| /frameworks/av/media/libeffects/hapticgenerator/ |
| D | Processors.cpp | 59 Ramp::Ramp(size_t channelCount) : mChannelCount(channelCount) {} in Ramp() argument
87 size_t channelCount) in SlowEnvelope() argument
88 : mLpf(createLPF(cornerFrequency, sampleRate, channelCount)), in SlowEnvelope()
91 mChannelCount(channelCount) {} in SlowEnvelope()
124 size_t channelCount) in Distortion() argument
125 : mLpf(createLPF2(cornerFrequency, sampleRate, channelCount)), in Distortion()
131 mChannelCount(channelCount) {} in Distortion()
235 const size_t channelCount) { in createLPF() argument
237 return std::make_shared<HapticBiquadFilter>(channelCount, coefficient); in createLPF()
242 const size_t channelCount) { in createLPF2() argument
[all …]
|
| D | Processors.h | 35 explicit Ramp(size_t channelCount);
48 size_t channelCount);
71 float outputGain, size_t channelCount);
111 const size_t channelCount);
116 const size_t channelCount);
121 const size_t channelCount);
126 const size_t channelCount);
132 const size_t channelCount);
|
| /frameworks/av/media/libaaudio/tests/ |
| D | test_open_params.cpp | 43 int32_t channelCount, in testOpenOptions() argument
61 direction, channelCount, sampleRate, format); in testOpenOptions()
69 AAudioStreamBuilder_setChannelCount(aaudioBuilder, channelCount); in testOpenOptions()
94 if (channelCount != AAUDIO_UNSPECIFIED) { in testOpenOptions()
95 EXPECT_EQ(channelCount, actualChannelCount); in testOpenOptions()
131 for (int32_t channelCount = 0; channelCount <= 8; channelCount++) { in TEST() local
132 testOpenOptions(direction, channelCount, in TEST()
|
| /frameworks/av/media/libaaudio/src/flowgraph/ |
| D | SourceFloat.cpp | 24 SourceFloat::SourceFloat(int32_t channelCount) in SourceFloat() argument
25 : AudioSource(channelCount) { in SourceFloat()
31 int32_t channelCount = output.getSamplesPerFrame(); in onProcess() local
35 int32_t numSamples = framesToProcess * channelCount; in onProcess()
38 const float *floatData = &floatBase[mFrameIndex * channelCount]; in onProcess()
|
| D | SourceI16.cpp | 29 SourceI16::SourceI16(int32_t channelCount) in SourceI16() argument
30 : AudioSource(channelCount) { in SourceI16()
35 int32_t channelCount = output.getSamplesPerFrame(); in onProcess() local
39 int32_t numSamples = framesToProcess * channelCount; in onProcess()
42 const int16_t *shortData = &shortBase[mFrameIndex * channelCount]; in onProcess()
|
| D | RampLinear.cpp | 28 RampLinear::RampLinear(int32_t channelCount) in RampLinear() argument
29 : input(*this, channelCount) in RampLinear()
30 , output(*this, channelCount) { in RampLinear()
50 int32_t channelCount = output.getSamplesPerFrame(); in onProcess() local
70 for (int ch = 0; ch < channelCount; ch++) { in onProcess()
79 int32_t samplesLeft = framesLeft * channelCount; in onProcess()
|
| D | SourceI32.cpp | 29 SourceI32::SourceI32(int32_t channelCount) in SourceI32() argument
30 : AudioSource(channelCount) { in SourceI32()
35 int32_t channelCount = output.getSamplesPerFrame(); in onProcess() local
39 int32_t numSamples = framesToProcess * channelCount; in onProcess()
42 const int32_t *intData = &intBase[mFrameIndex * channelCount]; in onProcess()
|
| D | SourceI24.cpp | 31 SourceI24::SourceI24(int32_t channelCount) in SourceI24() argument
32 : AudioSource(channelCount) { in SourceI24()
37 int32_t channelCount = output.getSamplesPerFrame(); in onProcess() local
41 int32_t numSamples = framesToProcess * channelCount; in onProcess()
44 const uint8_t *byteData = &byteBase[mFrameIndex * channelCount * kBytesPerI24Packed]; in onProcess()
|
| D | SinkFloat.cpp | 24 SinkFloat::SinkFloat(int32_t channelCount) in SinkFloat() argument
25 : AudioSink(channelCount) { in SinkFloat()
30 int32_t channelCount = input.getSamplesPerFrame(); in read() local
40 int32_t numSamples = framesRead * channelCount; in read()
|
| D | MonoToMultiConverter.cpp | 24 MonoToMultiConverter::MonoToMultiConverter(int32_t channelCount) in MonoToMultiConverter() argument
26 , output(*this, channelCount) { in MonoToMultiConverter()
36 int32_t channelCount = output.getSamplesPerFrame(); in onProcess() local
41 for (int channel = 0; channel < channelCount; channel++) { in onProcess()
|
| D | SinkI32.cpp | 27 SinkI32::SinkI32(int32_t channelCount) in SinkI32() argument
