drivers/md/dm-vdo/priority-table.h - linux - Git at Google

 /* SPDX-License-Identifier: GPL-2.0-only */
 /*
  * Copyright 2023 Red Hat
  */

 #ifndef VDO_PRIORITY_TABLE_H
 #define VDO_PRIORITY_TABLE_H

 #include <linux/list.h>

 /*
  * A priority_table is a simple implementation of a priority queue for entries with priorities that
  * are small non-negative integer values. It implements the obvious priority queue operations of
  * enqueuing an entry and dequeuing an entry with the maximum priority. It also supports removing
  * an arbitrary entry. The priority of an entry already in the table can be changed by removing it
  * and re-enqueuing it with a different priority. All operations have O(1) complexity.
  *
  * The links for the table entries must be embedded in the entries themselves. Lists are used to
  * link entries in the table and no wrapper type is declared, so an existing list entry in an
  * object can also be used to queue it in a priority_table, assuming the field is not used for
  * anything else while so queued.
  *
  * The table is implemented as an array of queues (circular lists) indexed by priority, along with
  * a hint for which queues are non-empty. Steven Skiena calls a very similar structure a "bounded
  * height priority queue", but given the resemblance to a hash table, "priority table" seems both
  * shorter and more apt, if somewhat novel.
  */

 struct priority_table;

 int __must_check vdo_make_priority_table(unsigned int max_priority,
 					 struct priority_table **table_ptr);

 void vdo_free_priority_table(struct priority_table *table);

 void vdo_priority_table_enqueue(struct priority_table *table, unsigned int priority,
 				struct list_head *entry);

 void vdo_reset_priority_table(struct priority_table *table);

 struct list_head * __must_check vdo_priority_table_dequeue(struct priority_table *table);

 void vdo_priority_table_remove(struct priority_table *table, struct list_head *entry);

 bool __must_check vdo_is_priority_table_empty(struct priority_table *table);

 #endif /* VDO_PRIORITY_TABLE_H */
	/* SPDX-License-Identifier: GPL-2.0-only */
	/*
	* Copyright 2023 Red Hat
	*/

	#ifndef VDO_PRIORITY_TABLE_H
	#define VDO_PRIORITY_TABLE_H

	#include <linux/list.h>

	/*
	* A priority_table is a simple implementation of a priority queue for entries with priorities that
	* are small non-negative integer values. It implements the obvious priority queue operations of
	* enqueuing an entry and dequeuing an entry with the maximum priority. It also supports removing
	* an arbitrary entry. The priority of an entry already in the table can be changed by removing it
	* and re-enqueuing it with a different priority. All operations have O(1) complexity.
	*
	* The links for the table entries must be embedded in the entries themselves. Lists are used to
	* link entries in the table and no wrapper type is declared, so an existing list entry in an
	* object can also be used to queue it in a priority_table, assuming the field is not used for
	* anything else while so queued.
	*
	* The table is implemented as an array of queues (circular lists) indexed by priority, along with
	* a hint for which queues are non-empty. Steven Skiena calls a very similar structure a "bounded
	* height priority queue", but given the resemblance to a hash table, "priority table" seems both
	* shorter and more apt, if somewhat novel.
	*/

	struct priority_table;

	int __must_check vdo_make_priority_table(unsigned int max_priority,
	struct priority_table **table_ptr);

	void vdo_free_priority_table(struct priority_table *table);

	void vdo_priority_table_enqueue(struct priority_table *table, unsigned int priority,
	struct list_head *entry);

	void vdo_reset_priority_table(struct priority_table *table);

	struct list_head * __must_check vdo_priority_table_dequeue(struct priority_table *table);

	void vdo_priority_table_remove(struct priority_table table, struct list_head entry);

	bool __must_check vdo_is_priority_table_empty(struct priority_table *table);

	#endif /* VDO_PRIORITY_TABLE_H */