diff options
author | Max Kellermann <max@duempel.org> | 2013-01-06 21:33:58 +0100 |
---|---|---|
committer | Max Kellermann <max@duempel.org> | 2013-01-06 21:33:58 +0100 |
commit | 108242042e684b9d6147aeb97351b823e0a1ed0b (patch) | |
tree | 76f6fdc7854cd127f6b5899aed45968f7a777154 /src/Queue.hxx | |
parent | 70652abf9750b62d2b4e5857d894494ae6058cf1 (diff) | |
download | mpd-108242042e684b9d6147aeb97351b823e0a1ed0b.tar.gz mpd-108242042e684b9d6147aeb97351b823e0a1ed0b.tar.xz mpd-108242042e684b9d6147aeb97351b823e0a1ed0b.zip |
queue: convert all functions to methods
Diffstat (limited to '')
-rw-r--r-- | src/Queue.hxx | 417 |
1 files changed, 186 insertions, 231 deletions
diff --git a/src/Queue.hxx b/src/Queue.hxx index 6ab0a833f..501fb0564 100644 --- a/src/Queue.hxx +++ b/src/Queue.hxx @@ -20,10 +20,11 @@ #ifndef MPD_QUEUE_HXX #define MPD_QUEUE_HXX +#include "gcc.h" + #include <glib.h> #include <assert.h> -#include <stdbool.h> #include <stdint.h> enum { @@ -110,268 +111,222 @@ struct queue { queue(const queue &other) = delete; queue &operator=(const queue &other) = delete; -}; -static inline unsigned -queue_length(const struct queue *queue) -{ - assert(queue->length <= queue->max_length); + unsigned GetLength() const { + assert(length <= max_length); - return queue->length; -} + return length; + } -/** - * Determine if the queue is empty, i.e. there are no songs. - */ -static inline bool -queue_is_empty(const struct queue *queue) -{ - return queue->length == 0; -} + /** + * Determine if the queue is empty, i.e. there are no songs. + */ + bool IsEmpty() const { + return length == 0; + } -/** - * Determine if the maximum number of songs has been reached. - */ -static inline bool -queue_is_full(const struct queue *queue) -{ - assert(queue->length <= queue->max_length); + /** + * Determine if the maximum number of songs has been reached. + */ + bool IsFull() const { + assert(length <= max_length); - return queue->length >= queue->max_length; -} + return length >= max_length; + } -/** - * Is that a valid position number? - */ -static inline bool -queue_valid_position(const struct queue *queue, unsigned position) -{ - return position < queue->length; -} + /** + * Is that a valid position number? + */ + bool IsValidPosition(unsigned position) const { + return position < length; + } -/** - * Is that a valid order number? - */ -static inline bool -queue_valid_order(const struct queue *queue, unsigned order) -{ - return order < queue->length; -} - -static inline int -queue_id_to_position(const struct queue *queue, unsigned id) -{ - if (id >= queue->max_length * QUEUE_HASH_MULT) - return -1; - - assert(queue->id_to_position[id] >= -1); - assert(queue->id_to_position[id] < (int)queue->length); - - return queue->id_to_position[id]; -} - -static inline int -queue_position_to_id(const struct queue *queue, unsigned position) -{ - assert(position < queue->length); - - return queue->items[position].id; -} - -static inline unsigned -queue_order_to_position(const struct queue *queue, unsigned order) -{ - assert(order < queue->length); - - return queue->order[order]; -} - -static inline unsigned -queue_position_to_order(const struct queue *queue, unsigned position) -{ - assert(position < queue->length); - - for (unsigned i = 0;; ++i) { - assert(i < queue->length); - - if (queue->order[i] == position) - return i; + /** + * Is that a valid order number? + */ + bool IsValidOrder(unsigned _order) const { + return _order < length; } -} -G_GNUC_PURE -static inline uint8_t -queue_get_priority_at_position(const struct queue *queue, unsigned position) -{ - assert(position < queue->length); + int IdToPosition(unsigned id) const { + if (id >= max_length * QUEUE_HASH_MULT) + return -1; - return queue->items[position].priority; -} + assert(id_to_position[id] >= -1); + assert(id_to_position[id] < (int)length); -/** - * Returns the song at the specified position. - */ -static inline struct song * -queue_get(const struct queue *queue, unsigned position) -{ - assert(position < queue->length); + return id_to_position[id]; + } - return queue->items[position].song; -} + int PositionToId(unsigned position) const + { + assert(position < length); -/** - * Returns the song at the specified order number. - */ -static inline struct song * -queue_get_order(const struct queue *queue, unsigned order) -{ - return queue_get(queue, queue_order_to_position(queue, order)); -} + return items[position].id; + } -/** - * Is the song at the specified position newer than the specified - * version? - */ -static inline bool -queue_song_newer(const struct queue *queue, unsigned position, - uint32_t version) -{ - assert(position < queue->length); + gcc_pure + unsigned OrderToPosition(unsigned _order) const { + assert(_order < length); - return version > queue->version || - queue->items[position].version >= version || - queue->items[position].version == 0; -} + return order[_order]; + } -/** - * Returns the order number following the specified one. This takes - * end of queue and "repeat" mode into account. - * - * @return the next order number, or -1 to stop playback - */ -int -queue_next_order(const struct queue *queue, unsigned order); + gcc_pure + unsigned PositionToOrder(unsigned position) const { + assert(position < length); -/** - * Increments the queue's version number. This handles integer - * overflow well. - */ -void -queue_increment_version(struct queue *queue); + for (unsigned i = 0;; ++i) { + assert(i < length); -/** - * Marks the specified song as "modified" and increments the version - * number. - */ -void -queue_modify(struct queue *queue, unsigned order); + if (order[i] == position) + return i; + } + } -/** - * Marks all songs as "modified" and increments the version number. - */ -void -queue_modify_all(struct queue *queue); + G_GNUC_PURE + uint8_t GetPriorityAtPosition(unsigned position) const { + assert(position < length); -/** - * Appends a song to the queue and returns its position. Prior to - * that, the caller must check if the queue is already full. - * - * If a song is not in the database (determined by - * song_in_database()), it is freed when removed from the queue. - * - * @param priority the priority of this new queue item - */ -unsigned -queue_append(struct queue *queue, struct song *song, uint8_t priority); + return items[position].priority; + } -/** - * Swaps two songs, addressed by their position. - */ -void -queue_swap(struct queue *queue, unsigned position1, unsigned position2); + /** + * Returns the song at the specified position. + */ + struct song *Get(unsigned position) const { + assert(position < length); -/** - * Swaps two songs, addressed by their order number. - */ -static inline void -queue_swap_order(struct queue *queue, unsigned order1, unsigned order2) -{ - unsigned tmp = queue->order[order1]; - queue->order[order1] = queue->order[order2]; - queue->order[order2] = tmp; -} + return items[position].song; + } -/** - * Moves a song to a new position. - */ -void -queue_move(struct queue *queue, unsigned from, unsigned to); + /** + * Returns the song at the specified order number. + */ + struct song *GetOrder(unsigned _order) const { + return Get(OrderToPosition(_order)); + } -/** - * Moves a range of songs to a new position. - */ -void -queue_move_range(struct queue *queue, unsigned start, unsigned end, unsigned to); + /** + * Is the song at the specified position newer than the specified + * version? + */ + bool IsNewerAtPosition(unsigned position, uint32_t _version) const { + assert(position < length); -/** - * Removes a song from the playlist. - */ -void -queue_delete(struct queue *queue, unsigned position); + return _version > version || + items[position].version >= _version || + items[position].version == 0; + } -/** - * Removes all songs from the playlist. - */ -void -queue_clear(struct queue *queue); + /** + * Returns the order number following the specified one. This takes + * end of queue and "repeat" mode into account. + * + * @return the next order number, or -1 to stop playback + */ + gcc_pure + int GetNextOrder(unsigned order) const; -/** - * Initializes the "order" array, and restores "normal" order. - */ -static inline void -queue_restore_order(struct queue *queue) -{ - for (unsigned i = 0; i < queue->length; ++i) - queue->order[i] = i; -} + /** + * Increments the queue's version number. This handles integer + * overflow well. + */ + void IncrementVersion(); -/** - * Shuffle the order of items in the specified range, taking their - * priorities into account. - */ -void -queue_shuffle_order_range_with_priority(struct queue *queue, - unsigned start, unsigned end); + /** + * Marks the specified song as "modified" and increments the version + * number. + */ + void ModifyAtOrder(unsigned order); -/** - * Shuffles the virtual order of songs, but does not move them - * physically. This is used in random mode. - */ -void -queue_shuffle_order(struct queue *queue); + /** + * Marks all songs as "modified" and increments the version number. + */ + void ModifyAll(); -/** - * Shuffles the virtual order of the last song in the specified - * (order) range. This is used in random mode after a song has been - * appended by queue_append(). - */ -void -queue_shuffle_order_last(struct queue *queue, unsigned start, unsigned end); + /** + * Appends a song to the queue and returns its position. Prior to + * that, the caller must check if the queue is already full. + * + * If a song is not in the database (determined by + * song_in_database()), it is freed when removed from the queue. + * + * @param priority the priority of this new queue item + */ + unsigned Append(struct song *song, uint8_t priority); -/** - * Shuffles a (position) range in the queue. The songs are physically - * shuffled, not by using the "order" mapping. - */ -void -queue_shuffle_range(struct queue *queue, unsigned start, unsigned end); + /** + * Swaps two songs, addressed by their position. + */ + void SwapPositions(unsigned position1, unsigned position2); -bool -queue_set_priority(struct queue *queue, unsigned position, - uint8_t priority, int after_order); + /** + * Swaps two songs, addressed by their order number. + */ + void SwapOrders(unsigned order1, unsigned order2) { + unsigned tmp = order[order1]; + order[order1] = order[order2]; + order[order2] = tmp; + } -bool -queue_set_priority_range(struct queue *queue, - unsigned start_position, unsigned end_position, - uint8_t priority, int after_order); + /** + * Moves a song to a new position. + */ + void MovePostion(unsigned from, unsigned to); + + /** + * Moves a range of songs to a new position. + */ + void MoveRange(unsigned start, unsigned end, unsigned to); + + /** + * Removes a song from the playlist. + */ + void DeletePosition(unsigned position); + + /** + * Removes all songs from the playlist. + */ + void Clear(); + + /** + * Initializes the "order" array, and restores "normal" order. + */ + void RestoreOrder() { + for (unsigned i = 0; i < length; ++i) + order[i] = i; + } + + /** + * Shuffle the order of items in the specified range, taking their + * priorities into account. + */ + void ShuffleOrderRangeWithPriority(unsigned start, unsigned end); + + /** + * Shuffles the virtual order of songs, but does not move them + * physically. This is used in random mode. + */ + void ShuffleOrder(); + + /** + * Shuffles the virtual order of the last song in the specified + * (order) range. This is used in random mode after a song has been + * appended by queue_append(). + */ + void ShuffleOrderLast(unsigned start, unsigned end); + + /** + * Shuffles a (position) range in the queue. The songs are physically + * shuffled, not by using the "order" mapping. + */ + void ShuffleRange(unsigned start, unsigned end); + + bool SetPriority(unsigned position, uint8_t priority, int after_order); + + bool SetPriorityRange(unsigned start_position, unsigned end_position, + uint8_t priority, int after_order); +}; #endif |