1*a9fa9459Szrj /* List implementation of a partition of consecutive integers.
2*a9fa9459Szrj Copyright (C) 2000, 2001 Free Software Foundation, Inc.
3*a9fa9459Szrj Contributed by CodeSourcery, LLC.
4*a9fa9459Szrj
5*a9fa9459Szrj This file is part of GNU CC.
6*a9fa9459Szrj
7*a9fa9459Szrj GNU CC is free software; you can redistribute it and/or modify
8*a9fa9459Szrj it under the terms of the GNU General Public License as published by
9*a9fa9459Szrj the Free Software Foundation; either version 2, or (at your option)
10*a9fa9459Szrj any later version.
11*a9fa9459Szrj
12*a9fa9459Szrj GNU CC is distributed in the hope that it will be useful,
13*a9fa9459Szrj but WITHOUT ANY WARRANTY; without even the implied warranty of
14*a9fa9459Szrj MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
15*a9fa9459Szrj GNU General Public License for more details.
16*a9fa9459Szrj
17*a9fa9459Szrj You should have received a copy of the GNU General Public License
18*a9fa9459Szrj along with GNU CC; see the file COPYING. If not, write to
19*a9fa9459Szrj the Free Software Foundation, 51 Franklin Street - Fifth Floor,
20*a9fa9459Szrj Boston, MA 02110-1301, USA. */
21*a9fa9459Szrj
22*a9fa9459Szrj #ifdef HAVE_CONFIG_H
23*a9fa9459Szrj #include "config.h"
24*a9fa9459Szrj #endif
25*a9fa9459Szrj
26*a9fa9459Szrj #ifdef HAVE_STDLIB_H
27*a9fa9459Szrj #include <stdlib.h>
28*a9fa9459Szrj #endif
29*a9fa9459Szrj
30*a9fa9459Szrj #ifdef HAVE_STRING_H
31*a9fa9459Szrj #include <string.h>
32*a9fa9459Szrj #endif
33*a9fa9459Szrj
34*a9fa9459Szrj #include "libiberty.h"
35*a9fa9459Szrj #include "partition.h"
36*a9fa9459Szrj
37*a9fa9459Szrj static int elem_compare (const void *, const void *);
38*a9fa9459Szrj
39*a9fa9459Szrj /* Creates a partition of NUM_ELEMENTS elements. Initially each
40*a9fa9459Szrj element is in a class by itself. */
41*a9fa9459Szrj
42*a9fa9459Szrj partition
partition_new(int num_elements)43*a9fa9459Szrj partition_new (int num_elements)
44*a9fa9459Szrj {
45*a9fa9459Szrj int e;
46*a9fa9459Szrj
47*a9fa9459Szrj partition part = (partition)
48*a9fa9459Szrj xmalloc (sizeof (struct partition_def) +
49*a9fa9459Szrj (num_elements - 1) * sizeof (struct partition_elem));
50*a9fa9459Szrj part->num_elements = num_elements;
51*a9fa9459Szrj for (e = 0; e < num_elements; ++e)
52*a9fa9459Szrj {
53*a9fa9459Szrj part->elements[e].class_element = e;
54*a9fa9459Szrj part->elements[e].next = &(part->elements[e]);
55*a9fa9459Szrj part->elements[e].class_count = 1;
56*a9fa9459Szrj }
57*a9fa9459Szrj
58*a9fa9459Szrj return part;
59*a9fa9459Szrj }
60*a9fa9459Szrj
61*a9fa9459Szrj /* Freeds a partition. */
62*a9fa9459Szrj
63*a9fa9459Szrj void
partition_delete(partition part)64*a9fa9459Szrj partition_delete (partition part)
65*a9fa9459Szrj {
66*a9fa9459Szrj free (part);
67*a9fa9459Szrj }
68*a9fa9459Szrj
69*a9fa9459Szrj /* Unites the classes containing ELEM1 and ELEM2 into a single class
70*a9fa9459Szrj of partition PART. If ELEM1 and ELEM2 are already in the same
71*a9fa9459Szrj class, does nothing. Returns the canonical element of the
72*a9fa9459Szrj resulting union class. */
73*a9fa9459Szrj
74*a9fa9459Szrj int
partition_union(partition part,int elem1,int elem2)75*a9fa9459Szrj partition_union (partition part, int elem1, int elem2)
76*a9fa9459Szrj {
77*a9fa9459Szrj struct partition_elem *elements = part->elements;
78*a9fa9459Szrj struct partition_elem *e1;
79*a9fa9459Szrj struct partition_elem *e2;
80*a9fa9459Szrj struct partition_elem *p;
81*a9fa9459Szrj struct partition_elem *old_next;
82*a9fa9459Szrj /* The canonical element of the resulting union class. */
83*a9fa9459Szrj int class_element = elements[elem1].class_element;
84*a9fa9459Szrj
85*a9fa9459Szrj /* If they're already in the same class, do nothing. */
86*a9fa9459Szrj if (class_element == elements[elem2].class_element)
87*a9fa9459Szrj return class_element;
88*a9fa9459Szrj
89*a9fa9459Szrj /* Make sure ELEM1 is in the larger class of the two. If not, swap
