// Member templates for the -*- C++ -*- string classes. // Copyright (C) 1994, 1999 Free Software Foundation // This file is part of the GNU ANSI C++ Library. This library 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. // This library 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 this library; see the file COPYING. If not, write to the Free // Software Foundation, 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. // As a special exception, if you link this library with files // compiled with a GNU compiler to produce an executable, this does not cause // the resulting executable to be covered by the GNU General Public License. // This exception does not however invalidate any other reasons why // the executable file might be covered by the GNU General Public License. // Written by Jason Merrill based upon the specification by Takanori Adachi // in ANSI X3J16/94-0013R2. extern "C++" { template inline void * basic_string ::Rep:: operator new (size_t s, size_t extra) { return Allocator::allocate(s + extra * sizeof (charT)); } template inline void basic_string ::Rep:: operator delete (void * ptr) { Allocator::deallocate(ptr, sizeof(Rep) + reinterpret_cast(ptr)->res * sizeof (charT)); } template inline size_t basic_string ::Rep:: frob_size (size_t s) { size_t i = 16; while (i < s) i *= 2; return i; } template inline basic_string ::Rep * basic_string ::Rep:: create (size_t extra) { extra = frob_size (extra + 1); Rep *p = new (extra) Rep; p->res = extra; p->ref = 1; p->selfish = false; return p; } template charT * basic_string ::Rep:: clone () { Rep *p = Rep::create (len); p->copy (0, data (), len); p->len = len; return p->data (); } template inline bool basic_string ::Rep:: excess_slop (size_t s, size_t r) { return 2 * (s <= 16 ? 16 : s) < r; } template inline bool basic_string :: check_realloc (basic_string::size_type s) const { s += sizeof (charT); rep ()->selfish = false; return (rep ()->ref > 1 || s > capacity () || Rep::excess_slop (s, capacity ())); } template void basic_string :: alloc (basic_string::size_type __size, bool __save) { if (! check_realloc (__size)) return; Rep *p = Rep::create (__size); if (__save) { p->copy (0, data (), length ()); p->len = length (); } else p->len = 0; repup (p); } template basic_string & basic_string :: replace (size_type pos1, size_type n1, const basic_string& _str, size_type pos2, size_type n2) { const size_t len2 = _str.length (); if (pos1 == 0 && n1 >= length () && pos2 == 0 && n2 >= len2) return operator= (_str); OUTOFRANGE (pos2 > len2); if (n2 > len2 - pos2) n2 = len2 - pos2; return replace (pos1, n1, _str.data () + pos2, n2); } template inline void basic_string ::Rep:: copy (size_t pos, const charT *s, size_t n) { if (n) traits::copy (data () + pos, s, n); } template inline void basic_string ::Rep:: move (size_t pos, const charT *s, size_t n) { if (n) traits::move (data () + pos, s, n); } template basic_string & basic_string :: replace (size_type pos, size_type n1, const charT* s, size_type n2) { const size_type len = length (); OUTOFRANGE (pos > len); if (n1 > len - pos) n1 = len - pos; LENGTHERROR (len - n1 > max_size () - n2); size_t newlen = len - n1 + n2; if (check_realloc (newlen)) { Rep *p = Rep::create (newlen); p->copy (0, data (), pos); p->copy (pos + n2, data () + pos + n1, len - (pos + n1)); p->copy (pos, s, n2); repup (p); } else { rep ()->move (pos + n2, data () + pos + n1, len - (pos + n1)); rep ()->copy (pos, s, n2); } rep ()->len = newlen; return *this; } template inline void basic_string ::Rep:: set (size_t pos, const charT c, size_t n) { traits::set (data () + pos, c, n); } template basic_string & basic_string :: replace (size_type pos, size_type n1, size_type n2, charT c) { const size_t len = length (); OUTOFRANGE (pos > len); if (n1 > len - pos) n1 = len - pos; LENGTHERROR (len - n1 > max_size () - n2); size_t newlen = len - n1 + n2; if (check_realloc (newlen)) { Rep *p = Rep::create (newlen); p->copy (0, data (), pos); p->copy (pos + n2, data () + pos + n1, len - (pos + n1)); p->set (pos, c, n2); repup (p); } else { rep ()->move (pos + n2, data () + pos + n1, len - (pos + n1)); rep ()->set (pos, c, n2); } rep ()->len = newlen; return *this; } template void basic_string :: resize (size_type n, charT c) { LENGTHERROR (n > max_size ()); if (n > length ()) append (n - length (), c); else erase (n); } template basic_string ::size_type basic_string :: copy (charT* s, size_type n, size_type pos) const { OUTOFRANGE (pos > length ()); if (n > length () - pos) n = length () - pos; traits::copy (s, data () + pos, n); return n; } template basic_string ::size_type basic_string :: find (const charT* s, size_type pos, size_type n) const { size_t xpos = pos; for (; xpos + n <= length (); ++xpos) if (traits::eq (data () [xpos], *s) && traits::compare (data () + xpos, s, n) == 0) return xpos; return npos; } template inline basic_string ::size_type basic_string :: _find (const charT* ptr, charT c, size_type xpos, size_type len) { for (; xpos < len; ++xpos) if (traits::eq (ptr [xpos], c)) return xpos; return npos; } template basic_string ::size_type basic_string :: find (charT c, size_type pos) const { return _find (data (), c, pos, length ()); } template basic_string ::size_type basic_string :: rfind (const charT* s, size_type pos, size_type n) const { if (n > length ()) return npos; size_t xpos = length () - n; if (xpos > pos) xpos = pos; for (++xpos; xpos-- > 0; ) if (traits::eq (data () [xpos], *s) && traits::compare (data () + xpos, s, n) == 0) return xpos; return npos; } template basic_string ::size_type basic_string :: rfind (charT c, size_type pos) const { if (1 > length ()) return npos; size_t xpos = length () - 1; if (xpos > pos) xpos = pos; for (++xpos; xpos-- > 0; ) if (traits::eq (data () [xpos], c)) return xpos; return npos; } template basic_string ::size_type basic_string :: find_first_of (const charT* s, size_type pos, size_type n) const { size_t xpos = pos; for (; xpos < length (); ++xpos) if (_find (s, data () [xpos], 0, n) != npos) return xpos; return npos; } template basic_string ::size_type basic_string :: find_last_of (const charT* s, size_type pos, size_type n) const { if (length() == 0) return npos; size_t xpos = length () - 1; if (xpos > pos) xpos = pos; for (++xpos; xpos-- > 0;) if (_find (s, data () [xpos], 0, n) != npos) return xpos; return npos; } template basic_string ::size_type basic_string :: find_first_not_of (const charT* s, size_type pos, size_type n) const { size_t xpos = pos; for (; xpos < length (); ++xpos) if (_find (s, data () [xpos], 0, n) == npos) return xpos; return npos; } template basic_string ::size_type basic_string :: find_first_not_of (charT c, size_type pos) const { size_t xpos = pos; for (; xpos < length (); ++xpos) if (traits::ne (data () [xpos], c)) return xpos; return npos; } template basic_string ::size_type basic_string :: find_last_not_of (const charT* s, size_type pos, size_type n) const { if (length() == 0) return npos; size_t xpos = length () - 1; if (xpos > pos) xpos = pos; for (++xpos; xpos-- > 0;) if (_find (s, data () [xpos], 0, n) == npos) return xpos; return npos; } template basic_string ::size_type basic_string :: find_last_not_of (charT c, size_type pos) const { if (length() == 0) return npos; size_t xpos = length () - 1; if (xpos > pos) xpos = pos; for (++xpos; xpos-- > 0;) if (traits::ne (data () [xpos], c)) return xpos; return npos; } template int basic_string :: compare (const basic_string& _str, size_type pos, size_type n) const { OUTOFRANGE (pos > length ()); size_t rlen = length () - pos; if (rlen > n) rlen = n; if (rlen > _str.length ()) rlen = _str.length (); int r = traits::compare (data () + pos, _str.data (), rlen); if (r != 0) return r; if (rlen == n) return 0; return (length () - pos) - _str.length (); } template int basic_string :: compare (const charT* s, size_type pos, size_type n) const { OUTOFRANGE (pos > length ()); size_t rlen = length () - pos; if (rlen > n) rlen = n; int r = traits::compare (data () + pos, s, rlen); if (r != 0) return r; return (length () - pos) - n; } #include template istream & operator>> (istream &is, basic_string &s) { int w = is.width (0); if (is.ipfx0 ()) { register streambuf *sb = is.rdbuf (); s.resize (0); while (1) { int ch = sb->sbumpc (); if (ch == EOF) { is.setstate (ios::eofbit); break; } else if (traits::is_del (ch)) { sb->sungetc (); break; } s += static_cast (ch); if (--w == 1) break; } } is.isfx (); if (s.length () == 0) is.setstate (ios::failbit); return is; } template ostream & operator<< (ostream &o, const basic_string & s) { return o.write (s.data (), s.length ()); } template istream& getline (istream &is, basic_string & s, charT delim) { if (is.ipfx1 ()) { _IO_size_t _count = 0; streambuf *sb = is.rdbuf (); s.resize (0); while (1) { int ch = sb->sbumpc (); if (ch == EOF) { is.setstate (_count == 0 ? (ios::failbit|ios::eofbit) : ios::eofbit); break; } ++_count; if (ch == delim) break; s += static_cast (ch); if (s.length () == s.npos - 1) { is.setstate (ios::failbit); break; } } } // We need to be friends with istream to do this. // is._gcount = _count; is.isfx (); return is; } template basic_string ::Rep basic_string::nilRep = { 0, 0, 1, false }; template const basic_string ::size_type basic_string ::npos; } // extern "C++"