1 /*
2 * Copyright (c) 2015 The WebRTC project authors. All Rights Reserved.
3 *
4 * Use of this source code is governed by a BSD-style license
5 * that can be found in the LICENSE file in the root of the source
6 * tree. An additional intellectual property rights grant can be found
7 * in the file PATENTS. All contributing project authors may
8 * be found in the AUTHORS file in the root of the source tree.
9 */
10
11 #ifndef WEBRTC_COMMON_AUDIO_SWAP_QUEUE_H_
12 #define WEBRTC_COMMON_AUDIO_SWAP_QUEUE_H_
13
14 #include <algorithm>
15 #include <utility>
16 #include <vector>
17
18 #include "webrtc/base/checks.h"
19 #include "webrtc/base/criticalsection.h"
20
21 namespace webrtc {
22
23 namespace internal {
24
25 // (Internal; please don't use outside this file.)
26 template <typename T>
NoopSwapQueueItemVerifierFunction(const T &)27 bool NoopSwapQueueItemVerifierFunction(const T&) {
28 return true;
29 }
30
31 } // namespace internal
32
33 // Functor to use when supplying a verifier function for the queue.
34 template <typename T,
35 bool (*QueueItemVerifierFunction)(const T&) =
36 internal::NoopSwapQueueItemVerifierFunction>
37 class SwapQueueItemVerifier {
38 public:
operator()39 bool operator()(const T& t) const { return QueueItemVerifierFunction(t); }
40 };
41
42 // This class is a fixed-size queue. A producer calls Insert() to insert
43 // an element of type T at the back of the queue, and a consumer calls
44 // Remove() to remove an element from the front of the queue. It's safe
45 // for the producer(s) and the consumer(s) to access the queue
46 // concurrently, from different threads.
47 //
48 // To avoid the construction, copying, and destruction of Ts that a naive
49 // queue implementation would require, for each "full" T passed from
50 // producer to consumer, SwapQueue<T> passes an "empty" T in the other
51 // direction (an "empty" T is one that contains nothing of value for the
52 // consumer). This bidirectional movement is implemented with swap().
53 //
54 // // Create queue:
55 // Bottle proto(568); // Prepare an empty Bottle. Heap allocates space for
56 // // 568 ml.
57 // SwapQueue<Bottle> q(N, proto); // Init queue with N copies of proto.
58 // // Each copy allocates on the heap.
59 // // Producer pseudo-code:
60 // Bottle b(568); // Prepare an empty Bottle. Heap allocates space for 568 ml.
61 // loop {
62 // b.Fill(amount); // Where amount <= 568 ml.
63 // q.Insert(&b); // Swap our full Bottle for an empty one from q.
64 // }
65 //
66 // // Consumer pseudo-code:
67 // Bottle b(568); // Prepare an empty Bottle. Heap allocates space for 568 ml.
68 // loop {
69 // q.Remove(&b); // Swap our empty Bottle for the next-in-line full Bottle.
70 // Drink(&b);
71 // }
72 //
73 // For a well-behaved Bottle class, there are no allocations in the
74 // producer, since it just fills an empty Bottle that's already large
75 // enough; no deallocations in the consumer, since it returns each empty
76 // Bottle to the queue after having drunk it; and no copies along the
77 // way, since the queue uses swap() everywhere to move full Bottles in
78 // one direction and empty ones in the other.
79 template <typename T, typename QueueItemVerifier = SwapQueueItemVerifier<T>>
80 class SwapQueue {
81 public:
82 // Creates a queue of size size and fills it with default constructed Ts.
SwapQueue(size_t size)83 explicit SwapQueue(size_t size) : queue_(size) {
84 RTC_DCHECK(VerifyQueueSlots());
85 }
86
87 // Same as above and accepts an item verification functor.
SwapQueue(size_t size,const QueueItemVerifier & queue_item_verifier)88 SwapQueue(size_t size, const QueueItemVerifier& queue_item_verifier)
89 : queue_item_verifier_(queue_item_verifier), queue_(size) {
90 RTC_DCHECK(VerifyQueueSlots());
91 }
92
93 // Creates a queue of size size and fills it with copies of prototype.
SwapQueue(size_t size,const T & prototype)94 SwapQueue(size_t size, const T& prototype) : queue_(size, prototype) {
95 RTC_DCHECK(VerifyQueueSlots());
96 }
97
98 // Same as above and accepts an item verification functor.