90*a9fa9459Szrj them. This way we always scan the shorter list. */
91*a9fa9459Szrj if (elements[elem1].class_count < elements[elem2].class_count)
92*a9fa9459Szrj {
93*a9fa9459Szrj int temp = elem1;
94*a9fa9459Szrj elem1 = elem2;
95*a9fa9459Szrj elem2 = temp;
96*a9fa9459Szrj class_element = elements[elem1].class_element;
97*a9fa9459Szrj }
98*a9fa9459Szrj
99*a9fa9459Szrj e1 = &(elements[elem1]);
100*a9fa9459Szrj e2 = &(elements[elem2]);
101*a9fa9459Szrj
102*a9fa9459Szrj /* Keep a count of the number of elements in the list. */
103*a9fa9459Szrj elements[class_element].class_count
104*a9fa9459Szrj += elements[e2->class_element].class_count;
105*a9fa9459Szrj
106*a9fa9459Szrj /* Update the class fields in elem2's class list. */
107*a9fa9459Szrj e2->class_element = class_element;
108*a9fa9459Szrj for (p = e2->next; p != e2; p = p->next)
109*a9fa9459Szrj p->class_element = class_element;
110*a9fa9459Szrj
111*a9fa9459Szrj /* Splice ELEM2's class list into ELEM1's. These are circular
112*a9fa9459Szrj lists. */
113*a9fa9459Szrj old_next = e1->next;
114*a9fa9459Szrj e1->next = e2->next;
115*a9fa9459Szrj e2->next = old_next;
116*a9fa9459Szrj
117*a9fa9459Szrj return class_element;
118*a9fa9459Szrj }
119*a9fa9459Szrj
120*a9fa9459Szrj /* Compare elements ELEM1 and ELEM2 from array of integers, given a
121*a9fa9459Szrj pointer to each. Used to qsort such an array. */
122*a9fa9459Szrj
123*a9fa9459Szrj static int
elem_compare(const void * elem1,const void * elem2)124*a9fa9459Szrj elem_compare (const void *elem1, const void *elem2)
125*a9fa9459Szrj {
126*a9fa9459Szrj int e1 = * (const int *) elem1;
127*a9fa9459Szrj int e2 = * (const int *) elem2;
128*a9fa9459Szrj if (e1 < e2)
129*a9fa9459Szrj return -1;
130*a9fa9459Szrj else if (e1 > e2)
131*a9fa9459Szrj return 1;
132*a9fa9459Szrj else
133*a9fa9459Szrj return 0;
134*a9fa9459Szrj }
135*a9fa9459Szrj
136*a9fa9459Szrj /* Prints PART to the file pointer FP. The elements of each
137*a9fa9459Szrj class are sorted. */
138*a9fa9459Szrj
139*a9fa9459Szrj void
partition_print(partition part,FILE * fp)140*a9fa9459Szrj partition_print (partition part, FILE *fp)
141*a9fa9459Szrj {
142*a9fa9459Szrj char *done;
143*a9fa9459Szrj int num_elements = part->num_elements;
144*a9fa9459Szrj struct partition_elem *elements = part->elements;
145*a9fa9459Szrj int *class_elements;
146*a9fa9459Szrj int e;
147*a9fa9459Szrj
148*a9fa9459Szrj /* Flag the elements we've already printed. */
149*a9fa9459Szrj done = (char *) xmalloc (num_elements);
150*a9fa9459Szrj memset (done, 0, num_elements);
151*a9fa9459Szrj
152*a9fa9459Szrj /* A buffer used to sort elements in a class. */
153*a9fa9459Szrj class_elements = (int *) xmalloc (num_elements * sizeof (int));
154*a9fa9459Szrj
155*a9fa9459Szrj fputc ('[', fp);
156*a9fa9459Szrj for (e = 0; e < num_elements; ++e)
157*a9fa9459Szrj /* If we haven't printed this element, print its entire class. */
158*a9fa9459Szrj if (! done[e])
159*a9fa9459Szrj {
160*a9fa9459Szrj int c = e;
161*a9fa9459Szrj int count = elements[elements[e].class_element].class_count;
162*a9fa9459Szrj int i;
163*a9fa9459Szrj
164*a9fa9459Szrj /* Collect the elements in this class. */
165*a9fa9459Szrj for (i = 0; i < count; ++i) {
166*a9fa9459Szrj class_elements[i] = c;
167*a9fa9459Szrj done[c] = 1;
168*a9fa9459Szrj c = elements[c].next - elements;
169*a9fa9459Szrj }
170*a9fa9459Szrj /* Sort them. */
171*a9fa9459Szrj qsort ((void *) class_elements, count, sizeof (int), elem_compare);
172*a9fa9459Szrj /* Print them. */
173*a9fa9459Szrj fputc ('(', fp);
174*a9fa9459Szrj for (i = 0; i < count; ++i)
175*a9fa9459Szrj fprintf (fp, i == 0 ? "%d" : " %d", class_elements[i]);
176*a9fa9459Szrj fputc (')', fp);
177*a9fa9459Szrj }
178*a9fa9459Szrj fputc (']', fp);
179*a9fa9459Szrj
180*a9fa9459Szrj free (class_elements);
181*a9fa9459Szrj free (done);
182*a9fa9459Szrj }
183*a9fa9459Szrj
184