sysfsutils-2.1.0/include/dlist.h - nest-learning-thermostat/5.1.8/sysfsutils - Git at Google

 /*
  * dlist.h
  *
  * Copyright (C) 2003 Eric J Bohm
  *
  *  This library is free software; you can redistribute it and/or
  *  modify it under the terms of the GNU Lesser General Public
  *  License as published by the Free Software Foundation; either
  *  version 2.1 of the License, or (at your option) any later version.
  *
  *  This library is distributed in the hope that it will be useful,
  *  but WITHOUT ANY WARRANTY; without even the implied warranty of
  *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
  *  Lesser General Public License for more details.
  *
  *  You should have received a copy of the GNU Lesser General Public
  *  License along with this library; if not, write to the Free Software
  *  Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
  *
  */
 #ifndef _DLIST_H_
 #define _DLIST_H_

 /* Double linked list header.

 * navigate your list with DLIST_PREV and DLIST_NEXT.  These are macros
 * so function call overhead is minimized.

 * Supports perl style push, pop, shift, unshift list semantics.

 * You allocate the data and give dlist the pointer.  If your data is
 * complex set the dlist->del_func to a an appropriate delete using
 * dlist_new_with_delete.  Your delete function must match
 (void * )(del(void *)
 *Otherwise dlist will just use free.

 * NOTE: The small amount of pain involved in doing that allows us to
 * avoid copy in copy out semantics.

 * Dlist uses an internal mark pointer to keep track of where you are
 * in the list.

 * insert and delete take a directional parameter. Where direction
 * corresponds to the direction in which you want the list to go.
 * true direction corresponded to progressing forward in the last
 * false to regressing in the list.
 * so a dlist_insert(yourlist,item,1) will insert it after the mark
 * so a dlist_insert(yourlist,item,0) will insert it before the mark
 * any insert will move the mark to the new node regardless of the direction.

 * Just use the dlist_(insert|delete)_(before|after) macros if you do not want
 * to think about it.

 */

 #include <stddef.h>

 typedef struct dl_node {
   struct dl_node *prev;
   struct dl_node *next;
   void *data;
 } DL_node;

 typedef struct dlist {
   DL_node *marker;
   unsigned long count;
   size_t data_size;
   void (*del_func)(void *);
   DL_node headnode;
   DL_node *head;
 } Dlist;

 #ifdef __cplusplus
 extern "C" {
 #endif

 Dlist *dlist_new(size_t datasize);
 Dlist *dlist_new_with_delete(size_t datasize,void (*del_func)(void*));
 void *_dlist_mark_move(Dlist *list,int direction);
 void *dlist_mark(Dlist *);
 void dlist_start(Dlist *);
 void dlist_end(Dlist *);
 void dlist_move(struct dlist *source, struct dlist *dest, struct dl_node *target,int direction);
 void *dlist_insert(Dlist *,void *,int) ;

 void *dlist_insert_sorted(struct dlist *list, void *new_elem, int (*sorter)(void *, void *));

 void dlist_delete(Dlist *,int);

 void dlist_push(Dlist *,void *);

 void dlist_unshift(Dlist *,void *);
 void dlist_unshift_sorted(Dlist *,void *,int (*sorter)(void *, void *));

 void *dlist_pop(Dlist *);

 void *dlist_shift(Dlist *);

 void dlist_destroy(Dlist *);

 int _dlist_merge(struct dlist *listsource, struct dlist *listdest, unsigned int passcount, int (*compare)(void *, void *));

 void *dlist_find_custom(struct dlist *list, void *target, int (*comp)(void *, void *));

 void dlist_sort_custom(struct dlist *list, int (*compare)(void *, void *));

 void dlist_filter_sort(struct dlist *list, int (*filter) (void *),
 				int (*compare) (void *, void *));

 void _dlist_swap(struct dlist *list, struct dl_node *a, struct dl_node *b);

 void dlist_transform(struct dlist *list, void (*node_operation)(void *));


