lighttpd2/src/common/radix.c


#include <lighttpd/radix.h>

liRadixTree32 *li_radixtree32_new(guint32 root_width) {
	guint32 i;
	liRadixTree32 *tree = g_slice_new(liRadixTree32);

	if (root_width == 0)
		root_width = 1;
	else if (root_width > 8)
		root_width = 8;

	tree->root = g_new0(liRadixNode32*, 1 << root_width);
	tree->size = 0;
	tree->root_width = root_width;
	tree->root_mask = 0;

	for (i = 0; i < root_width; i++)
		tree->root_mask = ~(~tree->root_mask >> 1);

	return tree;
}

guint li_radixtree32_free(liRadixTree32 *tree) {
	guint32 i;
	liRadixNode32 *node, *parent;
	guint32 n = 0;

	/* walk the tree and free every node */
	for (i = 0; i < ((guint32)1 << tree->root_width); i++) {
		node = tree->root[i];

		while (node) {
			if (node->left)
				node = node->left;
			else if (node->right)
				node = node->right;
			else {
				parent = node->parent;

				if (parent) {
					if (parent->left == node)
						parent->left = NULL;
					else
						parent->right = NULL;
				}

				g_slice_free(liRadixNode32, node);
				node = parent;
				n++;
			}
		}
	}

	g_free(tree->root);
	g_slice_free(liRadixTree32, tree);

	return n;
}

void li_radixtree32_insert(liRadixTree32 *tree, guint32 key, guint32 mask, gpointer data) {
	liRadixNode32 *last_node, *leaf;
	liRadixNode32 *node = tree->root[(key & tree->root_mask) >> (32 - tree->root_width)];
	//g_print("root: %p, %x & %x => %x\n", (void*)node, key, tree->root_mask, (key & tree->root_mask) >> (32 - tree->root_width));
	if (!node) {
		/* no root node yet */
		node = g_slice_new(liRadixNode32);
		node->key = key & mask;
		node->mask = mask;
		node->data = data;
		node->parent = NULL;
		node->left = NULL;
		node->right = NULL;
		tree->root[(key & tree->root_mask) >> (32 - tree->root_width)] = node;
		tree->size++;

		return;
	}

	do {//g_print("%x & %x => %x != %x\n", key, node->mask, key & node->mask, node->key);
		if ((key & mask & node->mask) != node->key) {guint i;
			/* node key differs, split tree */
			guint32 tmp;
			liRadixNode32 *new_node;i=0;

			/* the new internal node */
			new_node = g_slice_new(liRadixNode32);
			new_node->data = NULL;
			new_node->parent = node->parent;
			new_node->mask = node->mask;
			new_node->key = node->key;

			node->parent = new_node;

			/* the new leaf */
			leaf = g_slice_new(liRadixNode32);
			leaf->key = key & mask;
			leaf->mask = mask;
			leaf->data = data;
			leaf->parent = new_node;
			leaf->left = NULL;
			leaf->right = NULL;

			do {//g_print("xxx #%u %x & %x => %x != %x\n", i++, key, new_node->mask, key&new_node->mask, node->key);
				tmp = new_node->mask;
				new_node->mask <<= 1;
				new_node->key &= new_node->mask;
			} while ((key & mask & new_node->mask) != new_node->key);
			//g_print("xxx %x & %x => %x != %x\n", key, new_node->mask, key&new_node->mask, node->key);

			//if (key & (~ (~ new_node->mask >> 1))) {
			if ((key & new_node->mask) > (key & (~ (~ new_node->mask >> 1)))) {
				new_node->left = node;
				new_node->right = leaf;
			} else {
				new_node->left = leaf;
				new_node->right = node;
			}

			if (new_node->parent) {
				if (new_node->parent->left == node)
					new_node->parent->left = new_node;
				else
					new_node->parent->right = new_node;
			} else {
				tree->root[(key & tree->root_mask) >> (32 - tree->root_width)] = new_node;
			}

			tree->size++;

			return;
		} else if ((key & mask) == node->key) {
			node->data = data;

			return;
		}

		last_node = node;

		/* compare next bit */
		//if (key & (~ (~ node->mask >> 1)))
		if ((key & node->mask) > (key & (~ (~ node->mask >> 1))))
			node = node->right;
		else
			node = node->left;
	} while (node);

