/****************************************************************************
** $Id: qt/qcstring.cpp 3.0.6 edited Jul 18 12:19 $
**
** Implementation of extended char array operations, and QByteArray and
** QCString classes
**
** Created : 920722
**
** Copyright (C) 1992-2000 Trolltech AS. All rights reserved.
**
** This file is part of the tools module of the Qt GUI Toolkit.
**
** This file may be distributed under the terms of the Q Public License
** as defined by Trolltech AS of Norway and appearing in the file
** LICENSE.QPL included in the packaging of this file.
**
** This file may be distributed and/or modified under the terms of the
** GNU General Public License version 2 as published by the Free Software
** Foundation and appearing in the file LICENSE.GPL included in the
** packaging of this file.
**
** Licensees holding valid Qt Enterprise Edition or Qt Professional Edition
** licenses may use this file in accordance with the Qt Commercial License
** Agreement provided with the Software.
**
** This file is provided AS IS with NO WARRANTY OF ANY KIND, INCLUDING THE
** WARRANTY OF DESIGN, MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
**
** See http://www.trolltech.com/pricing.html or email sales@trolltech.com for
** information about Qt Commercial License Agreements.
** See http://www.trolltech.com/qpl/ for QPL licensing information.
** See http://www.trolltech.com/gpl/ for GPL licensing information.
**
** Contact info@trolltech.com if any conditions of this licensing are
** not clear to you.
**
**********************************************************************/
#include "qstring.h"
#include "qregexp.h"
#include "qdatastream.h"
#include <stdio.h>
#include <stdarg.h>
#include <stdlib.h>
#include <ctype.h>
/*****************************************************************************
Safe and portable C string functions; extensions to standard string.h
*****************************************************************************/
/*!
\relates QCString
This function is normally part of the C library. Qt implements
memmove() for platforms that do not provide it.
memmove() copies \a len bytes from \a src into \a dst. The data
is copied correctly even if \a src and \a dst overlap.
*/
void *qmemmove( void *dst, const void *src, uint len )
{
register char *d;
register char *s;
if ( dst > src ) {
d = (char *)dst + len - 1;
s = (char *)src + len - 1;
while ( len-- )
*d-- = *s--;
} else if ( dst < src ) {
d = (char *)dst;
s = (char *)src;
while ( len-- )
*d++ = *s++;
}
return dst;
}
/*!
\relates QCString
Returns a duplicate string.
Allocates space for a copy of \a src, copies it, and returns a
pointer to the copy. If \a src is 0, it immediately returns 0.
The returned string must be deleted using \c delete[].
*/
char *qstrdup( const char *src )
{
if ( !src )
return 0;
char *dst = new char[strlen(src)+1];
Q_CHECK_PTR( dst );
return strcpy( dst, src );
}
/*!
\fn char *qstrcpy( char *dst, const char *src )
\relates QCString
A safe strcpy() function.
Copies all characters up to and including the '\0' from \a src
into \a dst and returns a pointer to \a dst.
*/
/*!
\relates QCString
A safe strncpy() function.
Copies at most \a len bytes from \a src (stopping at \a len or the
terminating '\0' whichever comes first) into \a dst and returns a
pointer to \a dst. Guarantees that \a dst is '\0'-terminated. If
\a src or \a dst is 0, returns 0 immediately.
\sa qstrcpy()
*/
char *qstrncpy( char *dst, const char *src, uint len )
{
if ( !src || !dst )
return 0;
strncpy( dst, src, len );
if ( len > 0 )
dst[len-1] = '\0';
return dst;
}
/*!
\fn int qstrcmp( const char *str1, const char *str2 );
\relates QCString
A safe strcmp() function.
Compares \a str1 and \a str2. Returns a negative value if \a str1
is less than \a str2, 0 if \a str1 is equal to \a str2 or a
positive value if \a str1 is greater than \a str2.
Special case I: Returns 0 if \a str1 and \a str2 are both 0.
Special case II: Returns a random nonzero value if \a str1 is 0
or \a str2 is 0 (but not both).
\sa qstrncmp() qstricmp() qstrnicmp()
\link #asciinotion Note on character comparisons \endlink
*/
/*!
\fn int qstrncmp( const char *str1, const char *str2, uint len );
\relates QCString
A safe strncmp() function.
Compares at most \a len bytes of \a str1 and \a str2.
Returns a negative value if \a str1 is less than \a str2, 0 if \a
str1 is equal to \a str2 or a positive value if \a str1 is greater
than \a str2.
Special case I: Returns 0 if \a str1 and \a str2 are both 0.
Special case II: Returns a random nonzero value if \a str1 is 0
or \a str2 is 0 (but not both).
\sa qstrcmp(), qstricmp(), qstrnicmp()
\link #asciinotion Note on character comparisons \endlink
*/
/*!
\relates QCString
A safe stricmp() function.
Compares \a str1 and \a str2 ignoring the case.
Returns a negative value if \a str1 is less than \a str2, 0 if \a
str1 is equal to \a str2 or a positive value if \a str1 is greater
than \a str2.
Special case I: Returns 0 if \a str1 and \a str2 are both 0.
Special case II: Returns a random nonzero value if \a str1 is 0
or \a str2 is 0 (but not both).
\sa qstrcmp(), qstrncmp(), qstrnicmp()
\link #asciinotion Note on character comparisons \endlink
*/
int qstricmp( const char *str1, const char *str2 )
{
register const uchar *s1 = (const uchar *)str1;
register const uchar *s2 = (const uchar *)str2;
int res;
uchar c;
if ( !s1 || !s2 )
return s1 ? 1 : ( s2 ? -1 : 0 );
for ( ; !(res = (c=tolower(*s1)) - tolower(*s2)); s1++, s2++ )
if ( !c ) // strings are equal
break;
return res;
}
/*!
\relates QCString
A safe strnicmp() function.
Compares at most \a len bytes of \a str1 and \a str2 ignoring the case.
Returns a negative value if \a str1 is less than \a str2, 0 if \a str1
is equal to \a str2 or a positive value if \a str1 is greater than \a
str2.
Special case I: Returns 0 if \a str1 and \a str2 are both 0.
Special case II: Returns a random nonzero value if \a str1 is 0
or \a str2 is 0 (but not both).
