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/****************************************************************************
**
** Copyright (C) 1997-2015 by Dimitri van Heesch.
**
** Permission to use, copy, modify, and distribute this software and its
** documentation under the terms of the GNU General Public License is hereby
** granted. No representations are made about the suitability of this software
** for any purpose. It is provided "as is" without express or implied warranty.
** See the GNU General Public License for more details.
**
** Note: this is a reimplementation of the qcstring.h that came with
** an Qt version 2.2.3. For short strings it stores the string data inside
** the object. For long strings it uses a separate array with reference counting.
**
**********************************************************************/
#ifndef QCSTRING_H
#define QCSTRING_H
#include <string>
#include <algorithm>
#include <cctype>
#include <cstring>
#include <cstdio>
#include <cstdlib>
#include <cstdint>
#include <ostream>
#include "utf8.h"
#ifndef FALSE
#define FALSE false
#endif
#ifndef TRUE
#define TRUE true
#endif
typedef unsigned char uchar;
typedef unsigned short ushort;
typedef unsigned uint;
typedef unsigned long ulong;
typedef int64_t int64;
typedef uint64_t uint64;
#define ASSERT(x) if ( !(x) )\
fprintf(stderr,"ASSERT: \"%s\" in %s (%d)\n",#x,__FILE__,__LINE__)
/*****************************************************************************
Safe and portable C string functions; extensions to standard string.h
*****************************************************************************/
void *qmemmove( void *dst, const void *src, uint len );
#if defined(_OS_WIN32_)
#define qsnprintf _snprintf
#else
#define qsnprintf snprintf
#endif
char *qstrdup( const char * );
inline uint cstrlen( const char *str )
{ return (uint)strlen(str); }
inline uint qstrlen( const char *str )
{ return str ? (uint)strlen(str) : 0; }
inline char *cstrcpy( char *dst, const char *src )
{ return strcpy(dst,src); }
inline char *qstrcpy( char *dst, const char *src )
{ return src ? strcpy(dst, src) : 0; }
char * qstrncpy(char *dst,const char *src, uint len);
inline int cstrcmp( const char *str1, const char *str2 )
{ return strcmp(str1,str2); }
inline bool qisempty( const char *s)
{ return s==0 || *s==0; }
inline int qstrcmp( const char *str1, const char *str2 )
{ return (str1 && str2) ? strcmp(str1,str2) : // both non-empty
(qisempty(str1) && qisempty(str2)) ? 0 : // both empty
qisempty(str1) ? -1 : 1; // one empty, other non-empty
}
inline int cstrncmp( const char *str1, const char *str2, uint len )
{ return strncmp(str1,str2,len); }
inline int qstrncmp( const char *str1, const char *str2, uint len )
{ return (str1 && str2) ? strncmp(str1,str2,len) : // both non-empty
(qisempty(str1) && qisempty(str2)) ? 0 : // both empty
qisempty(str1) ? -1 : 1; // one empty other non-empty
}
inline bool qisspace(char c)
{ return c==' ' || c=='\t' || c=='\n' || c=='\r'; }
int qstricmp( const char *str1, const char *str2 );
int qstrnicmp( const char *str1, const char *str2, uint len );
/** This is an alternative implementation of QCString. It provides basically
* the same functions but uses std::string as the underlying string type
*/
class QCString
{
public:
QCString() = default;
~QCString() = default;
QCString( const QCString &s ) = default;
QCString &operator=( const QCString &s ) = default;
QCString( QCString &&s ) = default;
QCString &operator=( QCString &&s ) = default;
explicit QCString( const std::string &s ) : m_rep(s) {}
QCString( std::string &&s) { m_rep = std::move(s); }
/** creates a string with room for size characters
* @param[in] size the number of character to allocate (also counting the 0-terminator!)
*/
explicit QCString( uint size ) { m_rep.resize(size>0 ? size-1 : 0); }
/** creates a string from a plain C string.
* @param[in] str A zero terminated C string. When 0 an empty string is created.