SwapQueue(size_t size,const T & prototype,const QueueItemVerifier & queue_item_verifier)99 SwapQueue(size_t size,
100 const T& prototype,
101 const QueueItemVerifier& queue_item_verifier)
102 : queue_item_verifier_(queue_item_verifier), queue_(size, prototype) {
103 RTC_DCHECK(VerifyQueueSlots());
104 }
105
106 // Resets the queue to have zero content wile maintaining the queue size.
Clear()107 void Clear() {
108 rtc::CritScope cs(&crit_queue_);
109 next_write_index_ = 0;
110 next_read_index_ = 0;
111 num_elements_ = 0;
112 }
113
114 // Inserts a "full" T at the back of the queue by swapping *input with an
115 // "empty" T from the queue.
116 // Returns true if the item was inserted or false if not (the queue was full).
117 // When specified, the T given in *input must pass the ItemVerifier() test.
118 // The contents of *input after the call are then also guaranteed to pass the
119 // ItemVerifier() test.
Insert(T * input)120 bool Insert(T* input) WARN_UNUSED_RESULT {
121 RTC_DCHECK(input);
122
123 rtc::CritScope cs(&crit_queue_);
124
125 RTC_DCHECK(queue_item_verifier_(*input));
126
127 if (num_elements_ == queue_.size()) {
128 return false;
129 }
130
131 using std::swap;
132 swap(*input, queue_[next_write_index_]);
133
134 ++next_write_index_;
135 if (next_write_index_ == queue_.size()) {
136 next_write_index_ = 0;
137 }
138
139 ++num_elements_;
140
141 RTC_DCHECK_LT(next_write_index_, queue_.size());
142 RTC_DCHECK_LE(num_elements_, queue_.size());
143
144 return true;
145 }
146
147 // Removes the frontmost "full" T from the queue by swapping it with
148 // the "empty" T in *output.
149 // Returns true if an item could be removed or false if not (the queue was
150 // empty). When specified, The T given in *output must pass the ItemVerifier()
151 // test and the contents of *output after the call are then also guaranteed to
152 // pass the ItemVerifier() test.
Remove(T * output)153 bool Remove(T* output) WARN_UNUSED_RESULT {
154 RTC_DCHECK(output);
155
156 rtc::CritScope cs(&crit_queue_);
157
158 RTC_DCHECK(queue_item_verifier_(*output));
159
160 if (num_elements_ == 0) {
161 return false;
162 }
163
164 using std::swap;
165 swap(*output, queue_[next_read_index_]);
166
167 ++next_read_index_;
168 if (next_read_index_ == queue_.size()) {
169 next_read_index_ = 0;
170 }
171
172 --num_elements_;
173
174 RTC_DCHECK_LT(next_read_index_, queue_.size());
175 RTC_DCHECK_LE(num_elements_, queue_.size());
176
177 return true;
178 }
179
180 private:
181 // Verify that the queue slots complies with the ItemVerifier test.
VerifyQueueSlots()182 bool VerifyQueueSlots() {
183 rtc::CritScope cs(&crit_queue_);
184 for (const auto& v : queue_) {
185 RTC_DCHECK(queue_item_verifier_(v));
186 }
187 return true;
188 }
189
190 rtc::CriticalSection crit_queue_;
191
192 // TODO(peah): Change this to use std::function() once we can use C++11 std
193 // lib.
194 QueueItemVerifier queue_item_verifier_ GUARDED_BY(crit_queue_);
195
196 // (next_read_index_ + num_elements_) % queue_.size() =
197 // next_write_index_
198 size_t next_write_index_ GUARDED_BY(crit_queue_) = 0;
199 size_t next_read_index_ GUARDED_BY(crit_queue_) = 0;
200 size_t num_elements_ GUARDED_BY(crit_queue_) = 0;
201
202 // queue_.size() is constant.
203 std::vector<T> queue_ GUARDED_BY(crit_queue_);
204
205 RTC_DISALLOW_COPY_AND_ASSIGN(SwapQueue);
206 };
207
208 } // namespace webrtc
209
210 #endif // WEBRTC_COMMON_AUDIO_SWAP_QUEUE_H_
211