include/linux/btree.h - android_kernel_oneplus_msm8996 - Gitiles

 #ifndef BTREE_H
 #define BTREE_H

 #include <linux/kernel.h>
 #include <linux/mempool.h>

 /**
  * DOC: B+Tree basics
  *
  * A B+Tree is a data structure for looking up arbitrary (currently allowing
  * unsigned long, u32, u64 and 2 * u64) keys into pointers. The data structure
  * is described at http://en.wikipedia.org/wiki/B-tree, we currently do not
  * use binary search to find the key on lookups.
  *
  * Each B+Tree consists of a head, that contains bookkeeping information and
  * a variable number (starting with zero) nodes. Each node contains the keys
  * and pointers to sub-nodes, or, for leaf nodes, the keys and values for the
  * tree entries.
  *
  * Each node in this implementation has the following layout:
  * [key1, key2, ..., keyN] [val1, val2, ..., valN]
  *
  * Each key here is an array of unsigned longs, geo->no_longs in total. The
  * number of keys and values (N) is geo->no_pairs.
  */

 /**
  * struct btree_head - btree head
  *
  * @node: the first node in the tree
  * @mempool: mempool used for node allocations
  * @height: current of the tree
  */
 struct btree_head {
 	unsigned long *node;
 	mempool_t *mempool;
 	int height;
 };

 /* btree geometry */
 struct btree_geo;

 /**
  * btree_alloc - allocate function for the mempool
  * @gfp_mask: gfp mask for the allocation
  * @pool_data: unused
  */
 void *btree_alloc(gfp_t gfp_mask, void *pool_data);

 /**
  * btree_free - free function for the mempool
  * @element: the element to free
  * @pool_data: unused
  */
 void btree_free(void *element, void *pool_data);

 /**
  * btree_init_mempool - initialise a btree with given mempool
  *
  * @head: the btree head to initialise
  * @mempool: the mempool to use
  *
  * When this function is used, there is no need to destroy
  * the mempool.
  */
 void btree_init_mempool(struct btree_head *head, mempool_t *mempool);

 /**
  * btree_init - initialise a btree
  *
  * @head: the btree head to initialise
  *
  * This function allocates the memory pool that the
  * btree needs. Returns zero or a negative error code
  * (-%ENOMEM) when memory allocation fails.
  *
  */
 int __must_check btree_init(struct btree_head *head);

 /**
  * btree_destroy - destroy mempool
  *
  * @head: the btree head to destroy
  *
  * This function destroys the internal memory pool, use only
  * when using btree_init(), not with btree_init_mempool().
  */
 void btree_destroy(struct btree_head *head);

 /**
  * btree_lookup - look up a key in the btree
  *
  * @head: the btree to look in
  * @geo: the btree geometry
  * @key: the key to look up
  *
  * This function returns the value for the given key, or %NULL.
  */
 void *btree_lookup(struct btree_head *head, struct btree_geo *geo,
 		   unsigned long *key);

 /**
  * btree_insert - insert an entry into the btree
  *
  * @head: the btree to add to
  * @geo: the btree geometry
  * @key: the key to add (must not already be present)
  * @val: the value to add (must not be %NULL)
  * @gfp: allocation flags for node allocations
  *
  * This function returns 0 if the item could be added, or an
  * error code if it failed (may fail due to memory pressure).
  */
 int __must_check btree_insert(struct btree_head *head, struct btree_geo *geo,
 			      unsigned long *key, void *val, gfp_t gfp);
 /**
  * btree_update - update an entry in the btree
  *
  * @head: the btree to update
  * @geo: the btree geometry
  * @key: the key to update
  * @val: the value to change it to (must not be %NULL)
  *
  * This function returns 0 if the update was successful, or
  * -%ENOENT if the key could not be found.
  */
 int btree_update(struct btree_head *head, struct btree_geo *geo,
 		 unsigned long *key, void *val);
 /**
  * btree_remove - remove an entry from the btree
  *
  * @head: the btree to update
  * @geo: the btree geometry
  * @key: the key to remove
  *
  * This function returns the removed entry, or %NULL if the key
  * could not be found.
  */
 void *btree_remove(struct btree_head *head, struct btree_geo *geo,
 		   unsigned long *key);

 /**
  * btree_merge - merge two btrees
  *
  * @target: the tree that gets all the entries
  * @victim: the tree that gets merged into @target
  * @geo: the btree geometry
  * @gfp: allocation flags
  *
  * The two trees @target and @victim may not contain the same keys,
  * that is a bug and triggers a BUG(). This function returns zero
  * if the trees were merged successfully, and may return a failure
  * when memory allocation fails, in which case both trees might have
  * been partially merged, i.e. some entries have been moved from
  * @victim to @target.
  */
 int btree_merge(struct btree_head *target, struct btree_head *victim,
 		struct btree_geo *geo, gfp_t gfp);

 /**
  * btree_last - get last entry in btree
  *
  * @head: btree head
  * @geo: btree geometry
  * @key: last key
  *
  * Returns the last entry in the btree, and sets @key to the key
  * of that entry; returns NULL if the tree is empty, in that case
  * key is not changed.
  */
 void *btree_last(struct btree_head *head, struct btree_geo *geo,
 		 unsigned long *key);

