c, starting at
position \a index. If \a index is -1, the search starts at the
last character; if -2, at the next to last character and so on.
(See findRev() for searching backwards.)
If \a cs is TRUE (the default), the search is case sensitive;
otherwise the search is case insensitive.
Returns the position of \a c or -1 if \a c could not be found.
*/
int TQString::find( TQChar c, int index, bool cs ) const
{
const uint l = length();
if ( index < 0 )
index += l;
if ( (uint)index >= l )
return -1;
const TQChar *uc = unicode()+index;
const TQChar *end = unicode() + l;
if ( cs ) {
while ( uc < end && *uc != c )
uc++;
} else {
c = ::lower( c );
while ( uc < end && ::lower( *uc ) != c )
uc++;
}
if ( uint(uc - unicode()) >= l )
return -1;
return (int)(uc - unicode());
}
/* an implementation of the Boyer-Moore search algorithm
*/
/* initializes the skiptable to know haw far ahead we can skip on a wrong match
*/
static void bm_init_skiptable( const TQString &pattern, uint *skiptable, bool cs )
{
int i = 0;
uint *st = skiptable;
int l = pattern.length();
while ( i++ < 0x100/8 ) {
*(st++) = l;
*(st++) = l;
*(st++) = l;
*(st++) = l;
*(st++) = l;
*(st++) = l;
*(st++) = l;
*(st++) = l;
}
const TQChar *uc = pattern.unicode();
if ( cs ) {
while ( l-- ) {
skiptable[ uc->cell() ] = l;
uc++;
}
} else {
while ( l-- ) {
skiptable[ ::lower( *uc ).cell() ] = l;
uc++;
}
}
}
static int bm_find( const TQString &str, int index, const TQString &pattern, uint *skiptable, bool cs )
{
const uint l = str.length();
if ( pattern.isEmpty() )
return index > (int)l ? -1 : index;
const TQChar *uc = str.unicode();
const TQChar *puc = pattern.unicode();
const uint pl = pattern.length();
const uint pl_minus_one = pl - 1;
const TQChar *current = uc + index + pl_minus_one;
const TQChar *end = uc + l;
if ( cs ) {
while ( current < end ) {
uint skip = skiptable[ current->cell() ];
if ( !skip ) {
// possible match
while ( skip < pl ) {
if ( *(current - skip ) != puc[pl_minus_one-skip] )
break;
skip++;
}
if ( skip > pl_minus_one ) { // we have a match
return (current - uc) - skip + 1;
}
// in case we don't have a match we are a bit inefficient as we only skip by one
// when we have the non matching char in the string.
if ( skiptable[ (current-skip)->cell() ] == pl )
skip = pl - skip;
else
skip = 1;
}
current += skip;
}
} else {
while ( current < end ) {
uint skip = skiptable[ ::lower( *current ).cell() ];
if ( !skip ) {
// possible match
while ( skip < pl ) {
if ( ::lower( *(current - skip) ) != ::lower( puc[pl_minus_one-skip] ) )
break;
skip++;
}
if ( skip > pl_minus_one ) // we have a match
return (current - uc) - skip + 1;
// in case we don't have a match we are a bit inefficient as we only skip by one
// when we have the non matching char in the string.
if ( skiptable[ ::lower(*(current - skip)).cell() ] == pl )
skip = pl - skip;
else
skip = 1;
}
current += skip;
}
}
// not found
return -1;
}
#define REHASH( a ) \
if ( sl_minus_1 < sizeof(uint) * CHAR_BIT ) \
hashHaystack -= (a) << sl_minus_1; \
hashHaystack <<= 1
/*!
\overload
Finds the first occurrence of the string \a str, starting at
position \a index. If \a index is -1, the search starts at the
last character, if it is -2, at the next to last character and so
on. (See findRev() for searching backwards.)
If \a cs is TRUE (the default), the search is case sensitive;
otherwise the search is case insensitive.
Returns the position of \a str or -1 if \a str could not be found.
*/
int TQString::find( const TQString& str, int index, bool cs ) const
{
const uint l = length();
const uint sl = str.length();
if ( index < 0 )
index += l;
if ( sl + index > l )
return -1;
if ( !sl )
return index;
if (!l)
return -1;
#if defined(Q_OS_MACX) && defined(QT_MACOSX_VERSION) && QT_MACOSX_VERSION >= 0x1020
if ( sl == 1 )
return find( *str.unicode(), index, cs );
#endif
// we use the Boyer-Moore algorithm in cases where the overhead
// for the hash table should pay off, otherwise we use a simple
// hash function
if ( l > 500 && sl > 5 ) {
uint skiptable[0x100];
bm_init_skiptable( str, skiptable, cs );
return bm_find( *this, index, str, skiptable, cs );
}
/*
We use some hashing for efficiency's sake. Instead of
comparing strings, we compare the hash value of str with that of
a part of this TQString. Only if that matches, we call ucstrncmp
or ucstrnicmp.
*/
const TQChar* needle = str.unicode();
const TQChar* haystack = unicode() + index;
const TQChar* end = unicode() + (l-sl);
const uint sl_minus_1 = sl-1;
uint hashNeedle = 0, hashHaystack = 0, i;
if ( cs ) {
for ( i = 0; i < sl; ++i ) {
hashNeedle = ((hashNeedle<<1) + needle[i].unicode() );
hashHaystack = ((hashHaystack<<1) + haystack[i].unicode() );
}
hashHaystack -= (haystack+sl_minus_1)->unicode();
while ( haystack <= end ) {
hashHaystack += (haystack+sl_minus_1)->unicode();
if ( hashHaystack == hashNeedle
&& ucstrncmp( needle, haystack, sl ) == 0 )
return haystack-unicode();
REHASH( haystack->unicode() );
++haystack;
}
} else {
for ( i = 0; i < sl; ++i ) {
hashNeedle = ((hashNeedle<<1) +
::lower( needle[i].unicode() ).unicode() );
hashHaystack = ((hashHaystack<<1) +
::lower( haystack[i].unicode() ).unicode() );
}
hashHaystack -= ::lower(*(haystack+sl_minus_1)).unicode();
while ( haystack <= end ) {
hashHaystack += ::lower(*(haystack+sl_minus_1)).unicode();
if ( hashHaystack == hashNeedle
&& ucstrnicmp( needle, haystack, sl ) == 0 )
return haystack-unicode();
REHASH( ::lower(*haystack).unicode() );
++haystack;
}
}
return -1;
}
/*!
\fn int TQString::findRev( const char* str, int index ) const
Equivalent to findRev(TQString(\a str), \a index).
*/
/*!
\fn int TQString::find( const char* str, int index ) const
\overload
Equivalent to find(TQString(\a str), \a index).
*/
/*!
\overload
Finds the first occurrence of the character \a c, starting at
position \a index and searching backwards. If the index is -1, the
search starts at the last character, if it is -2, at the next to
last character and so on.
Returns the position of \a c or -1 if \a c could not be found.
If \a cs is TRUE (the default), the search is case sensitive;
otherwise the search is case insensitive.
\code
TQString string( "bananas" );
int i = string.findRev( 'a' ); // i == 5
\endcode
*/
int TQString::findRev( TQChar c, int index, bool cs ) const
{
#if defined(Q_OS_MACX) && defined(QT_MACOSX_VERSION) && QT_MACOSX_VERSION < 0x1020
return findRev( TQString( c ), index, cs );
#else
const uint l = length();
if ( index < 0 )
index += l;
if ( (uint)index >= l )
return -1;
const TQChar *end = unicode();
const TQChar *uc = end + index;
if ( cs ) {
while ( uc >= end && *uc != c )
uc--;
} else {
c = ::lower( c );
while ( uc >= end && ::lower( *uc ) != c )
uc--;
}
return uc - end;
#endif
}
/*!
\overload
Finds the first occurrence of the string \a str, starting at
position \a index and searching backwards. If the index is -1, the
search starts at the last character, if it is -2, at the next to
last character and so on.
Returns the position of \a str or -1 if \a str could not be found.
If \a cs is TRUE (the default), the search is case sensitive;
otherwise the search is case insensitive.
\code
TQString string("bananas");
int i = string.findRev( "ana" ); // i == 3
\endcode
*/
int TQString::findRev( const TQString& str, int index, bool cs ) const
{
/*
See TQString::find() for explanations.
*/
const uint l = length();
if ( index < 0 )
index += l;
const uint sl = str.length();
int delta = l-sl;
if ( index < 0 || index > (int)l || delta < 0 )
return -1;
if ( index > delta )
index = delta;
#if defined(Q_OS_MACX) && defined(QT_MACOSX_VERSION) && QT_MACOSX_VERSION >= 0x1020
if ( sl == 1 )
return findRev( *str.unicode(), index, cs );
#endif
const TQChar* needle = str.unicode();
const TQChar* haystack = unicode() + index;
const TQChar* end = unicode();
const uint sl_minus_1 = sl-1;
const TQChar* n = needle+sl_minus_1;
const TQChar* h = haystack+sl_minus_1;
uint hashNeedle = 0, hashHaystack = 0, i;
if ( cs ) {
for ( i = 0; i < sl; ++i ) {
hashNeedle = ((hashNeedle<<1) + (n-i)->unicode() );
hashHaystack = ((hashHaystack<<1) + (h-i)->unicode() );
}
hashHaystack -= haystack->unicode();
while ( haystack >= end ) {
hashHaystack += haystack->unicode();
if ( hashHaystack == hashNeedle
&& ucstrncmp( needle, haystack, sl ) == 0 )
return haystack-unicode();
--haystack;
REHASH( (haystack+sl)->unicode() );
}
} else {
for ( i = 0; i < sl; ++i ) {
hashNeedle = ((hashNeedle<<1)
+ ::lower( (n-i)->unicode() ).unicode() );
hashHaystack = ((hashHaystack<<1)
+ ::lower( (h-i)->unicode() ).unicode() );
}
hashHaystack -= ::lower(*haystack).unicode();
while ( haystack >= end ) {
hashHaystack += ::lower(*haystack).unicode();
if ( hashHaystack == hashNeedle
&& ucstrnicmp( needle, haystack, sl ) == 0 )
return haystack-unicode();
--haystack;
REHASH( ::lower(*(haystack+sl)).unicode() );
}
}
return -1;
}
#undef REHASH
/*!
\enum TQString::SectionFlags
\value SectionDefault Empty fields are counted, leading and
trailing separators are not included, and the separator is
compared case sensitively.
\value SectionSkipEmpty Treat empty fields as if they don't exist,
i.e. they are not considered as far as \e start and \e end are
concerned.
\value SectionIncludeLeadingSep Include the leading separator (if
any) in the result string.
\value SectionIncludeTrailingSep Include the trailing separator
(if any) in the result string.
\value SectionCaseInsensitiveSeps Compare the separator
case-insensitively.
Any of the last four values can be OR-ed together to form a flag.
\sa section()
*/
/*!
\fn TQString TQString::section( TQChar sep, int start, int end = 0xffffffff, int flags = SectionDefault ) const
This function returns a section of the string.
This string is treated as a sequence of fields separated by the
character, \a sep. The returned string consists of the fields from
position \a start to position \a end inclusive. If \a end is not
specified, all fields from position \a start to the end of the
string are included. Fields are numbered 0, 1, 2, etc., counting
from the left, and -1, -2, etc., counting from right to left.
The \a flags argument can be used to affect some aspects of the
function's behaviour, e.g. whether to be case sensitive, whether
to skip empty fields and how to deal with leading and trailing
separators; see \l{SectionFlags}.
\code
TQString csv( "forename,middlename,surname,phone" );
TQString s = csv.section( ',', 2, 2 ); // s == "surname"
TQString path( "/usr/local/bin/myapp" ); // First field is empty
TQString s = path.section( '/', 3, 4 ); // s == "bin/myapp"
TQString s = path.section( '/', 3, 3, SectionSkipEmpty ); // s == "myapp"
\endcode
If \a start or \a end is negative, we count fields from the right
of the string, the right-most field being -1, the one from
right-most field being -2, and so on.
\code
TQString csv( "forename,middlename,surname,phone" );
TQString s = csv.section( ',', -3, -2 ); // s == "middlename,surname"
TQString path( "/usr/local/bin/myapp" ); // First field is empty
TQString s = path.section( '/', -1 ); // s == "myapp"
\endcode
\sa TQStringList::split()
*/
/*!
\overload
This function returns a section of the string.
This string is treated as a sequence of fields separated by the
string, \a sep. The returned string consists of the fields from
position \a start to position \a end inclusive. If \a end is not
specified, all fields from position \a start to the end of the
string are included. Fields are numbered 0, 1, 2, etc., counting
from the left, and -1, -2, etc., counting from right to left.
The \a flags argument can be used to affect some aspects of the
function's behaviour, e.g. whether to be case sensitive, whether
to skip empty fields and how to deal with leading and trailing
separators; see \l{SectionFlags}.
\code
TQString data( "forename**middlename**surname**phone" );
TQString s = data.section( "**", 2, 2 ); // s == "surname"
\endcode
If \a start or \a end is negative, we count fields from the right
of the string, the right-most field being -1, the one from
right-most field being -2, and so on.
\code
TQString data( "forename**middlename**surname**phone" );
TQString s = data.section( "**", -3, -2 ); // s == "middlename**surname"
\endcode
\sa TQStringList::split()
*/
TQString TQString::section( const TQString &sep, int start, int end, int flags ) const
{
TQStringList sections = TQStringList::split(sep, *this, TRUE);
if(sections.isEmpty())
return TQString();
if(!(flags & SectionSkipEmpty)) {
if(start < 0)
start += int(sections.count());
if(end < 0)
end += int(sections.count());
} else {
int skip = 0;
for(TQStringList::Iterator it = sections.begin(); it != sections.end(); ++it) {
if((*it).isEmpty())
skip++;
}
if(start < 0)
start += int(sections.count()) - skip;
if(end < 0)
end += int(sections.count()) - skip;
}
int x = 0, run = 0;
TQString ret;
for(TQStringList::Iterator it = sections.begin(); x <= end && it != sections.end(); ++it) {
if(x >= start) {
if((*it).isEmpty()) {
run++;
} else {
if(!ret.isEmpty() || !(flags & SectionSkipEmpty)) {
int i_end = run;
if(!ret.isEmpty() && !(flags & SectionIncludeTrailingSep))
i_end++;
if((flags & SectionIncludeLeadingSep) && it != sections.begin() && x == start)
i_end++;
for(int i = 0; i < i_end; i++)
ret += sep;
} else if((flags & SectionIncludeLeadingSep) && it != sections.begin()) {
ret += sep;
}
run = 0;
ret += (*it);
if((flags & SectionIncludeTrailingSep) && it != sections.end())
ret += sep;
}
}
if(!(*it).isEmpty() || !(flags & SectionSkipEmpty))
x++;
}
return ret;
}
#ifndef TQT_NO_REGEXP
class section_chunk {
public:
section_chunk(int l, TQString s) { length = l; string = s; }
int length;
TQString string;
};
/*!
