/external/chromium_org/chrome/browser/extensions/api/audio/ |
audio_service.h | 50 // Set the muted and volume/gain properties of a device. 54 int gain) = 0;
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/external/chromium_org/third_party/WebKit/Source/core/platform/audio/ |
Distance.h | 47 // Returns scalar gain for the given distance the current distance model is used 48 double gain(double distance);
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DynamicsCompressor.cpp | 98 void DynamicsCompressor::setEmphasisStageParameters(unsigned stageIndex, float gain, float normalizedFrequency /* 0 -> 1 */) 100 float gk = 1 - gain / 20; 122 void DynamicsCompressor::setEmphasisParameters(float gain, float anchorFreq, float filterStageRatio) 124 setEmphasisStageParameters(0, gain, anchorFreq); 125 setEmphasisStageParameters(1, gain, anchorFreq / filterStageRatio); 126 setEmphasisStageParameters(2, gain, anchorFreq / (filterStageRatio * filterStageRatio)); 127 setEmphasisStageParameters(3, gain, anchorFreq / (filterStageRatio * filterStageRatio * filterStageRatio));
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Distance.cpp | 52 double DistanceEffect::gain(double distance) function in class:WebCore::DistanceEffect 75 // We want a gain that decreases linearly from m_refDistance to 76 // m_maxDistance. The gain is 1 at m_refDistance.
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/external/webrtc/src/common_audio/signal_processing/ |
ilbc_specific_functions.c | 89 WebRtc_Word16 gain, WebRtc_Word32 add_constant, 100 (*outPtr++) += (WebRtc_Word16)((WEBRTC_SPL_MUL_16_16((*inPtr++), gain) 106 WebRtc_Word16 gain, WebRtc_Word32 add_constant, 117 (*outPtr++) = (WebRtc_Word16)((WEBRTC_SPL_MUL_16_16((*inPtr++), gain)
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vector_scaling_operations.c | 95 WebRtc_Word16 gain, WebRtc_Word16 in_vector_length, 98 // Performs vector operation: out_vector = (gain*in_vector)>>right_shifts 108 (*outptr++) = (WebRtc_Word16)WEBRTC_SPL_MUL_16_16_RSFT(*inptr++, gain, right_shifts); 113 WebRtc_Word16 gain, WebRtc_Word16 in_vector_length, 116 // Performs vector operation: out_vector = (gain*in_vector)>>right_shifts 127 tmpW32 = WEBRTC_SPL_MUL_16_16_RSFT(*inptr++, gain, right_shifts);
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/external/chromium_org/third_party/WebKit/Source/modules/webaudio/ |
BiquadFilterNode.idl | 43 readonly attribute AudioParam gain; // in Decibels
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BiquadFilterNode.h | 60 AudioParam* gain() { return biquadProcessor()->parameter3(); } function in class:WebCore::BiquadFilterNode
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/external/skia/bench/ |
MatrixConvolutionBench.cpp | 24 SkScalar gain = SkFloatToScalar(0.3f), bias = SkIntToScalar(100); local 26 fFilter = new SkMatrixConvolutionImageFilter(kernelSize, kernel, gain, bias, target, tileMode, convolveAlpha);
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/external/webrtc/src/modules/audio_coding/codecs/isac/fix/source/ |
pitch_filter_c.c | 20 WebRtc_Word16 gain, 50 gain, tmpW16, 12);
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pitch_estimator.h | 41 WebRtc_Word16 gain,
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/device/generic/goldfish/camera/fake-pipeline2/ |
Sensor.cpp | 162 void Sensor::setSensitivity(uint32_t gain) { 164 ALOGVV("Gain set to %d", gain); 165 mGainFactor = gain; 242 uint32_t gain; local 250 gain = mGainFactor; 313 ALOGVV("Starting next capture: Exposure: %f ms, gain: %d", 314 (float)exposureDuration/1e6, gain); 327 captureRaw(b.img, gain, b.stride); 330 captureRGB(b.img, gain, b.stride) [all...] |
