/************************************************************** * * Licensed to the Apache Software Foundation (ASF) under one * or more contributor license agreements. See the NOTICE file * distributed with this work for additional information * regarding copyright ownership. The ASF licenses this file * to you under the Apache License, Version 2.0 (the * "License"); you may not use this file except in compliance * with the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, * software distributed under the License is distributed on an * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY * KIND, either express or implied. See the License for the * specific language governing permissions and limitations * under the License. * *************************************************************/ // MARKER(update_precomp.py): autogen include statement, do not remove #include "precompiled_soltools.hxx" #include #include // strlen(), memcpy(), memset() #include // tolower() #include // INT_MAX const char NULCH = '\0'; const int NO_POS = -1; Simstr::Simstr(const char * s_) { if (s_ == 0) { len = 0; sz = new char[1]; *sz = 0; } else { len = strlen(s_); sz = new char[len+1]; memcpy(sz,s_,len+1); } } Simstr::Simstr(const char * anybytes, int nrOfBytes) { if (anybytes == 0) { len = 0; sz = new char[1]; *sz = 0; return; } int slen = static_cast( strlen(anybytes) ); len = slen < nrOfBytes ? slen : nrOfBytes; sz = new char[len+1]; memcpy( sz, anybytes, len ); *( sz + len ) = 0; } Simstr::Simstr(char c, int anzahl) { if (anzahl < 1) { len = 0; sz = new char[1]; *sz = 0; } else { len = anzahl; sz = new char[len+1]; memset(sz,c,anzahl); sz[len] = 0; } } Simstr::Simstr( const char * anybytes, int firstBytesPos, int nrOfBytes) { unsigned slen = strlen(anybytes); if (anybytes == 0 || slen <= unsigned(firstBytesPos)) { len = 0; sz = new char[1]; *sz = 0; } else { int maxLen = slen - unsigned(firstBytesPos); len = maxLen < nrOfBytes ? maxLen : nrOfBytes; sz = new char[len+1]; memcpy(sz,anybytes+firstBytesPos,len); *(sz+len) = 0; } } Simstr::Simstr(const Simstr & S) { len = S.len; sz = new char[len+1]; memcpy(sz,S.sz,len+1); } Simstr & Simstr::operator=(const Simstr & S) { if (sz == S.sz) return *this; delete [] sz; len = S.len; sz = new char[len+1]; memcpy(sz,S.sz,len+1); return *this; } Simstr::~Simstr() { delete [] sz; } char & Simstr::ch(int n) { static char nullCh = NULCH; nullCh = NULCH; if (n >= long(len) || n < 0) return nullCh; else return sz[unsigned(n)]; } const Simstr & Simstr::null_() { static Simstr aNull_; return aNull_; } Simstr Simstr::operator+(const Simstr & S) const { Simstr ret = sz; ret.push_back(S); return ret; } Simstr & Simstr::operator+=(const Simstr & S) { push_back(S); return *this; } Simstr & Simstr::operator+=(const char * s_) { Simstr a(s_); push_back(a); return *this; } // REL bool Simstr::operator==(const Simstr & S) const { return !strcmp(sz,S.sz) ? true : false; } bool Simstr::operator!=(const Simstr & S) const { return strcmp(sz,S.sz) ? true : false; } bool Simstr::operator<(const Simstr & S) const { return (strcmp(sz,S.sz) < 0) ? true : false; } bool Simstr::operator>(const Simstr & S) const { return (strcmp(sz,S.sz) > 0) ? true : false; } bool Simstr::operator<=(const Simstr & S) const { return (strcmp(sz,S.sz) <= 0) ? true : false; } bool Simstr::operator>=(const Simstr & S) const { return (strcmp(sz,S.sz) >= 0) ? true : false; } // ************** LIST - Funktionen ***************** // Einzelzugriff char Simstr::get(int n) const { return (n >= len || n < 0) ? 