\overload
This function returns a section of the string.
This string is treated as a sequence of fields separated by the
regular expression, \a reg. The returned string consists of the
fields from position \a start to position \a end inclusive. If \a
end is not specified, all fields from position \a start to the end
of the string are included. Fields are numbered 0, 1, 2, etc., counting
from the left, and -1, -2, etc., counting from right to left.
The \a flags argument can be used to affect some aspects of the
function's behaviour, e.g. whether to be case sensitive, whether
to skip empty fields and how to deal with leading and trailing
separators; see \l{SectionFlags}.
\code
TQString line( "forename\tmiddlename surname \t \t phone" );
TQRegExp sep( "\s+" );
TQString s = line.section( sep, 2, 2 ); // s == "surname"
\endcode
If \a start or \a end is negative, we count fields from the right
of the string, the right-most field being -1, the one from
right-most field being -2, and so on.
\code
TQString line( "forename\tmiddlename surname \t \t phone" );
TQRegExp sep( "\\s+" );
TQString s = line.section( sep, -3, -2 ); // s == "middlename surname"
\endcode
\warning Using this TQRegExp version is much more expensive than
the overloaded string and character versions.
\sa TQStringList::split() simplifyWhiteSpace()
*/
TQString TQString::section( const TQRegExp ®, int start, int end, int flags ) const
{
const TQChar *uc = unicode();
if(!uc)
return TQString();
TQRegExp sep(reg);
sep.setCaseSensitive(!(flags & SectionCaseInsensitiveSeps));
TQPtrList<section_chunk> l;
l.setAutoDelete(TRUE);
int n = length(), m = 0, last_m = 0, last = 0, last_len = 0;
while ( ( m = sep.search( *this, m ) ) != -1 ) {
l.append(new section_chunk(last_len, TQString(uc + last_m, m - last_m)));
last_m = m;
last_len = sep.matchedLength();
if((m += TQMAX(sep.matchedLength(), 1)) >= n) {
last = 1;
break;
}
}
if(!last)
l.append(new section_chunk(last_len, TQString(uc + last_m, n - last_m)));
if(start < 0)
start = l.count() + start;
if(end == -1)
end = l.count();
else if(end < 0)
end = l.count() + end;
int i = 0;
TQString ret;
for ( section_chunk *chk=l.first(); chk; chk=l.next(), i++ ) {
if((flags & SectionSkipEmpty) && chk->length == (int)chk->string.length()) {
if(i <= start)
start++;
end++;
}
if(i == start) {
ret = (flags & SectionIncludeLeadingSep) ? chk->string : chk->string.mid(chk->length);
} else if(i > start) {
ret += chk->string;
}
if(i == end) {
if((chk=l.next()) && flags & SectionIncludeTrailingSep)
ret += chk->string.left(chk->length);
break;
}
}
return ret;
}
#endif
/*!
\fn TQString TQString::section( char sep, int start, int end = 0xffffffff, int flags = SectionDefault ) const
\overload
*/
/*!
\fn TQString TQString::section( const char *sep, int start, int end = 0xffffffff, int flags = SectionDefault ) const
\overload
*/
/*!
Returns the number of times the character \a c occurs in the
string.
If \a cs is TRUE (the default), the search is case sensitive;
otherwise the search is case insensitive.
\code
TQString string( "Trolltech and TQt" );
int n = string.contains( 't', FALSE );
// n == 3
\endcode
*/
int TQString::contains( TQChar c, bool cs ) const
{
int count = 0;
const TQChar *uc = unicode();
if ( !uc )
return 0;
int n = length();
if ( cs ) {
while ( n-- ) {
if ( *uc == c )
count++;
uc++;
}
} else {
c = ::lower( c );
while ( n-- ) {
if ( ::lower( *uc ) == c )
count++;
uc++;
}
}
return count;
}
/*!
\overload
Returns the number of times the string \a str occurs in the string.
If \a cs is TRUE (the default), the search is case sensitive;
otherwise the search is case insensitive.
*/
int TQString::contains( const char* str, bool cs ) const
{
return contains( TQString(str), cs );
}
/*!
\fn int TQString::contains( char c, bool cs ) const
\overload
*/
/*!
\fn int TQString::find( char c, int index, bool cs ) const
\overload
Find character \a c starting from position \a index.
If \a cs is TRUE (the default), the search is case sensitive;
otherwise the search is case insensitive.
*/
/*!
\fn int TQString::findRev( char c, int index, bool cs ) const
\overload
Find character \a c starting from position \a index and working
backwards.
If \a cs is TRUE (the default), the search is case sensitive;
otherwise the search is case insensitive.
*/
/*!
\overload
Returns the number of times \a str occurs in the string.
If \a cs is TRUE (the default), the search is case sensitive;
otherwise the search is case insensitive.
This function counts overlapping strings, so in the example below,
there are two instances of "ana" in "bananas".
\code
TQString str( "bananas" );
int i = str.contains( "ana" ); // i == 2
\endcode
\sa findRev()
*/
int TQString::contains( const TQString &str, bool cs ) const
{
if ( isNull() )
return 0;
int count = 0;
uint skiptable[0x100];
bm_init_skiptable( str, skiptable, cs );
int i = -1;
// use boyer-moore for the ultimate speed experience
while ( ( i = bm_find( *this, i + 1, str, skiptable, cs ) ) != -1 )
count++;
return count;
}
/*!
Returns a substring that contains the \a len leftmost characters
of the string.
The whole string is returned if \a len exceeds the length of the
string.
\code
TQString s = "Pineapple";
TQString t = s.left( 4 ); // t == "Pine"
\endcode
\sa right(), mid(), isEmpty()
*/
TQString TQString::left( uint len ) const
{
if ( isEmpty() ) {
return TQString();
} else if ( len == 0 ) { // ## just for 1.x compat:
return fromLatin1( "" );
} else if ( len >= length() ) {
return *this;
} else {
TQString s( len, TRUE );
memcpy( s.d->unicode, d->unicode, len * sizeof(TQChar) );
s.d->len = len;
return s;
}
}
/*!
Returns a string that contains the \a len rightmost characters of
the string.
If \a len is greater than the length of the string then the whole
string is returned.
\code
TQString string( "Pineapple" );
TQString t = string.right( 5 ); // t == "apple"
\endcode
\sa left(), mid(), isEmpty()
*/
TQString TQString::right( uint len ) const
{
if ( isEmpty() ) {
return TQString();
} else if ( len == 0 ) { // ## just for 1.x compat:
return fromLatin1( "" );
} else {
uint l = length();
if ( len >= l )
return *this;
TQString s( len, TRUE );
memcpy( s.d->unicode, d->unicode+(l-len), len*sizeof(TQChar) );
s.d->len = len;
return s;
}
}
/*!
Returns a string that contains the \a len characters of this
string, starting at position \a index.
Returns a null string if the string is empty or \a index is out of
range. Returns the whole string from \a index if \a index + \a len
exceeds the length of the string.
\code
TQString s( "Five pineapples" );
TQString t = s.mid( 5, 4 ); // t == "pine"
\endcode
\sa left(), right()
*/
TQString TQString::mid( uint index, uint len ) const
{
uint slen = length();
if ( isEmpty() || index >= slen ) {
return TQString();
} else if ( len == 0 ) { // ## just for 1.x compat:
return fromLatin1( "" );
} else {
if ( len > slen-index )
len = slen - index;
if ( index == 0 && len == slen )
return *this;
const TQChar *p = unicode()+index;
TQString s( len, TRUE );
memcpy( s.d->unicode, p, len * sizeof(TQChar) );
s.d->len = len;
return s;
}
}
/*!
Returns a string of length \a width that contains this string
padded by the \a fill character.
If \a truncate is FALSE and the length of the string is more than
\a width, then the returned string is a copy of the string.
If \a truncate is TRUE and the length of the string is more than
\a width, then any characters in a copy of the string after length
\a width are removed, and the copy is returned.
\code
TQString s( "apple" );
TQString t = s.leftJustify( 8, '.' ); // t == "apple..."
\endcode
\sa rightJustify()
*/
TQString TQString::leftJustify( uint width, TQChar fill, bool truncate ) const
{
TQString result;
int len = length();
int padlen = width - len;
if ( padlen > 0 ) {
result.setLength(len+padlen);
if ( len )
memcpy( result.d->unicode, unicode(), sizeof(TQChar)*len );
TQChar* uc = result.d->unicode + len;
while (padlen--)
*uc++ = fill;
} else {
if ( truncate )
result = left( width );
else
result = *this;
}
return result;
}
/*!
Returns a string of length \a width that contains the \a fill
character followed by the string.
If \a truncate is FALSE and the length of the string is more than
\a width, then the returned string is a copy of the string.
If \a truncate is TRUE and the length of the string is more than
\a width, then the resulting string is truncated at position \a
width.
\code
TQString string( "apple" );
TQString t = string.rightJustify( 8, '.' ); // t == "...apple"
\endcode
\sa leftJustify()
*/
TQString TQString::rightJustify( uint width, TQChar fill, bool truncate ) const
{
TQString result;
int len = length();
int padlen = width - len;
if ( padlen > 0 ) {
result.setLength( len+padlen );
TQChar* uc = result.d->unicode;
while (padlen--)
*uc++ = fill;
if ( len )
memcpy( uc, unicode(), sizeof(TQChar)*len );
} else {
if ( truncate )
result = left( width );
else
result = *this;
}
return result;
}
/*!
Returns a lowercase copy of the string.
\code
TQString string( "TROlltECH" );
str = string.lower(); // str == "trolltech"
\endcode
\sa upper()
*/
TQString TQString::lower() const
{
int l = length();
TQChar *p = d->unicode;
while ( l ) {
if ( *p != ::lower(*p) ) {
TQString s( *this );
s.real_detach();
p = s.d->unicode + ( p - d->unicode );
while ( l ) {
*p = ::lower( *p );
l--;
p++;
}
return s;
}
l--;
p++;
}
return *this;
}
/*!
Returns an uppercase copy of the string.
\code
TQString string( "TeXt" );
str = string.upper(); // t == "TEXT"
\endcode
\sa lower()
*/
TQString TQString::upper() const
{
int l = length();
TQChar *p = d->unicode;
while ( l ) {
if ( *p != ::upper(*p) ) {
TQString s( *this );
s.real_detach();
p = s.d->unicode + ( p - d->unicode );
while ( l ) {
*p = ::upper( *p );
l--;
p++;
}
return s;
}
l--;
p++;
}
return *this;
}
/*!
Returns a string that has whitespace removed from the start and
the end.
Whitespace means any character for which TQChar::isSpace() returns
TRUE. This includes Unicode characters with decimal values 9
(TAB), 10 (LF), 11 (VT), 12 (FF), 13 (CR) and 32 (Space), and may
also include other Unicode characters.
\code
TQString string = " white space ";
TQString s = string.stripWhiteSpace(); // s == "white space"
\endcode
\sa simplifyWhiteSpace()
*/
TQString TQString::stripWhiteSpace() const
{
if ( isEmpty() ) // nothing to do
return *this;
const TQChar *s = unicode();
if ( !s->isSpace() && !s[length()-1].isSpace() )
return *this;
int start = 0;
int end = length() - 1;
while ( start<=end && s[start].isSpace() ) // skip white space from start
start++;
if ( start <= end ) { // only white space
while ( end && s[end].isSpace() ) // skip white space from end
end--;
}
int l = end - start + 1;
if ( l <= 0 )
return TQString::fromLatin1("");
TQString result( l, TRUE );
memcpy( result.d->unicode, &s[start], sizeof(TQChar)*l );
result.d->len = l;
return result;
}
/*!
Returns a string that has whitespace removed from the start and
the end, and which has each sequence of internal whitespace
replaced with a single space.
Whitespace means any character for which TQChar::isSpace() returns
TRUE. This includes Unicode characters with decimal values 9
(TAB), 10 (LF), 11 (VT), 12 (FF), 13 (CR), and 32 (Space).
\code
TQString string = " lots\t of\nwhite space ";
TQString t = string.simplifyWhiteSpace();
// t == "lots of white space"
\endcode
\sa stripWhiteSpace()
*/
TQString TQString::simplifyWhiteSpace() const
{
if ( isEmpty() )
return *this;
TQString result;
result.setLength( length() );
const TQChar *from = unicode();
const TQChar *fromend = from+length();
int outc=0;
TQChar *to = result.d->unicode;
for (;;) {
while ( from!=fromend && from->isSpace() )
from++;
while ( from!=fromend && !from->isSpace() )
to[outc++] = *from++;
if ( from!=fromend )
to[outc++] = ' ';
else
break;
}
if ( outc > 0 && to[outc-1] == ' ' )
outc--;
result.truncate( outc );
return result;
}
/*!
Inserts \a s into the string at position \a index.
If \a index is beyond the end of the string, the string is
extended with spaces to length \a index and \a s is then appended
and returns a reference to the string.
\code
TQString string( "I like fish" );
str = string.insert( 2, "don't " );
// str == "I don't like fish"
\endcode
\sa remove(), replace()
*/
TQString &TQString::insert( uint index, const TQString &s )
{
// the sub function takes care of &s == this case.
return insert( index, s.unicode(), s.length() );
}
/*! \fn TQString &TQString::insert( uint index, const TQByteArray &s )
\overload
Inserts \a s into the string at position \a index and returns
a reference to the string.
*/
/*! \fn TQString &TQString::insert( uint index, const char *s )
\overload
Inserts \a s into the string at position \a index and returns
a reference to the string.
