cc: Added inline to Tile::IsReadyToDraw
[chromium-blink-merge.git] / media / audio / agc_audio_stream.h
blobb289a0b15e9c76eb3e09e9d2ac1bf0157ba340ad
1 // Copyright (c) 2012 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #ifndef MEDIA_AUDIO_AGC_AUDIO_STREAM_H_
6 #define MEDIA_AUDIO_AGC_AUDIO_STREAM_H_
8 #include "base/logging.h"
9 #include "base/memory/scoped_ptr.h"
10 #include "base/synchronization/lock.h"
11 #include "base/threading/thread_checker.h"
12 #include "base/timer/timer.h"
13 #include "media/audio/audio_io.h"
15 // The template based AgcAudioStream implements platform-independent parts
16 // of the AudioInterface interface. Supported interfaces to pass as
17 // AudioInterface are AudioIntputStream and AudioOutputStream. Each platform-
18 // dependent implementation should derive from this class.
20 // Usage example (on Windows):
22 // class WASAPIAudioInputStream : public AgcAudioStream<AudioInputStream> {
23 // public:
24 // WASAPIAudioInputStream();
25 // ...
26 // };
28 // Call flow example:
30 // 1) User creates AgcAudioStream<AudioInputStream>
31 // 2) User calls AudioInputStream::SetAutomaticGainControl(true) =>
32 // AGC usage is now initialized but not yet started.
33 // 3) User calls AudioInputStream::Start() => implementation calls
34 // AgcAudioStream<AudioInputStream>::StartAgc() which detects that AGC
35 // is enabled and then starts the periodic AGC timer.
36 // 4) Microphone volume samples are now taken and included in all
37 // AudioInputCallback::OnData() callbacks.
38 // 5) User calls AudioInputStream::Stop() => implementation calls
39 // AgcAudioStream<AudioInputStream>::StopAgc() which stops the timer.
41 // Note that, calling AudioInputStream::SetAutomaticGainControl(false) while
42 // AGC measurements are active will not have an effect until StopAgc(),
43 // StartAgc() are called again since SetAutomaticGainControl() only sets a
44 // a state.
46 // Calling SetAutomaticGainControl(true) enables the AGC and StartAgc() starts
47 // a periodic timer which calls QueryAndStoreNewMicrophoneVolume()
48 // approximately once every second. QueryAndStoreNewMicrophoneVolume() asks
49 // the actual microphone about its current volume level. This value is
50 // normalized and stored so it can be read by GetAgcVolume() when the real-time
51 // audio thread needs the value. The main idea behind this scheme is to avoid
52 // accessing the audio hardware from the real-time audio thread and to ensure
53 // that we don't take new microphone-level samples too often (~1 Hz is a
54 // suitable compromise). The timer will be active until StopAgc() is called.
56 // This class should be created and destroyed on the audio manager thread and
57 // a thread checker is added to ensure that this is the case (uses DCHECK).
58 // All methods except GetAgcVolume() should be called on the creating thread
59 // as well to ensure that thread safety is maintained. It will also guarantee
60 // that the periodic timer runs on the audio manager thread.
61 // |normalized_volume_|, which is updated by QueryAndStoreNewMicrophoneVolume()
62 // and read in GetAgcVolume(), is protected by a lock to ensure that it can
63 // be accessed from any real-time audio thread that needs it to update the its
64 // AGC volume.
66 namespace media {
68 template <typename AudioInterface>
69 class MEDIA_EXPORT AgcAudioStream : public AudioInterface {
70 public:
71 // Time between two successive timer events.
72 static const int kIntervalBetweenVolumeUpdatesMs = 1000;
74 AgcAudioStream()
75 : agc_is_enabled_(false), max_volume_(0.0), normalized_volume_(0.0) {
76 DVLOG(1) << __FUNCTION__;
79 virtual ~AgcAudioStream() {
80 DCHECK(thread_checker_.CalledOnValidThread());
81 DVLOG(1) << __FUNCTION__;
84 protected:
85 // Starts the periodic timer which periodically checks and updates the
86 // current microphone volume level.
87 // The timer is only started if AGC mode is first enabled using the
88 // SetAutomaticGainControl() method.
89 void StartAgc() {
90 DVLOG(1) << "StartAgc()";
91 DCHECK(thread_checker_.CalledOnValidThread());
92 if (!agc_is_enabled_ || timer_.IsRunning())
93 return;
95 // Query and cache the volume to avoid sending 0 as volume to AGC at the
96 // beginning of the audio stream, otherwise AGC will try to raise the
97 // volume from 0.