 /**
  * btree_get_prev - get previous entry
  *
  * @head: btree head
  * @geo: btree geometry
  * @key: pointer to key
  *
  * The function returns the next item right before the value pointed to by
  * @key, and updates @key with its key, or returns %NULL when there is no
  * entry with a key smaller than the given key.
  */
 void *btree_get_prev(struct btree_head *head, struct btree_geo *geo,
 		     unsigned long *key);


 /* internal use, use btree_visitor{l,32,64,128} */
 size_t btree_visitor(struct btree_head *head, struct btree_geo *geo,
 		     unsigned long opaque,
 		     void (*func)(void *elem, unsigned long opaque,
 				  unsigned long *key, size_t index,
 				  void *func2),
 		     void *func2);

 /* internal use, use btree_grim_visitor{l,32,64,128} */
 size_t btree_grim_visitor(struct btree_head *head, struct btree_geo *geo,
 			  unsigned long opaque,
 			  void (*func)(void *elem, unsigned long opaque,
 				       unsigned long *key,
 				       size_t index, void *func2),
 			  void *func2);


 #include <linux/btree-128.h>

 extern struct btree_geo btree_geo32;
 #define BTREE_TYPE_SUFFIX l
 #define BTREE_TYPE_BITS BITS_PER_LONG
 #define BTREE_TYPE_GEO &btree_geo32
 #define BTREE_KEYTYPE unsigned long
 #include <linux/btree-type.h>

 #define btree_for_each_safel(head, key, val)	\
 	for (val = btree_lastl(head, &key);	\
 	     val;				\
 	     val = btree_get_prevl(head, &key))

 #define BTREE_TYPE_SUFFIX 32
 #define BTREE_TYPE_BITS 32
 #define BTREE_TYPE_GEO &btree_geo32
 #define BTREE_KEYTYPE u32
 #include <linux/btree-type.h>

 #define btree_for_each_safe32(head, key, val)	\
 	for (val = btree_last32(head, &key);	\
 	     val;				\
 	     val = btree_get_prev32(head, &key))

 extern struct btree_geo btree_geo64;
 #define BTREE_TYPE_SUFFIX 64
 #define BTREE_TYPE_BITS 64
 #define BTREE_TYPE_GEO &btree_geo64
 #define BTREE_KEYTYPE u64
 #include <linux/btree-type.h>

 #define btree_for_each_safe64(head, key, val)	\
 	for (val = btree_last64(head, &key);	\
 	     val;				\
 	     val = btree_get_prev64(head, &key))

 #endif
	#ifndef BTREE_H
	#define BTREE_H

	#include <linux/kernel.h>
	#include <linux/mempool.h>

	/**
	* DOC: B+Tree basics
	*
	* A B+Tree is a data structure for looking up arbitrary (currently allowing
	* unsigned long, u32, u64 and 2 * u64) keys into pointers. The data structure
	* is described at http://en.wikipedia.org/wiki/B-tree, we currently do not
	* use binary search to find the key on lookups.
	*
	* Each B+Tree consists of a head, that contains bookkeeping information and
	* a variable number (starting with zero) nodes. Each node contains the keys
	* and pointers to sub-nodes, or, for leaf nodes, the keys and values for the
	* tree entries.
	*
	* Each node in this implementation has the following layout:
	* [key1, key2, ..., keyN] [val1, val2, ..., valN]
	*
	* Each key here is an array of unsigned longs, geo->no_longs in total. The
	* number of keys and values (N) is geo->no_pairs.
	*/

	/**
	* struct btree_head - btree head
	*
	* @node: the first node in the tree
	* @mempool: mempool used for node allocations
	* @height: current of the tree
	*/
	struct btree_head {
	unsigned long *node;
	mempool_t *mempool;
	int height;
	};

	/* btree geometry */
	struct btree_geo;

	/**
	* btree_alloc - allocate function for the mempool
	* @gfp_mask: gfp mask for the allocation
	* @pool_data: unused
	*/
	void btree_alloc(gfp_t gfp_mask, void pool_data);

	/**
	* btree_free - free function for the mempool
	* @element: the element to free
	* @pool_data: unused
	*/
	void btree_free(void element, void pool_data);

	/**
	* btree_init_mempool - initialise a btree with given mempool
	*
	* @head: the btree head to initialise
	* @mempool: the mempool to use
	*
	* When this function is used, there is no need to destroy
	* the mempool.
	*/
	void btree_init_mempool(struct btree_head head, mempool_t mempool);

	/**
	* btree_init - initialise a btree
	*
	* @head: the btree head to initialise
	*
	* This function allocates the memory pool that the
	* btree needs. Returns zero or a negative error code
	* (-%ENOMEM) when memory allocation fails.
	*
	*/
	int __must_check btree_init(struct btree_head *head);

	/**
	* btree_destroy - destroy mempool
	*
	* @head: the btree head to destroy
	*
	* This function destroys the internal memory pool, use only
	* when using btree_init(), not with btree_init_mempool().
	*/
	void btree_destroy(struct btree_head *head);