*/
#ifndef TQT_NO_CAST_ASCII
TQString &TQString::insertHelper( uint index, const char *s, uint len )
{
if ( s ) {
#ifndef TQT_NO_TEXTCODEC
if ( TQTextCodec::codecForCStrings() )
return insert( index, fromAscii( s, len ) );
#endif
if ( len == UINT_MAX )
len = int(strlen( s ));
if ( len == 0 )
return *this;
uint olen = length();
int nlen = olen + len;
if ( index >= olen ) { // insert after end of string
grow( len + index );
int n = index - olen;
TQChar* uc = d->unicode + olen;
while ( n-- )
*uc++ = ' ';
uc = d->unicode + index;
while ( len-- )
*uc++ = *s++;
} else { // normal insert
grow( nlen );
memmove( d->unicode + index + len, unicode() + index,
sizeof(TQChar) * (olen - index) );
TQChar* uc = d->unicode + index;
while ( len-- )
*uc++ = *s++;
}
}
return *this;
}
#endif
/*!
\overload
Inserts the first \a len characters in \a s into the string at
position \a index and returns a reference to the string.
*/
TQString &TQString::insert( uint index, const TQChar* s, uint len )
{
if ( len == 0 )
return *this;
uint olen = length();
int nlen = olen + len;
if ( s >= d->unicode && (uint)(s - d->unicode) < d->maxl ) {
// Part of me - take a copy.
TQChar *tmp = QT_ALLOC_QCHAR_VEC( len );
memcpy(tmp,s,len*sizeof(TQChar));
insert(index,tmp,len);
QT_DELETE_QCHAR_VEC( tmp );
return *this;
}
if ( index >= olen ) { // insert after end of string
grow( len + index );
int n = index - olen;
TQChar* uc = d->unicode+olen;
while (n--)
*uc++ = ' ';
memcpy( d->unicode+index, s, sizeof(TQChar)*len );
} else { // normal insert
grow( nlen );
memmove( d->unicode + index + len, unicode() + index,
sizeof(TQChar) * (olen - index) );
memcpy( d->unicode + index, s, sizeof(TQChar) * len );
}
return *this;
}
/*!
\overload
Insert \a c into the string at position \a index and returns a
reference to the string.
If \a index is beyond the end of the string, the string is
extended with spaces (ASCII 32) to length \a index and \a c is
then appended.
*/
TQString &TQString::insert( uint index, TQChar c ) // insert char
{
TQString s( c );
return insert( index, s );
}
/*!
\fn TQString& TQString::insert( uint index, char c )
\overload
Insert character \a c at position \a index.
*/
/*!
\fn TQString &TQString::prepend( const TQString &s )
Inserts \a s at the beginning of the string and returns a
reference to the string.
Equivalent to insert(0, \a s).
\code
TQString string = "42";
string.prepend( "The answer is " );
// string == "The answer is 42"
\endcode
\sa insert()
*/
/*!
\fn TQString& TQString::prepend( char ch )
\overload
Inserts \a ch at the beginning of the string and returns a
reference to the string.
Equivalent to insert(0, \a ch).
\sa insert()
*/
/*!
\fn TQString& TQString::prepend( TQChar ch )
\overload
Inserts \a ch at the beginning of the string and returns a
reference to the string.
Equivalent to insert(0, \a ch).
\sa insert()
*/
/*! \fn TQString& TQString::prepend( const TQByteArray &s )
\overload
Inserts \a s at the beginning of the string and returns a reference to the string.
Equivalent to insert(0, \a s).
\sa insert()
*/
/*! \fn TQString& TQString::prepend( const std::string &s )
\overload
Inserts \a s at the beginning of the string and returns a reference to the string.
Equivalent to insert(0, \a s).
\sa insert()
*/
/*!
\overload
Inserts \a s at the beginning of the string and returns a reference to the string.
Equivalent to insert(0, \a s).
\sa insert()
*/
TQString &TQString::prepend( const char *s )
{
return insert( 0, TQString(s) );
}
/*!
Removes \a len characters from the string starting at position \a
index, and returns a reference to the string.
If \a index is beyond the length of the string, nothing happens.
If \a index is within the string, but \a index + \a len is beyond
the end of the string, the string is truncated at position \a
index.
\code
TQString string( "Montreal" );
string.remove( 1, 4 ); // string == "Meal"
\endcode
\sa insert(), replace()
*/
TQString &TQString::remove( uint index, uint len )
{
uint olen = length();
if ( index >= olen ) {
// range problems
} else if ( index + len >= olen ) { // index ok
setLength( index );
} else if ( len != 0 ) {
real_detach();
memmove( d->unicode+index, d->unicode+index+len,
sizeof(TQChar)*(olen-index-len) );
setLength( olen-len );
}
return *this;
}
/*! \overload
Removes every occurrence of the character \a c in the string.
Returns a reference to the string.
This is the same as replace(\a c, "").
*/
TQString &TQString::remove( TQChar c )
{
int i = 0;
while ( i < (int) length() ) {
if ( constref(i) == c ) {
remove( i, 1 );
} else {
i++;
}
}
return *this;
}
/*! \overload
\fn TQString &TQString::remove( char c )
Removes every occurrence of the character \a c in the string.
Returns a reference to the string.
This is the same as replace(\a c, "").
*/
/*! \overload
Removes every occurrence of \a str in the string. Returns a
reference to the string.
If \a cs is TRUE (the default), the search is case sensitive;
otherwise the search is case insensitive.
This is the same as replace(\a str, "", \a cs).
*/
TQString &TQString::remove( const TQString & str, bool cs )
{
if ( str.isEmpty() ) {
if ( isNull() )
real_detach();
} else {
int index = 0;
while ( (index = find(str, index, cs)) != -1 )
remove( index, str.length() );
}
return *this;
}
TQString &TQString::remove( const TQString & str )
{
return remove( str, TRUE );
}
/*! \overload
Replaces every occurrence of \a c1 with the char \a c2. Returns a
reference to the string.
*/
TQString &TQString::replace( TQChar c1, TQChar c2 )
{
if ( isEmpty() )
return *this;
real_detach();
uint i = 0;
while ( i < d->len ) {
if ( d->unicode[i] == c1 )
d->unicode[i] = c2;
i++;
}
return *this;
}
#ifndef TQT_NO_REGEXP_CAPTURE
/*! \overload
Removes every occurrence of the regular expression \a rx in the
string. Returns a reference to the string.
This is the same as replace(\a rx, "").
*/
TQString &TQString::remove( const TQRegExp & rx )
{
return replace( rx, TQString::null );
}
#endif
/*!
\overload
Removes every occurrence of \a str in the string. Returns a
reference to the string.
*/
TQString &TQString::remove( const char *str )
{
return remove( TQString::fromAscii(str), TRUE );
}
/*!
Replaces \a len characters from the string with \a s, starting at
position \a index, and returns a reference to the string.
If \a index is beyond the length of the string, nothing is deleted
and \a s is appended at the end of the string. If \a index is
valid, but \a index + \a len is beyond the end of the string,
the string is truncated at position \a index, then \a s is
appended at the end.
\code
TQString string( "Say yes!" );
string = string.replace( 4, 3, "NO" );
// string == "Say NO!"
\endcode
\warning TQt 3.3.3 and earlier had different semantics for the
case \a index >= length(), which contradicted the documentation.
To avoid portability problems between TQt 3 versions and with TQt
4, we recommend that you never call the function with \a index >=
length().
\sa insert(), remove()
*/
TQString &TQString::replace( uint index, uint len, const TQString &s )
{
return replace( index, len, s.unicode(), s.length() );
}
/*! \overload
This is the same as replace(\a index, \a len, TQString(\a c)).
*/
TQString &TQString::replace( uint index, uint len, TQChar c )
{
return replace( index, len, &c, 1 );
}
/*! \overload
\fn TQString &TQString::replace( uint index, uint len, char c )
This is the same as replace(\a index, \a len, TQChar(\a c)).
*/
/*!
\overload
Replaces \a len characters with \a slen characters of TQChar data
from \a s, starting at position \a index, and returns a reference
to the string.
\sa insert(), remove()
*/
TQString &TQString::replace( uint index, uint len, const TQChar* s, uint slen )
{
if (index > length())
index = length();
real_detach();
if ( len == slen && index + len <= length() ) {
// Optimized common case: replace without size change
memcpy( d->unicode+index, s, len * sizeof(TQChar) );
} else if ( s >= d->unicode && (uint)(s - d->unicode) < d->maxl ) {
// Part of me - take a copy.
TQChar *tmp = QT_ALLOC_QCHAR_VEC( slen );
memcpy( tmp, s, slen * sizeof(TQChar) );
replace( index, len, tmp, slen );
QT_DELETE_QCHAR_VEC( tmp );
} else {
remove( index, len );
insert( index, s, slen );
}
return *this;
}
/*! \overload
Replaces every occurrence of the character \a c in the string
with \a after. Returns a reference to the string.
If \a cs is TRUE (the default), the search is case sensitive;
otherwise the search is case insensitive.
Example:
\code
TQString s = "a,b,c";
s.replace( TQChar(','), " or " );
// s == "a or b or c"
\endcode
*/
TQString &TQString::replace( TQChar c, const TQString & after, bool cs )
{
return replace( TQString( c ), after, cs );
}
TQString &TQString::replace( TQChar c, const TQString & after )
{
return replace( TQString( c ), after, TRUE );
}
/*! \overload
\fn TQString &TQString::replace( char c, const TQString & after, bool cs )
Replaces every occurrence of the character \a c in the string
with \a after. Returns a reference to the string.
If \a cs is TRUE (the default), the search is case sensitive;
otherwise the search is case insensitive.
*/
/*! \overload
Replaces every occurrence of the string \a before in the string
with the string \a after. Returns a reference to the string.
If \a cs is TRUE (the default), the search is case sensitive;
otherwise the search is case insensitive.
Example:
\code
TQString s = "Greek is Greek";
s.replace( "Greek", "English" );
// s == "English is English"
\endcode
*/
TQString &TQString::replace( const TQString & before, const TQString & after,
bool cs )
{
if ( isEmpty() ) {
if ( !before.isEmpty() )
return *this;
} else {
if ( cs && before == after )
return *this;
}
real_detach();
int index = 0;
uint skiptable[256];
bm_init_skiptable( before, skiptable, cs );
const int bl = before.length();
const int al = after.length();
if ( bl == al ) {
if ( bl ) {
const TQChar *auc = after.unicode();
while ( (index = bm_find(*this, index, before, skiptable, cs) ) != -1 ) {
memcpy( d->unicode + index, auc, al * sizeof(TQChar) );
index += bl;
}
}
} else if ( al < bl ) {
const TQChar *auc = after.unicode();
uint to = 0;
uint movestart = 0;
uint num = 0;
while ( (index = bm_find(*this, index, before, skiptable, cs)) != -1 ) {
if ( num ) {
int msize = index - movestart;
if ( msize > 0 ) {
memmove( d->unicode + to, d->unicode + movestart, msize*sizeof(TQChar) );
to += msize;
}
} else {
to = index;
}
if ( al ) {
memcpy( d->unicode+to, auc, al*sizeof(TQChar) );
to += al;
}
index += bl;
movestart = index;
num++;
}
if ( num ) {
int msize = d->len - movestart;
if ( msize > 0 )
memmove( d->unicode + to, d->unicode + movestart, msize*sizeof(TQChar) );
setLength( d->len - num*(bl-al) );
}
} else {
// the most complex case. We don't want to loose performance by doing repeated
// copies and reallocs of the string.
while ( index != -1 ) {
uint indices[4096];
uint pos = 0;
while ( pos < 4095 ) {
index = bm_find( *this, index, before, skiptable, cs );
if ( index == -1 )
break;
indices[pos++] = index;
index += bl;
// avoid infinite loop
if ( !bl )
index++;
}
if ( !pos )
break;
// we have a table of replacement positions, use them for fast replacing
int adjust = pos*(al-bl);
// index has to be adjusted in case we get back into the loop above.
if ( index != -1 )
index += adjust;
uint newlen = d->len + adjust;
int moveend = d->len;
if ( newlen > d->len )
setLength( newlen );
while ( pos ) {
pos--;
int movestart = indices[pos] + bl;
int insertstart = indices[pos] + pos*(al-bl);
int moveto = insertstart + al;
memmove( d->unicode + moveto, d->unicode + movestart, (moveend - movestart)*sizeof(TQChar) );
memcpy( d->unicode + insertstart, after.unicode(), al*sizeof(TQChar) );
moveend = movestart-bl;
}
}
}
return *this;
}
TQString &TQString::replace( const TQString & before, const TQString & after )
{
return replace( before, after, TRUE );
}
#ifndef TQT_NO_REGEXP_CAPTURE
/*! \overload
Replaces every occurrence of the regexp \a rx in the string with
\a after. Returns a reference to the string. For example:
\code
TQString s = "banana";
s.replace( TQRegExp("an"), "" );
// s == "ba"
\endcode
For regexps containing \link tqregexp.html#capturing-text capturing
parentheses \endlink, occurrences of <b>\\1</b>, <b>\\2</b>, ...,
in \a after are replaced with \a{rx}.cap(1), cap(2), ...
\code
TQString t = "A <i>bon mot</i>.";
t.replace( TQRegExp("<i>([^<]*)</i>"), "\\emph{\\1}" );
// t == "A \\emph{bon mot}."
\endcode
\sa find(), findRev(), TQRegExp::cap()
*/
TQString &TQString::replace( const TQRegExp &rx, const TQString &after )
{
TQRegExp rx2 = rx;
if ( isEmpty() && rx2.search(*this) == -1 )
return *this;
real_detach();
int index = 0;
int numCaptures = rx2.numCaptures();
int al = after.length();
TQRegExp::CaretMode caretMode = TQRegExp::CaretAtZero;
if ( numCaptures > 0 ) {
if ( numCaptures > 9 )
numCaptures = 9;
const TQChar *uc = after.unicode();
int numBackRefs = 0;
for ( int i = 0; i < al - 1; i++ ) {
if ( uc[i] == '\\' ) {
int no = uc[i + 1].digitValue();
if ( no > 0 && no <= numCaptures )
numBackRefs++;
}
}
/*
This is the harder case where we have back-references.
We don't try to optimize it.
