| /external/vboot_reference/firmware/lib/ |
| D | vboot_audio.c | 62 static void VbGetDevMusicNotes(VbAudioContext *audio, int use_short) in VbGetDevMusicNotes() argument
85 if (!audio->background_beep) in VbGetDevMusicNotes()
192 audio->music_notes = notebuf; in VbGetDevMusicNotes()
193 audio->note_count = count; in VbGetDevMusicNotes()
194 audio->free_notes_when_done = 1; in VbGetDevMusicNotes()
200 audio->music_notes = builtin; in VbGetDevMusicNotes()
201 audio->note_count = count; in VbGetDevMusicNotes()
202 audio->free_notes_when_done = 0; in VbGetDevMusicNotes()
212 VbAudioContext *audio = &au; in VbAudioOpen() local
227 Memset(audio, 0, sizeof(*audio)); in VbAudioOpen()
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| /external/webrtc/src/modules/audio_processing/ |
| D | gain_control_impl.cc | 71 int GainControlImpl::ProcessRenderAudio(AudioBuffer* audio) { in ProcessRenderAudio() argument
76 assert(audio->samples_per_split_channel() <= 160); in ProcessRenderAudio()
78 WebRtc_Word16* mixed_data = audio->low_pass_split_data(0); in ProcessRenderAudio()
79 if (audio->num_channels() > 1) { in ProcessRenderAudio()
80 audio->CopyAndMixLowPass(1); in ProcessRenderAudio()
81 mixed_data = audio->mixed_low_pass_data(0); in ProcessRenderAudio()
89 static_cast<WebRtc_Word16>(audio->samples_per_split_channel())); in ProcessRenderAudio()
99 int GainControlImpl::AnalyzeCaptureAudio(AudioBuffer* audio) { in AnalyzeCaptureAudio() argument
104 assert(audio->samples_per_split_channel() <= 160); in AnalyzeCaptureAudio()
105 assert(audio->num_channels() == num_handles()); in AnalyzeCaptureAudio()
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| D | noise_suppression_impl.cc | 57 int NoiseSuppressionImpl::ProcessCaptureAudio(AudioBuffer* audio) { in ProcessCaptureAudio() argument
63 assert(audio->samples_per_split_channel() <= 160); in ProcessCaptureAudio()
64 assert(audio->num_channels() == num_handles()); in ProcessCaptureAudio()
70 audio->low_pass_split_data(i), in ProcessCaptureAudio()
71 audio->high_pass_split_data(i), in ProcessCaptureAudio()
72 audio->low_pass_split_data(i), in ProcessCaptureAudio()
73 audio->high_pass_split_data(i)); in ProcessCaptureAudio()
76 audio->low_pass_split_data(i), in ProcessCaptureAudio()
77 audio->high_pass_split_data(i), in ProcessCaptureAudio()
78 audio->low_pass_split_data(i), in ProcessCaptureAudio()
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| D | echo_control_mobile_impl.cc | 80 int EchoControlMobileImpl::ProcessRenderAudio(const AudioBuffer* audio) { in ProcessRenderAudio() argument
85 assert(audio->samples_per_split_channel() <= 160); in ProcessRenderAudio()
86 assert(audio->num_channels() == apm_->num_reverse_channels()); in ProcessRenderAudio()
93 for (int j = 0; j < audio->num_channels(); j++) { in ProcessRenderAudio()
97 audio->low_pass_split_data(j), in ProcessRenderAudio()
98 static_cast<WebRtc_Word16>(audio->samples_per_split_channel())); in ProcessRenderAudio()
111 int EchoControlMobileImpl::ProcessCaptureAudio(AudioBuffer* audio) { in ProcessCaptureAudio() argument
120 assert(audio->samples_per_split_channel() <= 160); in ProcessCaptureAudio()
121 assert(audio->num_channels() == apm_->num_output_channels()); in ProcessCaptureAudio()
127 for (int i = 0; i < audio->num_channels(); i++) { in ProcessCaptureAudio()
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| D | echo_cancellation_impl.cc | 74 int EchoCancellationImpl::ProcessRenderAudio(const AudioBuffer* audio) { in ProcessRenderAudio() argument
