/* ** Splint - annotation-assisted static program checker ** Copyright (C) 1994-2003 University of Virginia, ** Massachusetts Institute of Technology ** ** This program 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 of the License, or (at your ** option) any later version. ** ** This program 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. ** ** The GNU General Public License is available from http://www.gnu.org/ or ** the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, ** MA 02111-1307, USA. ** ** For information on splint: info@splint.org ** To report a bug: splint-bug@splint.org ** For more information: http://www.splint.org */ /* ** lslOpSet.c ** ** based on set_template.c ** ** where T has T_equal (or change this) and T_unparse */ # include "splintMacros.nf" # include "basic.h" # include "checking.h" /* for lslOp_equal */ static bool lslOpSet_member (lslOpSet p_s, lslOp p_el); lslOpSet lslOpSet_new () { lslOpSet s = (lslOpSet) dmalloc (sizeof (*s)); s->entries = 0; s->nspace = lslOpSetBASESIZE; s->elements = (lslOp *) dmalloc (sizeof (*s->elements) * lslOpSetBASESIZE); return (s); } static /*@only@*/ lslOpSet lslOpSet_predict (int size) { lslOpSet s = (lslOpSet) dmalloc (sizeof (*s)); s->entries = 0; if (size > 0) { s->nspace = size; s->elements = (lslOp *) dmalloc (sizeof (*s->elements) * size); } else { s->nspace = 0; s->elements = NULL; } return (s); } static void lslOpSet_grow (/*@notnull@*/ lslOpSet s) { int i; lslOp *newelements; s->nspace = lslOpSetBASESIZE; newelements = (lslOp *) dmalloc (sizeof (*newelements) * (s->entries + s->nspace)); if (newelements == (lslOp *) 0) { llfatalerror (cstring_makeLiteral ("lslOpSet_grow: out of memory!")); } for (i = 0; i < s->entries; i++) { newelements[i] = s->elements[i]; } sfree (s->elements); s->elements = newelements; } /* ** Ensures: if *e \in *s ** then unchanged (*s) & result = false ** else *s' = insert (*s, *e) & result = true ** Modifies: *s */ bool lslOpSet_insert (lslOpSet s, /*@only@*/ lslOp el) { llassert (lslOpSet_isDefined (s)); if (lslOpSet_member (s, el)) { lslOp_free (el); return FALSE; } else { if (s->nspace <= 0) lslOpSet_grow (s); s->nspace--; s->elements[s->entries] = el; s->entries++; return TRUE; } } static bool lslOpSet_member (lslOpSet s, lslOp el) { if (lslOpSet_isDefined (s)) { int i; for (i = 0; i < lslOpSet_size (s); i++) { if (lslOp_equal (el, s->elements[i])) return TRUE; } } return FALSE; } /*@only@*/ cstring lslOpSet_unparse (lslOpSet s) { if (lslOpSet_isDefined (s)) { int i; cstring st = cstring_makeLiteral ("{"); for (i = 0; i < lslOpSet_size (s); i++) { st = message ("%q %q", st, lslOp_unparse (s->elements[i])); } st = message ("%q}", st); return st; } else { return (cstring_makeLiteral ("{ }")); } } /*@only@*/ lslOpSet lslOpSet_copy (lslOpSet s) { if (lslOpSet_isDefined (s)) { lslOpSet t = lslOpSet_predict (lslOpSet_size (s)); int i; for (i = 0; i < lslOpSet_size (s); i++) { (void) lslOpSet_insert (t, lslOp_copy (s->elements[i])); } return t; } else { return lslOpSet_undefined; } } void lslOpSet_free (lslOpSet s) { if (lslOpSet_isDefined (s)) { int i; for (i = 0; i < s->entries; i++) { lslOp_free (s->elements[i]); } sfree (s->elements); sfree (s); } }