*/
if ( numBackRefs > 0 ) {
int *capturePositions = new int[numBackRefs];
int *captureNumbers = new int[numBackRefs];
int j = 0;
for ( int i = 0; i < al - 1; i++ ) {
if ( uc[i] == '\\' ) {
int no = uc[i + 1].digitValue();
if ( no > 0 && no <= numCaptures ) {
capturePositions[j] = i;
captureNumbers[j] = no;
j++;
}
}
}
while ( index <= (int)length() ) {
index = rx2.search( *this, index, caretMode );
if ( index == -1 )
break;
TQString after2 = after;
for ( j = numBackRefs - 1; j >= 0; j-- )
after2.replace( capturePositions[j], 2,
rx2.cap(captureNumbers[j]) );
replace( index, rx2.matchedLength(), after2 );
index += after2.length();
if ( rx2.matchedLength() == 0 ) {
// avoid infinite loop on 0-length matches (e.g., [a-z]*)
index++;
}
caretMode = TQRegExp::CaretWontMatch;
}
delete[] capturePositions;
delete[] captureNumbers;
return *this;
}
}
/*
This is the simple and optimized case where we don't have
back-references.
*/
while ( index != -1 ) {
struct {
int pos;
int length;
} replacements[2048];
uint pos = 0;
int adjust = 0;
while ( pos < 2047 ) {
index = rx2.search( *this, index, caretMode );
if ( index == -1 )
break;
int ml = rx2.matchedLength();
replacements[pos].pos = index;
replacements[pos++].length = ml;
index += ml;
adjust += al - ml;
// avoid infinite loop
if ( !ml )
index++;
}
if ( !pos )
break;
replacements[pos].pos = d->len;
uint newlen = d->len + adjust;
// to continue searching at the right position after we did
// the first round of replacements
if ( index != -1 )
index += adjust;
TQChar *newuc = QT_ALLOC_QCHAR_VEC( newlen + 1 );
TQChar *uc = newuc;
int copystart = 0;
uint i = 0;
while ( i < pos ) {
int copyend = replacements[i].pos;
int size = copyend - copystart;
memcpy( uc, d->unicode + copystart, size * sizeof(TQChar) );
uc += size;
memcpy( uc, after.unicode(), al * sizeof(TQChar) );
uc += al;
copystart = copyend + replacements[i].length;
i++;
}
memcpy( uc, d->unicode + copystart,
(d->len - copystart) * sizeof(TQChar) );
QT_DELETE_QCHAR_VEC( d->unicode );
d->unicode = newuc;
d->len = newlen;
d->maxl = newlen + 1;
d->setDirty();
caretMode = TQRegExp::CaretWontMatch;
}
return *this;
}
#endif
#ifndef TQT_NO_REGEXP
/*!
Finds the first match of the regular expression \a rx, starting
from position \a index. If \a index is -1, the search starts at
the last character; if -2, at the next to last character and so
on. (See findRev() for searching backwards.)
Returns the position of the first match of \a rx or -1 if no match
was found.
\code
TQString string( "bananas" );
int i = string.find( TQRegExp("an"), 0 ); // i == 1
\endcode
\sa findRev() replace() contains()
*/
int TQString::find( const TQRegExp &rx, int index ) const
{
return rx.search( *this, index );
}
/*!
\overload
Finds the first match of the regexp \a rx, starting at position \a
index and searching backwards. If the index is -1, the search
starts at the last character, if it is -2, at the next to last
character and so on. (See findRev() for searching backwards.)
Returns the position of the match or -1 if no match was found.
\code
TQString string( "bananas" );
int i = string.findRev( TQRegExp("an") ); // i == 3
\endcode
\sa find()
*/
int TQString::findRev( const TQRegExp &rx, int index ) const
{
return rx.searchRev( *this, index );
}
/*!
\overload
Returns the number of times the regexp, \a rx, matches in the
string.
This function counts overlapping matches, so in the example below,
there are four instances of "ana" or "ama".
\code
TQString str = "banana and panama";
TQRegExp rxp = TQRegExp( "a[nm]a", TRUE, FALSE );
int i = str.contains( rxp ); // i == 4
\endcode
\sa find() findRev()
*/
int TQString::contains( const TQRegExp &rx ) const
{
int count = 0;
int index = -1;
int len = length();
while ( index < len - 1 ) { // count overlapping matches
index = rx.search( *this, index + 1 );
if ( index == -1 )
break;
count++;
}
return count;
}
#endif //TQT_NO_REGEXP
/*!
Returns the string converted to a \c long using base \a
base, which is 10 by default and must be between 2 and 36 or 0. If
\a base is 0, the base is determined automatically using the
following rules:
<ul>
<li>If the string begins with "0x", it is assumed to
be hexadecimal;
<li>If it begins with "0", it is assumed to be octal;
<li>Otherwise it is assumed to be decimal.
</ul>
Returns 0 if the conversion fails.
If \a ok is not 0: if a conversion error occurs, \a *ok is set to
FALSE; otherwise \a *ok is set to TRUE.
Leading and trailing whitespace is ignored by this function.
For information on how string-to-number functions in TQString handle
localized input, see toDouble().
\sa number()
*/
long TQString::toLong( bool *ok, int base ) const
{
TQ_LLONG v = toLongLong( ok, base );
if ( v < LONG_MIN || v > LONG_MAX ) {
if ( ok )
*ok = FALSE;
v = 0;
}
return long(v);
}
/*!
Returns the string converted to a \c {long long} using base \a
base, which is 10 by default and must be between 2 and 36 or 0. If
\a base is 0, the base is determined automatically using the
following rules:
<ul>
<li>If the string begins with "0x", it is assumed to
be hexadecimal;
<li>If it begins with "0", it is assumed to be octal;
<li>Otherwise it is assumed to be decimal.
</ul>
Returns 0 if the conversion fails.
If \a ok is not 0: if a conversion error occurs, \a *ok is set to
FALSE; otherwise \a *ok is set to TRUE.
Leading and trailing whitespace is ignored by this function.
For information on how string-to-number functions in TQString handle
localized input, see toDouble().
\sa number()
*/
TQ_LLONG TQString::toLongLong( bool *ok, int base ) const
{
#if defined(QT_CHECK_RANGE)
if ( base != 0 && (base < 2 || base > 36) ) {
tqWarning( "TQString::toLongLong: Invalid base (%d)", base );
base = 10;
}
#endif
bool my_ok;
TQLocale def_locale;
TQ_LLONG result = def_locale.d->stringToLongLong(*this, base, &my_ok, TQLocalePrivate::FailOnGroupSeparators);
if (my_ok) {
if (ok != 0)
*ok = TRUE;
return result;
}
// If the default was not "C", try the "C" locale
if (def_locale.language() == TQLocale::C) {
if (ok != 0)
*ok = FALSE;
return 0;
}
TQLocale c_locale(TQLocale::C);
return c_locale.d->stringToLongLong(*this, base, ok, TQLocalePrivate::FailOnGroupSeparators);
}
/*!
Returns the string converted to an \c {unsigned long} using base \a
base, which is 10 by default and must be between 2 and 36 or 0. If
\a base is 0, the base is determined automatically using the
following rules:
<ul>
<li>If the string begins with "0x", it is assumed to
be hexadecimal;
<li>If it begins with "0", it is assumed to be octal;
<li>Otherwise it is assumed to be decimal.
</ul>
Returns 0 if the conversion fails.
If \a ok is not 0: if a conversion error occurs, \a *ok is set to
FALSE; otherwise \a *ok is set to TRUE.
Leading and trailing whitespace is ignored by this function.
For information on how string-to-number functions in TQString handle
localized input, see toDouble().
\sa number()
*/
ulong TQString::toULong( bool *ok, int base ) const
{
TQ_ULLONG v = toULongLong( ok, base );
if ( v > ULONG_MAX ) {
if ( ok )
*ok = FALSE;
v = 0;
}
return ulong(v);
}
/*!
Returns the string converted to an \c {unsigned long long} using base \a
base, which is 10 by default and must be between 2 and 36 or 0. If
\a base is 0, the base is determined automatically using the
following rules:
<ul>
<li>If the string begins with "0x", it is assumed to
be hexadecimal;
<li>If it begins with "0", it is assumed to be octal;
<li>Otherwise it is assumed to be decimal.
</ul>
Returns 0 if the conversion fails.
If \a ok is not 0: if a conversion error occurs, \a *ok is set to
FALSE; otherwise \a *ok is set to TRUE.
Leading and trailing whitespace is ignored by this function.
For information on how string-to-number functions in TQString handle
localized input, see toDouble().
\sa number()
*/
TQ_ULLONG TQString::toULongLong( bool *ok, int base ) const
{
#if defined(QT_CHECK_RANGE)
if ( base != 0 && (base < 2 || base > 36) ) {
tqWarning( "TQString::toULongLong: Invalid base %d", base );
base = 10;
}
#endif
bool my_ok;
TQLocale def_locale;
TQ_ULLONG result = def_locale.d->stringToUnsLongLong(*this, base, &my_ok, TQLocalePrivate::FailOnGroupSeparators);
if (my_ok) {
if (ok != 0)
*ok = TRUE;
return result;
}
// If the default was not "C", try the "C" locale
if (def_locale.language() == TQLocale::C) {
if (ok != 0)
*ok = FALSE;
return 0;
}
TQLocale c_locale(TQLocale::C);
return c_locale.d->stringToUnsLongLong(*this, base, ok, TQLocalePrivate::FailOnGroupSeparators);
}
/*!
Returns the string converted to a \c short using base \a
base, which is 10 by default and must be between 2 and 36 or 0. If
\a base is 0, the base is determined automatically using the
following rules:
<ul>
<li>If the string begins with "0x", it is assumed to
be hexadecimal;
<li>If it begins with "0", it is assumed to be octal;
<li>Otherwise it is assumed to be decimal.
</ul>
Returns 0 if the conversion fails.
If \a ok is not 0: if a conversion error occurs, \a *ok is set to
FALSE; otherwise \a *ok is set to TRUE.
Leading and trailing whitespace is ignored by this function.
For information on how string-to-number functions in TQString handle
localized input, see toDouble().
\sa number()
*/
short TQString::toShort( bool *ok, int base ) const
{
TQ_LLONG v = toLongLong( ok, base );
if ( v < SHRT_MIN || v > SHRT_MAX ) {
if ( ok )
*ok = FALSE;
v = 0;
}
return (short)v;
}
/*!
Returns the string converted to an \c {unsigned short} using base \a
base, which is 10 by default and must be between 2 and 36 or 0. If
\a base is 0, the base is determined automatically using the
following rules:
<ul>
<li>If the string begins with "0x", it is assumed to
be hexadecimal;
<li>If it begins with "0", it is assumed to be octal;
<li>Otherwise it is assumed to be decimal.
</ul>
Returns 0 if the conversion fails.
If \a ok is not 0: if a conversion error occurs, \a *ok is set to
FALSE; otherwise \a *ok is set to TRUE.
Leading and trailing whitespace is ignored by this function.
For information on how string-to-number functions in TQString handle
localized input, see toDouble().
\sa number()
*/
ushort TQString::toUShort( bool *ok, int base ) const
{
TQ_ULLONG v = toULongLong( ok, base );
if ( v > USHRT_MAX ) {
if ( ok )
*ok = FALSE;
v = 0;
}
return (ushort)v;
}
/*!
Returns the string converted to an \c int using base \a
base, which is 10 by default and must be between 2 and 36 or 0. If
\a base is 0, the base is determined automatically using the
following rules:
<ul>
<li>If the string begins with "0x", it is assumed to
be hexadecimal;
<li>If it begins with "0", it is assumed to be octal;
<li>Otherwise it is assumed to be decimal.
</ul>
Returns 0 if the conversion fails.
If \a ok is not 0: if a conversion error occurs, \a *ok is set to
FALSE; otherwise \a *ok is set to TRUE.
\code
TQString str( "FF" );
bool ok;
int hex = str.toInt( &ok, 16 ); // hex == 255, ok == TRUE
int dec = str.toInt( &ok, 10 ); // dec == 0, ok == FALSE
\endcode
Leading and trailing whitespace is ignored by this function.
For information on how string-to-number functions in TQString handle
localized input, see toDouble().
\sa number()
*/
int TQString::toInt( bool *ok, int base ) const
{
TQ_LLONG v = toLongLong( ok, base );
if ( v < INT_MIN || v > INT_MAX ) {
if ( ok )
*ok = FALSE;
v = 0;
}
return (int)v;
}
/*!
Returns the string converted to an \c {unsigned int} using base \a
base, which is 10 by default and must be between 2 and 36 or 0. If
\a base is 0, the base is determined automatically using the
following rules:
<ul>
<li>If the string begins with "0x", it is assumed to
be hexadecimal;
<li>If it begins with "0", it is assumed to be octal;
<li>Otherwise it is assumed to be decimal.
</ul>
Returns 0 if the conversion fails.
If \a ok is not 0: if a conversion error occurs, \a *ok is set to
FALSE; otherwise \a *ok is set to TRUE.
Leading and trailing whitespace is ignored by this function.
For information on how string-to-number functions in TQString handle
localized input, see toDouble().
\sa number()
*/
uint TQString::toUInt( bool *ok, int base ) const
{
TQ_ULLONG v = toULongLong( ok, base );
if ( v > UINT_MAX ) {
if ( ok )
*ok = FALSE;
v = 0;
}
return (uint)v;
}
/*!
Returns the string converted to a \c double value.
If \a ok is not 0: if a conversion error occurs, \a *ok is set to
FALSE; otherwise \a *ok is set to TRUE.
\code
TQString string( "1234.56" );
double a = string.toDouble(); // a == 1234.56
\endcode
The string-to-number functions:
\list
\i toShort()
\i toUShort()
\i toInt()
\i toUInt()
\i toLong()
\i toULong()
\i toLongLong()
\i toULongLong()
\i toFloat()
\i toDouble()
\endlist
can handle numbers
represented in various locales. These representations may use different
characters for the decimal point, thousands group sepearator
and even individual digits. TQString's functions try to interpret
the string according to the current locale. The current locale is
determined from the system at application startup and can be changed
by calling TQLocale::setDefault(). If the string cannot be interpreted
according to the current locale, this function falls back
on the "C" locale.
\code
bool ok;
double d;
TQLocale::setDefault(TQLocale::C);
d = TQString( "1234,56" ).toDouble(&ok); // ok == false
d = TQString( "1234.56" ).toDouble(&ok); // ok == true, d == 1234.56
TQLocale::setDefault(TQLocale::German);
d = TQString( "1234,56" ).toDouble(&ok); // ok == true, d == 1234.56
d = TQString( "1234.56" ).toDouble(&ok); // ok == true, d == 1234.56
\endcode
Due to the ambiguity between the decimal point and thousands group
separator in various locales, these functions do not handle
thousands group separators. If you need to convert such numbers,
use the corresponding function in TQLocale.
