522 lines
12 KiB
C++
522 lines
12 KiB
C++
/*********************************************/
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/* string.cpp */
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/* some useful functions to handle strings */
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/*********************************************/
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#include "fctsys.h"
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#include "macros.h"
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#include "kicad_string.h"
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int ReadDelimitedText( wxString* aDest, const char* aSource )
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{
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std::string utf8; // utf8 but without escapes and quotes.
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bool inside = false;
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const char* start = aSource;
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char cc;
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while( (cc = *aSource++) != 0 )
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{
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if( cc == '"' )
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{
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if( inside )
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break; // 2nd double quote is end of delimited text
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inside = true; // first delimiter found, make note, do not copy
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}
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else if( inside )
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{
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if( cc == '\\' )
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{
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cc = *aSource++;
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if( !cc )
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break;
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// do no copy the escape byte if it is followed by \ or "
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if( cc != '"' && cc != '\\' )
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utf8 += '\\';
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utf8 += cc;
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}
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else
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utf8 += cc;
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}
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}
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*aDest = FROM_UTF8( utf8.c_str() );
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return aSource - start;
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}
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int ReadDelimitedText( char* aDest, const char* aSource, int aDestSize )
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{
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if( aDestSize <= 0 )
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return 0;
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bool inside = false;
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const char* start = aSource;
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char* limit = aDest + aDestSize - 1;
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char cc;
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while( (cc = *aSource++) != 0 && aDest < limit )
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{
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if( cc == '"' )
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{
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if( inside )
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break; // 2nd double quote is end of delimited text
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inside = true; // first delimiter found, make note, do not copy
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}
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else if( inside )
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{
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if( cc == '\\' )
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{
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cc = *aSource++;
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if( !cc )
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break;
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// do no copy the escape byte if it is followed by \ or "
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if( cc != '"' && cc != '\\' )
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*aDest++ = '\\';
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if( aDest < limit )
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*aDest++ = cc;
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}
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else
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*aDest++ = cc;
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}
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}
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*aDest = 0;
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return aSource - start;
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}
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std::string EscapedUTF8( const wxString& aString )
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{
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std::string utf8 = TO_UTF8( aString );
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std::string ret;
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ret += '"';
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for( std::string::const_iterator it = utf8.begin(); it!=utf8.end(); ++it )
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{
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// this escaping strategy is designed to be compatible with ReadDelimitedText():
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if( *it == '"' )
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{
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ret += '\\';
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ret += '"';
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}
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else if( *it == '\\' )
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{
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ret += '\\'; // double it up
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ret += '\\';
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}
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else
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ret += *it;
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}
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ret += '"';
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return ret;
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}
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/* Remove leading and training spaces, tabs and end of line chars in text
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* return a pointer on the first n char in text
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*/
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char* StrPurge( char* text )
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{
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static const char whitespace[] = " \t\n\r\f\v";
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if( text )
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{
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while( *text && strchr( whitespace, *text ) )
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++text;
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char* cp = text + strlen( text ) - 1;
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while( cp >= text && strchr( whitespace, *cp ) )
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*cp-- = '\0';
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}
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return text;
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}
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/* Read lines from File
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* Skip void lines and comments (starting by #)
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* return the first non void line.
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* increments *LineNum for each line
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*/
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char* GetLine( FILE* File, char* Line, int* LineNum, int SizeLine )
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{
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do {
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if( fgets( Line, SizeLine, File ) == NULL )
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return NULL;
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if( LineNum )
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*LineNum += 1;
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} while( Line[0] == '#' || Line[0] == '\n' || Line[0] == '\r'
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|| Line[0] == 0 );
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strtok( Line, "\n\r" );
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return Line;
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}
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/* return in aBuffer the date and time
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* time is the local time.
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*/
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char* DateAndTime( char* aBuffer )
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{
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wxString datetime;
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datetime = DateAndTime();
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strcpy( aBuffer, TO_UTF8( datetime ) );
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return aBuffer;
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}
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/* return the date and time in a wxString
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* note: does the same thing than strftime()
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* time is the local time.