 /*
  * _dlist_remove is for internal use only
  * _dlist_mark_move is for internal use only
  */
 void *_dlist_remove(struct dlist *,struct dl_node *,int );
 void *_dlist_insert_dlnode(struct dlist *list,struct dl_node *new_node,int direction);

 #define dlist_prev(A) _dlist_mark_move((A),0)
 #define dlist_next(A) _dlist_mark_move((A),1)

 #define dlist_insert_before(A,B) dlist_insert((A),(B),0)
 #define dlist_insert_after(A,B) dlist_insert((A),(B),1)

 #define dlist_delete_before(A) dlist_delete((A),0)
 #define dlist_delete_after(A) dlist_delete((A),1)

 /**
  * provide for loop header which iterates the mark from start to end
  * list: the dlist pointer, use dlist_mark(list) to get iterator
  */
 #define dlist_for_each(list) \
 	for(dlist_start(list),dlist_next(list); \
 		(list)->marker!=(list)->head;dlist_next(list))

 /**
  * provide for loop header which iterates the mark from end to start
  * list: the dlist pointer, use dlist_mark(list) to get iterator
  */
 #define dlist_for_each_rev(list) \
 	for(dlist_end(list),dlist_prev(list); \
 		(list)->marker!=(list)->head;dlist_prev(list))

 /**
  * provide for loop header which iterates through the list without moving mark
  * list: the dlist_pointer
  * iterator: dl_node pointer to iterate
  */
 #define dlist_for_each_nomark(list,iterator) \
 	for((iterator)=(list)->head->next; (iterator)!=(list)->head; \
 		(iterator)=(iterator)->next)

 /**
  * provide for loop header which iterates through the list without moving mark
  * in reverse
  * list: the dlist_pointer
  * iterator: dl_node pointer to iterate
  */
 #define dlist_for_each_nomark_rev(list,iterator) \
 	for((iterator)=(list)->head->prev; (iterator)!=(list)->head; \
 		(iterator)=(iterator)->prev)
 /**
  * provide for loop header which iterates through the list providing a
  * data iterator
  * list: the dlist pointer
  * data_iterator: the pointer of type datatype to iterate
  * datatype:  actual type of the contents in the dl_node->data
  */

 #define dlist_for_each_data(list,data_iterator,datatype) \
 	for(dlist_start(list), (data_iterator)=(datatype *) dlist_next(list); \
 	(list)->marker!=(list)->head;(data_iterator)=(datatype *) dlist_next(list))

 /**
  * provide for loop header which iterates through the list providing a
  * data iterator in reverse
  * list: the dlist pointer
  * data_iterator: the pointer of type datatype to iterate
  * datatype:  actual type of the contents in the dl_node->data
  */
 #define dlist_for_each_data_rev(list,data_iterator,datatype) \
 	for(dlist_end(list), (data_iterator)=(datatype *) dlist_prev(list); \
 	(list)->marker!=(list)->head;(data_iterator)=(datatype *) dlist_prev(list))

 /**
  * provide for loop header which iterates through the list providing a
  * data iterator without moving the mark
  * list: the dlist pointer
  * iterator: the dl_node pointer to iterate
  * data_iterator: the pointer of type datatype to iterate
  * datatype:  actual type of the contents in the dl_node->data
  */

 #define dlist_for_each_data_nomark(list,iterator,data_iterator,datatype) \
 	for((iterator)=(list)->head->next, (data_iterator)=(datatype *) (iterator)->data; \
 	(iterator)!=(list)->head;(iterator)=(iterator)->next,(data_iterator)=(datatype *) (iterator))

 /**
  * provide for loop header which iterates through the list providing a
  * data iterator in reverse without moving the mark
  * list: the dlist pointer
  * iterator: the dl_node pointer to iterate
  * data_iterator: the pointer of type datatype to iterate
  * datatype:  actual type of the contents in the dl_node->data
  */
 #define dlist_for_each_data_nomark_rev(list,iterator, data_iterator,datatype) \
 	for((iterator)=(list)->head->prev, (data_iterator)=(datatype *) (iterator)->data; \
 	(iterator)!=(list)->head;(iterator)=(iterator)->prev,(data_iterator)=(datatype *) (iterator))