	/* new leaf at end of tree */
	leaf = g_slice_new0(liRadixNode32);
	leaf->data = data;
	leaf->key = key & mask;
	leaf->mask = mask;
	leaf->parent = last_node;

	//if (key & (~ (~ last_node->key >> 1)))
	if ((key & last_node->mask) > (key & (~ (~ last_node->mask >> 1))))
		last_node->right = leaf;
	else
		last_node->left = leaf;

	tree->size++;
}

gboolean li_radixtree32_remove(liRadixTree32 *tree, guint32 key, guint32 mask) {
	liRadixNode32 *node = tree->root[(key & tree->root_mask) >> (32 - tree->root_width)];

	while (node) {
		if (!node->data || (key & mask) != node->key) {
			/* compare next bit */
			//if (key & (~ (~ node->key >> 1)))
			if ((key & node->mask) > (key & (~ (~ node->mask >> 1))))
				node = node->right;
			else
				node = node->left;

			continue;
		}

		if (!node->left && !node->right) {
			/* leaf */
			if (node->parent) {
				if (node->parent->data) {
					/* set current node to parent */
					node->data = node->parent->data;
					node->key = node->parent->key;
					node->mask = node->parent->mask;
					node->parent->data = NULL;

					return TRUE;
				} else {
					/* the parent internal node has no data, we can set our sibling as the new internal node */
					liRadixNode32 *sibling = (node->parent->left == node) ? node->parent->right : node->parent->left;
					if (node->parent->parent) {
						if (node->parent->parent->left == node->parent)
							node->parent->parent->left = sibling;
						else
							node->parent->parent->right = sibling;
					} else {
						/* the parent is the tree root, set root to our sibling */
						tree->root[(key & tree->root_mask) >> (32 - tree->root_width)] = sibling;
					}

					/* old internal node not needed anymore */
					tree->size--;
					g_slice_free(liRadixNode32, node->parent);
				}
			} else {
				/* tree root */
				tree->root[(key & tree->root_mask) >> (32 - tree->root_width)] = NULL;
			}
		} else {
			/* internal node */
			node->data = NULL;

			return TRUE;
		}

		tree->size--;
		g_slice_free(liRadixNode32, node);

		return TRUE;
	}

	return FALSE;
}

liRadixNode32 *li_radixtree32_lookup_node(liRadixTree32 *tree, guint32 key) {
	liRadixNode32 *node = tree->root[(key & tree->root_mask) >> (32 - tree->root_width)];
	liRadixNode32 *result = NULL;

	while (node) {//g_print("%x & %x => %x != %x\n", key, node->mask, key & node->mask, node->key);
		if ((key & node->mask) != node->key)
			return result;

		if (node->data)
			result = node;

		/* compare next bit */
		//if (key & (~ (~ node->key >> 1)))
		if ((key & node->mask) > (key & (~ (~ node->mask >> 1))))
			node = node->right;
		else
			node = node->left;
	}

	return result;
}

gpointer li_radixtree32_lookup(liRadixTree32 *tree, guint32 key) {
	liRadixNode32 *node = li_radixtree32_lookup_node(tree, key);

	return node ? node->data : NULL;
}

gpointer li_radixtree32_lookup_exact(liRadixTree32 *tree, guint32 key) {
	liRadixNode32 *node = li_radixtree32_lookup_node(tree, key);

	if (!node)
		return NULL;

	return (node->key == key) ? node->data : NULL;
}
Make radix implementation independent of lighty 2009-07-07 16:45:47 +00:00
			`#include <lighttpd/radix.h>`
[core] Add implementation of 32bit radix trees (radix.{h.c}) 2009-05-29 13:03:19 +00:00
Prefix LI_API functions with "li_" 2009-07-09 20:17:24 +00:00			`liRadixTree32 *li_radixtree32_new(guint32 root_width) {`
[core] Add implementation of 32bit radix trees (radix.{h.c}) 2009-05-29 13:03:19 +00:00			`guint32 i;`
Prefix typenames, enums and some macros with "li" and "LI_"; CamelCase TypeNames 2009-07-08 19:06:07 +00:00			`liRadixTree32 *tree = g_slice_new(liRadixTree32);`
[core] Add implementation of 32bit radix trees (radix.{h.c}) 2009-05-29 13:03:19 +00:00
			`if (root_width == 0)`
			`root_width = 1;`
			`else if (root_width > 8)`
			`root_width = 8;`