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*/
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wxString DateAndTime()
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{
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wxString Line;
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wxDateTime datetime = wxDateTime::Now();
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datetime.SetCountry( wxDateTime::Country_Default );
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Line = datetime.Format( wxDefaultDateTimeFormat, wxDateTime::Local );
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return Line;
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}
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/*
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* sort() function
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* Same as strncmp() but numbers in strings
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* are compared according to the value, not the ascii value of each digit
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*/
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int StrLenNumCmp( const wxChar* str1, const wxChar* str2, int NbMax )
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{
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int i;
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int nb1 = 0, nb2 = 0;
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if( ( str1 == NULL ) || ( str2 == NULL ) )
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return 0;
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for( i = 0; i < NbMax; i++ )
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{
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if( isdigit( *str1 ) && isdigit( *str2 ) ) /* digit found */
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{
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nb1 = 0; nb2 = 0;
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while( isdigit( *str1 ) )
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{
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nb1 = nb1 * 10 + *str1 - '0'; str1++;
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}
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while( isdigit( *str2 ) )
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{
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nb2 = nb2 * 10 + *str2 - '0'; str2++;
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}
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if( nb1 < nb2 )
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return -1;
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if( nb1 > nb2 )
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return 1;
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}
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if( *str1 < *str2 )
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return -1;
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if( *str1 > *str2 )
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return 1;
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if( ( *str1 == 0 ) && ( *str2 == 0 ) )
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return 0;
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str1++; str2++;
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}
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return 0;
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}
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/*
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* sort() function
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* Same as stricmp() but numbers in strings
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* are compared according to the value, not the ascii value of each digit
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*/
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int StrNumICmp( const wxChar* str1, const wxChar* str2 )
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{
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return StrLenNumICmp( str1, str2, 32735 );
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}
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/*
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* sort() function
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* Same as strnicmp() but numbers in strings
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* are compared according to the value, not the ascii value of each digit
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*/
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int StrLenNumICmp( const wxChar* str1, const wxChar* str2, int NbMax )
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{
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int i;
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int nb1 = 0, nb2 = 0;
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if( ( str1 == NULL ) || ( str2 == NULL ) )
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return 0;
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for( i = 0; i < NbMax; i++ )
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{
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if( isdigit( *str1 ) && isdigit( *str2 ) ) /* find number */
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{
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nb1 = 0; nb2 = 0;
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while( isdigit( *str1 ) )
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{
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nb1 = nb1 * 10 + *str1 - '0'; str1++;
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}
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while( isdigit( *str2 ) )
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{
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nb2 = nb2 * 10 + *str2 - '0'; str2++;
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}
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if( nb1 < nb2 )
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return -1;
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if( nb1 > nb2 )
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return 1;
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}
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if( toupper( *str1 ) < toupper( *str2 ) )
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return -1;
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if( toupper( *str1 ) > toupper( *str2 ) )
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return 1;
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if( (*str1 == 0 ) && ( *str2 == 0 ) )
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return 0;
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str1++; str2++;
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}
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return 0;
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}
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/* compare a string to a pattern
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* ( usual chars * and ? allowed).
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* if case_sensitive == true, comparison is case sensitive
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* return true if match else false
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*/
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bool WildCompareString( const wxString& pattern, const wxString& string_to_tst,
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bool case_sensitive )
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{
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const wxChar* cp = NULL, * mp = NULL;
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const wxChar* wild, * string;
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wxString _pattern, _string_to_tst;
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if( case_sensitive )
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{
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wild = pattern.GetData();
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string = string_to_tst.GetData();
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}
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else
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{
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_pattern = pattern;
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_pattern.MakeUpper();
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_string_to_tst = string_to_tst;
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_string_to_tst.MakeUpper();
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wild = _pattern.GetData();
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string = _string_to_tst.GetData();
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}
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while( ( *string ) && ( *wild != '*' ) )
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{
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if( ( *wild != *string ) && ( *wild != '?' ) )
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return FALSE;
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wild++; string++;
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}
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while( *string )
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{
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if( *wild == '*' )
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{
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if( !*++wild )
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return 1;
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mp = wild;
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cp = string + 1;
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}
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else if( ( *wild == *string ) || ( *wild == '?' ) )
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{
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wild++;
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string++;
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}
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else
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{
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wild = mp;
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string = cp++;
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}
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}
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while( *wild == '*' )
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{
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wild++;
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}
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return !*wild;
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}
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/* Converts a string used to compensate for internalization of printf().
