monit-5.4/libmonit/src/util/List.h - nest-learning-thermostat/5.1/monit - Git at Google

 /*
  * Copyright (C) Tildeslash Ltd. All rights reserved.
  *
  * This program is free software: you can redistribute it and/or modify
  * it under the terms of the GNU Affero General Public License version 3.
  *
  * This program 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 Affero General Public License for more details.
  *
  * You should have received a copy of the GNU Affero General Public License
  * along with this program.  If not, see <http://www.gnu.org/licenses/>.
  *
  * In addition, as a special exception, the copyright holders give
  * permission to link the code of portions of this program with the
  * OpenSSL library under certain conditions as described in each
  * individual source file, and distribute linked combinations
  * including the two.
  *
  * You must obey the GNU Affero General Public License in all respects
  * for all of the code used other than OpenSSL.
  */


 #ifndef LIST_INCLUDED
 #define LIST_INCLUDED


 /**
  * A <b>List</b> is a sequence of zero or more elements. A List can be used
  * as a LIFO (last in, first out) stack by using List_push() and List_pop()
  * or as a FIFO (first in, first out) queue by using List_append() and
  * List_pop(). These operations takes constant time.
  *
  * The List ADT representation is revealed in this interface for easy access
  * by clients. The representation is trivial; a structure with two fields.
  * The first field, <code>e</code>, is a pointer to an element added to the
  * list and <code>next</code> points to the next node in the List or to NULL
  * if there are no more nodes. In addition, the two variables <code>head</code>
  * and <code>tail</code> are pointers to respectively the first and last node
  * in the List. The variable <code>freelist</code> is used to retain popped
  * list_t nodes for reuse.
  *
  * This class is reentrant but not thread-safe
  *
  * @see http://www.mmonit.com/
  * @file
  */


 #define T List_T
 typedef struct T *T;
 /** @cond hide */
 typedef struct list_t {void *e; struct list_t *next;} *list_t;
 struct T {
         int length;
         int timestamp;
         list_t  head, tail, freelist;
 };
 /** @endcond */


 /**
  * Create a new List object.
  * @return A List object
  * @exception MemoryException if allocation failed
  */
 T List_new(void);


 /**
  * Destroy a List object and release allocated resources. Call this
  * method to release a List object allocated with List_new()
  * @param L A List object reference
 */
 void List_free(T *L);


 /**
  * Add <code>e</code> to the beginning of the List
  * @param L A List object
  * @param e An element to add to the beginning of the List
  * @exception MemoryException if allocation failed
  */
 void List_push(T L, void *e);


 /**
  * Remove the first element from the List
  * @param L A List object
  * @return The element removed from the beginning of the List
  */
 void *List_pop(T L);


 /**
  * Append <code>e</code> to the end of the List
  * @param L A List object
  * @param e An element to append to the end of the List
  */
 void List_append(T L, void *e);


 /**
  * Remove the first occurrence of the element <code>e</code> from the List
  * @param L A List object
  * @param e The element to remove from the list
  * @return The element removed from the List or NULL if <code>e</code>
  * was not found in the List
  */
 void *List_remove(T L, void *e);


 /**
  * Concatenate <code>list</code> with this List. All nodes in
  * <code>list</code> are appended to L. <code>list</code>
  * is not changed
  * @param L A List object
  * @param list A List to append to the end of this List
  */
 void List_cat(T L, T list);


 /**
  * Reverse the order of the elements in the List
  * @param L A List object
  */
 void List_reverse(T L);


 /**
  * Returns the number of elements in the List.
  * @param L A List object
  * @return Number of elements in the List
  */
 int List_length(T L);


 /**
  * Clear this List so it contains no elements. The List will be empty after
  * this call.
  * @param L A List object
  */
 void List_clear(T L);


 /**
  * Apply the visitor function, <code>apply</code> for each element in
  * the List. Clients can pass an application specific pointer,
  * <code>ap</code>, to List_map() and this pointer is passed along to the
  * <code>apply</code> function at each call. It is a checked runtime error
  * for <code>apply</code> to change the List.
  * @param L A List object
  * @param apply The function to apply
  * @param ap An application-specific pointer. If such a pointer is
  * not needed, just use NULL
  * @exception AssertException if <code>apply</code> change the List
  */
 void List_map(T L, void (*apply)(void *e, void *ap), void *ap);


 /**
  * Creates a N + 1 length array containing all the elements
  * in this List. The last element in the array is NULL. The
  * caller is responsible for deallocating the array.
  * @param L A List object
  * @return A pointer to the first element in the array
  * @exception MemoryException if allocation failed
  */
 void **List_toArray(T L);