 #ifdef __cplusplus
 }
 #endif

 #endif /* _DLIST_H_ */
	/*
	* dlist.h
	*
	* Copyright (C) 2003 Eric J Bohm
	*
	* This library is free software; you can redistribute it and/or
	* modify it under the terms of the GNU Lesser General Public
	* License as published by the Free Software Foundation; either
	* version 2.1 of the License, or (at your option) any later version.
	*
	* This library is distributed in the hope that it will be useful,
	* but WITHOUT ANY WARRANTY; without even the implied warranty of
	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
	* Lesser General Public License for more details.
	*
	* You should have received a copy of the GNU Lesser General Public
	* License along with this library; if not, write to the Free Software
	* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
	*
	*/
	#ifndef _DLIST_H_
	#define _DLIST_H_

	/* Double linked list header.

	* navigate your list with DLIST_PREV and DLIST_NEXT. These are macros
	* so function call overhead is minimized.

	* Supports perl style push, pop, shift, unshift list semantics.

	* You allocate the data and give dlist the pointer. If your data is
	* complex set the dlist->del_func to a an appropriate delete using
	* dlist_new_with_delete. Your delete function must match
	(void * )(del(void *)
	*Otherwise dlist will just use free.

	* NOTE: The small amount of pain involved in doing that allows us to
	* avoid copy in copy out semantics.

	* Dlist uses an internal mark pointer to keep track of where you are
	* in the list.

	* insert and delete take a directional parameter. Where direction
	* corresponds to the direction in which you want the list to go.
	* true direction corresponded to progressing forward in the last
	* false to regressing in the list.
	* so a dlist_insert(yourlist,item,1) will insert it after the mark
	* so a dlist_insert(yourlist,item,0) will insert it before the mark
	* any insert will move the mark to the new node regardless of the direction.

	* Just use the dlist_(insert\|delete)_(before\|after) macros if you do not want
	* to think about it.

	*/

	#include <stddef.h>

	typedef struct dl_node {
	struct dl_node *prev;
	struct dl_node *next;
	void *data;
	} DL_node;

	typedef struct dlist {
	DL_node *marker;
	unsigned long count;
	size_t data_size;
	void (del_func)(void );
	DL_node headnode;
	DL_node *head;
	} Dlist;

	#ifdef __cplusplus
	extern "C" {
	#endif

	Dlist *dlist_new(size_t datasize);
	Dlist dlist_new_with_delete(size_t datasize,void (del_func)(void*));
	void _dlist_mark_move(Dlist list,int direction);
	void dlist_mark(Dlist );
	void dlist_start(Dlist *);
	void dlist_end(Dlist *);
	void dlist_move(struct dlist source, struct dlist dest, struct dl_node *target,int direction);
	void dlist_insert(Dlist ,void *,int) ;

	void dlist_insert_sorted(struct dlist list, void new_elem, int (sorter)(void , void ));

	void dlist_delete(Dlist *,int);

	void dlist_push(Dlist ,void );

	void dlist_unshift(Dlist ,void );
	void dlist_unshift_sorted(Dlist ,void ,int (sorter)(void , void *));

	void dlist_pop(Dlist );

	void dlist_shift(Dlist );

	void dlist_destroy(Dlist *);

	int _dlist_merge(struct dlist listsource, struct dlist listdest, unsigned int passcount, int (compare)(void , void *));

	void dlist_find_custom(struct dlist list, void target, int (comp)(void , void ));

	void dlist_sort_custom(struct dlist list, int (compare)(void , void ));

	void dlist_filter_sort(struct dlist list, int (filter) (void *),
	int (compare) (void , void *));

	void _dlist_swap(struct dlist list, struct dl_node a, struct dl_node *b);

	void dlist_transform(struct dlist list, void (node_operation)(void *));


	/*
	* _dlist_remove is for internal use only
	* _dlist_mark_move is for internal use only
	*/
	void _dlist_remove(struct dlist ,struct dl_node *,int );
	void _dlist_insert_dlnode(struct dlist list,struct dl_node *new_node,int direction);

