// -*- C++ -*- //============================================================================= /** * @file Timer_Heap_T.h * * $Id$ * * @author Douglas C. Schmidt */ //============================================================================= #ifndef ACE_TIMER_HEAP_T_H #define ACE_TIMER_HEAP_T_H #include /**/ "ace/pre.h" #include "ace/Timer_Queue_T.h" #if !defined (ACE_LACKS_PRAGMA_ONCE) # pragma once #endif /* ACE_LACKS_PRAGMA_ONCE */ #include "ace/Free_List.h" #include "ace/Unbounded_Set.h" ACE_BEGIN_VERSIONED_NAMESPACE_DECL // Forward declaration template class ACE_Timer_Heap_T; /** * @class ACE_Timer_Heap_Iterator_T * * @brief Iterates over an ACE_Timer_Heap_T. * * This is a generic iterator that can be used to visit every * node of a timer queue. Be aware that it doesn't transverse * in the order of timeout values. */ template class ACE_Timer_Heap_Iterator_T : public ACE_Timer_Queue_Iterator_T { public: /// Constructor. ACE_Timer_Heap_Iterator_T (ACE_Timer_Heap_T &); /// Destructor. ~ACE_Timer_Heap_Iterator_T (void); /// Positions the iterator at the earliest node in the Timer Queue virtual void first (void); /// Positions the iterator at the next node in the Timer Queue virtual void next (void); /// Returns true when there are no more nodes in the sequence virtual bool isdone (void) const; /// Returns the node at the current position in the sequence virtual ACE_Timer_Node_T *item (void); protected: /// Pointer to the ACE_Timer_Heap that we are iterating over. ACE_Timer_Heap_T &timer_heap_; /// Position in the array where the iterator is at size_t position_; }; /** * @class ACE_Timer_Heap_T * * @brief Provides a very fast and predictable timer implementation. * * This implementation uses a heap-based callout queue of * absolute times. Therefore, in the average and worst case, * scheduling, canceling, and expiring timers is O(log N) (where * N is the total number of timers). In addition, we can also * preallocate as many @c ACE_Timer_Node objects as there are slots * in the heap. This allows us to completely remove the need for * dynamic memory allocation, which is important for real-time * systems. */ template class ACE_Timer_Heap_T : public ACE_Timer_Queue_T { public: typedef ACE_Timer_Heap_Iterator_T HEAP_ITERATOR; friend class ACE_Timer_Heap_Iterator_T; typedef ACE_Timer_Queue_T INHERITED; // = Initialization and termination methods. /** * The Constructor creates a heap with specified number of elements. * This can also take in a upcall functor and freelist (if 0, then * defaults will be created). * * @param size The maximum number of timers that can be * inserted into the new object. * @param preallocated Default false, true then all the memory * for the @c ACE_Timer_Node objects will be pre-allocated. This saves * time and is more predictable (though it requires more space). * Otherwise, timer nodes are allocated as needed. * @param freelist is the freelist of timer nodes. * @param upcall_functor If 0 Timer Heap will create a default FUNCTOR. */ ACE_Timer_Heap_T (size_t size, bool preallocated = false, FUNCTOR *upcall_functor = 0, ACE_Free_List > *freelist = 0); /** * Default constructor. @c upcall_functor is the instance of the * FUNCTOR to be used by the queue. If @c upcall_functor is 0, Timer * Heap will create a default FUNCTOR. @c freelist is the freelist of * timer nodes. If 0, then a default freelist will be created. The default * size will be ACE_DEFAULT_TIMERS and there will be no preallocation. */ ACE_Timer_Heap_T (FUNCTOR *upcall_functor = 0, ACE_Free_List > *freelist = 0); /// Destructor. virtual ~ACE_Timer_Heap_T (void); /// True if heap is empty, else false. virtual bool is_empty (void) const; /// Returns the time of the earliest node in the Timer_Queue. /// Must be called on a non-empty queue. virtual const ACE_Time_Value &earliest_time (void) const; /** * Resets the interval of the timer represented by @a timer_id to * @a interval, which is specified in relative time to the current * . If @a interval is equal to * ACE_Time_Value::zero, the timer will become a non-rescheduling * timer. Returns 0 if successful, -1 if not. */ virtual int reset_interval (long timer_id, const ACE_Time_Value &interval); /** * Cancel all timers associated with @a type. If @a dont_call_handle_close * is 0 then the will be invoked. Returns number of timers * cancelled. */ virtual int cancel (const TYPE &type, int dont_call_handle_close = 1); /** * Cancel the single timer that matches the @a timer_id value (which * was returned from the method). If act is non-NULL * then it will be set to point to the ``magic cookie'' argument * passed in when the timer was registered. This makes it possible * to free up the memory and avoid memory leaks. If @a dont_call_handle_close * is 0 then the will be invoked. Returns 1 if cancellation * succeeded and 0 if the @a timer_id wasn't found. */ virtual int cancel (long timer_id, const void **act = 0, int dont_call_handle_close = 1); /// Returns a pointer to this ACE_Timer_Queue's iterator. virtual ACE_Timer_Queue_Iterator_T &iter (void); /** * Removes the earliest node from the queue and returns it. Note that * the timer is removed from the heap, but is not freed, and its ID * is not reclaimed. The caller is responsible for calling either * @c reschedule() or @c free_node() after this function returns. Thus, * this