\sa qstrcmp(), qstrncmp() qstricmp()
\link #asciinotion Note on character comparisons \endlink
*/
int qstrnicmp( const char *str1, const char *str2, uint len )
{
register const uchar *s1 = (const uchar *)str1;
register const uchar *s2 = (const uchar *)str2;
int res;
uchar c;
if ( !s1 || !s2 )
return s1 ? 1 : ( s2 ? -1 : 0 );
for ( ; len--; s1++, s2++ ) {
if ( (res = (c=tolower(*s1)) - tolower(*s2)) )
return res;
if ( !c ) // strings are equal
break;
}
return 0;
}
static Q_UINT16 crc_tbl[16];
static bool crc_tbl_init = FALSE;
static void createCRC16Table() // build CRC16 lookup table
{
register uint i;
register uint j;
uint v0, v1, v2, v3;
for ( i = 0; i < 16; i++ ) {
v0 = i & 1;
v1 = ( i >> 1 ) & 1;
v2 = ( i >> 2 ) & 1;
v3 = ( i >> 3 ) & 1;
j = 0;
#undef SET_BIT
#define SET_BIT(x, b, v) (x) |= (v) << (b)
SET_BIT( j, 0, v0 );
SET_BIT( j, 7, v0 );
SET_BIT( j, 12, v0 );
SET_BIT( j, 1, v1 );
SET_BIT( j, 8, v1 );
SET_BIT( j, 13, v1 );
SET_BIT( j, 2, v2 );
SET_BIT( j, 9, v2 );
SET_BIT( j, 14, v2 );
SET_BIT( j, 3, v3 );
SET_BIT( j, 10, v3 );
SET_BIT( j, 15, v3 );
crc_tbl[i] = j;
}
}
/*!
\relates QMemArray
Returns the CRC-16 checksum of \a len bytes starting at \a data.
The checksum is independent of the byte order (endianness).
*/
Q_UINT16 qChecksum( const char *data, uint len )
{
if ( !crc_tbl_init ) { // create lookup table
createCRC16Table();
crc_tbl_init = TRUE;
}
register Q_UINT16 crc = 0xffff;
uchar c;
uchar *p = (uchar *)data;
while ( len-- ) {
c = *p++;
crc = ( (crc >> 4) & 0x0fff ) ^ crc_tbl[((crc ^ c) & 15)];
c >>= 4;
crc = ( (crc >> 4) & 0x0fff ) ^ crc_tbl[((crc ^ c) & 15)];
}
return ~crc & 0xffff;
}
/*****************************************************************************
QByteArray documentation
*****************************************************************************/
/*!
\class QByteArray
\brief The QByteArray class provides an array of bytes.
\ingroup collection
\ingroup tools
The QByteArray class provides an explicitly shared array of bytes.
It is useful for manipulating memory areas with custom data.
QByteArray is implemented as a QMemArray\<char\>. See the \l
QMemArray documentation for further information.
*/
/*!
\fn QByteArray::QByteArray()
Constructs an empty QByteArray.
*/
/*!
\fn QByteArray::QByteArray( int size )
Constructs a QByteArray of size \a size.
*/
/*****************************************************************************
QByteArray stream functions
*****************************************************************************/
/*!
\relates QMemArray
Writes byte array \a a to the stream \a s and returns a reference
to the stream.
\sa \link datastreamformat.html Format of the QDataStream operators \endlink
*/
#ifndef QT_NO_DATASTREAM
QDataStream &operator<<( QDataStream &s, const QByteArray &a )
{
return s.writeBytes( a.data(), a.size() );
}
/*!
\relates QMemArray
Reads a byte array into \a a from the stream \a s and returns a
reference to the stream.
\sa \link datastreamformat.html Format of the QDataStream operators \endlink
*/
QDataStream &operator>>( QDataStream &s, QByteArray &a )
{
Q_UINT32 len;
s >> len; // read size of array
if ( len == 0 || s.eof() ) { // end of file reached
a.resize( 0 );
return s;
}
if ( !a.resize( (uint)len ) ) { // resize array
#if defined(QT_CHECK_NULL)
qWarning( "QDataStream: Not enough memory to read QByteArray" );
#endif
len = 0;
}
if ( len > 0 ) // not null array
s.readRawBytes( a.data(), (uint)len );
return s;
}
#endif //QT_NO_DATASTREAM
/*****************************************************************************
QCString member functions
*****************************************************************************/
/*!
\class QCString qcstring.h
\brief The QCString class provides an abstraction of the classic C
zero-terminated char array (char *).
\ingroup text
\ingroup collection
\ingroup tools
\ingroup shared
QCString inherits QByteArray, which is defined as
QMemArray\<char\>. Since QCString is a QMemArray, it uses \link
shclass.html explicit sharing\endlink with a reference count.
QCString tries to behave like a more convenient \c{const char *}.
The price of doing this is that some algorithms will perform
badly. For example, append() is O(length()) since it scans for a
null terminator. Although you might use QCString for text that is
never exposed to the user, for most purposes, and especially for
user-visible text, you should use QString. QString provides
implicit sharing, Unicode and other internationalization support,
and is well optimized.
Note that for the QCString methods that take a \c{const char *}
parameter the \c{const char *} must either be 0 (null) or not-null
and '\0' (NUL byte) terminated; otherwise the results are
undefined.
A QCString that has not been assigned to anything is \e null, i.e.
both the length and the data pointer is 0. A QCString that
references the empty string ("", a single '\0' char) is \e empty.
Both null and empty QCStrings are legal parameters to the methods.
Assigning \c{const char *} 0 to QCString produces a null QCString.
The length() function returns the length of the string; resize()
resizes the string and truncate() truncates the string. A string
can be filled with a character using fill(). Strings can be left
or right padded with characters using leftJustify() and
rightJustify(). Characters, strings and regular expressions can be
searched for using find() and findRev(), and counted using
contains().
Strings and characters can be inserted with insert() and appended
with append(). A string can be prepended with prepend().
Characters can be removed from the string with remove() and
replaced with replace().
Portions of a string can be extracted using left(), right() and
mid(). Whitespace can be removed using stripWhiteSpace() and
simplifyWhiteSpace(). Strings can be converted to uppercase or
lowercase with upper() and lower() respectively.
Strings that contain numbers can be converted to numbers with
toShort(), toInt(), toLong(), toULong(), toFloat() and toDouble().
Numbers can be converted to strings with setNum().
Many operators are overloaded to work with QCStrings. QCString
also supports some more obscure functions, e.g. sprintf(),
setStr() and setExpand().