Prefix typenames, enums and some macros with "li" and "LI_"; CamelCase TypeNames 2009-07-08 19:06:07 +00:00			`tree->root = g_new0(liRadixNode32*, 1 << root_width);`
[core] Add implementation of 32bit radix trees (radix.{h.c}) 2009-05-29 13:03:19 +00:00			`tree->size = 0;`
			`tree->root_width = root_width;`
			`tree->root_mask = 0;`

			`for (i = 0; i < root_width; i++)`
			`tree->root_mask = ~(~tree->root_mask >> 1);`

			`return tree;`
			`}`

Prefix LI_API functions with "li_" 2009-07-09 20:17:24 +00:00			`guint li_radixtree32_free(liRadixTree32 *tree) {`
[core] Add implementation of 32bit radix trees (radix.{h.c}) 2009-05-29 13:03:19 +00:00			`guint32 i;`
Prefix typenames, enums and some macros with "li" and "LI_"; CamelCase TypeNames 2009-07-08 19:06:07 +00:00			`liRadixNode32 node, parent;`
[core] Add implementation of 32bit radix trees (radix.{h.c}) 2009-05-29 13:03:19 +00:00			`guint32 n = 0;`

			`/* walk the tree and free every node */`
			`for (i = 0; i < ((guint32)1 << tree->root_width); i++) {`
			`node = tree->root[i];`

			`while (node) {`
			`if (node->left)`
			`node = node->left;`
			`else if (node->right)`
			`node = node->right;`
			`else {`
			`parent = node->parent;`

			`if (parent) {`
			`if (parent->left == node)`
			`parent->left = NULL;`
			`else`
			`parent->right = NULL;`
			`}`

Prefix typenames, enums and some macros with "li" and "LI_"; CamelCase TypeNames 2009-07-08 19:06:07 +00:00			`g_slice_free(liRadixNode32, node);`
[core] Add implementation of 32bit radix trees (radix.{h.c}) 2009-05-29 13:03:19 +00:00			`node = parent;`
			`n++;`
			`}`
			`}`
			`}`

			`g_free(tree->root);`
Prefix typenames, enums and some macros with "li" and "LI_"; CamelCase TypeNames 2009-07-08 19:06:07 +00:00			`g_slice_free(liRadixTree32, tree);`
[core] Add implementation of 32bit radix trees (radix.{h.c}) 2009-05-29 13:03:19 +00:00
			`return n;`
			`}`

Prefix LI_API functions with "li_" 2009-07-09 20:17:24 +00:00			`void li_radixtree32_insert(liRadixTree32 *tree, guint32 key, guint32 mask, gpointer data) {`
Prefix typenames, enums and some macros with "li" and "LI_"; CamelCase TypeNames 2009-07-08 19:06:07 +00:00			`liRadixNode32 last_node, leaf;`
			`liRadixNode32 *node = tree->root[(key & tree->root_mask) >> (32 - tree->root_width)];`
[core] Add implementation of 32bit radix trees (radix.{h.c}) 2009-05-29 13:03:19 +00:00			`//g_print("root: %p, %x & %x => %x\n", (void*)node, key, tree->root_mask, (key & tree->root_mask) >> (32 - tree->root_width));`
			`if (!node) {`
			`/* no root node yet */`
Prefix typenames, enums and some macros with "li" and "LI_"; CamelCase TypeNames 2009-07-08 19:06:07 +00:00			`node = g_slice_new(liRadixNode32);`
[core] Add implementation of 32bit radix trees (radix.{h.c}) 2009-05-29 13:03:19 +00:00			`node->key = key & mask;`
			`node->mask = mask;`
			`node->data = data;`
			`node->parent = NULL;`
			`node->left = NULL;`
			`node->right = NULL;`
			`tree->root[(key & tree->root_mask) >> (32 - tree->root_width)] = node;`
			`tree->size++;`