	#define dlist_prev(A) _dlist_mark_move((A),0)
	#define dlist_next(A) _dlist_mark_move((A),1)

	#define dlist_insert_before(A,B) dlist_insert((A),(B),0)
	#define dlist_insert_after(A,B) dlist_insert((A),(B),1)

	#define dlist_delete_before(A) dlist_delete((A),0)
	#define dlist_delete_after(A) dlist_delete((A),1)

	/**
	* provide for loop header which iterates the mark from start to end
	* list: the dlist pointer, use dlist_mark(list) to get iterator
	*/
	#define dlist_for_each(list) \
	for(dlist_start(list),dlist_next(list); \
	(list)->marker!=(list)->head;dlist_next(list))

	/**
	* provide for loop header which iterates the mark from end to start
	* list: the dlist pointer, use dlist_mark(list) to get iterator
	*/
	#define dlist_for_each_rev(list) \
	for(dlist_end(list),dlist_prev(list); \
	(list)->marker!=(list)->head;dlist_prev(list))

	/**
	* provide for loop header which iterates through the list without moving mark
	* list: the dlist_pointer
	* iterator: dl_node pointer to iterate
	*/
	#define dlist_for_each_nomark(list,iterator) \
	for((iterator)=(list)->head->next; (iterator)!=(list)->head; \
	(iterator)=(iterator)->next)

	/**
	* provide for loop header which iterates through the list without moving mark
	* in reverse
	* list: the dlist_pointer
	* iterator: dl_node pointer to iterate
	*/
	#define dlist_for_each_nomark_rev(list,iterator) \
	for((iterator)=(list)->head->prev; (iterator)!=(list)->head; \
	(iterator)=(iterator)->prev)
	/**
	* provide for loop header which iterates through the list providing a
	* data iterator
	* list: the dlist pointer
	* data_iterator: the pointer of type datatype to iterate
	* datatype: actual type of the contents in the dl_node->data
	*/

	#define dlist_for_each_data(list,data_iterator,datatype) \
	for(dlist_start(list), (data_iterator)=(datatype *) dlist_next(list); \
	(list)->marker!=(list)->head;(data_iterator)=(datatype *) dlist_next(list))

	/**
	* provide for loop header which iterates through the list providing a
	* data iterator in reverse
	* list: the dlist pointer
	* data_iterator: the pointer of type datatype to iterate
	* datatype: actual type of the contents in the dl_node->data
	*/
	#define dlist_for_each_data_rev(list,data_iterator,datatype) \
	for(dlist_end(list), (data_iterator)=(datatype *) dlist_prev(list); \
	(list)->marker!=(list)->head;(data_iterator)=(datatype *) dlist_prev(list))

	/**
	* provide for loop header which iterates through the list providing a
	* data iterator without moving the mark
	* list: the dlist pointer
	* iterator: the dl_node pointer to iterate
	* data_iterator: the pointer of type datatype to iterate
	* datatype: actual type of the contents in the dl_node->data
	*/

	#define dlist_for_each_data_nomark(list,iterator,data_iterator,datatype) \
	for((iterator)=(list)->head->next, (data_iterator)=(datatype *) (iterator)->data; \
	(iterator)!=(list)->head;(iterator)=(iterator)->next,(data_iterator)=(datatype *) (iterator))

	/**
	* provide for loop header which iterates through the list providing a
	* data iterator in reverse without moving the mark
	* list: the dlist pointer
	* iterator: the dl_node pointer to iterate
	* data_iterator: the pointer of type datatype to iterate
	* datatype: actual type of the contents in the dl_node->data
	*/
	#define dlist_for_each_data_nomark_rev(list,iterator, data_iterator,datatype) \
	for((iterator)=(list)->head->prev, (data_iterator)=(datatype *) (iterator)->data; \
	(iterator)!=(list)->head;(iterator)=(iterator)->prev,(data_iterator)=(datatype *) (iterator))


	#ifdef __cplusplus
	}
	#endif

	#endif /* _DLIST_H_ */