\target asciinotion
\sidebar Note on Character Comparisons
In QCString the notion of uppercase and lowercase and of which
character is greater than or less than another character is locale
dependent. This affects functions which support a case insensitive
option or which compare or lowercase or uppercase their arguments.
Case insensitive operations and comparisons will be accurate if
both strings contain only ASCII characters. (If \c $LC_CTYPE is
set, most Unix systems do "the right thing".) Functions that this
affects include contains(), find(), findRev(), \l operator<(), \l
operator<=(), \l operator>(), \l operator>=(), lower() and
upper().
This issue does not apply to \l{QString}s since they represent
characters using Unicode.
\endsidebar
Performance note: The QCString methods for QRegExp searching are
implemented by converting the QCString to a QString and performing
the search on that. This implies a deep copy of the QCString data.
If you are going to perform many QRegExp searches on a large
QCString, you will get better performance by converting the
QCString to a QString yourself, and then searching in the QString.
*/
/*!
\fn QCString::QCString()
Constructs a null string.
\sa isNull()
*/
/*!
\fn QCString::QCString( const QCString &s )
Constructs a shallow copy \a s.
\sa assign()
*/
/*!
Constructs a string with room for \a size characters, including
the '\0'-terminator. Makes a null string if \a size == 0.
If \a size \> 0, then the first and last characters in the string
are initialized to '\0'. All other characters are uninitialized.
\sa resize(), isNull()
*/
QCString::QCString( int size )
: QByteArray( size )
{
if ( size > 0 ) {
*data() = '\0'; // set terminator
*(data()+(size-1)) = '\0';
}
}
/*!
Constructs a string that is a deep copy of \a str.
If \a str is 0 a null string is created.
\sa isNull()
*/
QCString::QCString( const char *str )
{
duplicate( str, qstrlen(str) + 1 );
}
/*!
Constructs a string that is a deep copy of \a str. The copy will
be at most \a maxsize bytes long including the '\0'-terminator.
Example:
\code
QCString str( "helloworld", 6 ); // assigns "hello" to str
\endcode
If \a str contains a 0 byte within the first \a maxsize bytes, the
resulting QCString will be terminated by this 0. If \a str is 0 a
null string is created.
\sa isNull()
*/
QCString::QCString( const char *str, uint maxsize )
{
if ( str == 0 )
return;
uint len; // index of first '\0'
for ( len = 0; len < maxsize - 1; len++ ) {
if ( str[len] == '\0' )
break;
}
QByteArray::resize( len + 1 );
memcpy( data(), str, len );
data()[len] = 0;
}
/*!
\reimp
*/
QCString::~QCString()
{
}
/*!
\fn QCString &QCString::operator=( const QCString &s )
Assigns a shallow copy of \a s to this string and returns a
reference to this string.
*/
/*!
\overload QCString &QCString::operator=( const char *str )
Assigns a deep copy of \a str to this string and returns a
reference to this string.
If \a str is 0 a null string is created.
\sa isNull()
*/
/*!
\fn bool QCString::isNull() const
Returns TRUE if the string is null, i.e. if data() == 0; otherwise
returns FALSE. A null string is also an empty string.
Example:
\code
QCString a; // a.data() == 0, a.size() == 0, a.length() == 0
QCString b == ""; // b.data() == "", b.size() == 1, b.length() == 0
a.isNull(); // TRUE because a.data() == 0
a.isEmpty(); // TRUE because a.length() == 0
b.isNull(); // FALSE because b.data() == ""
b.isEmpty(); // TRUE because b.length() == 0
\endcode
\sa isEmpty(), length(), size()
*/
/*!
\fn bool QCString::isEmpty() const
Returns TRUE if the string is empty, i.e. if length() == 0;
otherwise returns FALSE. An empty string is not always a null
string.
See example in isNull().
\sa isNull(), length(), size()
*/
/*!
\fn uint QCString::length() const
Returns the length of the string, excluding the '\0'-terminator.
Equivalent to calling \c strlen(data()).
Null strings and empty strings have zero length.
\sa size(), isNull(), isEmpty()
*/
/*!
\fn bool QCString::truncate( uint pos )
Truncates the string at position \a pos.
Equivalent to calling \c resize(pos+1).
Example:
\code
QCString s = "truncate this string";
s.truncate( 5 ); // s == "trunc"
\endcode
\sa resize()
*/
/*!
Extends or shrinks the string to \a len bytes, including the
'\0'-terminator.
A '\0'-terminator is set at position \c{len - 1} unless
\c{len == 0}.
Example:
\code
QCString s = "resize this string";
s.resize( 7 ); // s == "resize"
\endcode
\sa truncate()
*/
bool QCString::resize( uint len )
{
detach();
uint wasNull = isNull();
if ( !QByteArray::resize(len) )
return FALSE;
if ( len )
data()[len - 1] = '\0';
if ( len > 0 && wasNull )
data()[0] = '\0';
return TRUE;
}
/*!
Implemented as a call to the native vsprintf() (see the manual for
your C library).
If the string is shorter than 256 characters, this sprintf() calls
resize(256) to decrease the chance of memory corruption. The
string is resized back to its actual length before sprintf()
returns.
Example:
\code
QCString s;
s.sprintf( "%d - %s", 1, "first" ); // result < 256 chars
QCString big( 25000 ); // very long string
big.sprintf( "%d - %s", 2, longString ); // result < 25000 chars
\endcode
\warning All vsprintf() implementations will write past the end of
the target string (*this) if the \a format specification and
arguments happen to be longer than the target string, and some
will also fail if the target string is longer than some arbitrary
implementation limit.
Giving user-supplied arguments to sprintf() is risky: Sooner or
later someone will paste a huge line into your application.
*/
QCString &QCString::sprintf( const char *format, ... )
{
detach();
va_list ap;
va_start( ap, format );
if ( size() < 256 )
QByteArray::resize( 256 ); // make string big enough
vsprintf( data(), format, ap );
resize( qstrlen(data()) + 1 ); // truncate
va_end( ap );
return *this;
}
/*!
Fills the string with \a len bytes of character \a c, followed by
a '\0'-terminator.
If \a len is negative, then the current string length is used.
Returns FALSE is \a len is nonnegative and there is not enough
memory to resize the string; otherwise returns TRUE.
