// This may look like C code, but it is really -*- C++ -*- /* Copyright (C) 1988 Free Software Foundation written by Doug Lea (dl@rocky.oswego.edu) This file is part of the GNU C++ Library. This library is free software; you can redistribute it and/or modify it under the terms of the GNU Library General Public License as published by the Free Software Foundation; either version 2 of the License, 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 Library General Public License for more details. You should have received a copy of the GNU Library General Public License along with this library; if not, write to the Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA. */ #ifndef _Obstack_h #ifdef __GNUG__ #pragma interface #endif #define _Obstack_h 1 #include class Obstack { struct _obstack_chunk { char* limit; _obstack_chunk* prev; char contents[4]; }; protected: long chunksize; _obstack_chunk* chunk; char* objectbase; char* nextfree; char* chunklimit; int alignmentmask; void _free(void* obj); void newchunk(int size); public: Obstack(int size = 4080, int alignment = 4); // 4080=4096-mallocslop ~Obstack(); void* base(); void* next_free(); int alignment_mask(); int chunk_size(); int size(); int room(); int contains(void* p); // does Obstack hold pointer p? void grow(const void* data, int size); void grow(const void* data, int size, char terminator); void grow(const char* s); void grow(char c); void grow_fast(char c); void blank(int size); void blank_fast(int size); void* finish(); void* finish(char terminator); void* copy(const void* data, int size); void* copy(const void* data, int size, char terminator); void* copy(const char* s); void* copy(char c); void* alloc(int size); void free(void* obj); void shrink(int size = 1); // suggested by ken@cs.rochester.edu int OK(); // rep invariant }; inline Obstack::~Obstack() { _free(0); } inline void* Obstack::base() { return objectbase; } inline void* Obstack::next_free() { return nextfree; } inline int Obstack::alignment_mask() { return alignmentmask; } inline int Obstack::chunk_size() { return chunksize; } inline int Obstack::size() { return nextfree - objectbase; } inline int Obstack::room() { return chunklimit - nextfree; } inline void Obstack:: grow(const void* data, int size) { if (nextfree+size > chunklimit) newchunk(size); memcpy(nextfree, data, size); nextfree += size; } inline void Obstack:: grow(const void* data, int size, char terminator) { if (nextfree+size+1 > chunklimit) newchunk(size+1); memcpy(nextfree, data, size); nextfree += size; *(nextfree)++ = terminator; } inline void Obstack:: grow(const char* s) { grow((const void*)s, strlen(s), 0); } inline void Obstack:: grow(char c) { if (nextfree+1 > chunklimit) newchunk(1); *(nextfree)++ = c; } inline void Obstack:: blank(int size) { if (nextfree+size > chunklimit) newchunk(size); nextfree += size; } inline void* Obstack::finish(char terminator) { grow(terminator); return finish(); } inline void* Obstack::copy(const void* data, int size) { grow (data, size); return finish(); } inline void* Obstack::copy(const void* data, int size, char terminator) { grow(data, size, terminator); return finish(); } inline void* Obstack::copy(const char* s) { grow((const void*)s, strlen(s), 0); return finish(); } inline void* Obstack::copy(char c) { grow(c); return finish(); } inline void* Obstack::alloc(int size) { blank(size); return finish(); } inline void Obstack:: free(void* obj) { if (obj >= (void*)chunk && obj<(void*)chunklimit) nextfree = objectbase = (char *) obj; else _free(obj); } inline void Obstack:: grow_fast(char c) { *(nextfree)++ = c; } inline void Obstack:: blank_fast(int size) { nextfree += size; } inline void Obstack:: shrink(int size) // from ken@cs.rochester.edu { if (nextfree >= objectbase + size) nextfree -= size; } #endif