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* Generated floats with a comma instead of point.
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* Obsolete: use SetLocaleTo_C_standard instead
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*/
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char* to_point( char* Text )
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{
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char* line = Text;
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if( Text == NULL )
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return NULL;
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for( ; *Text != 0; Text++ )
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{
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if( *Text == ',' )
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*Text = '.';
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}
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return line;
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}
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/* Convert string to upper case.
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* Returns pointer to the converted string.
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*/
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char* strupper( char* Text )
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{
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char* code = Text;
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if( Text )
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{
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while( *code )
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{
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if( ( *code >= 'a' ) && ( *code <= 'z' ) )
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*code += 'A' - 'a';
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code++;
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}
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}
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return Text;
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}
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int RefDesStringCompare( const wxString& strFWord, const wxString& strSWord )
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{
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// The different sections of the first string
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wxString strFWordBeg, strFWordMid, strFWordEnd;
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// The different sections of the second string
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wxString strSWordBeg, strSWordMid, strSWordEnd;
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int isEqual = 0; // The numerical results of a string compare
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int iReturn = 0; // The variable that is being returned
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long lFirstDigit = 0; /* The converted middle section of the first
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*string */
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long lSecondDigit = 0; /* The converted middle section of the second
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*string */
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// Split the two strings into separate parts
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SplitString( strFWord, &strFWordBeg, &strFWordMid, &strFWordEnd );
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SplitString( strSWord, &strSWordBeg, &strSWordMid, &strSWordEnd );
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// Compare the Beginning section of the strings
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isEqual = strFWordBeg.CmpNoCase( strSWordBeg );
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if( isEqual > 0 )
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iReturn = 1;
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else if( isEqual < 0 )
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iReturn = -1;
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else
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{
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// If the first sections are equal compare their digits
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strFWordMid.ToLong( &lFirstDigit );
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strSWordMid.ToLong( &lSecondDigit );
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if( lFirstDigit > lSecondDigit )
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iReturn = 1;
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else if( lFirstDigit < lSecondDigit )
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iReturn = -1;
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else
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{
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// If the first two sections are equal compare the endings
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isEqual = strFWordEnd.CmpNoCase( strSWordEnd );
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if( isEqual > 0 )
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iReturn = 1;
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else if( isEqual < 0 )
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iReturn = -1;
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else
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iReturn = 0;
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}
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}
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return iReturn;
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}
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int SplitString( wxString strToSplit,
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wxString* strBeginning,
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wxString* strDigits,
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wxString* strEnd )
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{
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// Clear all the return strings
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strBeginning->Empty();
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strDigits->Empty();
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strEnd->Empty();
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// There no need to do anything if the string is empty
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if( strToSplit.length() == 0 )
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return 0;
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// Starting at the end of the string look for the first digit
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int ii;
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for( ii = (strToSplit.length() - 1); ii >= 0; ii-- )
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{
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if( isdigit( strToSplit[ii] ) )
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break;
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}
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// If there were no digits then just set the single string
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if( ii < 0 )
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*strBeginning = strToSplit;
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else
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{
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// Since there is at least one digit this is the trailing string
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*strEnd = strToSplit.substr( ii + 1 );
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// Go to the end of the digits
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int position = ii + 1;
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for( ; ii >= 0; ii-- )
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{
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if( !isdigit( strToSplit[ii] ) )
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break;
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}
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// If all that was left was digits, then just set the digits string
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if( ii < 0 )
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*strDigits = strToSplit.substr( 0, position );
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/* We were only looking for the last set of digits everything else is
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*part of the preamble */
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else
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{
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*strDigits = strToSplit.substr( ii + 1, position - ii - 1 );
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*strBeginning = strToSplit.substr( 0, ii + 1 );
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}
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}
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return 0;
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}
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