*/
QCString( const char *str ) : m_rep(str?str:"") {}
/** creates a string from \a str and copies over the first \a maxlen characters. */
QCString( const char *str, uint maxlen ) : m_rep(str?str:"") { m_rep.resize(maxlen); }
/** replaces the contents by that of C string \a str. */
QCString &operator=( const char *str) { m_rep = str?str:""; return *this; }
QCString &operator=( const std::string &s) { m_rep = s; return *this; }
/** Returns TRUE iff the string is empty. Equivalent to isEmpty(). */
bool isNull() const { return m_rep.empty(); }
/** Returns TRUE iff the string is empty */
bool isEmpty() const { return m_rep.empty(); }
/** Returns the length of the string, not counting the 0-terminator. Equivalent to size(). */
uint length() const { return (uint)m_rep.size(); }
/** Returns the length of the string, not counting the 0-terminator. */
uint size() const { return (uint)m_rep.size(); }
/** Returns a pointer to the contents of the string in the form of a 0-terminated C string */
const char *data() const { return m_rep.c_str(); }
/** Returns a writable pointer to the data.
*/
char *rawData() { return &m_rep[0]; }
/** Resizes the string to hold \a newlen characters
* (this value should also count the 0-terminator).
* If the string is enlarged the contents will
* be left unmodified.
*/
bool resize( uint newlen ) { m_rep.resize( newlen>0 ? newlen-1 : 0 ); return TRUE; }
/** Truncates the string at position \a pos. */
bool truncate( uint pos ) { return resize( pos + 1 ); }
/** Fills a string with a predefined character
* @param[in] c the character used to fill the string with.
* @param[in] len the number of character to fill. Use -1 to fill the whole string.
* @note the string will be resized to contain \a len characters. The contents of the
* string will be lost.
*/
bool fill( char c, int len = -1 )
{
int l = len==-1 ? (int)m_rep.size() : len;
m_rep = std::string(l,c);
return TRUE;
}
QCString &sprintf( const char *format, ... );
int find( char c, int index=0, bool cs=TRUE ) const;
int find( const char *str, int index=0, bool cs=TRUE ) const;
int find( const QCString &str, int index=0, bool cs=TRUE ) const;
//int find( const QRegExp &rx, int index=0 ) const;
int findRev( char c, int index=-1, bool cs=TRUE) const;
int findRev( const char *str, int index=-1, bool cs=TRUE) const;
//int findRev( const QRegExp &rx, int index=-1 ) const;
int contains( char c, bool cs=TRUE ) const;
int contains( const char *str, bool cs=TRUE ) const;
//int contains( const QRegExp &rx ) const;
bool stripPrefix(const QCString &prefix)
{
if (prefix.isEmpty() || m_rep.empty()) return FALSE;
if (m_rep.rfind(prefix.data(),0)==0) // string starts with prefix
{
m_rep.erase(0,prefix.length());
return TRUE;
}
return FALSE;
}
bool stripPrefix(const char *prefix)
{
return stripPrefix(QCString(prefix));
}
QCString left( uint len ) const
{
return m_rep.empty() ? QCString() : QCString(m_rep.substr(0,len));
}
QCString right( uint len ) const
{
return m_rep.empty() ? QCString() :
len<m_rep.size() ? QCString(m_rep.substr(m_rep.size()-len,len)) :
*this;
}
QCString mid( uint index, uint len=(uint)-1) const
{
uint slen = (uint)m_rep.size();
if (len==(uint)-1) len = slen-index;
return m_rep.empty() || index>slen || len==0 ? QCString() :
QCString(m_rep.substr(index,len));
}
QCString lower() const
{
return QCString(convertUTF8ToLower(m_rep));
}
QCString upper() const
{
return QCString(convertUTF8ToUpper(m_rep));
}
QCString stripWhiteSpace() const
{
int sl = (uint)m_rep.size();
if (sl==0 || (!qisspace(m_rep[0]) && !qisspace(m_rep[sl-1]))) return *this;
int start=0,end=sl-1;
while (start<sl && qisspace(m_rep[start])) start++;
if (start==sl) return QCString(); // only whitespace
while (end>start && qisspace(m_rep[end])) end--;
return QCString(m_rep.substr(start,1+end-start));
}
QCString simplifyWhiteSpace() const;
QCString &insert( uint index, const QCString &s )
{
if (s.length()>0)
{
uint ol = (uint)m_rep.size();
if (index>ol) // insert beyond end of string and fill gap with spaces