28 : AudioSink(channelCount) {} in SinkI32()
32 const int32_t channelCount = input.getSamplesPerFrame(); in read() local
42 int32_t numSamples = framesRead * channelCount; in read()
|
| D | SinkI16.cpp | 29 SinkI16::SinkI16(int32_t channelCount) in SinkI16() argument
30 : AudioSink(channelCount) {} in SinkI16()
34 const int32_t channelCount = input.getSamplesPerFrame(); in read() local
44 int32_t numSamples = framesRead * channelCount; in read()
|
| D | SinkI24.cpp | 29 SinkI24::SinkI24(int32_t channelCount) in SinkI24() argument
30 : AudioSink(channelCount) {} in SinkI24()
34 const int32_t channelCount = input.getSamplesPerFrame(); in read() local
44 int32_t numSamples = framesRead * channelCount; in read()
|
| D | ClipToRange.cpp | 24 ClipToRange::ClipToRange(int32_t channelCount) in ClipToRange() argument
25 : input(*this, channelCount) in ClipToRange()
26 , output(*this, channelCount) { in ClipToRange()
|
| /frameworks/av/media/libeffects/lvm/tests/ |
| D | reverb_test.cpp | 340 const int channelCount = revConfigParams.nrChannels; in main() local
343 const int frameSize = (int)channelCount * sizeof(float); in main()
347 const int maxChannelCount = std::max(channelCount, ioChannelCount); in main()
351 std::vector<float> floatIn(frameLength * channelCount); in main()
352 std::vector<float> floatOut(frameLength * channelCount); in main()
357 if (ioChannelCount != channelCount) { in main()
358 adjust_channels(in.data(), ioChannelCount, in.data(), channelCount, sizeof(short), in main()
361 memcpy_to_float_from_i16(floatIn.data(), in.data(), frameLength * channelCount); in main()
366 if (revConfigParams.monoMode && channelCount > 1) { in main()
368 auto* fp = &floatIn[i * channelCount]; in main()
[all …]
|
| D | lvmtest.cpp | 484 const int channelCount = plvmConfigParams->nrChannels; in lvmMainProcess() local
486 const int frameSize = channelCount * sizeof(float); // processing size in lvmMainProcess()
489 const int maxChannelCount = std::max(channelCount, ioChannelCount); in lvmMainProcess()
493 std::vector<float> floatIn(frameLength * channelCount); in lvmMainProcess()
494 std::vector<float> floatOut(frameLength * channelCount); in lvmMainProcess()
498 if (ioChannelCount != channelCount) { in lvmMainProcess()
499 adjust_channels(in.data(), ioChannelCount, in.data(), channelCount, sizeof(short), in lvmMainProcess()
502 memcpy_to_float_from_i16(floatIn.data(), in.data(), frameLength * channelCount); in lvmMainProcess()
507 if (plvmConfigParams->monoMode && channelCount > 1) { in lvmMainProcess()
509 auto* fp = &floatIn[i * channelCount]; in lvmMainProcess()
[all …]
|
| D | EffectBundleTest.cpp | 144 size_t channelCount = audio_channel_count_from_out_mask(chMask); in TEST_P() local
150 std::vector<float> testInput(mTotalFrameCount * channelCount); in TEST_P()
155 auto* fp = &testInput[i * channelCount]; in TEST_P()
156 std::fill(fp, fp + channelCount, monoInput[i]); in TEST_P()
159 std::vector<float> testOutput(mTotalFrameCount * channelCount); in TEST_P()
165 adjust_channels(testOutput.data(), channelCount, stereoTestOutput.data(), FCC_2, in TEST_P()
166 sizeof(float), mTotalFrameCount * sizeof(float) * channelCount); in TEST_P()
|
| /frameworks/base/tests/Camera2Tests/SmartCamera/SimpleCamera/src/androidx/media/filterfw/decoder/ |
| D | AudioSample.java | 22 public final int channelCount; field in AudioSample
25 public AudioSample(int sampleRate, int channelCount, byte[] bytes) { in AudioSample() argument
27 this.channelCount = channelCount; in AudioSample()
|
| /frameworks/wilhelm/src/android/ |
| D | channels.cpp | 31 SLuint32 sles_channel_out_mask_from_count(unsigned channelCount) in sles_channel_out_mask_from_count() argument
35 if (channelCount > FCC_8) { in sles_channel_out_mask_from_count()
38 switch (channelCount) { in sles_channel_out_mask_from_count()
70 SLuint32 sles_channel_in_mask_from_count(unsigned channelCount) { in sles_channel_in_mask_from_count() argument
71 switch (channelCount) { in sles_channel_in_mask_from_count()
77 if (channelCount > AUDIO_CHANNEL_COUNT_MAX) { in sles_channel_in_mask_from_count()
80 SLuint32 bitfield = (1 << channelCount) - 1; in sles_channel_in_mask_from_count()
|
| D | AacBqToPcmCbRenderer.cpp | 181 int32_t channelCount; in onPrepare() local
182 CHECK(meta->findInt32(kKeyChannelCount, &channelCount)); in onPrepare()