0 : sz[n]; } char Simstr::get_front() const { return sz[0]; } char Simstr::get_back() const { return len ? sz[len-1] : 0; } Simstr Simstr::get(int startPos, int anzahl) const { if (startPos >= len || startPos < 0 || anzahl < 1) return ""; int anz = len - startPos < anzahl ? len - startPos : anzahl; Simstr ret(' ',anz); memcpy(ret.sz, sz+startPos, anz); return ret; } Simstr Simstr::get_front(int anzahl) const { int anz = len < anzahl ? len : anzahl; if (anz < 1) return ""; Simstr ret(' ',anz); memcpy(ret.sz, sz, anz); return ret; } Simstr Simstr::get_back(int anzahl) const { int anz = len < anzahl ? len : anzahl; if (anz < 1) return ""; int start = len-anz; Simstr ret(' ',anz); memcpy(ret.sz, sz+start, anz); return ret; } Simstr Simstr::get_first_token(char c) const { int posc = pos_first(c); if (posc != NO_POS) return get_front(posc); else return sz; } Simstr Simstr::get_last_token(char c) const { int posc = pos_last(c); if (posc != NO_POS) return get_back(len-posc-1); else return sz; } // Insert void Simstr::insert(int pos, char c) { if (pos < 0 || pos > len) return; char * result = new char[len+2]; memcpy(result,sz,pos); result[pos] = c; memcpy(result+pos+1,sz+pos,len-pos+1); delete [] sz; sz = result; len++; } void Simstr::push_front(char c) { char * result = new char[len+2]; result[0] = c; memcpy(result+1,sz,len+1); delete [] sz; sz = result; len++; } void Simstr::push_back(char c) { char * result = new char[len+2]; memcpy(result,sz,len); result[len] = c; result[len+1] = 0; delete [] sz; sz = result; len++; } void Simstr::insert(int pos, const Simstr & S) { if (pos < 0 || pos > len) return; char * result = new char[len+1+S.len]; memcpy(result,sz,pos); memcpy(result+pos,S.sz,S.len); memcpy(result+pos+S.len,sz+pos,len-pos+1); delete [] sz; sz = result; len += S.len; } void Simstr::push_front(const Simstr & S) { char * result = new char[len+1+S.len]; memcpy(result,S.sz,S.len); memcpy(result+S.len,sz,len+1); delete [] sz; sz = result; len += S.len; } void Simstr::push_back(const Simstr & S) { char * result = new char[len+1+S.len]; memcpy(result,sz,len); memcpy(result+len,S.sz,S.len+1); delete [] sz; sz = result; len += S.len; } // Remove void Simstr::remove(int pos, int anzahl) { if (pos >= len || pos < 0 || anzahl < 1) return; int anz = len - pos < anzahl ? len - pos : anzahl; char * result = new char[len-anz+1]; memcpy(result,sz,pos); memcpy(result+pos,sz+pos+anz,len-pos-anz+1); delete [] sz; sz = result; len -= anz; } void Simstr::remove_trailing_blanks() { int newlen = len-1; for ( ; newlen > 1 && sz[newlen] <= 32; --newlen ) {} if (newlen < len-1) remove ( newlen+1, len-newlen); } void Simstr::pop_front(int anzahl) { if (anzahl < 1) return; int anz = len < anzahl ? len : anzahl; char * result = new char[len-anz+1]; memcpy(result,sz+anz,len-anz+1); delete [] sz; sz = result; len -= anz; } void Simstr::pop_back(int anzahl) { if (anzahl < 1) return; int anz = len < anzahl ? len : anzahl; char * result = new char[len-anz+1]; memcpy(result,sz,len-anz); result[len-anz] = 0; delete [] sz; sz = result; len -= anz; } void Simstr::rem_back_from(int removeStartPos) { if (removeStartPos != NO_POS) pop_back(len-removeStartPos); } void Simstr::remove_all(char c) { if (!len) return; char * result = new char[len]; int i,j=0; for (i = 0; i < len; i++) if (sz[i] != c) result[j++] = sz[i]; delete [] sz; sz = new char[j+1]; memcpy(sz,result,j); sz[j] = 0; len = j; delete [] result; } void Simstr::remove_all(const Simstr & S) { int pos; while ( (pos=pos_first(S)) != NO_POS ) remove(pos,S.len); } void Simstr::strip(char c) { int start = 0; if (c == ' ') { // Sonderbehandlung: SPC entfernt auch TABs: while ( start < len ? sz[start] == ' ' || sz[start] == '\t' : false ) start++; } else { while (start < len && sz[start] == c) start++; } int ende = len-1; if (c == ' ') { // Sonderbehandlung: SPC entfernt auch TABs: while ( ende >= start ? sz[ende] == ' ' || sz[ende] == '\t' : false ) ende--; } else { while (ende >= start && sz[ende] == c) ende--; } *this = get(start,ende-start+1); } void Simstr::empty() { if (len > 0) { delete [] sz; sz = new char[1]; *sz = 0; len = 0; } } Simstr Simstr::take_first_token(char c) { Simstr ret; int pos = pos_first(c); if (pos != NO_POS) { ret = get_front(pos); pop_front(pos+1); } else { ret = sz; delete [] sz; sz = new char[1]; *sz = NULCH; len = 0; } return ret; } Simstr Simstr::take_last_token(char c) { Simstr ret; int pos = pos_last(c); if (pos != NO_POS) { ret = get_back(len-pos-1); pop_back(len-pos); } else { ret = sz; delete [] sz; sz = new char[1]; *sz = NULCH; len = 0; } return ret; } // Find int Simstr::pos_first(char c) const { int i = 0; for (i = 0; i < len ? sz[i] != c : false; i++) ; if (i >= len) return NO_POS; else return i; } int Simstr::pos_first_after( char c, int startSearchPos) const { int i = 0; if (startSearchPos >= i) i = startSearchPos+1; for (; i < len ? sz[i] != c : false; i++) ; if (i >= len) return NO_POS; else return i; } int Simstr::pos_last(char c) const { int i = 0; for (i = len-1; i >= 0 ? sz[i] != c : false; i--) ; if (i < 0) return NO_POS; else return i; } int Simstr::pos_first(const Simstr & S) const { char * ptr = strstr(sz,S.sz); if (ptr) return int(ptr-sz); else return NO_POS; } int Simstr::pos_last(const Simstr & S) const { Simstr vgl; int i; for (i = len-S.len; i >= 0 ; i--) { vgl = get(i,S.len); if (vgl == S) break; } if (i >= 0) return i; else return NO_POS; } int Simstr::count(char c) const { int ret = 0; for (int i =0; i < len; i++) if (sz[i] == c) ret++; return ret; } bool Simstr::is_no_text() const { if (!len) return true; int i; for (i = 0; sz[i] <= 32 && i < len; i++) ; if (i < len) return false; return true; } // Change void Simstr::replace(int pos, char c) { if (pos < 0 || pos >= len) return; else sz[unsigned(pos)] = c; } void Simstr::replace(int startPos, int anzahl, const Simstr & S) { if (startPos >= len || startPos < 0 || anzahl < 1) return; int anz = len - startPos < anzahl ? len - startPos : anzahl; char * result = new char[len-anz+S.len+1]; memcpy(result,sz,startPos); memcpy(result+startPos, S.sz, S.len); memcpy(result+startPos+S.len, sz+startPos+anz, len-startPos-anz+1); delete [] sz; sz = result; len = len-anz+S.len; } void Simstr::replace_all(char oldCh, char newCh) { for (int i=0; i < len; i++) if (sz[i] == oldCh) sz[i] = newCh; } void Simstr::replace_all(const Simstr & oldS, const Simstr & newS) { Simstr vgl; int i = 0; while (i <= len-oldS.len) { vgl = get(i,oldS.len); if (strcmp(vgl.sz,oldS.sz) == 0) { replace(i,oldS.len,newS); i += newS.len; } else i++; } } void Simstr::to_lower() { for (int i = 0; i < len; i++) sz[i] = (char) tolower(sz[i]); } // Simstr addition Simstr operator+(const char * str, const Simstr & S) { Simstr ret = S; ret.push_front(str); return ret; } Simstr operator+(const Simstr & S, const char * str) { Simstr ret = S; ret.push_back(str); return ret; } Simstr operator+(char c, const Simstr & S) { Simstr ret = S; ret.push_front(c); return ret; } Simstr operator+(const Simstr & S, char c) { Simstr ret = S; ret.push_back(c); return ret; } // Simstr-Vergleiche mit char * bool operator==(const Simstr & S, const char * str) { return strcmp(S,str) == 0; } bool operator!=(const Simstr & S, const char * str) { return strcmp(S,str) != 0; } bool operator<(const Simstr & S, const char * str) { return strcmp(S,str) < 0; } bool operator>(const Simstr & S, const char * str) { return strcmp(S,str) > 0; } bool operator<=(const Simstr & S, const char * str) { return strcmp(S,str) <= 0; } bool operator>=(const Simstr & S, const char * str) { return strcmp(S,str) >= 0; } bool operator==(const char * str, const Simstr & S) { return strcmp(str,S) == 0; } bool operator!=(const char * str, const Simstr & S) { return strcmp(str,S) != 0; } bool operator<(const char * str, const Simstr & S) { return strcmp(str,S) < 0; } bool operator>(const char * str, const Simstr & S) { return strcmp(str,S) > 0; } bool operator<=(const char * str, const Simstr & S) { return strcmp(str,S) <= 0; } bool operator>=(const char * str, const Simstr & S) { return strcmp(str,S) >= 0; }