79 assert(audio->samples_per_split_channel() <= 160); in ProcessRenderAudio()
80 assert(audio->num_channels() == apm_->num_reverse_channels()); in ProcessRenderAudio()
87 for (int j = 0; j < audio->num_channels(); j++) { in ProcessRenderAudio()
91 audio->low_pass_split_data(j), in ProcessRenderAudio()
92 static_cast<WebRtc_Word16>(audio->samples_per_split_channel())); in ProcessRenderAudio()
105 int EchoCancellationImpl::ProcessCaptureAudio(AudioBuffer* audio) { in ProcessCaptureAudio() argument
118 assert(audio->samples_per_split_channel() <= 160); in ProcessCaptureAudio()
119 assert(audio->num_channels() == apm_->num_output_channels()); in ProcessCaptureAudio()
126 for (int i = 0; i < audio->num_channels(); i++) { in ProcessCaptureAudio()
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| D | level_estimator_impl.cc | 93 int LevelEstimatorImpl::ProcessStream(AudioBuffer* audio) { in ProcessStream() argument
99 if (audio->is_muted()) { in ProcessStream()
100 level->ProcessMuted(audio->samples_per_channel()); in ProcessStream()
104 int16_t* mixed_data = audio->data(0); in ProcessStream()
105 if (audio->num_channels() > 1) { in ProcessStream()
106 audio->CopyAndMix(1); in ProcessStream()
107 mixed_data = audio->mixed_data(0); in ProcessStream()
110 level->Process(mixed_data, audio->samples_per_channel()); in ProcessStream()
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| D | voice_detection_impl.cc | 58 int VoiceDetectionImpl::ProcessCaptureAudio(AudioBuffer* audio) { in ProcessCaptureAudio() argument
67 assert(audio->samples_per_split_channel() <= 160); in ProcessCaptureAudio()
69 WebRtc_Word16* mixed_data = audio->low_pass_split_data(0); in ProcessCaptureAudio()
70 if (audio->num_channels() > 1) { in ProcessCaptureAudio()
71 audio->CopyAndMixLowPass(1); in ProcessCaptureAudio()
72 mixed_data = audio->mixed_low_pass_data(0); in ProcessCaptureAudio()
83 audio->set_activity(AudioFrame::kVadPassive); in ProcessCaptureAudio()
86 audio->set_activity(AudioFrame::kVadActive); in ProcessCaptureAudio()
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| D | high_pass_filter_impl.cc | 114 int HighPassFilterImpl::ProcessCaptureAudio(AudioBuffer* audio) { in ProcessCaptureAudio() argument
121 assert(audio->samples_per_split_channel() <= 160); in ProcessCaptureAudio()
126 audio->low_pass_split_data(i), in ProcessCaptureAudio()
127 audio->samples_per_split_channel()); in ProcessCaptureAudio()
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| D | gain_control_impl.h | 29 int ProcessRenderAudio(AudioBuffer* audio);
30 int AnalyzeCaptureAudio(AudioBuffer* audio);
31 int ProcessCaptureAudio(AudioBuffer* audio);
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| /external/libvorbis/doc/ |
| D | a1-encapsulation-ogg.tex | 9 streams to encapsulate Vorbis compressed audio packet data into file
13 of Vorbis audio packets.
36 The Ogg stream must be unmultiplexed (only one stream, a Vorbis audio stream, per link)
44 for low-bitrate movies consisting of DivX video and Vorbis audio.
45 However, a 'Vorbis I audio file' is taken to imply Vorbis audio
47 audio player' is not required to implement Ogg support beyond the
59 while visual media should use \literal{video/ogg}, and audio
60 \literal{audio/ogg}. Vorbis data encapsulated in Ogg may appear
62 \literal{audio/vorbis} + \literal{audio/vorbis-config}.