98 QueryAndStoreNewMicrophoneVolume();
100 timer_.Start(FROM_HERE,
101 base::TimeDelta::FromMilliseconds(kIntervalBetweenVolumeUpdatesMs),
102 this, &AgcAudioStream::QueryAndStoreNewMicrophoneVolume);
105 // Stops the periodic timer which periodically checks and updates the
106 // current microphone volume level.
107 void StopAgc() {
108 DVLOG(1) << "StopAgc()";
109 DCHECK(thread_checker_.CalledOnValidThread());
110 if (timer_.IsRunning())
111 timer_.Stop();
114 // Stores a new microphone volume level by checking the audio input device.
115 // Called on the audio manager thread.
116 void UpdateAgcVolume() {
117 DCHECK(thread_checker_.CalledOnValidThread());
119 if (!timer_.IsRunning())
120 return;
122 // We take new volume samples once every second when the AGC is enabled.
123 // To ensure that a new setting has an immediate effect, the new volume
124 // setting is cached here. It will ensure that the next OnData() callback
125 // will contain a new valid volume level. If this approach was not taken,
126 // we could report invalid volume levels to the client for a time period
127 // of up to one second.
128 QueryAndStoreNewMicrophoneVolume();
131 // Gets the latest stored volume level if AGC is enabled.
132 // Called at each capture callback on a real-time capture thread (platform
133 // dependent).
134 void GetAgcVolume(double* normalized_volume) {
135 base::AutoLock lock(lock_);
136 *normalized_volume = normalized_volume_;
139 private:
140 // Sets the automatic gain control (AGC) to on or off. When AGC is enabled,
141 // the microphone volume is queried periodically and the volume level can
142 // be read in each AudioInputCallback::OnData() callback and fed to the
143 // render-side AGC. User must call StartAgc() as well to start measuring
144 // the microphone level.
145 virtual void SetAutomaticGainControl(bool enabled) OVERRIDE {
146 DVLOG(1) << "SetAutomaticGainControl(enabled=" << enabled << ")";
147 DCHECK(thread_checker_.CalledOnValidThread());
148 agc_is_enabled_ = enabled;
151 // Gets the current automatic gain control state.
152 virtual bool GetAutomaticGainControl() OVERRIDE {
153 DCHECK(thread_checker_.CalledOnValidThread());
154 return agc_is_enabled_;
157 // Takes a new microphone volume sample and stores it in |normalized_volume_|.
158 // Range is normalized to [0.0,1.0] or [0.0, 1.5] on Linux.
159 // This method is called periodically when AGC is enabled and always on the
160 // audio manager thread. We use it to read the current microphone level and
161 // to store it so it can be read by the main capture thread. By using this
162 // approach, we can avoid accessing audio hardware from a real-time audio
163 // thread and it leads to a more stable capture performance.
164 void QueryAndStoreNewMicrophoneVolume() {
165 DCHECK(thread_checker_.CalledOnValidThread());
167 // Cach the maximum volume if this is the first time we ask for it.
168 if (max_volume_ == 0.0)
169 max_volume_ = static_cast<AudioInterface*>(this)->GetMaxVolume();
171 // Retrieve the current volume level by asking the audio hardware.
172 // Range is normalized to [0.0,1.0] or [0.0, 1.5] on Linux.
173 if (max_volume_ != 0.0) {
174 double normalized_volume =
175 static_cast<AudioInterface*>(this)->GetVolume() / max_volume_;
176 base::AutoLock auto_lock(lock_);
177 normalized_volume_ = normalized_volume;
181 // Ensures that this class is created and destroyed on the same thread.
182 base::ThreadChecker thread_checker_;
184 // Repeating timer which cancels itself when it goes out of scope.
185 // Used to check the microphone volume periodically.
186 base::RepeatingTimer<AgcAudioStream<AudioInterface> > timer_;
188 // True when automatic gain control is enabled, false otherwise.
189 bool agc_is_enabled_;
191 // Stores the maximum volume which is used for normalization to a volume
192 // range of [0.0, 1.0].
193 double max_volume_;
195 // Contains last result of internal call to GetVolume(). We save resources
196 // by not querying the capture volume for each callback. Guarded by |lock_|.
197 // The range is normalized to [0.0, 1.0].
198 double normalized_volume_;
200 // Protects |normalized_volume_| .
201 base::Lock lock_;
203 DISALLOW_COPY_AND_ASSIGN(AgcAudioStream<AudioInterface>);
206 } // namespace media
208 #endif // MEDIA_AUDIO_AGC_AUDIO_STREAM_H_