			`return;`
			`}`

			`do {//g_print("%x & %x => %x != %x\n", key, node->mask, key & node->mask, node->key);`
			`if ((key & mask & node->mask) != node->key) {guint i;`
			`/* node key differs, split tree */`
			`guint32 tmp;`
Prefix typenames, enums and some macros with "li" and "LI_"; CamelCase TypeNames 2009-07-08 19:06:07 +00:00			`liRadixNode32 *new_node;i=0;`
[core] Add implementation of 32bit radix trees (radix.{h.c}) 2009-05-29 13:03:19 +00:00
			`/* the new internal node */`
Prefix typenames, enums and some macros with "li" and "LI_"; CamelCase TypeNames 2009-07-08 19:06:07 +00:00			`new_node = g_slice_new(liRadixNode32);`
[core] Add implementation of 32bit radix trees (radix.{h.c}) 2009-05-29 13:03:19 +00:00			`new_node->data = NULL;`
			`new_node->parent = node->parent;`
			`new_node->mask = node->mask;`
			`new_node->key = node->key;`

			`node->parent = new_node;`

			`/* the new leaf */`
Prefix typenames, enums and some macros with "li" and "LI_"; CamelCase TypeNames 2009-07-08 19:06:07 +00:00			`leaf = g_slice_new(liRadixNode32);`
[core] Add implementation of 32bit radix trees (radix.{h.c}) 2009-05-29 13:03:19 +00:00			`leaf->key = key & mask;`
			`leaf->mask = mask;`
			`leaf->data = data;`
			`leaf->parent = new_node;`
			`leaf->left = NULL;`
			`leaf->right = NULL;`

			`do {//g_print("xxx #%u %x & %x => %x != %x\n", i++, key, new_node->mask, key&new_node->mask, node->key);`
			`tmp = new_node->mask;`
			`new_node->mask <<= 1;`
			`new_node->key &= new_node->mask;`
			`} while ((key & mask & new_node->mask) != new_node->key);`
			`//g_print("xxx %x & %x => %x != %x\n", key, new_node->mask, key&new_node->mask, node->key);`

			`//if (key & (~ (~ new_node->mask >> 1))) {`
			`if ((key & new_node->mask) > (key & (~ (~ new_node->mask >> 1)))) {`
			`new_node->left = node;`
			`new_node->right = leaf;`
			`} else {`
			`new_node->left = leaf;`
			`new_node->right = node;`
			`}`

			`if (new_node->parent) {`
			`if (new_node->parent->left == node)`
			`new_node->parent->left = new_node;`
			`else`
			`new_node->parent->right = new_node;`
			`} else {`
			`tree->root[(key & tree->root_mask) >> (32 - tree->root_width)] = new_node;`
			`}`

			`tree->size++;`

			`return;`
			`} else if ((key & mask) == node->key) {`
			`node->data = data;`

			`return;`
			`}`

			`last_node = node;`

			`/* compare next bit */`
			`//if (key & (~ (~ node->mask >> 1)))`
			`if ((key & node->mask) > (key & (~ (~ node->mask >> 1))))`
			`node = node->right;`
			`else`
			`node = node->left;`
			`} while (node);`

			`/* new leaf at end of tree */`
Prefix typenames, enums and some macros with "li" and "LI_"; CamelCase TypeNames 2009-07-08 19:06:07 +00:00			`leaf = g_slice_new0(liRadixNode32);`
[core] Add implementation of 32bit radix trees (radix.{h.c}) 2009-05-29 13:03:19 +00:00			`leaf->data = data;`
			`leaf->key = key & mask;`
			`leaf->mask = mask;`
			`leaf->parent = last_node;`

			`//if (key & (~ (~ last_node->key >> 1)))`
			`if ((key & last_node->mask) > (key & (~ (~ last_node->mask >> 1))))`
			`last_node->right = leaf;`
			`else`
			`last_node->left = leaf;`

			`tree->size++;`
			`}`

Prefix LI_API functions with "li_" 2009-07-09 20:17:24 +00:00			`gboolean li_radixtree32_remove(liRadixTree32 *tree, guint32 key, guint32 mask) {`
Prefix typenames, enums and some macros with "li" and "LI_"; CamelCase TypeNames 2009-07-08 19:06:07 +00:00			`liRadixNode32 *node = tree->root[(key & tree->root_mask) >> (32 - tree->root_width)];`
[core] Add implementation of 32bit radix trees (radix.{h.c}) 2009-05-29 13:03:19 +00:00
			`while (node) {`
			`if (!node->data \|\| (key & mask) != node->key) {`
			`/* compare next bit */`
			`//if (key & (~ (~ node->key >> 1)))`
			`if ((key & node->mask) > (key & (~ (~ node->mask >> 1))))`
			`node = node->right;`
			`else`
			`node = node->left;`

