/***************************************************************************** * * $Id$ * Purpose ...............: Common string functions * ***************************************************************************** * Copyright (C) 1997-2007 * * Michiel Broek FIDO: 2:280/2802 * Beekmansbos 10 * 1971 BV IJmuiden * the Netherlands * * This file is part of MBSE BBS. * * This BBS is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License as published by the * Free Software Foundation; either version 2, or (at your option) any * later version. * * MB BBS is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public License * along with MB BBS; see the file COPYING. If not, write to the Free * Software Foundation, 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA. *****************************************************************************/ #include "../config.h" #include "mbselib.h" char *padleft(char *str, int size, char pad) { static char stri[256]; static char temp[256]; strcpy(stri, str); memset(temp, pad, (size_t)size); temp[size] = '\0'; if (strlen(stri) <= size) memmove(temp, stri, (size_t)strlen(stri)); else memmove(temp, stri, (size_t)size); return temp; } /* * Small function to convert String to LowerCase */ char *tl(char *str) { char *p = str; while (*p != '\0') { *p = (char)tolower(*p); p++; } return str; } void Striplf(char *String) { int i; for(i = 0; i < strlen(String); i++) { if(*(String + i) == '\0') break; if(*(String + i) == '\n') *(String + i) = '\0'; } } void mbse_CleanSubject(char *String) { int i, fixed = FALSE; i = strlen(String) -1; while ((isspace(String[i])) && i) { String[i] = '\0'; i--; fixed = TRUE; } if ((strncasecmp(String, "Re: ", 4) == 0) && (strncmp(String, "Re: ", 4))) { /* * Fix Re: */ String[0] = 'R'; String[1] = 'e'; String[2] = ':'; String[3] = ' '; fixed = TRUE; } if (fixed) Syslog('m', "Fixed subj: \"%s\"", printable(String, 0)); } /* * Converts first letter to UpperCase */ void tlf(char *str) { *(str) = toupper(*(str)); } /* * Small function to convert String to UpperCase */ char *tu(char *str) { char *p = str; while (*p != '\0') { *p = (char)toupper(*p); p++; } return str; } /* * Converts the first letter in every word in a string to uppercase, * all other character will be lowercase. Will handle the notation * Bob Ten.Dolle as well */ char *tlcap(char *String) { static char stri[256]; int Loop, Strlen; strcpy(stri, String); Strlen = strlen(stri); /* * Automatic do the first character */ stri[0] = toupper(stri[0]); for(Loop = 1; Loop < Strlen; Loop++) { stri[Loop] = tolower(stri[Loop]); if (( stri[Loop] == ' ') || (stri[Loop] == '.')) { /* * This is a space charracter, increase the counter * and convert the next character to uppercase. */ Loop++; stri[Loop] = toupper(stri[Loop]); } } return stri; } /* * Hilite "Word" in string, this is done by inserting ANSI * Hilite characters in the string. */ char *Hilite(char *str, char *Word) { char *pos; char *new; char *old; int t; new = strdup(str); old = strdup(str); tl(new); if ((pos = strstr(new,Word)) == NULL) return(str); str = realloc(str,strlen(new)+200); strcpy(str,"\0"); while (( pos = strstr(new,Word)) != NULL) { *pos = '\0'; t = strlen(new); strncat(str,old,t); strcat(str,""); old+=t; strncat(str,old,strlen(Word)); strcat(str,""); old+=strlen(Word); new = new+t+strlen(Word); } strcat(str,old); return(str); } /* * Replace spaces is a string with underscore characters. */ void Addunderscore(char *temp) { int i; for(i = 0; i < strlen(temp); i++) { if (*(temp + i) == '\0') break; if (*(temp + i) == ' ') *(temp + i) = '_'; } } /* * Find & Replace string in a string */ void strreplace(char *sStr, char *sFind, char *sReplace) { char sNewstr[81]=""; char *posStr, *posFind; int iPos, iLen, iCounter; posStr=sStr; if(( posFind = strstr(sStr, sFind)) != NULL) { iPos = (int)(posFind - posStr); strncpy(sNewstr, sStr, iPos); strcat(sNewstr, sReplace); iPos+= strlen(sFind); iLen = strlen(sNewstr); for (iCounter=0; iCounter < (strlen(sStr) - iPos); iCounter++) sNewstr[iCounter + iLen] = sStr[iCounter + iPos]; sNewstr[iCounter+1+iLen] = '\0'; strcpy(sStr, sNewstr); } } /* * Converts to HH:MM */ char *StrTimeHM(time_t date) { static char ttime[6]; struct tm *l_d; l_d = localtime(&date); snprintf(ttime, 6, "%02d:%02d", l_d->tm_hour, l_d->tm_min); return ttime; } /* * Returns HH:MM:SS */ char *StrTimeHMS(time_t date) { static char ttime[9]; struct tm *l_d; l_d = localtime(&date); snprintf(ttime, 9, "%02d:%02d:%02d", l_d->tm_hour, l_d->tm_min, l_d->tm_sec); return ttime; } /* * Get the current local time, returns HH:MM */ char *GetLocalHM() { static char gettime[15]; time_t T_Now; T_Now = time(NULL); snprintf(gettime, 15, "%s", StrTimeHM(T_Now)); return(gettime); } /* * Get the current local time, returns HH:MM:SS */ char *GetLocalHMS() { static char gettime[15]; time_t T_Now; T_Now = time(NULL); snprintf(gettime, 15, "%s", StrTimeHMS(T_Now)); return(gettime); } /* * Returns date as MM-DD-YYYY */ char *StrDateMDY(time_t *Clock) { struct tm *tm; static char cdate[12]; tm = localtime(Clock); snprintf(cdate, 12, "%02d-%02d-%04d", tm->tm_mon+1, tm->tm_mday, tm->tm_year+1900); return(cdate); } /* * Returns DD-MM-YYYY */ char *StrDateDMY(time_t date) { static char tdate[15]; struct tm *l_d; l_d = localtime(&date); snprintf(tdate, 15, "%02d-%02d-%04d", l_d->tm_mday, l_d->tm_mon+1, l_d->tm_year+1900); return tdate; } /* * This function returns the date for today, to test against other functions * DD-MM-YYYY (DAY-MONTH-YEAR) */ char *GetDateDMY() { static char tdate[15]; struct tm *l_d; time_t T_Now; T_Now = time(NULL); l_d = localtime(&T_Now); snprintf(tdate, 15, "%02d-%02d-%04d", l_d->tm_mday,l_d->tm_mon+1,l_d->tm_year+1900); return(tdate); } char *OsName() { #ifdef __linux__ return (char *)"GNU/Linux"; #elif __FreeBSD__ return (char *)"FreeBSD"; #elif __NetBSD__ return (char *)"NetBSD"; #elif __OpenBSD__ return (char *)"OpenBSD"; #else #error "Unknown target OS" #endif } char *OsCPU() { #ifdef __i386__ return (char *)"i386"; #elif __x86_64__ return (char *)"x86_64"; #elif __PPC__ return (char *)"PPC"; #elif __sparc__ return (char *)"Sparc"; #elif __alpha__ return (char *)"Alpha"; #elif __hppa__ return (char *)"HPPA"; #elif __arm__ return (char *)"ARM"; #else #error "Unknown CPU" #endif } /* * Return universal tearline, note if OS and CPU are * unknown, the tearline is already 39 characters. */ char *TearLine() { static char tearline[41]; snprintf(tearline, 41, "--- MBSE BBS v%s (%s-%s)", VERSION, OsName(), OsCPU()); return tearline; }