*/
bool QCString::fill( char c, int len )
{
detach();
if ( len < 0 )
len = length();
if ( !QByteArray::fill(c,len+1) )
return FALSE;
*(data()+len) = '\0';
return TRUE;
}
/*!
\fn QCString QCString::copy() const
Returns a deep copy of this string.
\sa detach()
*/
/*!
Finds the first occurrence of the character \a c, starting at
position \a index.
The search is case sensitive if \a cs is TRUE, or case insensitive
if \a cs is FALSE.
Returns the position of \a c, or -1 if \a c could not be found.
\sa \link #asciinotion Note on character comparisons \endlink
*/
int QCString::find( char c, int index, bool cs ) const
{
if ( (uint)index >= size() ) // index outside string
return -1;
register const char *d;
if ( cs ) { // case sensitive
d = strchr( data()+index, c );
} else {
d = data()+index;
c = tolower( (uchar) c );
while ( *d && tolower((uchar) *d) != c )
d++;
if ( !*d && c ) // not found
d = 0;
}
return d ? (int)(d - data()) : -1;
}
/*!
\overload
Finds the first occurrence of the string \a str, starting at
position \a index.
The search is case sensitive if \a cs is TRUE, or case insensitive
if \a cs is FALSE.
Returns the position of \a str, or -1 if \a str could not be
found.
\sa \link #asciinotion Note on character comparisons \endlink
*/
int QCString::find( const char *str, int index, bool cs ) const
{
if ( (uint)index >= size() ) // index outside string
return -1;
if ( !str ) // no search string
return -1;
if ( !*str ) // zero-length search string
return index;
register const char *d;
if ( cs ) { // case sensitive
d = strstr( data()+index, str );
} else { // case insensitive
d = data()+index;
int len = qstrlen( str );
while ( *d ) {
if ( qstrnicmp(d, str, len) == 0 )
break;
d++;
}
if ( !*d ) // not found
d = 0;
}
return d ? (int)(d - data()) : -1;
}
/*!
Finds the first occurrence of the character \a c, starting at
position \a index and searching backwards.
The search is case sensitive if \a cs is TRUE, or case insensitive
if \a cs is FALSE.
Returns the position of \a c, or -1 if \a c could not be found.
\sa \link #asciinotion Note on character comparisons \endlink
*/
int QCString::findRev( char c, int index, bool cs ) const
{
const char *b = data();
const char *d;
if ( index < 0 ) { // neg index ==> start from end
if ( size() == 0 )
return -1;
if ( cs ) {
d = strrchr( b, c );
return d ? (int)(d - b) : -1;
}
index = length();
} else if ( (uint)index >= size() ) { // bad index
return -1;
}
d = b+index;
if ( cs ) { // case sensitive
while ( d >= b && *d != c )
d--;
} else { // case insensitive
c = tolower( (uchar) c );
while ( d >= b && tolower((uchar) *d) != c )
d--;
}
return d >= b ? (int)(d - b) : -1;
}
/*!
\overload
Finds the first occurrence of the string \a str, starting at
position \a index and searching backwards.
The search is case sensitive if \a cs is TRUE, or case insensitive
if \a cs is FALSE.
Returns the position of \a str, or -1 if \a str could not be
found.
\sa \link #asciinotion Note on character comparisons \endlink
*/
int QCString::findRev( const char *str, int index, bool cs ) const
{
int slen = qstrlen(str);
if ( index < 0 ) // neg index ==> start from end
index = length()-slen;
else if ( (uint)index >= size() ) // bad index
return -1;
else if ( (uint)(index + slen) > length() ) // str would be too long
index = length() - slen;
if ( index < 0 )
return -1;
register char *d = data() + index;
if ( cs ) { // case sensitive
for ( int i=index; i>=0; i-- )
if ( qstrncmp(d--,str,slen)==0 )
return i;
} else { // case insensitive
for ( int i=index; i>=0; i-- )
if ( qstrnicmp(d--,str,slen)==0 )
return i;
}
return -1;
}
/*!
Returns the number of times the character \a c occurs in the
string.
The match is case sensitive if \a cs is TRUE, or case insensitive
if \a cs if FALSE.
\sa \link #asciinotion Note on character comparisons \endlink
*/
int QCString::contains( char c, bool cs ) const
{
int count = 0;
char *d = data();
if ( !d )
return 0;
if ( cs ) { // case sensitive
while ( *d )
if ( *d++ == c )
count++;
} else { // case insensitive
c = tolower( (uchar) c );
while ( *d ) {
if ( tolower((uchar) *d) == c )
count++;
d++;
}
}
return count;
}
/*!
\overload
Returns the number of times \a str occurs in the string.
The match is case sensitive if \a cs is TRUE, or case insensitive
if \a cs if FALSE.
This function counts overlapping substrings, for example, "banana"
contains two occurrences of "ana".
\sa findRev()
\link #asciinotion Note on character comparisons \endlink
*/
int QCString::contains( const char *str, bool cs ) const
{
int count = 0;
char *d = data();
if ( !d )
return 0;
int len = qstrlen( str );
while ( *d ) { // counts overlapping strings
if ( cs ) {
if ( qstrncmp( d, str, len ) == 0 )
count++;
} else {
if ( qstrnicmp(d, str, len) == 0 )
count++;
}
d++;
}
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.
Example:
\code
QCString s = "Pineapple";
QCString t = s.left( 4 ); // t == "Pine"
\endcode
\sa right(), mid()
*/
QCString QCString::left( uint len ) const
{
if ( isEmpty() ) {
QCString empty;
return empty;
} else if ( len >= size() ) {
QCString same( data() );
return same;
} else {
QCString s( len+1 );
strncpy( s.data(), data(), len );
*(s.data()+len) = '\0';
return s;
}
}
/*!
Returns a substring that contains the \a len rightmost characters
of the string.
The whole string is returned if \a len exceeds the length of the
string.
Example:
\code
QCString s = "Pineapple";
QCString t = s.right( 5 ); // t == "apple"
\endcode
\sa left(), mid()
*/
QCString QCString::right( uint len ) const
{
if ( isEmpty() ) {
QCString empty;
return empty;
} else {
uint l = length();
if ( len > l )
len = l;
char *p = data() + (l - len);
return QCString( p );
}
}
/*!
Returns a substring that contains at most \a len characters from
this string, starting at position \a index.
Returns a null string if the string is empty or if \a index is out
of range. Returns the whole string from \a index if \a index+len
exceeds the length of the string.