			`continue;`
			`}`

			`if (!node->left && !node->right) {`
			`/* leaf */`
			`if (node->parent) {`
			`if (node->parent->data) {`
			`/* set current node to parent */`
			`node->data = node->parent->data;`
			`node->key = node->parent->key;`
			`node->mask = node->parent->mask;`
			`node->parent->data = NULL;`

			`return TRUE;`
			`} else {`
			`/* the parent internal node has no data, we can set our sibling as the new internal node */`
Prefix typenames, enums and some macros with "li" and "LI_"; CamelCase TypeNames 2009-07-08 19:06:07 +00:00			`liRadixNode32 *sibling = (node->parent->left == node) ? node->parent->right : node->parent->left;`
[core] Add implementation of 32bit radix trees (radix.{h.c}) 2009-05-29 13:03:19 +00:00			`if (node->parent->parent) {`
			`if (node->parent->parent->left == node->parent)`
			`node->parent->parent->left = sibling;`
			`else`
			`node->parent->parent->right = sibling;`
			`} else {`
			`/* the parent is the tree root, set root to our sibling */`
			`tree->root[(key & tree->root_mask) >> (32 - tree->root_width)] = sibling;`
			`}`

			`/* old internal node not needed anymore */`
			`tree->size--;`
Prefix typenames, enums and some macros with "li" and "LI_"; CamelCase TypeNames 2009-07-08 19:06:07 +00:00			`g_slice_free(liRadixNode32, node->parent);`
[core] Add implementation of 32bit radix trees (radix.{h.c}) 2009-05-29 13:03:19 +00:00			`}`
			`} else {`
			`/* tree root */`
			`tree->root[(key & tree->root_mask) >> (32 - tree->root_width)] = NULL;`
			`}`
			`} else {`
			`/* internal node */`
			`node->data = NULL;`

			`return TRUE;`
			`}`

			`tree->size--;`
Prefix typenames, enums and some macros with "li" and "LI_"; CamelCase TypeNames 2009-07-08 19:06:07 +00:00			`g_slice_free(liRadixNode32, node);`
[core] Add implementation of 32bit radix trees (radix.{h.c}) 2009-05-29 13:03:19 +00:00
			`return TRUE;`
			`}`

			`return FALSE;`
			`}`

Prefix LI_API functions with "li_" 2009-07-09 20:17:24 +00:00			`liRadixNode32 li_radixtree32_lookup_node(liRadixTree32 tree, guint32 key) {`
Prefix typenames, enums and some macros with "li" and "LI_"; CamelCase TypeNames 2009-07-08 19:06:07 +00:00			`liRadixNode32 *node = tree->root[(key & tree->root_mask) >> (32 - tree->root_width)];`
			`liRadixNode32 *result = NULL;`
[core] Add implementation of 32bit radix trees (radix.{h.c}) 2009-05-29 13:03:19 +00:00
			`while (node) {//g_print("%x & %x => %x != %x\n", key, node->mask, key & node->mask, node->key);`
			`if ((key & node->mask) != node->key)`
			`return result;`

			`if (node->data)`
			`result = node;`

			`/* compare next bit */`
			`//if (key & (~ (~ node->key >> 1)))`
			`if ((key & node->mask) > (key & (~ (~ node->mask >> 1))))`
			`node = node->right;`
			`else`
			`node = node->left;`
			`}`

			`return result;`
			`}`

Prefix LI_API functions with "li_" 2009-07-09 20:17:24 +00:00			`gpointer li_radixtree32_lookup(liRadixTree32 *tree, guint32 key) {`
			`liRadixNode32 *node = li_radixtree32_lookup_node(tree, key);`
[core] Add implementation of 32bit radix trees (radix.{h.c}) 2009-05-29 13:03:19 +00:00
			`return node ? node->data : NULL;`
			`}`

Prefix LI_API functions with "li_" 2009-07-09 20:17:24 +00:00			`gpointer li_radixtree32_lookup_exact(liRadixTree32 *tree, guint32 key) {`
			`liRadixNode32 *node = li_radixtree32_lookup_node(tree, key);`
[core] Add implementation of 32bit radix trees (radix.{h.c}) 2009-05-29 13:03:19 +00:00
			`if (!node)`
			`return NULL;`

			`return (node->key == key) ? node->data : NULL;`
			`}`