196 mPcmFormatValues[ANDROID_KEY_INDEX_PCMFORMAT_NUMCHANNELS] = channelCount; in onPrepare()
198 sles_channel_out_mask_from_count(channelCount); in onPrepare()
201 channelCount, sr); in onPrepare()
|
| /frameworks/base/core/java/android/speech/tts/ |
| D | FileSynthesisCallback.java | 102 public int start(int sampleRateInHz, int audioFormat, int channelCount) { in start() argument
105 + "," + channelCount + ")"); in start()
114 mDispatcher.dispatchOnBeginSynthesis(sampleRateInHz, audioFormat, channelCount); in start()
133 mChannelCount = channelCount; in start()
204 int channelCount = 0; in done() local
229 channelCount = mChannelCount; in done()
237 makeWavHeader(sampleRateInHz, audioFormat, channelCount, dataLength)); in done()
284 private ByteBuffer makeWavHeader(int sampleRateInHz, int audioFormat, int channelCount, in makeWavHeader() argument
287 int byteRate = sampleRateInHz * sampleSizeInBytes * channelCount; in makeWavHeader()
288 short blockAlign = (short) (sampleSizeInBytes * channelCount); in makeWavHeader()
[all …]
|
| /frameworks/base/media/jni/soundpool/ |
| D | Sound.cpp | 49 uint32_t *rate, int32_t *channelCount, audio_format_t *audioFormat, in decode() argument
181 format.get(), AMEDIAFORMAT_KEY_CHANNEL_COUNT, channelCount)) { in decode()
204 int32_t channelCount; in doLoad() local
207 status = decode(mFd.get(), mOffset, mLength, &sampleRate, &channelCount, &format, in doLoad()
217 } else if (channelCount < 1 || channelCount > FCC_LIMIT) { in doLoad()
218 ALOGE("%s: sample channel count (%d) out of range", __func__, channelCount); in doLoad()
223 __func__, mHeap->getBase(), mSizeInBytes, sampleRate, channelCount); in doLoad()
226 mChannelCount = channelCount; in doLoad()
|
| /frameworks/av/media/libstagefright/ |
| D | AudioSource.cpp | 58 uint32_t sampleRate, uint32_t channelCount, uint32_t outSampleRate, in AudioSource() argument
63 set(attr, attributionSource, sampleRate, channelCount, outSampleRate, selectedDeviceId, in AudioSource()
69 uint32_t sampleRate, uint32_t channelCount, uint32_t outSampleRate, in AudioSource() argument
80 set(attr, attributionSource, sampleRate, channelCount, outSampleRate, selectedDeviceId, in AudioSource()
86 uint32_t sampleRate, uint32_t channelCount, uint32_t outSampleRate, in set() argument
107 sampleRate, outSampleRate, channelCount); in set()
108 CHECK(channelCount == 1 || channelCount == 2); in set()
115 audio_channel_in_mask_from_count(channelCount)); in set()
119 uint32_t frameCount = kMaxBufferSize / sizeof(int16_t) / channelCount; in set()
129 audio_channel_in_mask_from_count(channelCount), in set()
[all …]
|
| /frameworks/av/media/libeffects/dynamicsproc/dsp/ |
| D | DPFrequency.cpp | 377 int channelCount = mChannelBuffers.size(); in processSamples() local
378 if (channelCount < 1) { in processSamples()
384 for (int ch = 0; ch < channelCount; ch++) { in processSamples()
389 for (size_t k = 0; k < samples; k += channelCount) { in processSamples()
390 for (int ch = 0; ch < channelCount; ch++) { in processSamples()
400 for (int ch = 1; ch < channelCount; ch++) { in processSamples()
405 if (available > samples/channelCount) { in processSamples()
406 available = samples/channelCount; in processSamples()
410 size_t fill = samples - (channelCount * available); in processSamples()
417 for (int ch = 0; ch < channelCount; ch++) { in processSamples()
[all …]
|
| /frameworks/av/media/libeffects/preprocessing/tests/ |
| D | EffectPreprocessingTest.cpp | 277 size_t channelCount = audio_channel_count_from_in_mask(chMask); in TEST_P() local
285 std::vector<int16_t> testInput(mTotalFrameCount * channelCount); in TEST_P()
286 std::vector<int16_t> testFarInput(mTotalFrameCount * channelCount); in TEST_P()
291 auto* fpInput = &testInput[i * channelCount]; in TEST_P()
292 std::fill(fpInput, fpInput + channelCount, monoInput[i]); in TEST_P()
296 auto* fpFarInput = &testFarInput[i * channelCount]; in TEST_P()
297 std::fill(fpFarInput, fpFarInput + channelCount, monoFarInput[i]); in TEST_P()
301 std::vector<int16_t> testOutput(mTotalFrameCount * channelCount); in TEST_P()
312 adjust_channels(testOutput.data(), channelCount, monoTestOutput.data(), FCC_1, in TEST_P()
313 sizeof(int16_t), mTotalFrameCount * sizeof(int16_t) * channelCount); in TEST_P()
|