Example:
\code
QCString s = "Two pineapples";
QCString t = s.mid( 4, 3 ); // t == "pin"
\endcode
\sa left(), right()
*/
QCString QCString::mid( uint index, uint len ) const
{
uint slen = qstrlen( data() );
if ( isEmpty() || index >= slen ) {
QCString empty;
return empty;
} else {
if ( len > slen-index )
len = slen - index;
register char *p = data()+index;
QCString s( len+1 );
strncpy( s.data(), p, len );
*(s.data()+len) = '\0';
return s;
}
}
/*!
Returns a string of length \a width (plus one for the terminating
'\0') that contains this string padded with the \a fill character.
If the length of the string exceeds \a width and \a truncate is
FALSE (the default), then the returned string is a copy of the
string. If the length of the string exceeds \a width and \a
truncate is TRUE, then the returned string is a left(\a width).
Example:
\code
QCString s("apple");
QCString t = s.leftJustify(8, '.'); // t == "apple..."
\endcode
\sa rightJustify()
*/
QCString QCString::leftJustify( uint width, char fill, bool truncate ) const
{
QCString result;
int len = qstrlen(data());
int padlen = width - len;
if ( padlen > 0 ) {
result.QByteArray::resize( len+padlen+1 );
memcpy( result.data(), data(), len );
memset( result.data()+len, fill, padlen );
result[len+padlen] = '\0';
} else {
if ( truncate )
result = left( width );
else
result = copy();
}
return result;
}
/*!
Returns a string of length \a width (plus one for the terminating
'\0') that contains zero or more of the \a fill character followed
by this string.
If the length of the string exceeds \a width and \a truncate is
FALSE (the default), then the returned string is a copy of the
string. If the length of the string exceeds \a width and \a
truncate is TRUE, then the returned string is a left(\a width).
Example:
\code
QCString s("pie");
QCString t = s.rightJustify(8, '.'); // t == ".....pie"
\endcode
\sa leftJustify()
*/
QCString QCString::rightJustify( uint width, char fill, bool truncate ) const
{
QCString result;
int len = qstrlen(data());
int padlen = width - len;
if ( padlen > 0 ) {
result.QByteArray::resize( len+padlen+1 );
memset( result.data(), fill, padlen );
memcpy( result.data()+padlen, data(), len );
result[len+padlen] = '\0';
} else {
if ( truncate )
result = left( width );
else
result = copy();
}
return result;
}
/*!
Returns a new string that is a copy of this string converted to lower
case.
Example:
\code
QCString s("Credit");
QCString t = s.lower(); // t == "credit"
\endcode
\sa upper()
\link #asciinotion Note on character comparisons \endlink
*/
QCString QCString::lower() const
{
QCString s( data() );
register char *p = s.data();
if ( p ) {
while ( *p ) {
*p = tolower( (uchar) *p );
p++;
}
}
return s;
}
/*!
Returns a new string that is a copy of this string converted to upper case.
Example:
\code
QCString s( "Debit" );
QCString t = s.upper(); // t == "DEBIT"
\endcode
\sa lower()
\link #asciinotion Note on character comparisons \endlink
*/
QCString QCString::upper() const
{
QCString s( data() );
register char *p = s.data();
if ( p ) {
while ( *p ) {
*p = toupper(*p);
p++;
}
}
return s;
}
/*!
Returns a new string that has white space removed from the start
and the end.
White space means the decimal ASCII codes 9, 10, 11, 12, 13 and
32.
Example:
\code
QCString s = " space ";
QCString t = s.stripWhiteSpace(); // t == "space"
\endcode
\sa simplifyWhiteSpace()
*/
QCString QCString::stripWhiteSpace() const
{
if ( isEmpty() ) // nothing to do
return copy();
register char *s = data();
QCString result = s;
int reslen = result.length();
if ( !isspace((uchar) s[0]) && !isspace((uchar) s[reslen-1]) )
return result; // returns a copy
s = result.data();
int start = 0;
int end = reslen - 1;
while ( isspace((uchar) s[start]) ) // skip white space from start
start++;
if ( s[start] == '\0' ) { // only white space
result.resize( 1 );
return result;
}
while ( end && isspace((uchar) s[end]) ) // skip white space from end
end--;
end -= start - 1;
memmove( result.data(), &s[start], end );
result.resize( end + 1 );
return result;
}
/*!
Returns a new string that has white space removed from the start
and the end, plus any sequence of internal white space replaced
with a single space (ASCII 32).
White space means the decimal ASCII codes 9, 10, 11, 12, 13 and
32.
\code
QCString s = " lots\t of\nwhite space ";
QCString t = s.simplifyWhiteSpace(); // t == "lots of white space"
\endcode
\sa stripWhiteSpace()
*/
QCString QCString::simplifyWhiteSpace() const
{
if ( isEmpty() ) // nothing to do
return copy();
QCString result( size() );
char *from = data();
char *to = result.data();
char *first = to;
for ( ;; ) {
while ( isspace((uchar) *from) )
from++;
while ( *from && !isspace((uchar) *from) )
*to++ = *from++;
if ( *from )
*to++ = 0x20; // ' '
else
break;
}
if ( to > first && *(to-1) == 0x20 )
to--;
*to = '\0';
result.resize( (int)(to - result.data()) + 1 );
return result;
}
/*!
\overload
Inserts string \a s into the string at position \a index.
If \a index is beyond the end of the string, the string is
padded with spaces (ASCII 32) to length \a index and then \a s
is appended.
\code
QCString s = "I like fish";
s.insert( 2, "don't "); // s == "I don't like fish"
s = "x"; // index 01234
s.insert( 3, "yz" ); // s == "x yz"
\endcode
*/
QCString &QCString::insert( uint index, const char *s )
{
int len = qstrlen(s);
if ( len == 0 )
return *this;
uint olen = length();
int nlen = olen + len;
if ( index >= olen ) { // insert after end of string
detach();
if ( QByteArray::resize(nlen+index-olen+1) ) {
memset( data()+olen, ' ', index-olen );
memcpy( data()+index, s, len+1 );
}
} else if ( QByteArray::resize(nlen+1) ) { // normal insert
detach();
memmove( data()+index+len, data()+index, olen-index+1 );
memcpy( data()+index, s, len );
}
return *this;
}
/*!
Inserts character \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
padded with spaces (ASCII 32) to length \a index and then \a c
is appended.
