Introduce likely/unlikely macros, use them in saa.c
[nasm/autotest.git] / rdoff / segtab.c
blob693094e4fba7da97536444026530e95e7b883418
1 #include "compiler.h"
3 #include <stdio.h>
4 #include <stdlib.h>
5 #include "segtab.h"
7 struct segtabnode {
8 int localseg;
9 int destseg;
10 int32_t offset;
12 struct segtabnode *left;
13 struct segtabnode *right;
15 * counts of how many are left or right, for use in reorganising
16 * the tree
18 int leftcount;
19 int rightcount;
23 * init_seglocations()
24 * add_seglocation()
25 * get_seglocation()
26 * done_seglocation()
28 * functions used by write_output() to manipulate associations
29 * between segment numbers and locations (which are built up on a per
30 * module basis, but we only need one module at a time...)
32 * implementation: we build a binary tree.
35 void init_seglocations(segtab * root)
37 *root = NULL;
40 void descend_tree_add(struct segtabnode **node,
41 int localseg, int destseg, int32_t offset)
43 struct segtabnode *n;
45 if (*node == NULL) {
46 *node = malloc(sizeof(**node));
47 if (!*node) {
48 fprintf(stderr, "segment table: out of memory\n");
49 exit(1);
51 (*node)->localseg = localseg;
52 (*node)->offset = offset;
53 (*node)->left = NULL;
54 (*node)->leftcount = 0;
55 (*node)->right = NULL;
56 (*node)->rightcount = 0;
57 (*node)->destseg = destseg;
58 return;
61 if (localseg < (*node)->localseg) {
62 (*node)->leftcount++;
63 descend_tree_add(&(*node)->left, localseg, destseg, offset);
65 if ((*node)->leftcount > (*node)->rightcount + 2) {
66 n = *node;
67 *node = n->left;
68 n->left = (*node)->right;
69 n->leftcount = (*node)->rightcount;
70 (*node)->right = n;
71 (*node)->rightcount = n->leftcount + n->rightcount + 1;
73 } else {
74 (*node)->rightcount++;
75 descend_tree_add(&(*node)->right, localseg, destseg, offset);
77 if ((*node)->rightcount > (*node)->leftcount + 2) {
78 n = *node;
79 *node = n->right;
80 n->right = (*node)->left;
81 n->rightcount = (*node)->leftcount;
82 (*node)->left = n;
83 (*node)->leftcount = n->leftcount + n->rightcount + 1;
88 void add_seglocation(segtab * root, int localseg, int destseg, int32_t offset)
90 descend_tree_add((struct segtabnode **)root, localseg, destseg,
91 offset);
94 int get_seglocation(segtab * root, int localseg, int *destseg,
95 int32_t *offset)
97 struct segtabnode *n = (struct segtabnode *)*root;
99 while (n && n->localseg != localseg) {
100 if (localseg < n->localseg)
101 n = n->left;
102 else
103 n = n->right;
105 if (n) {
106 *destseg = n->destseg;
107 *offset = n->offset;
108 return 1;
109 } else
110 return 0;
113 void freenode(struct segtabnode *n)
115 if (!n)
116 return;
117 freenode(n->left);
118 freenode(n->right);
119 free(n);
122 void done_seglocations(segtab * root)
124 freenode(*root);
125 *root = NULL;
128 #if 0
129 void printnode(int i, struct segtabnode *n)
131 if (!n)
132 return;
133 printnode(i + 1, n->left);
134 printf("%*s%d %d %ld\n", i, "", n->localseg, n->destseg, n->offset);
135 printnode(i + 1, n->right);
138 void printtable()
140 printnode(0, root);
142 #endif