{
m_rep.resize(index+s.length());
std::memset(&m_rep[ol],' ',index-ol);
std::memcpy(&m_rep[index],s.data(),s.length()+1);
}
else // insert inside the string
{
m_rep.insert(index,s.str());
}
}
return *this;
}
QCString &insert( uint index, const char *s )
{
uint len = s ? qstrlen(s) : 0;
if (len>0)
{
uint ol = (uint)m_rep.size();
if (index>ol) // insert beyond end of string and fill gap with spaces
{
m_rep.resize(index+len);
std::memset(&m_rep[ol],' ',index-ol);
std::memcpy(&m_rep[index],s,len+1);
}
else // insert inside the string
{
m_rep.insert(index,s);
}
}
return *this;
}
QCString &insert( uint index, char c)
{
char s[2] = { c, '\0' };
return insert(index,s);
}
QCString &append( char c)
{
m_rep+=c;
return *this;
}
QCString &append( const char *s )
{
return operator+=(s);
}
QCString &append( const QCString &s )
{
return operator+=(s);
}
QCString &append( const std::string &s )
{
return operator+=(s);
}
QCString &prepend( const char *s )
{
return insert(0,s);
}
QCString &prepend( const QCString &s )
{
return insert(0,s.data());
}
QCString &prepend( const std::string &s )
{
return insert(0,s.c_str());
}
QCString &remove( uint index, uint len )
{
uint ol = (uint)m_rep.size();
if (index<ol && len>0) m_rep.erase(index,index+len>=ol ? std::string::npos : len);
return *this;
}
QCString &replace( uint index, uint len, const char *s);
//QCString &replace( const QRegExp &rx, const char *str );
short toShort( bool *ok=0, int base=10 ) const;
ushort toUShort( bool *ok=0, int base=10 ) const;
int toInt( bool *ok=0, int base=10 ) const;
uint toUInt( bool *ok=0, int base=10 ) const;
long toLong( bool *ok=0, int base=10 ) const;
ulong toULong( bool *ok=0, int base=10 ) const;
uint64 toUInt64( bool *ok=0, int base=10 ) const;
QCString &setNum(short n)
{
m_rep = std::to_string(n);
return *this;
}
QCString &setNum(ushort n)
{
m_rep = std::to_string(n);
return *this;
}
QCString &setNum(int n)
{
m_rep = std::to_string(n);
return *this;
}
QCString &setNum(uint n)
{
m_rep = std::to_string(n);
return *this;
}
QCString &setNum(long n)
{
m_rep = std::to_string(n);
return *this;
}
QCString &setNum(ulong n)
{
m_rep = std::to_string(n);
return *this;
}
bool startsWith( const char *s ) const
{
if (m_rep.empty() || s==0) return s==0;
return m_rep.rfind(s,0)==0; // looking "backward" starting and ending at index 0
}
bool startsWith( const QCString &s ) const
{
if (m_rep.empty() || s.isEmpty()) return s.isEmpty();
return m_rep.rfind(s.str(),0)==0; // looking "backward" starting and ending at index 0
}
bool endsWith(const char *s) const
{
if (m_rep.empty() || s==0) return s==0;
size_t l = strlen(s);
return m_rep.length()>=l && m_rep.compare(m_rep.length()-l, l, s, l)==0;
}
bool endsWith(const QCString &s) const
{
size_t l = s.length();
return m_rep.length()>=l && m_rep.compare(m_rep.length()-l, l, s.str())==0;
}
#define HAS_IMPLICIT_CAST_TO_PLAIN_C_STRING 0
#if HAS_IMPLICIT_CAST_TO_PLAIN_C_STRING
/** Converts the string to a plain C string */
operator const char *() const
{
return data();
}
#endif
std::string str() const
{
return m_rep;
}
QCString &operator+=( const QCString &s)
{
m_rep+=s.str();
return *this;
}
QCString &operator+=( const std::string &s)
{
m_rep+=s;
return *this;
}
/** Appends string \a str to this string and returns a reference to the result. */
QCString &operator+=( const char *s )
{
if (s) m_rep+=s;
return *this;
}
#define HAS_CHARACTER_APPEND_OPERATOR 1
#if HAS_CHARACTER_APPEND_OPERATOR
/** Appends character \a c to this string and returns a reference to the result. */
QCString &operator+=( char c )
{
m_rep+=c;
return *this;
}
#endif
/** Returns a reference to the character at index \a i. */
char &at( uint i)
{
return m_rep[i];
}
const char &at( uint i) const
{
return m_rep[i];
}
/** Indexing operator. Equivalent to at(). */
char &operator[]( int i )
{
return m_rep[i];
}
const char &operator[]( int i ) const
{
return m_rep[i];
}
private:
std::string m_rep;
};
/*****************************************************************************