\code
bool ok;
TQLocale::setDefault(TQLocale::C);
double d = TQString( "1,234,567.89" ).toDouble(&ok); // ok == false
\endcode
\warning If the string contains trailing whitespace this function
will fail, and set \a *ok to false if \a ok is not 0. Leading
whitespace is ignored.
\sa number() TQLocale::setDefault() TQLocale::toDouble() stripWhiteSpace()
*/
double TQString::toDouble( bool *ok ) const
{
// If there is trailing whitespace, set ok to false but return the correct
// result anyway to preserve behavour of pervious versions of TQt
if (length() > 0 && unicode()[length() - 1].isSpace()) {
TQString tmp = stripWhiteSpace();
if (ok != 0)
*ok = FALSE;
return tmp.toDouble();
}
// Try the default locale
bool my_ok;
TQLocale def_locale;
double result = def_locale.d->stringToDouble(*this, &my_ok, TQLocalePrivate::FailOnGroupSeparators);
if (my_ok) {
if (ok != 0)
*ok = TRUE;
return result;
}
// If the default was not "C", try the "C" locale
if (def_locale.language() == TQLocale::C) {
if (ok != 0)
*ok = FALSE;
return 0.0;
}
TQLocale c_locale(TQLocale::C);
return c_locale.d->stringToDouble(*this, ok, TQLocalePrivate::FailOnGroupSeparators);
}
/*!
Returns the string converted to a \c float value.
Returns 0.0 if the conversion fails.
If \a ok is not 0: if a conversion error occurs, \a *ok is set to
FALSE; otherwise \a *ok is set to TRUE.
For information on how string-to-number functions in TQString handle
localized input, see toDouble().
\warning If the string contains trailing whitespace this function
will fail, settings \a *ok to false if \a ok is not 0.
Leading whitespace is ignored.
\sa number()
*/
#define QT_MAX_FLOAT 3.4028234663852886e+38
float TQString::toFloat( bool *ok ) const
{
bool myOk;
double d = toDouble(&myOk);
if (!myOk || d > QT_MAX_FLOAT || d < -QT_MAX_FLOAT) {
if (ok != 0)
*ok = FALSE;
return 0.0;
}
if (ok != 0)
*ok = TRUE;
return (float) d;
}
/*!
Sets the string to the printed value of \a n in base \a base and
returns a reference to the string. The returned string is in "C" locale.
The base is 10 by default and must be between 2 and 36.
\code
TQString string;
string = string.setNum( 1234 ); // string == "1234"
\endcode
*/
TQString &TQString::setNum( TQ_LLONG n, int base )
{
#if defined(QT_CHECK_RANGE)
if ( base < 2 || base > 36 ) {
tqWarning( "TQString::setNum: Invalid base %d", base );
base = 10;
}
#endif
TQLocale locale(TQLocale::C);
*this = locale.d->longLongToString(n, -1, base);
return *this;
}
/*!
\overload
Sets the string to the printed value of \a n in base \a base and
returns a reference to the string.
The base is 10 by default and must be between 2 and 36.
*/
TQString &TQString::setNum( TQ_ULLONG n, int base )
{
#if defined(QT_CHECK_RANGE)
if ( base < 2 || base > 36 ) {
tqWarning( "TQString::setNum: Invalid base %d", base );
base = 10;
}
#endif
TQLocale locale(TQLocale::C);
*this = locale.d->unsLongLongToString(n, -1, base);
return *this;
}
/*!
\fn TQString &TQString::setNum( long n, int base )
\overload
*/
// ### 4.0: inline
TQString &TQString::setNum( long n, int base )
{
return setNum( (TQ_LLONG)n, base );
}
/*!
\fn TQString &TQString::setNum( ulong n, int base )
\overload
*/
// ### 4.0: inline
TQString &TQString::setNum( ulong n, int base )
{
return setNum( (TQ_ULLONG)n, base );
}
/*!
\fn TQString &TQString::setNum( int n, int base )
\overload
Sets the string to the printed value of \a n in base \a base and
returns a reference to the string.
The base is 10 by default and must be between 2 and 36.
*/
/*!
\fn TQString &TQString::setNum( uint n, int base )
\overload
Sets the string to the printed value of \a n in base \a base and
returns a reference to the string.
The base is 10 by default and must be between 2 and 36.
*/
/*!
\fn TQString &TQString::setNum( short n, int base )
\overload
Sets the string to the printed value of \a n in base \a base and
returns a reference to the string.
The base is 10 by default and must be between 2 and 36.
*/
/*!
\fn TQString &TQString::setNum( ushort n, int base )
\overload
Sets the string to the printed value of \a n in base \a base and
returns a reference to the string.
The base is 10 by default and must be between 2 and 36.
*/
/*!
\overload
Sets the string to the printed value of \a n, formatted in format
\a f with precision \a prec, and returns a reference to the
string.
The format \a f can be 'f', 'F', 'e', 'E', 'g' or 'G'. See \link
#arg-formats arg \endlink() for an explanation of the formats.
*/
TQString &TQString::setNum( double n, char f, int prec )
{
TQLocalePrivate::DoubleForm form = TQLocalePrivate::DFDecimal;
uint flags = 0;
if (qIsUpper(f))
flags = TQLocalePrivate::CapitalEorX;
f = qToLower(f);
switch (f) {
case 'f':
form = TQLocalePrivate::DFDecimal;
break;
case 'e':
form = TQLocalePrivate::DFExponent;
break;
case 'g':
form = TQLocalePrivate::DFSignificantDigits;
break;
default:
#if defined(QT_CHECK_RANGE)
tqWarning( "TQString::setNum: Invalid format char '%c'", f );
#endif
break;
}
TQLocale locale(TQLocale::C);
*this = locale.d->doubleToString(n, prec, form, -1, flags);
return *this;
}
/*!
\fn TQString &TQString::setNum( float n, char f, int prec )
\overload
Sets the string to the printed value of \a n, formatted in format
\a f with precision \a prec, and returns a reference to the
string.
The format \a f can be 'f', 'F', 'e', 'E', 'g' or 'G'. See \link
#arg-formats arg \endlink() for an explanation of the formats.
*/
/*!
A convenience function that returns a string equivalent of the
number \a n to base \a base, which is 10 by default and must be
between 2 and 36. The returned string is in "C" locale.
\code
long a = 63;
TQString str = TQString::number( a, 16 ); // str == "3f"
TQString str = TQString::number( a, 16 ).upper(); // str == "3F"
\endcode
\sa setNum()
*/
TQString TQString::number( long n, int base )
{
TQString s;
s.setNum( n, base );
return s;
}
/*!
\overload
\sa setNum()
*/
TQString TQString::number( ulong n, int base )
{
TQString s;
s.setNum( n, base );
return s;
}
/*!
\overload
\sa setNum()
*/
TQString TQString::number( TQ_LLONG n, int base )
{
TQString s;
s.setNum( n, base );
return s;
}
/*!
\overload
\sa setNum()
*/
TQString TQString::number( TQ_ULLONG n, int base )
{
TQString s;
s.setNum( n, base );
return s;
}
/*!
\overload
\sa setNum()
*/
TQString TQString::number( int n, int base )
{
TQString s;
s.setNum( n, base );
return s;
}
/*!
\overload
A convenience factory function that returns a string
representation of the number \a n to the base \a base, which is 10
by default and must be between 2 and 36.
\sa setNum()
*/
TQString TQString::number( uint n, int base )
{
TQString s;
s.setNum( n, base );
return s;
}
/*!
\overload
Argument \a n is formatted according to the \a f format specified,
which is \c g by default, and can be any of the following:
\table
\header \i Format \i Meaning
\row \i \c e \i format as [-]9.9e[+|-]999
\row \i \c E \i format as [-]9.9E[+|-]999
\row \i \c f \i format as [-]9.9
\row \i \c g \i use \c e or \c f format, whichever is the most concise
\row \i \c G \i use \c E or \c f format, whichever is the most concise
\endtable
With 'e', 'E', and 'f', \a prec is the number of digits after the
decimal point. With 'g' and 'G', \a prec is the maximum number of
significant digits (trailing zeroes are omitted).
\code
double d = 12.34;
TQString ds = TQString( "'E' format, precision 3, gives %1" )
.arg( d, 0, 'E', 3 );
// ds == "1.234E+001"
\endcode
\sa setNum()
*/
TQString TQString::number( double n, char f, int prec )
{
TQString s;
s.setNum( n, f, prec );
return s;
}
/*! \obsolete
Sets the character at position \a index to \a c and expands the
string if necessary, filling with spaces.
This method is redundant in TQt 3.x, because operator[] will expand
the string as necessary.
*/
void TQString::setExpand( uint index, TQChar c )
{
int spaces = index - d->len;
at(index) = c;
while (spaces-->0)
d->unicode[--index]=' ';
}
/*!
\fn const char* TQString::data() const
\obsolete
Returns a pointer to a '\0'-terminated classic C string.
In TQt 1.x, this returned a char* allowing direct manipulation of the
string as a sequence of bytes. In TQt 2.x where TQString is a Unicode
string, char* conversion constructs a temporary string, and hence
direct character operations are meaningless.
*/
/*!
\fn bool TQString::operator!() const
Returns TRUE if this is a null string; otherwise returns FALSE.
\code
TQString name = getName();
if ( !name )
name = "Rodney";
\endcode
Note that if you say
\code
TQString name = getName();
if ( name )
doSomethingWith(name);
\endcode
It will call "operator const char*()", which is inefficent; you
may wish to define the macro \c TQT_NO_ASCII_CAST when writing code
which you wish to remain Unicode-clean.
When you want the above semantics, use:
\code
TQString name = getName();
if ( !name.isNull() )
doSomethingWith(name);
\endcode
\sa isEmpty()
*/
/*!
\fn TQString& TQString::append( const TQString& str )
Appends \a str to the string and returns a reference to the
result.
\code
string = "Test";
string.append( "ing" ); // string == "Testing"
\endcode
Equivalent to operator+=().
*/
/*!
\fn TQString& TQString::append( char ch )
\overload
Appends character \a ch to the string and returns a reference to
the result.
Equivalent to operator+=().
*/
/*!
\fn TQString& TQString::append( TQChar ch )
\overload
Appends character \a ch to the string and returns a reference to
the result.
Equivalent to operator+=().
*/
/*! \fn TQString& TQString::append( const TQByteArray &str )
\overload
Appends \a str to the string and returns a reference to the result.
Equivalent to operator+=().
*/
/*! \fn TQString& TQString::append( const std::string &str )
\overload
Appends \a str to the string and returns a reference to the result.
Equivalent to operator+=().
*/
/*! \fn TQString& TQString::append( const char *str )
\overload
Appends \a str to the string and returns a reference to the result.
Equivalent to operator+=().
*/
/*!
Appends \a str to the string and returns a reference to the string.
*/
TQString& TQString::operator+=( const TQString &str )
{
uint len1 = length();
uint len2 = str.length();
if ( len2 ) {
if ( isEmpty() ) {
operator=( str );
} else {
grow( len1+len2 );
memcpy( d->unicode+len1, str.unicode(), sizeof(TQChar)*len2 );
}
} else if ( isNull() && !str.isNull() ) { // ## just for 1.x compat:
*this = fromLatin1( "" );
}
return *this;
}
#ifndef TQT_NO_CAST_ASCII
TQString &TQString::operatorPlusEqHelper( const char *s, uint len2 )
{
if ( s ) {
#ifndef TQT_NO_TEXTCODEC
if ( TQTextCodec::codecForCStrings() )
return operator+=( fromAscii( s, len2 ) );
#endif
uint len1 = length();
if ( len2 == UINT_MAX )
len2 = int(strlen( s ));
if ( len2 ) {
grow( len1 + len2 );
TQChar* uc = d->unicode + len1;
while ( len2-- )
*uc++ = *s++;
} else if ( isNull() ) { // ## just for 1.x compat:
*this = fromLatin1( "" );
}
}
return *this;
}
#endif
/*!
\overload
Appends \a str to the string and returns a reference to the string.
*/
#ifndef TQT_NO_CAST_ASCII
TQString& TQString::operator+=( const char *str )
{
// ### TQt 4: make this function inline
return operatorPlusEqHelper( str );
}
#endif
/*! \overload
Appends \a c to the string and returns a reference to the string.
*/
TQString &TQString::operator+=( TQChar c )
{
grow( length()+1 );
d->unicode[length()-1] = c;
return *this;
}
/*!
\overload
Appends \a c to the string and returns a reference to the string.
*/
TQString &TQString::operator+=( char c )
{
#ifndef TQT_NO_TEXTCODEC
if ( TQTextCodec::codecForCStrings() )
return operator+=( fromAscii( &c, 1 ) );
#endif
grow( length()+1 );
d->unicode[length()-1] = c;
return *this;
}
/*!
\fn TQString &TQString::operator+=( const TQByteArray &str )
\overload
Appends \a str to the string and returns a reference to the string.
*/
/*!
\fn TQString &TQString::operator+=( const std::string &str )
\overload
Appends \a str to the string and returns a reference to the string.
*/
/*!
\fn char TQChar::latin1() const
Returns the Latin-1 value of this character, or 0 if it
cannot be represented in Latin-1.
*/
/*!
Returns a Latin-1 representation of the string. The
returned value is undefined if the string contains non-Latin-1
characters. If you want to convert strings into formats other than
Unicode, see the TQTextCodec classes.
This function is mainly useful for boot-strapping legacy code to
use Unicode.
The result remains valid so long as one unmodified copy of the
source string exists.
\sa fromLatin1(), ascii(), utf8(), local8Bit()
*/
const char* TQString::latin1() const
{
if ( !d->ascii || !d->islatin1 ) {
if (d->security_unpaged) {
#if defined(Q_OS_LINUX)
if (d->ascii) {
munlock(d->ascii, LINUX_MEMLOCK_LIMIT_BYTES);
}
#endif
}
delete [] d->ascii;
d->ascii = unicodeToLatin1( d->unicode, d->len, d->security_unpaged );
d->islatin1 = TRUE;
}
return d->ascii;
}
/*!
Returns an 8-bit ASCII representation of the string.
If a codec has been set using TQTextCodec::codecForCStrings(),
it is used to convert Unicode to 8-bit char. Otherwise, this function
does the same as latin1().