Example:
\code
QCString s = "Yes";
s.insert( 3, '!'); // s == "Yes!"
\endcode
\sa remove(), replace()
*/
QCString &QCString::insert( uint index, char c ) // insert char
{
char buf[2];
buf[0] = c;
buf[1] = '\0';
return insert( index, buf );
}
/*!
\fn QCString &QCString::prepend( const char *s )
Prepend \a s to the string. Equivalent to insert(0, s).
\sa insert()
*/
/*!
Removes \a len characters from the string, starting at position \a
index, and returns a reference to the string.
If \a index is out of range, nothing happens. If \a index is
valid, but \a index + \a len is larger than the length of the
string, the string is truncated at position \a index.
\code
QCString s = "Montreal";
s.remove( 1, 4 ); // s == "Meal"
\endcode
\sa insert(), replace()
*/
QCString &QCString::remove( uint index, uint len )
{
uint olen = length();
if ( index + len >= olen ) { // range problems
if ( index < olen ) { // index ok
detach();
resize( index+1 );
}
} else if ( len != 0 ) {
detach();
memmove( data()+index, data()+index+len, olen-index-len+1 );
QByteArray::resize(olen-len+1);
}
return *this;
}
/*!
Replaces \a len characters from the string, starting at position
\a index, with \a str, and returns a reference to the string.
If \a index is out of range, nothing is removed and \a str is
appended at the end of the string. If \a index is valid, but \a
index + \a len is larger than the length of the string, \a str
replaces the rest of the string from position \a index.
\code
QCString s = "Say yes!";
s.replace( 4, 3, "NO" ); // s == "Say NO!"
\endcode
\sa insert(), remove()
*/
QCString &QCString::replace( uint index, uint len, const char *str )
{
remove( index, len );
insert( index, str );
return *this;
}
#ifndef QT_NO_REGEXP
/*!
\overload
Finds the first occurrence of the regular expression \a rx,
starting at position \a index.
Returns the position of the next match, or -1 if \a rx was not
found.
\warning If you want to apply this function repeatedly to the same
string it is more efficient to convert the string to a QString and
apply the function to that.
*/
int QCString::find( const QRegExp& rx, int index ) const
{
QString d = QString::fromLatin1( data() );
return d.find( rx, index );
}
/*!
\overload
Finds the first occurrence of the regular expression \a rx,
starting at position \a index and searching backwards.
Returns the position of the next match (backwards), or -1 if \a rx
was not found.
\warning If you want to apply this function repeatedly to the same
string it is more efficient to convert the string to a QString and
apply the function to that.
*/
int QCString::findRev( const QRegExp& rx, int index ) const
{
QString d = QString::fromLatin1( data() );
return d.findRev( rx, index );
}
/*!
\overload
Counts the number of overlapping occurrences of \a rx in the string.
Example:
\code
QString s = "banana and panama";
QRegExp r = QRegExp( "a[nm]a", TRUE, FALSE );
s.contains( r ); // 4 matches
\endcode
\sa find(), findRev()
\warning If you want to apply this function repeatedly to the same
string it is more efficient to convert the string to a QString and
apply the function to that.
*/
int QCString::contains( const QRegExp &rx ) const
{
QString d = QString::fromLatin1( data() );
return d.contains( rx );
}
/*!
\overload
Replaces every occurrence of \a rx in the string with \a str.
Returns a reference to the string.
Example:
\code
QString s = "banana";
s.replace( QRegExp("a.*a"), "" ); // becomes "b"
s = "banana";
s.replace( QRegExp("^[bn]a"), " " ); // becomes " nana"
s = "banana";
s.replace( QRegExp("^[bn]a"), "" ); // NOTE! becomes ""
\endcode
The last example may be surprising. The semantics are that the
regex is applied to the string \e repeatedly, so first the leading
"ba" is removed, then the "na", then the final "na" leaving an
empty string.
\warning If you want to apply this function repeatedly to the same
string it is more efficient to convert the string to a QString and
apply the function to that.
*/
QCString &QCString::replace( const QRegExp &rx, const char *str )
{
QString d = QString::fromLatin1( data() );
QString r = QString::fromLatin1( str );
d.replace( rx, r );
setStr( d.ascii() );
return *this;
}
#endif //QT_NO_REGEXP
/*!
Returns the string converted to a \c long value.
If \a ok is not 0: \a *ok is set to FALSE if the string is not a
number, or if it has trailing garbage; otherwise \a *ok is set to
TRUE.
*/
long QCString::toLong( bool *ok ) const
{
char *p = data();
long val=0;
const long max_mult = 214748364;
bool is_ok = FALSE;
int neg = 0;
if ( !p )
goto bye;
while ( isspace((uchar) *p) ) // skip leading space
p++;
if ( *p == '-' ) {
p++;
neg = 1;
} else if ( *p == '+' ) {
p++;
}
if ( !isdigit((uchar) *p) )
goto bye;
while ( isdigit((uchar) *p) ) {
if ( val > max_mult || (val == max_mult && (*p-'0') > 7+neg) )
goto bye;
val = 10*val + (*p++ - '0');
}
if ( neg )
val = -val;
while ( isspace((uchar) *p) ) // skip trailing space
p++;
if ( *p == '\0' )
is_ok = TRUE;
bye:
if ( ok )
*ok = is_ok;
return is_ok ? val : 0;
}
/*!
Returns the string converted to an \c{unsigned long} value.
If \a ok is not 0: \a *ok is set to FALSE if the string is not a
number, or if it has trailing garbage; otherwise \a *ok is set to
TRUE.
*/
ulong QCString::toULong( bool *ok ) const
{
char *p = data();
ulong val=0;
const ulong max_mult = 429496729;
bool is_ok = FALSE;
if ( !p )
goto bye;
while ( isspace((uchar) *p) ) // skip leading space
p++;
if ( *p == '+' )
p++;
if ( !isdigit((uchar) *p) )
goto bye;
while ( isdigit((uchar) *p) ) {
if ( val > max_mult || (val == max_mult && (*p-'0') > 5) )
goto bye;
val = 10*val + (*p++ - '0');
}
while ( isspace((uchar) *p) ) // skip trailing space
p++;
if ( *p == '\0' )
is_ok = TRUE;
bye:
if ( ok )
*ok = is_ok;
return is_ok ? val : 0;
}
/*!