QCString non-member operators
*****************************************************************************/
inline bool operator==( const QCString &s1, const QCString &s2 )
{ return qstrcmp(s1.data(),s2.data()) == 0; }
inline bool operator==( const QCString &s1, const char *s2 )
{ return qstrcmp(s1.data(),s2) == 0; }
inline bool operator==( const char *s1, const QCString &s2 )
{ return qstrcmp(s1,s2.data()) == 0; }
inline bool operator!=( const QCString &s1, const QCString &s2 )
{ return qstrcmp(s1.data(),s2.data()) != 0; }
inline bool operator!=( const QCString &s1, const char *s2 )
{ return qstrcmp(s1.data(),s2) != 0; }
inline bool operator!=( const char *s1, const QCString &s2 )
{ return qstrcmp(s1,s2.data()) != 0; }
inline bool operator<( const QCString &s1, const QCString& s2 )
{ return qstrcmp(s1.data(),s2.data()) < 0; }
inline bool operator<( const QCString &s1, const char *s2 )
{ return qstrcmp(s1.data(),s2) < 0; }
inline bool operator<( const char *s1, const QCString &s2 )
{ return qstrcmp(s1,s2.data()) < 0; }
inline bool operator<=( const QCString &s1, const char *s2 )
{ return qstrcmp(s1.data(),s2) <= 0; }
inline bool operator<=( const char *s1, const QCString &s2 )
{ return qstrcmp(s1,s2.data()) <= 0; }
inline bool operator>( const QCString &s1, const char *s2 )
{ return qstrcmp(s1.data(),s2) > 0; }
inline bool operator>( const char *s1, const QCString &s2 )
{ return qstrcmp(s1,s2.data()) > 0; }
inline bool operator>=( const QCString &s1, const char *s2 )
{ return qstrcmp(s1.data(),s2) >= 0; }
inline bool operator>=( const char *s1, const QCString &s2 )
{ return qstrcmp(s1,s2.data()) >= 0; }
inline QCString operator+( const QCString &s1, const QCString &s2 )
{
return QCString(s1.str()+s2.str());
}
inline QCString operator+( const QCString &s1, const char *s2 )
{
QCString tmp(s1);
tmp.append(s2);
return tmp;
}
inline QCString operator+( const char *s1, const QCString &s2 )
{
QCString tmp(s1);
tmp.append(s2);
return tmp;
}
#define HAD_PLUS_OPERATOR_FOR_CHAR 0
#if HAS_PLUS_OPERATOR_FOR_CHAR
inline QCString operator+( const QCString &s1, char c2 )
{
QCString tmp( s1.data() );
tmp.append(c2);
return tmp;
}
inline QCString operator+( char c1, const QCString &s2 )
{
QCString tmp;
tmp.append(c1);
tmp.append(s2);
return tmp;
}
#endif
inline const char *qPrint(const char *s)
{
if (s) return s; else return "";
}
inline const char *qPrint(const QCString &s)
{
if (!s.isEmpty()) return s.data(); else return "";
}
inline const char *qPrint(const std::string &s)
{
return s.c_str();
}
inline std::string toStdString(const QCString &s)
{
return s.str();
}
//---- overloads
inline int qstricmp( const QCString &str1, const char *str2 )
{
return qstricmp(str1.data(),str2);
}
inline int qstricmp( const char *str1, const QCString &str2 )
{
return qstricmp(str1,str2.data());
}
inline int qstricmp( const QCString &str1, const QCString &str2 )
{
return qstricmp(str1.data(),str2.data());
}
inline int qstrnicmp( const QCString &str1, const char *str2, uint len )
{
return qstrnicmp(str1.data(),str2,len);
}
inline int qstrnicmp( const char *str1, const QCString &str2, uint len )
{
return qstrnicmp(str1,str2.data(),len);
}
inline int qstrnicmp( const QCString &str1, const QCString &str2, uint len )
{
return qstrnicmp(str1.data(),str2.data(),len);
}
// helper functions
QCString substitute(const QCString &str,const QCString &find,const QCString &replace);
inline QCString substitute(const QCString &str,const char *find,const char *replace)
{
return substitute(str,QCString(find),QCString(replace));
}
QCString substitute(const QCString &s,const QCString &src,const QCString &dst,int skip_seq);
inline QCString substitute(const QCString &s,char srcChar,char dstChar)
{
std::string ss = s.str();
std::replace(ss.begin(),ss.end(),srcChar,dstChar);
return QCString(ss);
}
inline std::ostream& operator<<(std::ostream& os, const QCString& s)
{
os << s.str();
return os;
}
#endif // QCSTRING_H
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