	/**
	* btree_lookup - look up a key in the btree
	*
	* @head: the btree to look in
	* @geo: the btree geometry
	* @key: the key to look up
	*
	* This function returns the value for the given key, or %NULL.
	*/
	void btree_lookup(struct btree_head head, struct btree_geo *geo,
	unsigned long *key);

	/**
	* btree_insert - insert an entry into the btree
	*
	* @head: the btree to add to
	* @geo: the btree geometry
	* @key: the key to add (must not already be present)
	* @val: the value to add (must not be %NULL)
	* @gfp: allocation flags for node allocations
	*
	* This function returns 0 if the item could be added, or an
	* error code if it failed (may fail due to memory pressure).
	*/
	int __must_check btree_insert(struct btree_head head, struct btree_geo geo,
	unsigned long key, void val, gfp_t gfp);
	/**
	* btree_update - update an entry in the btree
	*
	* @head: the btree to update
	* @geo: the btree geometry
	* @key: the key to update
	* @val: the value to change it to (must not be %NULL)
	*
	* This function returns 0 if the update was successful, or
	* -%ENOENT if the key could not be found.
	*/
	int btree_update(struct btree_head head, struct btree_geo geo,
	unsigned long key, void val);
	/**
	* btree_remove - remove an entry from the btree
	*
	* @head: the btree to update
	* @geo: the btree geometry
	* @key: the key to remove
	*
	* This function returns the removed entry, or %NULL if the key
	* could not be found.
	*/
	void btree_remove(struct btree_head head, struct btree_geo *geo,
	unsigned long *key);

	/**
	* btree_merge - merge two btrees
	*
	* @target: the tree that gets all the entries
	* @victim: the tree that gets merged into @target
	* @geo: the btree geometry
	* @gfp: allocation flags
	*
	* The two trees @target and @victim may not contain the same keys,
	* that is a bug and triggers a BUG(). This function returns zero
	* if the trees were merged successfully, and may return a failure
	* when memory allocation fails, in which case both trees might have
	* been partially merged, i.e. some entries have been moved from
	* @victim to @target.
	*/
	int btree_merge(struct btree_head target, struct btree_head victim,
	struct btree_geo *geo, gfp_t gfp);

	/**
	* btree_last - get last entry in btree
	*
	* @head: btree head
	* @geo: btree geometry
	* @key: last key
	*
	* Returns the last entry in the btree, and sets @key to the key
	* of that entry; returns NULL if the tree is empty, in that case
	* key is not changed.
	*/
	void btree_last(struct btree_head head, struct btree_geo *geo,
	unsigned long *key);

	/**
	* btree_get_prev - get previous entry
	*
	* @head: btree head
	* @geo: btree geometry
	* @key: pointer to key
	*
	* The function returns the next item right before the value pointed to by
	* @key, and updates @key with its key, or returns %NULL when there is no
	* entry with a key smaller than the given key.
	*/
	void btree_get_prev(struct btree_head head, struct btree_geo *geo,
	unsigned long *key);


	/* internal use, use btree_visitor{l,32,64,128} */
	size_t btree_visitor(struct btree_head head, struct btree_geo geo,
	unsigned long opaque,
	void (func)(void elem, unsigned long opaque,
	unsigned long *key, size_t index,
	void *func2),
	void *func2);

	/* internal use, use btree_grim_visitor{l,32,64,128} */
	size_t btree_grim_visitor(struct btree_head head, struct btree_geo geo,
	unsigned long opaque,
	void (func)(void elem, unsigned long opaque,
	unsigned long *key,
	size_t index, void *func2),
	void *func2);


	#include <linux/btree-128.h>

	extern struct btree_geo btree_geo32;
	#define BTREE_TYPE_SUFFIX l
	#define BTREE_TYPE_BITS BITS_PER_LONG
	#define BTREE_TYPE_GEO &btree_geo32
	#define BTREE_KEYTYPE unsigned long
	#include <linux/btree-type.h>

	#define btree_for_each_safel(head, key, val) \
	for (val = btree_lastl(head, &key); \
	val; \
	val = btree_get_prevl(head, &key))

	#define BTREE_TYPE_SUFFIX 32
	#define BTREE_TYPE_BITS 32
	#define BTREE_TYPE_GEO &btree_geo32
	#define BTREE_KEYTYPE u32
	#include <linux/btree-type.h>

	#define btree_for_each_safe32(head, key, val) \
	for (val = btree_last32(head, &key); \
	val; \
	val = btree_get_prev32(head, &key))

	extern struct btree_geo btree_geo64;
	#define BTREE_TYPE_SUFFIX 64
	#define BTREE_TYPE_BITS 64
	#define BTREE_TYPE_GEO &btree_geo64
	#define BTREE_KEYTYPE u64
	#include <linux/btree-type.h>

	#define btree_for_each_safe64(head, key, val) \
	for (val = btree_last64(head, &key); \
	val; \
	val = btree_get_prev64(head, &key))

	#endif