Returns the string converted to a \c{short} value.
If \a ok is not 0: \a *ok is set to FALSE if the string is not a
number, is out of range, or if it has trailing garbage; otherwise
\a *ok is set to TRUE.
*/
short QCString::toShort( bool *ok ) const
{
long v = toLong( ok );
if ( ok && *ok && (v < -32768 || v > 32767) )
*ok = FALSE;
return (short)v;
}
/*!
Returns the string converted to an \c{unsigned short} value.
If \a ok is not 0: \a *ok is set to FALSE if the string is not a
number, is out of range, or if it has trailing garbage; otherwise
\a *ok is set to TRUE.
*/
ushort QCString::toUShort( bool *ok ) const
{
ulong v = toULong( ok );
if ( ok && *ok && (v > 65535) )
*ok = FALSE;
return (ushort)v;
}
/*!
Returns the string converted to a \c{int} value.
If \a ok is not 0: \a *ok is set to FALSE if the string is not a
number, or if it has trailing garbage; otherwise \a *ok is set to
TRUE.
*/
int QCString::toInt( bool *ok ) const
{
return (int)toLong( ok );
}
/*!
Returns the string converted to an \c{unsigned int} value.
If \a ok is not 0: \a *ok is set to FALSE if the string is not a
number, or if it has trailing garbage; otherwise \a *ok is set to
TRUE.
*/
uint QCString::toUInt( bool *ok ) const
{
return (uint)toULong( ok );
}
/*!
Returns the string converted to a \c{double} value.
If \a ok is not 0: \a *ok is set to FALSE if the string is not a
number, or if it has trailing garbage; otherwise \a *ok is set to
TRUE.
*/
double QCString::toDouble( bool *ok ) const
{
char *end;
double val = strtod( data() ? data() : "", &end );
if ( ok )
*ok = ( data() && *data() && ( end == 0 || *end == '\0' ) );
return val;
}
/*!
Returns the string converted to a \c{float} value.
If \a ok is not 0: \a *ok is set to FALSE if the string is not a
number, or if it has trailing garbage; otherwise \a *ok is set to
TRUE.
*/
float QCString::toFloat( bool *ok ) const
{
return (float)toDouble( ok );
}
/*!
Makes a deep copy of \a str. Returns a reference to the string.
*/
QCString &QCString::setStr( const char *str )
{
detach();
if ( str ) // valid string
store( str, qstrlen(str)+1 );
else // empty
resize( 0 );
return *this;
}
/*!
\overload
Sets the string to the string representation of the number \a n
and returns a reference to the string.
*/
QCString &QCString::setNum( long n )
{
detach();
char buf[20];
register char *p = &buf[19];
bool neg;
if ( n < 0 ) {
neg = TRUE;
n = -n;
} else {
neg = FALSE;
}
*p = '\0';
do {
*--p = ((int)(n%10)) + '0';
n /= 10;
} while ( n );
if ( neg )
*--p = '-';
store( p, qstrlen(p)+1 );
return *this;
}
/*!
\overload
Sets the string to the string representation of the number \a n
and returns a reference to the string.
*/
QCString &QCString::setNum( ulong n )
{
detach();
char buf[20];
register char *p = &buf[19];
*p = '\0';
do {
*--p = ((int)(n%10)) + '0';
n /= 10;
} while ( n );
store( p, qstrlen(p)+1 );
return *this;
}
/*!
\overload QCString &QCString::setNum( int n )
Sets the string to the string representation of the number \a n
and returns a reference to the string.
*/
/*!
\overload QCString &QCString::setNum( uint n )
Sets the string to the string representation of the number \a n
and returns a reference to the string.
*/
/*!
\overload QCString &QCString::setNum( short n )
Sets the string to the string representation of the number \a n
and returns a reference to the string.
*/
/*!
\overload QCString &QCString::setNum( ushort n )
Sets the string to the string representation of the number \a n
and returns a reference to the string.
*/
/*!
Sets the string to the string representation of the number \a n
and returns a reference to the string.
The format of the string representation is specified by the format
character \a f, and the precision (number of digits after the
decimal point) is specified with \a prec.
The valid formats for \a f are 'e', 'E', 'f', 'g' and 'G'. The
formats are the same as for sprintf(); they are explained in \l
QString::arg().
*/
QCString &QCString::setNum( double n, char f, int prec )
{
#if defined(QT_CHECK_RANGE)
if ( !(f=='f' || f=='F' || f=='e' || f=='E' || f=='g' || f=='G') )
qWarning( "QCString::setNum: Invalid format char '%c'", f );
#endif
char format[20];
register char *fs = format; // generate format string
*fs++ = '%'; // "%.<prec>l<f>"
if ( prec > 99 )
prec = 99;
*fs++ = '.';
if ( prec >= 10 ) {
*fs++ = prec / 10 + '0';
*fs++ = prec % 10 + '0';
} else {
*fs++ = prec + '0';
}
*fs++ = 'l';
*fs++ = f;
*fs = '\0';
return sprintf( format, n );
}
/*! \overload QCString &QCString::setNum( float n, char f, int prec ) */
/*!
Sets the character at position \a index to \a c and expands the
string if necessary, padding with spaces.
Returns FALSE if \a index was out of range and the string could
not be expanded; otherwise returns TRUE.
*/
bool QCString::setExpand( uint index, char c )
{
detach();
uint oldlen = length();
if ( index >= oldlen ) {
if ( !QByteArray::resize( index+2 ) ) // no memory
return FALSE;
if ( index > oldlen )
memset( data() + oldlen, ' ', index - oldlen );
*(data() + index+1) = '\0'; // terminate padded string
}
*(data() + index) = c;
return TRUE;
}
/*!
\fn QCString::operator const char *() const
Returns the string data.
*/
/*!
\fn QCString& QCString::append( const char *str )
Appends string \a str to the string and returns a reference to the
string. Equivalent to operator+=().
*/
/*!
Appends string \a str to the string and returns a reference to the string.
*/
QCString& QCString::operator+=( const char *str )
{
if ( !str )
return *this; // nothing to append
detach();
uint len1 = length();
uint len2 = qstrlen(str);
if ( !QByteArray::resize( len1 + len2 + 1 ) )
return *this; // no memory
memcpy( data() + len1, str, len2 + 1 );
return *this;
}
/*!
\overload
Appends character \a c to the string and returns a reference to the string.