\sa fromAscii(), latin1(), utf8(), local8Bit()
*/
const char* TQString::ascii() const
{
#ifndef TQT_NO_TEXTCODEC
if ( TQTextCodec::codecForCStrings() ) {
if ( !d->ascii || d->islatin1 ) {
if (d->security_unpaged) {
#if defined(Q_OS_LINUX)
if (d->ascii) {
munlock(d->ascii, LINUX_MEMLOCK_LIMIT_BYTES);
}
#endif
}
delete [] d->ascii;
if (d->unicode) {
TQCString s = TQTextCodec::codecForCStrings()->fromUnicode( *this );
d->ascii = new char[s.length() + 1];
if (d->security_unpaged) {
#if defined(Q_OS_LINUX)
mlock(d->ascii, LINUX_MEMLOCK_LIMIT_BYTES);
#endif
}
memcpy(d->ascii, s.data(), s.length() + 1);
} else {
d->ascii = 0;
}
d->islatin1 = FALSE;
}
return d->ascii;
}
#endif // TQT_NO_TEXTCODEC
return latin1();
}
void TQString::setSecurityUnPaged(bool lock) {
if (lock != d->security_unpaged) {
if (d->security_unpaged) {
#if defined(Q_OS_LINUX)
if (d->ascii) {
munlock(d->ascii, LINUX_MEMLOCK_LIMIT_BYTES);
}
#endif
d->security_unpaged = false;
}
else {
#if defined(Q_OS_LINUX)
if (d->ascii) {
mlock(d->ascii, LINUX_MEMLOCK_LIMIT_BYTES);
}
#endif
d->security_unpaged = true;
}
}
}
/*!
Returns the string encoded in UTF-8 format.
See TQTextCodec for more diverse coding/decoding of Unicode strings.
\sa fromUtf8(), ascii(), latin1(), local8Bit()
*/
TQCString TQString::utf8() const
{
if (!d->cString) {
d->cString = new TQCString("");
}
if(d == shared_null)
{
return *d->cString;
}
int l = length();
int rlen = l*3+1;
TQCString rstr(rlen);
uchar* cursor = (uchar*)rstr.data();
const TQChar *ch = d->unicode;
for (int i=0; i < l; i++) {
uint u = ch->unicode();
if ( u < 0x80 ) {
*cursor++ = (uchar)u;
} else {
if ( u < 0x0800 ) {
*cursor++ = 0xc0 | ((uchar) (u >> 6));
} else {
if (u >= 0xd800 && u < 0xdc00 && i < l-1) {
unsigned short low = ch[1].unicode();
if (low >= 0xdc00 && low < 0xe000) {
++ch;
++i;
u = (u - 0xd800)*0x400 + (low - 0xdc00) + 0x10000;
}
}
if (u > 0xffff) {
// if people are working in utf8, but strings are encoded in eg. latin1, the resulting
// name might be invalid utf8. This and the corresponding code in fromUtf8 takes care
// we can handle this without loosing information. This can happen with latin filenames
// and a utf8 locale under Unix.
if (u > 0x10fe00 && u < 0x10ff00) {
*cursor++ = (u - 0x10fe00);
++ch;
continue;
} else {
*cursor++ = 0xf0 | ((uchar) (u >> 18));
*cursor++ = 0x80 | ( ((uchar) (u >> 12)) & 0x3f);
}
} else {
*cursor++ = 0xe0 | ((uchar) (u >> 12));
}
*cursor++ = 0x80 | ( ((uchar) (u >> 6)) & 0x3f);
}
*cursor++ = 0x80 | ((uchar) (u&0x3f));
}
++ch;
}
rstr.truncate( cursor - (uchar*)rstr.data() );
*d->cString = rstr;
return *d->cString;
}
static TQChar *addOne(TQChar *qch, TQString &str)
{
long sidx = qch - str.unicode();
str.setLength(str.length()+1);
return (TQChar *)str.unicode() + sidx;
}
/*!
Returns the Unicode string decoded from the first \a len
bytes of \a utf8, ignoring the rest of \a utf8. If \a len is
-1 then the length of \a utf8 is used. If \a len is bigger than
the length of \a utf8 then it will use the length of \a utf8.
\code
TQString str = TQString::fromUtf8( "123456789", 5 );
// str == "12345"
\endcode
See TQTextCodec for more diverse coding/decoding of Unicode strings.
*/
TQString TQString::fromUtf8( const char* utf8, int len )
{
if ( !utf8 ) {
return TQString::null;
}
int slen = 0;
if (len >= 0) {
while (slen < len && utf8[slen]) {
slen++;
}
} else {
slen = int(strlen(utf8));
}
len = len < 0 ? slen : TQMIN(slen, len);
TQString result;
result.setLength( len ); // worst case
TQChar *qch = (TQChar *)result.unicode();
uint uc = 0;
uint min_uc = 0;
int need = 0;
int error = -1;
uchar ch;
for (int i=0; i<len; i++) {
ch = utf8[i];
if (need) {
if ( (ch&0xc0) == 0x80 ) {
uc = (uc << 6) | (ch & 0x3f);
need--;
if ( !need ) {
if (uc > 0xffff) {
// surrogate pair
uc -= 0x10000;
unsigned short high = uc/0x400 + 0xd800;
unsigned short low = uc%0x400 + 0xdc00;
*qch++ = TQChar(high);
*qch++ = TQChar(low);
} else if (uc < min_uc || (uc >= 0xd800 && uc <= 0xdfff) || (uc >= 0xfffe)) {
// overlong seqence, UTF16 surrogate or BOM
i = error;
qch = addOne(qch, result);
*qch++ = TQChar(0xdbff);
*qch++ = TQChar(0xde00+((uchar)utf8[i]));
} else {
*qch++ = uc;
}
}
} else {
// See TQString::utf8() for explanation.
//
// The surrogate below corresponds to a Unicode value of (0x10fe00+ch) which
// is in one of the private use areas of Unicode.
i = error;
qch = addOne(qch, result);
*qch++ = TQChar(0xdbff);
*qch++ = TQChar(0xde00+((uchar)utf8[i]));
need = 0;
}
} else {
if ( ch < 128 ) {
*qch++ = ch;
} else if ((ch & 0xe0) == 0xc0) {
uc = ch & 0x1f;
need = 1;
error = i;
min_uc = 0x80;
} else if ((ch & 0xf0) == 0xe0) {
uc = ch & 0x0f;
need = 2;
error = i;
min_uc = 0x800;
} else if ((ch&0xf8) == 0xf0) {
uc = ch & 0x07;
need = 3;
error = i;
min_uc = 0x10000;
} else {
// Error
qch = addOne(qch, result);
*qch++ = TQChar(0xdbff);
*qch++ = TQChar(0xde00+((uchar)utf8[i]));
}
}
}
if (need) {
// we have some invalid characters remaining we need to add to the string
for (int i = error; i < len; ++i) {
qch = addOne(qch, result);
*qch++ = TQChar(0xdbff);
*qch++ = TQChar(0xde00+((uchar)utf8[i]));
}
}
result.truncate( qch - result.unicode() );
return result;
}
/*!
Returns the Unicode string decoded from the first \a len
bytes of \a ascii, ignoring the rest of \a ascii. If \a len
is -1 then the length of \a ascii is used. If \a len is bigger
than the length of \a ascii then it will use the length of \a
ascii.
If a codec has been set using TQTextCodec::codecForCStrings(),
it is used to convert the string from 8-bit characters to Unicode.
Otherwise, this function does the same as fromLatin1().
This is the same as the TQString(const char*) constructor, but you
can make that constructor invisible if you compile with the define
\c TQT_NO_CAST_ASCII, in which case you can explicitly create a
TQString from 8-bit ASCII text using this function.
\code
TQString str = TQString::fromAscii( "123456789", 5 );
// str == "12345"
\endcode
*/
TQString TQString::fromAscii( const char* ascii, int len )
{
#ifndef TQT_NO_TEXTCODEC
if ( TQTextCodec::codecForCStrings() ) {
if ( !ascii )
return TQString::null;
if ( len < 0 )
len = (int)strlen( ascii );
if ( len == 0 || *ascii == '\0' )
return TQString::fromLatin1( "" );
return TQTextCodec::codecForCStrings()->toUnicode( ascii, len );
}
#endif
return fromLatin1( ascii, len );
}
/*!
Returns the Unicode string decoded from the first \a len
bytes of \a chars, ignoring the rest of \a chars. If \a len
is -1 then the length of \a chars is used. If \a len is bigger
than the length of \a chars then it will use the length of \a
chars.
\sa fromAscii()
*/
TQString TQString::fromLatin1( const char* chars, int len )
{
uint l;
TQChar *uc;
if ( len < 0 ) {
len = -1;
}
uc = internalLatin1ToUnicode( chars, &l, len );
TQString ret( new TQStringData(uc, l, l), TRUE );
return ret;
}
/*!
\fn const TQChar* TQString::unicode() const
Returns the Unicode representation of the string. The result
remains valid until the string is modified.
*/
/*!
Returns the string encoded in a locale-specific format. On X11,
this is the TQTextCodec::codecForLocale(). On Windows, it is a
system-defined encoding. On Mac OS X, this always uses UTF-8 as
the encoding.
See TQTextCodec for more diverse coding/decoding of Unicode
strings.
\sa fromLocal8Bit(), ascii(), latin1(), utf8()
*/
TQCString TQString::local8Bit() const
{
if (!d->cString) {
d->cString = new TQCString("");
}
if(d == shared_null)
{
return *d->cString;
}
#ifdef TQT_NO_TEXTCODEC
*d->cString = TQCString(latin1());
return *d->cString;
#else
#ifdef TQ_WS_X11
TQTextCodec* codec = TQTextCodec::codecForLocale();
*d->cString = codec ? codec->fromUnicode(*this) : TQCString(latin1());
return *d->cString;
#endif
#if defined( TQ_WS_MACX )
return utf8();
#endif
#if defined( TQ_WS_MAC9 )
*d->cString = TQCString(latin1()); //I'm evil..
return *d->cString;
#endif
#ifdef TQ_WS_WIN
*d->cString = isNull() ? TQCString("") : qt_winTQString2MB( *this );
return *d->cString;
#endif
#endif
}
/*!
Returns the Unicode string decoded from the first \a len
bytes of \a local8Bit, ignoring the rest of \a local8Bit. If
\a len is -1 then the length of \a local8Bit is used. If \a len is
bigger than the length of \a local8Bit then it will use the length
of \a local8Bit.
\code
TQString str = TQString::fromLocal8Bit( "123456789", 5 );
// str == "12345"
\endcode
\a local8Bit is assumed to be encoded in a locale-specific format.
See TQTextCodec for more diverse coding/decoding of Unicode strings.
*/
TQString TQString::fromLocal8Bit( const char* local8Bit, int len )
{
#ifdef TQT_NO_TEXTCODEC
return fromLatin1( local8Bit, len );
#else
if ( !local8Bit )
return TQString::null;
#ifdef TQ_WS_X11
TQTextCodec* codec = TQTextCodec::codecForLocale();
if ( len < 0 )
len = strlen( local8Bit );
return codec
? codec->toUnicode( local8Bit, len )
: fromLatin1( local8Bit, len );
#endif
#if defined( TQ_WS_MAC )
return fromUtf8(local8Bit,len);
#endif
// Should this be OS_WIN32?
#ifdef TQ_WS_WIN
if ( len >= 0 ) {
TQCString s(local8Bit,len+1);
return qt_winMB2TQString(s);
}
return qt_winMB2TQString( local8Bit );
#endif
#endif // TQT_NO_TEXTCODEC
}
/*!
\fn TQString::operator const char *() const
Returns ascii(). Be sure to see the warnings documented in the
ascii() function. Note that for new code which you wish to be
strictly Unicode-clean, you can define the macro \c
TQT_NO_ASCII_CAST when compiling your code to hide this function so
that automatic casts are not done. This has the added advantage
that you catch the programming error described in operator!().
*/
/*!
\fn TQString::operator std::string() const
Returns ascii() as a std::string.
\warning The function may cause an application to crash if a static C run-time is in use.
This can happen in Microsoft Visual C++ if TQt is configured as single-threaded. A safe
alternative is to call ascii() directly and construct a std::string manually.
*/
/*!
Returns the TQString as a zero terminated array of unsigned shorts
if the string is not null; otherwise returns zero.
The result remains valid so long as one unmodified
copy of the source string exists.
*/
const unsigned short *TQString::ucs2() const
{
if ( ! d->unicode )
return 0;
unsigned int len = d->len;
if ( d->maxl < len + 1 ) {
// detach, grow or shrink
uint newMax = computeNewMax( len + 1 );
TQChar* nd = QT_ALLOC_QCHAR_VEC( newMax );
if ( nd ) {
if ( d->unicode )
memcpy( nd, d->unicode, sizeof(TQChar)*len );
((TQString *)this)->deref();
((TQString *)this)->d = new TQStringData( nd, len, newMax );
}
}
d->unicode[len] = 0;
return (unsigned short *) d->unicode;
}
/*!
Constructs a string that is a deep copy of \a str, interpreted as a
UCS2 encoded, zero terminated, Unicode string.
If \a str is 0, then a null string is created.
\sa isNull()
*/
TQString TQString::fromUcs2( const unsigned short *str )
{
if ( !str ) {
return TQString::null;
} else {
int length = 0;
while ( str[length] != 0 )
length++;
TQChar* uc = QT_ALLOC_QCHAR_VEC( length );
memcpy( uc, str, length*sizeof(TQChar) );
TQString ret( new TQStringData( uc, length, length ), TRUE );
return ret;
}
}
/*!
\fn TQChar TQString::at( uint ) const
Returns the character at index \a i, or 0 if \a i is beyond the
length of the string.
\code
const TQString string( "abcdefgh" );
TQChar ch = string.at( 4 );
// ch == 'e'
\endcode
If the TQString is not const (i.e. const TQString) or const& (i.e.
const TQString &), then the non-const overload of at() will be used
instead.
*/
/*!
\fn TQChar TQString::constref(uint i) const
Returns the TQChar at index \a i by value.
Equivalent to at(\a i).
\sa ref()
*/
/*!
\fn TQChar& TQString::ref(uint i)
Returns the TQChar at index \a i by reference, expanding the string
with TQChar::null if necessary. The resulting reference can be
assigned to, or otherwise used immediately, but becomes invalid
once furher modifications are made to the string.
