radare2/libr/util/tree.c

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/* radare - LGPL - Copyright 2007-2015 - ret2libc */
#include <r_util.h>
static void tree_dfs_node (RTreeNode *r, RTreeVisitor *vis) {
RStack *s;
RListIter *it;
RTreeNode *n;
s = r_stack_new (16);
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if (!s) return;
r_stack_push (s, r);
while (!r_stack_is_empty (s)) {
RTreeNode *el = (RTreeNode *)r_stack_pop (s);
if (vis->pre_visit)
vis->pre_visit (el, vis);
r_list_foreach_prev (el->children, it, n) {
if (vis->discover_child)
vis->discover_child (n, vis);
r_stack_push (s, n);
}
if (vis->post_visit)
vis->post_visit (el, vis);
}
r_stack_free (s);
}
static void r_tree_node_free (RTreeNode *n) {
r_list_free (n->children);
if (n->free)
n->free (n->data);
free (n);
}
static void node_free (RTreeNode *n, RTreeVisitor *vis) {
r_tree_node_free (n);
}
static void free_all_children (RTree *t) {
RTreeVisitor vis = { 0 };
vis.post_visit = (RTreeNodeVisitCb)node_free;
r_tree_bfs (t, &vis);
}
static void update_depth (RTreeNode *n, RTreeVisitor *vis) {
n->depth = n->parent ? n->parent->depth + 1 : 0;
}
static RTreeNode *node_new (RTree *t, void *data) {
RTreeNode *n = R_NEW0 (RTreeNode);
if (!n) return NULL;
n->children = r_list_new ();
n->data = data;
n->tree = t;
return n;
}
R_API RTree *r_tree_new (void) {
return R_NEW0 (RTree);
}
R_API void r_tree_free (RTree* t) {
if (!t)
return;
free_all_children (t);
free (t);
}
R_API void r_tree_reset (RTree *t) {
if (!t)
return;
free_all_children (t);
t->root = NULL;
}
/* add a node in the RTree t as a child of the RTreeNode node.
* NOTE: the first call to this function, should add the root
* of the tree so the node will be NULL. */
/* TODO: allow to replace the root of the tree and make it a child of the new
* node */
R_API RTreeNode *r_tree_add_node (RTree *t, RTreeNode *node, void *child_data) {
RTreeNode *child;
RTreeVisitor vis = { 0 };
/* a NULL node is allowed only the first time, to set the root */
if (!t || (node && node->tree != t) || (t->root && !node))
return NULL;
child = node_new (t, child_data);
if (!node && !t->root) {
t->root = child;
} else if (node) {
r_list_append (node->children, child);
node->n_children++;
}
child->parent = node;
/* update depth */
vis.pre_visit = (RTreeNodeVisitCb)update_depth;
tree_dfs_node (child, &vis);
return child;
}
R_API void r_tree_dfs (RTree *t, RTreeVisitor *vis) {
if (!t || !t->root)
return;
tree_dfs_node (t->root, vis);
}
R_API void r_tree_bfs (RTree *t, RTreeVisitor *vis) {
RQueue *q;
if (!t || !t->root)
return;
q = r_queue_new (16);
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if (!q) return;
r_queue_enqueue (q, t->root);
while (!r_queue_is_empty (q)) {
RTreeNode *el = (RTreeNode *)r_queue_dequeue (q);
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if (!el) {
r_queue_free (q);
return;
}
RTreeNode *n;
RListIter *it;
if (vis->pre_visit)
vis->pre_visit (el, vis);
r_list_foreach (el->children, it, n) {
if (vis->discover_child)
vis->discover_child (n, vis);
r_queue_enqueue (q, n);
}
if (vis->post_visit)
vis->post_visit (el, vis);
}
r_queue_free (q);
}