 #undef T
 #endif
	/*
	* Copyright (C) Tildeslash Ltd. All rights reserved.
	*
	* This program is free software: you can redistribute it and/or modify
	* it under the terms of the GNU Affero General Public License version 3.
	*
	* This program 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 Affero General Public License for more details.
	*
	* You should have received a copy of the GNU Affero General Public License
	* along with this program. If not, see <http://www.gnu.org/licenses/>.
	*
	* In addition, as a special exception, the copyright holders give
	* permission to link the code of portions of this program with the
	* OpenSSL library under certain conditions as described in each
	* individual source file, and distribute linked combinations
	* including the two.
	*
	* You must obey the GNU Affero General Public License in all respects
	* for all of the code used other than OpenSSL.
	*/


	#ifndef LIST_INCLUDED
	#define LIST_INCLUDED


	/**
	* A <b>List</b> is a sequence of zero or more elements. A List can be used
	* as a LIFO (last in, first out) stack by using List_push() and List_pop()
	* or as a FIFO (first in, first out) queue by using List_append() and
	* List_pop(). These operations takes constant time.
	*
	* The List ADT representation is revealed in this interface for easy access
	* by clients. The representation is trivial; a structure with two fields.
	* The first field, <code>e</code>, is a pointer to an element added to the
	* list and <code>next</code> points to the next node in the List or to NULL
	* if there are no more nodes. In addition, the two variables <code>head</code>
	* and <code>tail</code> are pointers to respectively the first and last node
	* in the List. The variable <code>freelist</code> is used to retain popped
	* list_t nodes for reuse.
	*
	* This class is reentrant but not thread-safe
	*
	* @see http://www.mmonit.com/
	* @file
	*/


	#define T List_T
	typedef struct T *T;
	/** @cond hide */
	typedef struct list_t {void e; struct list_t next;} *list_t;
	struct T {
	int length;
	int timestamp;
	list_t head, tail, freelist;
	};
	/** @endcond */


	/**
	* Create a new List object.
	* @return A List object
	* @exception MemoryException if allocation failed
	*/
	T List_new(void);


	/**
	* Destroy a List object and release allocated resources. Call this
	* method to release a List object allocated with List_new()
	* @param L A List object reference
	*/
	void List_free(T *L);


	/**
	* Add <code>e</code> to the beginning of the List
	* @param L A List object
	* @param e An element to add to the beginning of the List
	* @exception MemoryException if allocation failed
	*/
	void List_push(T L, void *e);


	/**
	* Remove the first element from the List
	* @param L A List object
	* @return The element removed from the beginning of the List
	*/
	void *List_pop(T L);


	/**
	* Append <code>e</code> to the end of the List
	* @param L A List object
	* @param e An element to append to the end of the List
	*/
	void List_append(T L, void *e);


	/**
	* Remove the first occurrence of the element <code>e</code> from the List
	* @param L A List object
	* @param e The element to remove from the list
	* @return The element removed from the List or NULL if <code>e</code>
	* was not found in the List
	*/
	void List_remove(T L, void e);


	/**
	* Concatenate <code>list</code> with this List. All nodes in
	* <code>list</code> are appended to L. <code>list</code>
	* is not changed
	* @param L A List object
	* @param list A List to append to the end of this List
	*/
	void List_cat(T L, T list);


	/**
	* Reverse the order of the elements in the List
	* @param L A List object
	*/
	void List_reverse(T L);


	/**
	* Returns the number of elements in the List.
	* @param L A List object
	* @return Number of elements in the List
	*/
	int List_length(T L);


	/**
	* Clear this List so it contains no elements. The List will be empty after
	* this call.
	* @param L A List object
	*/
	void List_clear(T L);


	/**
	* Apply the visitor function, <code>apply</code> for each element in
	* the List. Clients can pass an application specific pointer,
	* <code>ap</code>, to List_map() and this pointer is passed along to the
	* <code>apply</code> function at each call. It is a checked runtime error
	* for <code>apply</code> to change the List.
	* @param L A List object
	* @param apply The function to apply
	* @param ap An application-specific pointer. If such a pointer is
	* not needed, just use NULL
	* @exception AssertException if <code>apply</code> change the List
	*/
	void List_map(T L, void (apply)(void e, void ap), void ap);


	/**
	* Creates a N + 1 length array containing all the elements
	* in this List. The last element in the array is NULL. The
	* caller is responsible for deallocating the array.
	* @param L A List object
	* @return A pointer to the first element in the array
	* @exception MemoryException if allocation failed
	*/
	void **List_toArray(T L);

	#undef T
	#endif