function is for support of @c ACE_Timer_Queue::expire and * should not be used unadvisedly in other conditions. */ ACE_Timer_Node_T *remove_first (void); /// Dump the state of an object. virtual void dump (void) const; /// Reads the earliest node from the queue and returns it. virtual ACE_Timer_Node_T *get_first (void); protected: /** * Schedule a timer that may optionally auto-reset. * Schedule @a type that will expire at @a future_time, * which is specified in absolute time. If it expires then @a act is * passed in as the value to the . If @a interval is != to * ACE_Time_Value::zero then it is used to reschedule the @a type * automatically, using relative time to the current . * This method returns a that uniquely identifies the the * @a type entry in an internal list. This can be used to * cancel the timer before it expires. The cancellation ensures * that are unique up to values of greater than 2 * billion timers. As long as timers don't stay around longer than * this there should be no problems with accidentally deleting the * wrong timer. Returns -1 on failure (which is guaranteed never to * be a valid ). */ virtual long schedule_i (const TYPE &type, const void *act, const ACE_Time_Value &future_time, const ACE_Time_Value &interval); /// Reschedule an "interval" ACE_Timer_Node. virtual void reschedule (ACE_Timer_Node_T *); /// Factory method that allocates a new node (uses operator new if /// we're *not* preallocating, otherwise uses an internal freelist). virtual ACE_Timer_Node_T *alloc_node (void); /** * Factory method that frees a previously allocated node (uses * operator delete if we're *not* preallocating, otherwise uses an * internal freelist). */ virtual void free_node (ACE_Timer_Node_T *); private: /// Remove and return the @a sloth ACE_Timer_Node and restore the /// heap property. ACE_Timer_Node_T *remove (size_t slot); /// Insert @a new_node into the heap and restore the heap property. void insert (ACE_Timer_Node_T *new_node); /** * Doubles the size of the heap and the corresponding timer_ids array. * If preallocation is used, will also double the size of the * preallocated array of ACE_Timer_Nodes. */ void grow_heap (void); /// Restore the heap property, starting at @a slot. void reheap_up (ACE_Timer_Node_T *new_node, size_t slot, size_t parent); /// Restore the heap property, starting at @a slot. void reheap_down (ACE_Timer_Node_T *moved_node, size_t slot, size_t child); /// Copy @a moved_node into the @a slot slot of and move /// @a slot into the corresponding slot in the array. void copy (size_t slot, ACE_Timer_Node_T *moved_node); /** * Returns a timer id that uniquely identifies this timer. This id * can be used to cancel a timer via the method. The * timer id returned from this method will never == -1 to avoid * conflicts with other failure return values. */ long timer_id (void); /// Pops and returns a new timer id from the freelist. long pop_freelist (void); /// Pushes @a old_id onto the freelist. void push_freelist (long old_id); /// Maximum size of the heap. size_t max_size_; /// Current size of the heap. size_t cur_size_; /// Number of heap entries in transition (removed from the queue, but /// not freed) and may be rescheduled or freed. size_t cur_limbo_; /// Iterator used to expire timers. HEAP_ITERATOR *iterator_; /** * Current contents of the Heap, which is organized as a "heap" of * ACE_Timer_Node *'s. In this context, a heap is a "partially * ordered, almost complete" binary tree, which is stored in an * array. */ ACE_Timer_Node_T **heap_; /** * An array of "pointers" that allows each ACE_Timer_Node in the * to be located in O(1) time. Basically, * contains the slot in the array where an ACE_Timer_Node * * with timer id \ resides. Thus, the timer id passed back from * is really a slot into the array. The * array serves two purposes: negative values are * indications of free timer IDs, whereas positive values are * "pointers" into the array for assigned timer IDs. */ ssize_t *timer_ids_; /// "Pointer" to the element in the array that was /// last given out as a timer ID. size_t timer_ids_curr_; /// Index representing the lowest timer ID that has been freed. When /// the timer_ids_next_ value wraps around, it starts back at this /// point. size_t timer_ids_min_free_; /** * If this is non-0, then we preallocate number of * ACE_Timer_Node objects in order to reduce dynamic allocation * costs. In auto-growing implementation, this points to the * last array of nodes allocated. */ ACE_Timer_Node_T *preallocated_nodes_; /// This points to the head of the freelist, /// which is organized as a stack. ACE_Timer_Node_T *preallocated_nodes_freelist_; /// Set of pointers to the arrays of preallocated timer nodes. /// Used to delete the allocated memory when required. ACE_Unbounded_Set *> preallocated_node_set_; // = Don't allow these operations for now. ACE_UNIMPLEMENTED_FUNC (ACE_Timer_Heap_T (const ACE_Timer_Heap_T &)) ACE_UNIMPLEMENTED_FUNC (void operator= (const ACE_Timer_Heap_T &)) }; ACE_END_VERSIONED_NAMESPACE_DECL #if defined (ACE_TEMPLATES_REQUIRE_SOURCE) #include "ace/Timer_Heap_T.cpp" #endif /* ACE_TEMPLATES_REQUIRE_SOURCE */ #if defined (ACE_TEMPLATES_REQUIRE_PRAGMA) #pragma implementation ("Timer_Heap_T.cpp") #endif /* ACE_TEMPLATES_REQUIRE_PRAGMA */ #include /**/ "ace/post.h" #endif /* ACE_TIMER_HEAP_T_H */