\code
TQString string("ABCDEF");
TQChar ch = string.ref( 3 ); // ch == 'D'
\endcode
\sa constref()
*/
TQChar& TQString::ref(uint i) {
#if defined(TQT_THREAD_SUPPORT) && defined(MAKE_QSTRING_THREAD_SAFE)
d->mutex->lock();
#endif // TQT_THREAD_SUPPORT && MAKE_QSTRING_THREAD_SAFE
if ( (d->count != 1) || (i >= d->len) ) {
#if defined(TQT_THREAD_SUPPORT) && defined(MAKE_QSTRING_THREAD_SAFE)
d->mutex->unlock();
#endif // TQT_THREAD_SUPPORT && MAKE_QSTRING_THREAD_SAFE
subat( i );
}
else {
#if defined(TQT_THREAD_SUPPORT) && defined(MAKE_QSTRING_THREAD_SAFE)
d->mutex->unlock();
#endif // TQT_THREAD_SUPPORT && MAKE_QSTRING_THREAD_SAFE
}
d->setDirty();
return d->unicode[i];
}
/*!
\fn TQChar TQString::operator[]( int ) const
Returns the character at index \a i, or TQChar::null if \a i is
beyond the length of the string.
If the TQString is not const (i.e., const TQString) or const\&
(i.e., const TQString\&), then the non-const overload of operator[]
will be used instead.
*/
/*!
\fn TQCharRef TQString::operator[]( int )
\overload
The function returns a reference to the character at index \a i.
The resulting reference can then be assigned to, or used
immediately, but it will become invalid once further modifications
are made to the original string.
If \a i is beyond the length of the string then the string is
expanded with TQChar::nulls, so that the TQCharRef references a
valid (null) character in the string.
The TQCharRef internal class can be used much like a constant
TQChar, but if you assign to it, you change the original string
(which will detach itself because of TQString's copy-on-write
semantics). You will get compilation errors if you try to use the
result as anything but a TQChar.
*/
/*!
\fn TQCharRef TQString::at( uint i )
\overload
The function returns a reference to the character at index \a i.
The resulting reference can then be assigned to, or used
immediately, but it will become invalid once further modifications
are made to the original string.
If \a i is beyond the length of the string then the string is
expanded with TQChar::null.
*/
/*
Internal chunk of code to handle the
uncommon cases of at() above.
*/
void TQString::subat( uint i )
{
uint olen = d->len;
if ( i >= olen ) {
setLength( i+1 ); // i is index; i+1 is needed length
for ( uint j=olen; j<=i; j++ )
d->unicode[j] = TQChar::null;
} else {
// Just be sure to detach
real_detach();
}
}
/*!
Resizes the string to \a len characters and copies \a unicode into
the string. If \a unicode is 0, nothing is copied, but the
string is still resized to \a len. If \a len is zero, then the
string becomes a \link isNull() null\endlink string.
\sa setLatin1(), isNull()
*/
TQString& TQString::setUnicode( const TQChar *unicode, uint len )
{
if ( len == 0 ) { // set to null string
if ( d != shared_null ) { // beware of nullstring being set to nullstring
deref();
d = shared_null ? shared_null : makeSharedNull();
}
}
else {
#if defined(TQT_THREAD_SUPPORT) && defined(MAKE_QSTRING_THREAD_SAFE)
d->mutex->lock();
#endif // TQT_THREAD_SUPPORT && MAKE_QSTRING_THREAD_SAFE
if ( d->count != 1 || len > d->maxl || ( len * 4 < d->maxl && d->maxl > 4 ) ) {
// detach, grown or shrink
uint newMax = computeNewMax( len );
TQChar* nd = QT_ALLOC_QCHAR_VEC( newMax );
if ( unicode ) {
memcpy( nd, unicode, sizeof(TQChar)*len );
}
#if defined(TQT_THREAD_SUPPORT) && defined(MAKE_QSTRING_THREAD_SAFE)
d->mutex->unlock();
#endif // TQT_THREAD_SUPPORT && MAKE_QSTRING_THREAD_SAFE
deref();
d = new TQStringData( nd, len, newMax );
}
else {
d->len = len;
#if defined(TQT_THREAD_SUPPORT) && defined(MAKE_QSTRING_THREAD_SAFE)
d->mutex->unlock();
#endif // TQT_THREAD_SUPPORT && MAKE_QSTRING_THREAD_SAFE
d->setDirty();
if ( unicode ) {
memcpy( d->unicode, unicode, sizeof(TQChar)*len );
}
}
}
return *this;
}
/*!
Resizes the string to \a len characters and copies \a
unicode_as_ushorts into the string (on some X11 client platforms
this will involve a byte-swapping pass).
If \a unicode_as_ushorts is 0, nothing is copied, but the string
is still resized to \a len. If \a len is zero, the string becomes
a \link isNull() null\endlink string.
\sa setLatin1(), isNull()
*/
TQString& TQString::setUnicodeCodes( const ushort* unicode_as_ushorts, uint len )
{
return setUnicode((const TQChar*)unicode_as_ushorts, len);
}
/*!
Sets this string to \a str, interpreted as a classic 8-bit ASCII C
string. If \a len is -1 (the default), then it is set to
strlen(str).
If \a str is 0 a null string is created. If \a str is "", an empty
string is created.
\sa isNull(), isEmpty()
*/
TQString &TQString::setAscii( const char *str, int len )
{
#ifndef TQT_NO_TEXTCODEC
if ( TQTextCodec::codecForCStrings() ) {
*this = TQString::fromAscii( str, len );
return *this;
}
#endif // TQT_NO_TEXTCODEC
return setLatin1( str, len );
}
/*!
Sets this string to \a str, interpreted as a classic Latin-1 C
string. If \a len is -1 (the default), then it is set to
strlen(str).
If \a str is 0 a null string is created. If \a str is "", an empty
string is created.
\sa isNull(), isEmpty()
*/
TQString &TQString::setLatin1( const char *str, int len )
{
if ( str == 0 )
return setUnicode(0,0);
if ( len < 0 )
len = int(strlen( str ));
if ( len == 0 ) { // won't make a null string
*this = TQString::fromLatin1( "" );
} else {
setUnicode( 0, len ); // resize but not copy
TQChar *p = d->unicode;
while ( len-- )
*p++ = *str++;
}
return *this;
}
/*! \internal
*/
void TQString::checkSimpleText() const
{
TQChar *p = d->unicode;
TQChar *end = p + d->len;
while ( p < end ) {
ushort uc = p->unicode();
// sort out regions of complex text formatting
if ( uc > 0x058f && ( uc < 0x1100 || uc > 0xfb0f ) ) {
d->issimpletext = FALSE;
return;
}
p++;
}
d->issimpletext = TRUE;
}
/*! \fn bool TQString::simpleText() const
\internal
*/
/*! \internal
*/
bool TQString::isRightToLeft() const
{
int len = length();
TQChar *p = d->unicode;
while ( len-- ) {
switch( ::direction( *p ) )
{
case TQChar::DirL:
case TQChar::DirLRO:
case TQChar::DirLRE:
return FALSE;
case TQChar::DirR:
case TQChar::DirAL:
case TQChar::DirRLO:
case TQChar::DirRLE:
return TRUE;
default:
break;
}
++p;
}
return FALSE;
}
/*!
\fn int TQString::compare( const TQString & s1, const TQString & s2 )
Lexically compares \a s1 with \a s2 and returns an integer less
than, equal to, or greater than zero if \a s1 is less than, equal
to, or greater than \a s2.
The comparison is based exclusively on the numeric Unicode values
of the characters and is very fast, but is not what a human would
expect. Consider sorting user-interface strings with
TQString::localeAwareCompare().
\code
int a = TQString::compare( "def", "abc" ); // a > 0
int b = TQString::compare( "abc", "def" ); // b < 0
int c = TQString::compare( "abc", "abc" ); // c == 0
\endcode
*/
/*!
\overload
Lexically compares this string with \a s and returns an integer
less than, equal to, or greater than zero if it is less than, equal
to, or greater than \a s.
*/
int TQString::compare( const TQString& s ) const
{
return ucstrcmp( *this, s );
}
/*!
\fn int TQString::localeAwareCompare( const TQString & s1, const TQString & s2 )
Compares \a s1 with \a s2 and returns an integer less than, equal
to, or greater than zero if \a s1 is less than, equal to, or
greater than \a s2.
The comparison is performed in a locale- and also
platform-dependent manner. Use this function to present sorted
lists of strings to the user.
\sa TQString::compare() TQTextCodec::locale()
*/
/*!
\overload
Compares this string with \a s.
*/
#if !defined(CSTR_LESS_THAN)
#define CSTR_LESS_THAN 1
#define CSTR_EQUAL 2
#define CSTR_GREATER_THAN 3
#endif
int TQString::localeAwareCompare( const TQString& s ) const
{
// do the right thing for null and empty
if ( isEmpty() || s.isEmpty() )
return compare( s );
#if defined(TQ_WS_WIN)
int res;
QT_WA( {
const TCHAR* s1 = (TCHAR*)ucs2();
const TCHAR* s2 = (TCHAR*)s.ucs2();
res = CompareStringW( LOCALE_USER_DEFAULT, 0, s1, length(), s2, s.length() );
} , {
TQCString s1 = local8Bit();
TQCString s2 = s.local8Bit();
res = CompareStringA( LOCALE_USER_DEFAULT, 0, s1.data(), s1.length(), s2.data(), s2.length() );
} );
switch ( res ) {
case CSTR_LESS_THAN:
return -1;
case CSTR_GREATER_THAN:
return 1;
default:
return 0;
}
#elif defined(TQ_WS_MACX)
int delta = 0;
#if !defined(TQT_NO_TEXTCODEC)
TQTextCodec *codec = TQTextCodec::codecForLocale();
if (codec)
delta = strcoll(codec->fromUnicode(*this), codec->fromUnicode(s));
if (delta == 0)
#endif
delta = ucstrcmp(*this, s);
return delta;
#elif defined(TQ_WS_X11)
// declared in <string.h>
int delta = strcoll( local8Bit(), s.local8Bit() );
if ( delta == 0 )
delta = ucstrcmp( *this, s );
return delta;
#else
return ucstrcmp( *this, s );
#endif
}
bool operator==( const TQString &s1, const TQString &s2 )
{
if ( s1.unicode() == s2.unicode() )
return TRUE;
return (s1.length() == s2.length()) && s1.isNull() == s2.isNull() &&
(memcmp((char*)s1.unicode(),(char*)s2.unicode(),
s1.length()*sizeof(TQChar)) == 0 );
}
bool operator!=( const TQString &s1, const TQString &s2 )
{ return !(s1==s2); }
bool operator<( const TQString &s1, const TQString &s2 )
{ return ucstrcmp(s1,s2) < 0; }
bool operator<=( const TQString &s1, const TQString &s2 )
{ return ucstrcmp(s1,s2) <= 0; }
bool operator>( const TQString &s1, const TQString &s2 )
{ return ucstrcmp(s1,s2) > 0; }
bool operator>=( const TQString &s1, const TQString &s2 )
{ return ucstrcmp(s1,s2) >= 0; }
bool operator==( const TQString &s1, const char *s2 )
{
if ( !s2 )
return s1.isNull();
int len = s1.length();
const TQChar *uc = s1.unicode();
while ( len ) {
if ( !(*s2) || uc->unicode() != (uchar) *s2 )
return FALSE;
++uc;
++s2;
--len;
}
return !*s2;
}
bool operator==( const char *s1, const TQString &s2 )
{ return (s2 == s1); }
bool operator!=( const TQString &s1, const char *s2 )
{ return !(s1==s2); }
bool operator!=( const char *s1, const TQString &s2 )
{ return !(s1==s2); }
bool operator<( const TQString &s1, const char *s2 )
{ return ucstrcmp(s1,s2) < 0; }
bool operator<( const char *s1, const TQString &s2 )
{ return ucstrcmp(s1,s2) < 0; }
bool operator<=( const TQString &s1, const char *s2 )
{ return ucstrcmp(s1,s2) <= 0; }
bool operator<=( const char *s1, const TQString &s2 )
{ return ucstrcmp(s1,s2) <= 0; }
bool operator>( const TQString &s1, const char *s2 )
{ return ucstrcmp(s1,s2) > 0; }
bool operator>( const char *s1, const TQString &s2 )
{ return ucstrcmp(s1,s2) > 0; }
bool operator>=( const TQString &s1, const char *s2 )
{ return ucstrcmp(s1,s2) >= 0; }
bool operator>=( const char *s1, const TQString &s2 )
{ return ucstrcmp(s1,s2) >= 0; }
/*****************************************************************************
Documentation for TQString related functions
*****************************************************************************/
/*!
\fn bool operator==( const TQString &s1, const TQString &s2 )
\relates TQString
Returns TRUE if \a s1 is equal to \a s2; otherwise returns FALSE.
Note that a null string is not equal to a not-null empty string.
Equivalent to compare(\a s1, \a s2) == 0.
\sa isNull(), isEmpty()
*/
/*!
\fn bool operator==( const TQString &s1, const char *s2 )
\overload
\relates TQString
Returns TRUE if \a s1 is equal to \a s2; otherwise returns FALSE.
Note that a null string is not equal to a not-null empty string.
Equivalent to compare(\a s1, \a s2) == 0.
\sa isNull(), isEmpty()
*/
/*!
\fn bool operator==( const char *s1, const TQString &s2 )
\overload
\relates TQString
Returns TRUE if \a s1 is equal to \a s2; otherwise returns FALSE.
Note that a null string is not equal to a not-null empty string.
Equivalent to compare(\a s1, \a s2) == 0.
\sa isNull(), isEmpty()
*/
/*!
\fn bool operator!=( const TQString &s1, const TQString &s2 )
\relates TQString
Returns TRUE if \a s1 is not equal to \a s2; otherwise returns FALSE.
Note that a null string is not equal to a not-null empty string.
Equivalent to compare(\a s1, \a s2) != 0.
\sa isNull(), isEmpty()
*/
/*!
\fn bool operator!=( const TQString &s1, const char *s2 )
\overload
\relates TQString
Returns TRUE if \a s1 is not equal to \a s2; otherwise returns FALSE.
Note that a null string is not equal to a not-null empty string.
Equivalent to compare(\a s1, \a s2) != 0.
\sa isNull(), isEmpty()
*/
/*!
\fn bool operator!=( const char *s1, const TQString &s2 )
\overload
\relates TQString
Returns TRUE if \a s1 is not equal to \a s2; otherwise returns FALSE.