73 uniquely identifies a stream as Vorbis audio, is placed alone in the
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| /external/jetty/src/resources/org/eclipse/jetty/http/ |
| D | mime.properties | 2 aif = audio/x-aiff
3 aifc = audio/x-aiff
4 aiff = audio/x-aiff
9 au = audio/basic
57 kar = audio/midi
65 mid = audio/midi
66 midi = audio/midi
71 mp2 = audio/mpeg
72 mp3 = audio/mpeg
76 mpga = audio/mpeg
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| /external/jmonkeyengine/engine/src/test/jme3test/asset/ |
| D | TestAbsoluteLocators.java | 38 import com.jme3.audio.AudioData;
39 import com.jme3.audio.plugins.WAVLoader;
54 AudioData audio = am.loadAudio("Sound/Effects/Gun.wav"); in main() local
59 if (audio == null) in main()
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| /external/sonivox/arm-wt-22k/lib_src/ |
| D | eas_math.h | 126 #define MULT_AUDIO_COEF(audio,coef) /*lint -e704 <avoid divide for performance>*/ \ argument
129 ((int32_t)(audio)) * ((int32_t)(coef)) \
144 #define MULT_AUDIO_WET_DRY_COEF(audio,coef) /*lint -e(702) <avoid divide for performance>*/ \ argument
147 ((int32_t)(audio)) * ((int32_t)(coef)) \
304 #define MULT_AUDIO_DRIVE(audio,drive) /*lint -e(702) <avoid divide for performance>*/ \ argument
307 ((int32_t)(audio)) * ((int32_t)(drive)) \
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| /external/sonivox/arm-fm-22k/lib_src/ |
| D | eas_math.h | 125 #define MULT_AUDIO_COEF(audio,coef) /*lint -e704 <avoid divide for performance>*/ \ argument
128 ((EAS_I32)(audio)) * ((EAS_I32)(coef)) \
143 #define MULT_AUDIO_WET_DRY_COEF(audio,coef) /*lint -e(702) <avoid divide for performance>*/ \ argument
146 ((EAS_I32)(audio)) * ((EAS_I32)(coef)) \
303 #define MULT_AUDIO_DRIVE(audio,drive) /*lint -e(702) <avoid divide for performance>*/ \ argument
306 ((EAS_I32)(audio)) * ((EAS_I32)(drive)) \
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| /external/sonivox/arm-hybrid-22k/lib_src/ |
| D | eas_math.h | 125 #define MULT_AUDIO_COEF(audio,coef) /*lint -e704 <avoid divide for performance>*/ \ argument
128 ((EAS_I32)(audio)) * ((EAS_I32)(coef)) \
143 #define MULT_AUDIO_WET_DRY_COEF(audio,coef) /*lint -e(702) <avoid divide for performance>*/ \ argument
146 ((EAS_I32)(audio)) * ((EAS_I32)(coef)) \
303 #define MULT_AUDIO_DRIVE(audio,drive) /*lint -e(702) <avoid divide for performance>*/ \ argument
306 ((EAS_I32)(audio)) * ((EAS_I32)(drive)) \
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| /external/jmonkeyengine/engine/src/core-plugins/com/jme3/audio/plugins/ |
| D | WAVLoader.java | 33 package com.jme3.audio.plugins;
37 import com.jme3.audio.AudioBuffer;
38 import com.jme3.audio.AudioData;
39 import com.jme3.audio.AudioKey;
40 import com.jme3.audio.AudioStream;
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| /external/jmonkeyengine/engine/src/test/jme3test/audio/ |
| D | TestOgg.java | 33 package jme3test.audio;
36 import com.jme3.audio.AudioNode;
37 import com.jme3.audio.LowPassFilter;
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| D | TestReverb.java | 29 package jme3test.audio;
32 import com.jme3.audio.AudioNode;
33 import com.jme3.audio.Environment;
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| D | TestAmbient.java | 29 package jme3test.audio;
32 import com.jme3.audio.AudioNode;
33 import com.jme3.audio.Environment;
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| D | TestDoppler.java | 33 package jme3test.audio;
36 import com.jme3.audio.AudioNode;
37 import com.jme3.audio.Environment;
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| /external/jmonkeyengine/engine/src/android/com/jme3/audio/android/ |
| D | AndroidAudioData.java | 1 package com.jme3.audio.android;
4 import com.jme3.audio.AudioData;
5 import com.jme3.audio.AudioRenderer;
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| /external/jmonkeyengine/engine/src/jogg/com/jme3/audio/plugins/ |
| D | OGGLoader.java | 33 package com.jme3.audio.plugins;
37 import com.jme3.audio.AudioBuffer;
38 import com.jme3.audio.AudioData;
39 import com.jme3.audio.AudioKey;
40 import com.jme3.audio.AudioStream;
41 import com.jme3.audio.SeekableStream;
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| /external/libogg/doc/ |
| D | rfc5334.txt | 44 10.3. audio/ogg . . . . . . . . . . . . . . . . . . . . . . . . . 9
80 audio, and [CMML] timed text/metadata. As Ogg encapsulates binary
81 data, it is possible to include any other type of video, audio,
98 o The types "video/ogg" and "audio/ogg" are defined.
145 audio content. This document thus defines the media types,
149 o audio/ogg
152 with video or audio content, respectively. This document also
154 for complex data (e.g., multitrack visual, audio, textual, and other
155 time-continuously sampled data), which is not clearly video or audio
156 data and thus not suited for either the video/ogg or audio/ogg types.
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| /external/jmonkeyengine/engine/src/niftygui/com/jme3/niftygui/ |
| D | SoundHandleJme.java | 36 import com.jme3.audio.AudioNode;
37 import com.jme3.audio.AudioNode.Status;
38 import com.jme3.audio.AudioRenderer;
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| /external/vboot_reference/firmware/lib/include/ |
| D | vboot_audio.h | 23 int VbAudioLooping(VbAudioContext *audio);
28 void VbAudioClose(VbAudioContext *audio);
|