#include #include /* avl tree implementation using recursive functions the height of an n node tree is less than 1.44*log2(n+2)-1 (so the max recursion depth in case of a tree with 2^32 nodes is 45) */ struct node { const void *key; struct node *left; struct node *right; int height; }; static int delta(struct node *n) { return (n->left ? n->left->height:0) - (n->right ? n->right->height:0); } static void updateheight(struct node *n) { n->height = 0; if (n->left && n->left->height > n->height) n->height = n->left->height; if (n->right && n->right->height > n->height) n->height = n->right->height; n->height++; } static struct node *rotl(struct node *n) { struct node *r = n->right; n->right = r->left; r->left = n; updateheight(n); updateheight(r); return r; } static struct node *rotr(struct node *n) { struct node *l = n->left; n->left = l->right; l->right = n; updateheight(n); updateheight(l); return l; } static struct node *balance(struct node *n) { int d = delta(n); if (d < -1) { if (delta(n->right) > 0) n->right = rotr(n->right); return rotl(n); } else if (d > 1) { if (delta(n->left) < 0) n->left = rotl(n->left); return rotr(n); } updateheight(n); return n; } static struct node *find(struct node *n, const void *k, int (*cmp)(const void *, const void *)) { int c; if (!n) return 0; c = cmp(k, n->key); if (c == 0) return n; if (c < 0) return find(n->left, k, cmp); else return find(n->right, k, cmp); } static struct node *insert(struct node **n, const void *k, int (*cmp)(const void *, const void *), int *new) { struct node *r = *n; int c; if (!r) { *n = r = malloc(sizeof **n); if (r) { r->key = k; r->left = r->right = 0; r->height = 1; } *new = 1; return r; } c = cmp(k, r->key); if (c == 0) return r; if (c < 0) r = insert(&r->left, k, cmp, new); else r = insert(&r->right, k, cmp, new); if (*new) *n = balance(*n); return r; } static struct node *movr(struct node *n, struct node *r) { if (!n) return r; n->right = movr(n->right, r); return balance(n); } static struct node *remove(struct node **n, const void *k, int (*cmp)(const void *, const void *), struct node *parent) { int c; if (!*n) return 0; c = cmp(k, (*n)->key); if (c == 0) { struct node *r = *n; *n = movr(r->left, r->right); free(r); return parent; } if (c < 0) parent = remove(&(*n)->left, k, cmp, *n); else parent = remove(&(*n)->right, k, cmp, *n); if (parent) *n = balance(*n); return parent; } void *tdelete(const void *restrict key, void **restrict rootp, int(*compar)(const void *, const void *)) { /* last argument is arbitrary non-null pointer which is returned when the root node is deleted */ return remove((void*)rootp, key, compar, *rootp); } void *tfind(const void *key, void *const *rootp, int(*compar)(const void *, const void *)) { return find(*rootp, key, compar); } void *tsearch(const void *key, void **rootp, int (*compar)(const void *, const void *)) { int new = 0; return insert((void*)rootp, key, compar, &new); } static void walk(const struct node *r, void (*action)(const void *, VISIT, int), int d) { if (r == 0) return; if (r->left == 0 && r->right == 0) action(r, leaf, d); else { action(r, preorder, d); walk(r->left, action, d+1); action(r, postorder, d); walk(r->right, action, d+1); action(r, endorder, d); } } void twalk(const void *root, void (*action)(const void *, VISIT, int)) { walk(root, action, 0); }