*/
QCString &QCString::operator+=( char c )
{
detach();
uint len = length();
if ( !QByteArray::resize( len + 2 ) )
return *this; // no memory
*(data() + len) = c;
*(data() + len+1) = '\0';
return *this;
}
/*****************************************************************************
QCString stream functions
*****************************************************************************/
#ifndef QT_NO_DATASTREAM
/*!
\relates QCString
Writes string \a str to the stream \a s.
\sa \link datastreamformat.html Format of the QDataStream operators \endlink
*/
QDataStream &operator<<( QDataStream &s, const QCString &str )
{
return s.writeBytes( str.data(), str.size() );
}
/*!
\relates QCString
Reads a string into \a str from the stream \a s.
\sa \link datastreamformat.html Format of the QDataStream operators \endlink
*/
QDataStream &operator>>( QDataStream &s, QCString &str )
{
str.detach();
Q_UINT32 len;
s >> len; // read size of string
if ( len == 0 || s.eof() ) { // end of file reached
str.resize( 0 );
return s;
}
if ( !str.QByteArray::resize( (uint)len )) {// resize string
#if defined(QT_CHECK_NULL)
qWarning( "QDataStream: Not enough memory to read QCString" );
#endif
len = 0;
}
if ( len > 0 ) // not null array
s.readRawBytes( str.data(), (uint)len );
return s;
}
#endif //QT_NO_DATASTREAM
/*****************************************************************************
Documentation for related functions
*****************************************************************************/
/*!
\fn bool operator==( const QCString &s1, const QCString &s2 )
\relates QCString
Returns TRUE if \a s1 and \a s2 are equal; otherwise returns FALSE.
Equivalent to qstrcmp(\a s1, \a s2) == 0.
*/
/*!
\overload bool operator==( const QCString &s1, const char *s2 )
\relates QCString
Returns TRUE if \a s1 and \a s2 are equal; otherwise returns FALSE.
Equivalent to qstrcmp(\a s1, \a s2) == 0.
*/
/*!
\overload bool operator==( const char *s1, const QCString &s2 )
\relates QCString
Returns TRUE if \a s1 and \a s2 are equal; otherwise returns FALSE.
Equivalent to qstrcmp(\a s1, \a s2) == 0.
*/
/*!
\fn bool operator!=( const QCString &s1, const QCString &s2 )
\relates QCString
Returns TRUE if \a s1 and \a s2 are different; otherwise returns FALSE.
Equivalent to qstrcmp(\a s1, \a s2) != 0.
*/
/*!
\overload bool operator!=( const QCString &s1, const char *s2 )
\relates QCString
Returns TRUE if \a s1 and \a s2 are different; otherwise returns FALSE.
Equivalent to qstrcmp(\a s1, \a s2) != 0.
*/
/*!
\overload bool operator!=( const char *s1, const QCString &s2 )
\relates QCString
Returns TRUE if \a s1 and \a s2 are different; otherwise returns FALSE.
Equivalent to qstrcmp(\a s1, \a s2) != 0.
*/
/*!
\fn bool operator<( const QCString &s1, const char *s2 )
\relates QCString
Returns TRUE if \a s1 is less than \a s2; otherwise returns FALSE.
Equivalent to qstrcmp(\a s1, \a s2) \< 0.
\sa \link #asciinotion Note on character comparisons \endlink
*/
/*!
\overload bool operator<( const char *s1, const QCString &s2 )
\relates QCString
Returns TRUE if \a s1 is less than \a s2; otherwise returns FALSE.
Equivalent to qstrcmp(\a s1, \a s2) \< 0.
\sa \link #asciinotion Note on character comparisons \endlink
*/
/*!
\fn bool operator<=( const QCString &s1, const char *s2 )
\relates QCString
Returns TRUE if \a s1 is less than or equal to \a s2; otherwise
returns FALSE.
Equivalent to qstrcmp(\a s1, \a s2) \<= 0.
\sa \link #asciinotion Note on character comparisons \endlink
*/
/*!
\overload bool operator<=( const char *s1, const QCString &s2 )
\relates QCString
Returns TRUE if \a s1 is less than or equal to \a s2; otherwise
returns FALSE.
Equivalent to qstrcmp(\a s1, \a s2) \<= 0.
\sa \link #asciinotion Note on character comparisons \endlink
*/
/*!
\fn bool operator>( const QCString &s1, const char *s2 )
\relates QCString
Returns TRUE if \a s1 is greater than \a s2; otherwise returns FALSE.
Equivalent to qstrcmp(\a s1, \a s2) \> 0.
\sa \link #asciinotion Note on character comparisons \endlink
*/
/*!
\overload bool operator>( const char *s1, const QCString &s2 )
\relates QCString
Returns TRUE if \a s1 is greater than \a s2; otherwise returns FALSE.
Equivalent to qstrcmp(\a s1, \a s2) \> 0.
\sa \link #asciinotion Note on character comparisons \endlink
*/
/*!
\fn bool operator>=( const QCString &s1, const char *s2 )
\relates QCString
Returns TRUE if \a s1 is greater than or equal to \a s2; otherwise
returns FALSE.
Equivalent to qstrcmp(\a s1, \a s2) \>= 0.
\sa \link #asciinotion Note on character comparisons \endlink
*/
/*!
\overload bool operator>=( const char *s1, const QCString &s2 )
\relates QCString
Returns TRUE if \a s1 is greater than or equal to \a s2; otherwise
returns FALSE.
Equivalent to qstrcmp(\a s1, \a s2) \>= 0.
\sa \link #asciinotion Note on character comparisons \endlink
*/
/*!
\fn const QCString operator+( const QCString &s1, const QCString &s2 )
\relates QCString
Returns a string which consists of the concatenation of \a s1 and
\a s2.
*/
/*!
\overload const QCString operator+( const QCString &s1, const char *s2 )
\relates QCString
Returns a string which consists of the concatenation of \a s1 and \a s2.
*/
/*!
\overload const QCString operator+( const char *s1, const QCString &s2 )
\relates QCString
Returns a string which consists of the concatenation of \a s1 and \a s2.
*/
/*!
\overload const QCString operator+( const QCString &s, char c )
\relates QCString
Returns a string which consists of the concatenation of \a s and \a c.
*/
/*!
\overload const QCString operator+( char c, const QCString &s )
\relates QCString
Returns a string which consists of the concatenation of \a c and \a s.
*/
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