Note that a null string is not equal to a not-null empty string.
Equivalent to compare(\a s1, \a s2) != 0.
\sa isNull(), isEmpty()
*/
/*!
\fn bool operator<( const TQString &s1, const char *s2 )
\relates TQString
Returns TRUE if \a s1 is lexically less than \a s2; otherwise returns FALSE.
The comparison is case sensitive.
Equivalent to compare(\a s1, \a s2) \< 0.
*/
/*!
\fn bool operator<( const char *s1, const TQString &s2 )
\overload
\relates TQString
Returns TRUE if \a s1 is lexically less than \a s2; otherwise returns FALSE.
The comparison is case sensitive.
Equivalent to compare(\a s1, \a s2) \< 0.
*/
/*!
\fn bool operator<=( const TQString &s1, const char *s2 )
\relates TQString
Returns TRUE if \a s1 is lexically less than or equal to \a s2;
otherwise returns FALSE.
The comparison is case sensitive.
Note that a null string is not equal to a not-null empty string.
Equivalent to compare(\a s1,\a s2) \<= 0.
\sa isNull(), isEmpty()
*/
/*!
\fn bool operator<=( const char *s1, const TQString &s2 )
\overload
\relates TQString
Returns TRUE if \a s1 is lexically less than or equal to \a s2;
otherwise returns FALSE.
The comparison is case sensitive.
Note that a null string is not equal to a not-null empty string.
Equivalent to compare(\a s1, \a s2) \<= 0.
\sa isNull(), isEmpty()
*/
/*!
\fn bool operator>( const TQString &s1, const char *s2 )
\relates TQString
Returns TRUE if \a s1 is lexically greater than \a s2; otherwise
returns FALSE.
The comparison is case sensitive.
Equivalent to compare(\a s1, \a s2) \> 0.
*/
/*!
\fn bool operator>( const char *s1, const TQString &s2 )
\overload
\relates TQString
Returns TRUE if \a s1 is lexically greater than \a s2; otherwise
returns FALSE.
The comparison is case sensitive.
Equivalent to compare(\a s1, \a s2) \> 0.
*/
/*!
\fn bool operator>=( const TQString &s1, const char *s2 )
\relates TQString
Returns TRUE if \a s1 is lexically greater than or equal to \a s2;
otherwise returns FALSE.
The comparison is case sensitive.
Note that a null string is not equal to a not-null empty string.
Equivalent to compare(\a s1, \a s2) \>= 0.
\sa isNull(), isEmpty()
*/
/*!
\fn bool operator>=( const char *s1, const TQString &s2 )
\overload
\relates TQString
Returns TRUE if \a s1 is lexically greater than or equal to \a s2;
otherwise returns FALSE.
The comparison is case sensitive.
Note that a null string is not equal to a not-null empty string.
Equivalent to compare(\a s1, \a s2) \>= 0.
\sa isNull(), isEmpty()
*/
/*!
\fn const TQString operator+( const TQString &s1, const TQString &s2 )
\relates TQString
Returns a string which is the result of concatenating the string
\a s1 and the string \a s2.
Equivalent to \a {s1}.append(\a s2).
*/
/*!
\fn const TQString operator+( const TQString &s1, const char *s2 )
\overload
\relates TQString
Returns a string which is the result of concatenating the string
\a s1 and character \a s2.
Equivalent to \a {s1}.append(\a s2).
*/
/*!
\fn const TQString operator+( const char *s1, const TQString &s2 )
\overload
\relates TQString
Returns a string which is the result of concatenating the
character \a s1 and string \a s2.
*/
/*!
\fn const TQString operator+( const TQString &s, char c )
\overload
\relates TQString
Returns a string which is the result of concatenating the string
\a s and character \a c.
Equivalent to \a {s}.append(\a c).
*/
/*!
\fn const TQString operator+( char c, const TQString &s )
\overload
\relates TQString
Returns a string which is the result of concatenating the
character \a c and string \a s.
Equivalent to \a {s}.prepend(\a c).
*/
/*****************************************************************************
TQString stream functions
*****************************************************************************/
#ifndef TQT_NO_DATASTREAM
/*!
\relates TQString
Writes the string \a str to the stream \a s.
See also \link datastreamformat.html Format of the TQDataStream operators \endlink
*/
TQDataStream &operator<<( TQDataStream &s, const TQString &str )
{
if ( s.version() == 1 ) {
TQCString l( str.latin1() );
s << l;
}
else {
int byteOrder = s.byteOrder();
const TQChar* ub = str.unicode();
if ( ub || s.version() < 3 ) {
static const uint auto_size = 1024;
char t[auto_size];
char *b;
if ( str.length()*sizeof(TQChar) > auto_size ) {
b = new char[str.length()*sizeof(TQChar)];
} else {
b = t;
}
int l = str.length();
char *c=b;
while ( l-- ) {
if ( byteOrder == TQDataStream::BigEndian ) {
*c++ = (char)ub->row();
*c++ = (char)ub->cell();
} else {
*c++ = (char)ub->cell();
*c++ = (char)ub->row();
}
ub++;
}
s.writeBytes( b, sizeof(TQChar)*str.length() );
if ( str.length()*sizeof(TQChar) > auto_size )
delete [] b;
} else {
// write null marker
s << (TQ_UINT32)0xffffffff;
}
}
return s;
}
/*!
\relates TQString
Reads a string from the stream \a s into string \a str.
See also \link datastreamformat.html Format of the TQDataStream operators \endlink
*/
TQDataStream &operator>>( TQDataStream &s, TQString &str )
{
#ifdef QT_QSTRING_UCS_4
#if defined(Q_CC_GNU)
#warning "operator>> not working properly"
#endif
#endif
if ( s.version() == 1 ) {
TQCString l;
s >> l;
str = TQString( l );
}
else {
TQ_UINT32 bytes = 0;
s >> bytes; // read size of string
if ( bytes == 0xffffffff ) { // null string
str = TQString::null;
} else if ( bytes > 0 ) { // not empty
int byteOrder = s.byteOrder();
str.setLength( bytes/2 );
TQChar* ch = str.d->unicode;
static const uint auto_size = 1024;
char t[auto_size];
char *b;
if ( bytes > auto_size ) {
b = new char[bytes];
} else {
b = t;
}
s.readRawBytes( b, bytes );
int bt = bytes/2;
char *oldb = b;
while ( bt-- ) {
if ( byteOrder == TQDataStream::BigEndian )
*ch++ = (ushort) (((ushort)b[0])<<8) | (uchar)b[1];
else
*ch++ = (ushort) (((ushort)b[1])<<8) | (uchar)b[0];
b += 2;
}
if ( bytes > auto_size )
delete [] oldb;
} else {
str = "";
}
}
return s;
}
#endif // TQT_NO_DATASTREAM
/*****************************************************************************
TQConstString member functions
*****************************************************************************/
/*!
\class TQConstString tqstring.h
\reentrant
\ingroup text
\brief The TQConstString class provides string objects using constant Unicode data.
In order to minimize copying, highly optimized applications can
use TQConstString to provide a TQString-compatible object from
existing Unicode data. It is then the programmer's responsibility
to ensure that the Unicode data exists for the entire lifetime of
the TQConstString object.
A TQConstString is created with the TQConstString constructor. The
string held by the object can be obtained by calling string().
*/
/*!
Constructs a TQConstString that uses the first \a length Unicode
characters in the array \a unicode. Any attempt to modify copies
of the string will cause it to create a copy of the data, thus it
remains forever unmodified.
The data in \a unicode is not copied. The caller must be able to
guarantee that \a unicode will not be deleted or modified.
*/
TQConstString::TQConstString( const TQChar* unicode, uint length ) :
TQString( new TQStringData( (TQChar*)unicode, length, length ), TRUE )
{
}
/*!
Destroys the TQConstString, creating a copy of the data if other
strings are still using it.
*/
TQConstString::~TQConstString()
{
#if defined(TQT_THREAD_SUPPORT) && defined(MAKE_QSTRING_THREAD_SAFE)
d->mutex->lock();
#endif // TQT_THREAD_SUPPORT && MAKE_QSTRING_THREAD_SAFE
if ( d->count > 1 ) {
TQChar* cp = QT_ALLOC_QCHAR_VEC( d->len );
memcpy( cp, d->unicode, d->len*sizeof(TQChar) );
d->unicode = cp;
}
else {
d->unicode = 0;
}
// The original d->unicode is now unlinked.
#if defined(TQT_THREAD_SUPPORT) && defined(MAKE_QSTRING_THREAD_SAFE)
d->mutex->unlock();
#endif // TQT_THREAD_SUPPORT && MAKE_QSTRING_THREAD_SAFE
}
/*!
\fn const TQString& TQConstString::string() const
Returns a constant string referencing the data passed during
construction.
*/
/*!
Returns TRUE if the string starts with \a s; otherwise returns
FALSE.
If \a cs is TRUE (the default), the search is case sensitive;
otherwise the search is case insensitive.
\code
TQString str( "Bananas" );
str.startsWith( "Ban" ); // returns TRUE
str.startsWith( "Car" ); // returns FALSE
\endcode
\sa endsWith()
*/
bool TQString::startsWith( const TQString& s, bool cs ) const
{
if ( isNull() )
return s.isNull();
if ( s.length() > length() )
return FALSE;
if ( cs ) {
return memcmp((char*)d->unicode, (char*)s.d->unicode, s.length()*sizeof(TQChar)) == 0;
} else {
for ( int i = 0; i < (int) s.length(); i++ ) {
if ( ::lower(d->unicode[i]) != ::lower(s.d->unicode[i]) )
return FALSE;
}
}
return TRUE;
}
bool TQString::startsWith( const TQString& s ) const
{
return startsWith( s, TRUE );
}
/*!
Returns TRUE if the string ends with \a s; otherwise returns
FALSE.
If \a cs is TRUE (the default), the search is case sensitive;
otherwise the search is case insensitive.
\code
TQString str( "Bananas" );
str.endsWith( "anas" ); // returns TRUE
str.endsWith( "pple" ); // returns FALSE
\endcode
\sa startsWith()
*/
bool TQString::endsWith( const TQString& s, bool cs ) const
{
if ( isNull() )
return s.isNull();
int pos = length() - s.length();
if ( pos < 0 )
return FALSE;
if ( cs ) {
return memcmp((char*)&d->unicode[pos], (char*)s.d->unicode, s.length()*sizeof(TQChar)) == 0;
} else {
for ( int i = 0; i < (int) s.length(); i++ ) {
if ( ::lower(d->unicode[pos + i]) != ::lower(s.d->unicode[i]) )
return FALSE;
}
}
return TRUE;
}
bool TQString::endsWith( const TQString& s ) const
{
return endsWith( s, TRUE );
}
/*! \fn void TQString::detach()
If the string does not share its data with another TQString instance,
nothing happens; otherwise the function creates a new, unique copy of
this string. This function is called whenever the string is modified. The
implicit sharing mechanism is implemented this way.
*/
#if defined(Q_OS_WIN32)
#include <windows.h>
/*!
\obsolete
Returns a static Windows TCHAR* from a TQString, adding NUL if \a
addnul is TRUE.
The lifetime of the return value is until the next call to this function,
or until the last copy of str is deleted, whatever comes first.
Use ucs2() instead.
*/
const void* qt_winTchar(const TQString& str, bool)
{
// So that the return value lives long enough.
static TQString str_cache;
str_cache = str;
#ifdef UNICODE
return str_cache.ucs2();
#else
return str_cache.latin1();
#endif
}
/*!
Makes a new '\0'-terminated Windows TCHAR* from a TQString.
*/
void* qt_winTchar_new(const TQString& str)
{
if ( str.isNull() )
return 0;
int l = str.length()+1;
TCHAR *tc = new TCHAR[ l ];
#ifdef UNICODE
memcpy( tc, str.ucs2(), sizeof(TCHAR)*l );
#else
memcpy( tc, str.latin1(), sizeof(TCHAR)*l );
#endif
return tc;
}
/*!
Makes a TQString from a Windows TCHAR*.
*/
TQString qt_winTQString(void* tc)
{
#ifdef UNICODE
return TQString::fromUcs2( (ushort*)tc );
#else
return TQString::fromLatin1( (TCHAR *)tc );
#endif
}
TQCString qt_winTQString2MB( const TQString& s, int uclen )
{
if ( uclen < 0 )
uclen = s.length();
if ( s.isNull() )
return TQCString();
if ( uclen == 0 )
return TQCString("");
BOOL used_def;
TQCString mb(4096);
int len;
while ( !(len=WideCharToMultiByte(CP_ACP, 0, (const WCHAR*)s.unicode(), uclen,
mb.data(), mb.size()-1, 0, &used_def)) )
{
int r = GetLastError();
if ( r == ERROR_INSUFFICIENT_BUFFER ) {
mb.resize(1+WideCharToMultiByte( CP_ACP, 0,
(const WCHAR*)s.unicode(), uclen,
0, 0, 0, &used_def));
// and try again...
} else {
#ifndef TQT_NO_DEBUG
// Fail.
tqWarning("WideCharToMultiByte cannot convert multibyte text (error %d): %s (UTF8)",
r, s.utf8().data());
#endif
break;
}
}
mb[len]='\0';
return mb;
}
// WATCH OUT: mblen must include the NUL (or just use -1)
TQString qt_winMB2TQString( const char* mb, int mblen )
{
if ( !mb || !mblen )
return TQString::null;
const int wclen_auto = 4096;
WCHAR wc_auto[wclen_auto];
int wclen = wclen_auto;
WCHAR *wc = wc_auto;
int len;
while ( !(len=MultiByteToWideChar( CP_ACP, MB_PRECOMPOSED,
mb, mblen, wc, wclen )) )
{
int r = GetLastError();
if ( r == ERROR_INSUFFICIENT_BUFFER ) {
if ( wc != wc_auto ) {
tqWarning("Size changed in MultiByteToWideChar");
break;
} else {
wclen = MultiByteToWideChar( CP_ACP, MB_PRECOMPOSED,
mb, mblen, 0, 0 );
wc = new WCHAR[wclen];
// and try again...
}
} else {
// Fail.
tqWarning("MultiByteToWideChar cannot convert multibyte text");
break;
}
}
if ( len <= 0 )
return TQString::null;
TQString s( (TQChar*)wc, len - 1 ); // len - 1: we don't want terminator
if ( wc != wc_auto )
delete [] wc;
return s;
}
#endif // Q_OS_WIN32
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