e9233b4712
--HG-- branch : dtrg-buildsystem rename : util/arch/build.mk => util/ego/build.mk
216 lines
3.7 KiB
C
216 lines
3.7 KiB
C
/* $Id$ */
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/*
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* (c) copyright 1987 by the Vrije Universiteit, Amsterdam, The Netherlands.
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* See the copyright notice in the ACK home directory, in the file "Copyright".
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*/
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/* L O N G S E T S
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*
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* L S E T . C
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*/
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#include <stdlib.h>
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#include "types.h"
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#include "lset.h"
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#include "alloc.h"
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#include "debug.h"
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/* A 'long' set is represented as a linear list of 'elemholder'
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* records. Every such record contains a pointer to an element
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* of the set and to the next elemholder. An empty set is
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* represented as a null pointer.
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* An element of a long set must be of some pointer type or,
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* in any case, must have the size of a pointer. Note that
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* the strict typing rules are not obeyed here.
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* This package implements the usual operations on sets.
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* The name of every operation is preceeded by a 'L' to
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* distinguish it from the operation on 'compact' (bitvector)
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* sets with a similar name.
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*/
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lset Lempty_set()
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{
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return ((lset) 0);
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}
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bool Lis_elem(x,s)
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register Lelem_t x;
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register lset s;
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{
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/* Search the list to see if x is an element of s */
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while (s != (elem_p) 0) {
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if (s->e_elem == x) {
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return TRUE;
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}
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s = s->e_next;
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}
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return FALSE;
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}
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Ladd(x,s_p)
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Lelem_t x;
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lset *s_p;
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{
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/* add x to a set. Note that the set is given as in-out
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* parameter, because it may be changed.
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*/
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elem_p t;
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if (!Lis_elem(x,*s_p)) {
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t = newelem(); /* allocate a new elemholder */
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t->e_elem = x;
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t->e_next = *s_p; /* insert it at the head of the list */
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*s_p = t;
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}
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}
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Lremove(x,s_p)
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Lelem_t x;
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lset *s_p;
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{
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/* Remove x from a set. If x was not an element of
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* the set, nothing happens.
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*/
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register elem_p *epp, ep;
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lset s;
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s = *s_p;
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epp = &s;
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while ((ep = *epp) != (elem_p) 0) {
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if (ep->e_elem == x) {
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*epp = ep->e_next;
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oldelem(ep);
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break;
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} else {
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epp = &ep->e_next;
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}
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}
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*s_p = s;
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}
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/* The operations first, next and elem can be used to iterate
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* over a set. For example:
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* for (i = Lfirst(s); i != (Lindex) 0; i = Lnext(i,s) {
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* x = Lelem(i);
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* use x
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* }
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* which is like:
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* 'for all elements x of s do'
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* use x
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*/
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Lindex Lfirst(s)
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lset s;
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{
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return ((Lindex) s);
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/* Note that an index for long sets is just
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* a pointer to an elemholder.
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*/
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}
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/*ARGSUSED1*/
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Lindex Lnext(i,s)
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Lindex i;
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lset s;
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{
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assert(i != (Lindex) 0);
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return (i->e_next);
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}
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Lelem_t Lelem(i)
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Lindex i;
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{
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return (i->e_elem);
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}
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Ljoin(s1,s2_p)
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lset s1,*s2_p;
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{
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/* Join two sets, assign the result to the second set
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* and delete the first set (i.e. the value of the
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* first set becomes undefined).
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*/
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register elem_p *epp, ep;
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lset s2;
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/* First all elements of s1 that are also an element of s2
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* are removed from the s1 list. The two resulting lists
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* (for s1 and s2) are linked (s1 first).
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* Note the usage of epp, which points to a pointer that
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* points to the next elemholder record of the list.
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*/
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s2 = *s2_p;
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epp = &s1;
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while ((ep = *epp) != (elem_p) 0) {
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if (Lis_elem(ep->e_elem,s2)) {
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/* remove an element */
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*epp = ep->e_next;
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oldelem(ep);
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} else {
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epp = &ep->e_next;
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}
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}
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*epp = s2; /* last record of s1 (or s1 itself) now points
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* to first record of s2.
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*/
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*s2_p = s1;
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}
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Ldeleteset(s)
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lset s;
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{
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register elem_p ep, next;
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for (ep = s; ep != (elem_p) 0; ep = next) {
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next = ep->e_next;
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oldelem(ep);
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}
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}
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bool Lis_subset(s1,s2)
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lset s1,s2;
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{
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/* See if s1 is a subset of s2 */
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register Lindex i;
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for (i = Lfirst(s1); i != (Lindex) 0; i = Lnext(i,s1)) {
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if (!Lis_elem(Lelem(i),s2)) return FALSE;
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}
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return TRUE;
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}
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short Lnrelems(s)
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lset s;
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{
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/* Compute the number of elements of a set */
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register elem_p ep;
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register short cnt;
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cnt = 0;
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for (ep = s; ep != (elem_p) 0; ep = ep->e_next) {
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cnt++;
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}
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return cnt;
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}
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