/frameworks/av/media/libstagefright/codecs/amrnb/dec/src/ |
agc.cpp | 607 st->past_gain = gain 625 sig_out[n] = sig_out[n] * gain[n] 626 gain[n] = agc_fac * gain[n-1] + (1 - agc_fac) g_in/g_out 628 where: gain[n] = gain at the nth sample given by 654 Word16 gain_in, gain_out, g0, gain; 696 // compute gain[n] = agc_fac * gain[n-1] 698 // sig_out[n] = gain[n] * sig_out[n 753 Word16 gain; local [all...] |
/external/chromium_org/third_party/opus/src/celt/ |
vq.c | 70 opus_val16 gain, theta; local 78 gain = celt_div((opus_val32)MULT16_16(Q15_ONE,len),(opus_val32)(len+factor*K)); 79 theta = HALF16(MULT16_16_Q15(gain,gain)); 110 /** Takes the pitch vector and the decoded residual vector, computes the gain 113 int N, opus_val32 Ryy, opus_val16 gain) 126 g = MULT16_16_P15(celt_rsqrt_norm(t),gain); 156 , opus_val16 gain 311 normalise_residual(iy, X, N, yy, gain); 323 ec_dec *dec, opus_val16 gain) [all...] |
/bionic/libc/kernel/common/media/ |
ov5650.h | 66 __u16 gain; member in struct:ov5650_mode
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/cts/suite/audio_quality/lib/include/audio/ |
AudioLocal.h | 36 virtual bool prepare(AudioHardware::SamplingRate samplingRate, int gain,
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/external/aac/libAACdec/src/ |
ldfiltbank.cpp | 175 FIXP_DBL gain = (FIXP_DBL)0; local 190 imdct_gain(&gain, &scale, N); 194 if (gain != (FIXP_DBL)0) { 195 scaleValuesWithFactor(mdctData, gain, N, scale);
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/external/chromium_org/chromeos/dbus/ |
cras_audio_client.h | 82 // Sets input gain of the given |node_id| to |gain|, in the range of 84 virtual void SetInputNodeGain(uint64 node_id, int32 gain) = 0;
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cras_audio_client_stub_impl.h | 28 virtual void SetInputNodeGain(uint64 node_id, int32 gain) OVERRIDE;
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/external/chromium_org/content/browser/speech/endpointer/ |
endpointer_unittest.cc | 36 float gain = 0.0; local 42 gain = 2000.0; 44 gain = 1.0; 50 samples[i] = static_cast<int16>(gain * randNum);
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/external/kernel-headers/original/media/ |
ov5650.h | 66 __u16 gain; member in struct:ov5650_mode
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/external/qemu/distrib/sdl-1.2.15/src/events/ |
SDL_events_c.h | 57 extern int SDL_PrivateAppActive(Uint8 gain, Uint8 state);
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/external/sonivox/arm-fm-22k/lib_src/ |
eas_math.h | 155 /* the max positive gain used in the synth for EG1 */ 168 We implement the EG1 using a linear gain value, which means that the 169 attack segment is handled by incrementing (adding) the linear gain. 171 the Attack portion. For Decay, Sustain, and Release, the gain is 173 a linear scale. Because we use a linear gain for EG1, we implement 180 #define MULT_EG1_EG1(gain,damping) /*lint -e(704) <avoid divide for performance>*/ \ 183 ((EAS_I32)(gain)) * ((EAS_I32)(damping)) \ 199 #define MULT_EG1_EG1_X2(gain,damping) /*lint -e(702) <avoid divide for performance>*/ \ 202 ((EAS_I32)(gain)) * ((EAS_I32)(damping)) \ 237 For gain, the LFO generates a value that modulates in term [all...] |
/external/sonivox/arm-hybrid-22k/lib_src/ |
eas_math.h | 155 /* the max positive gain used in the synth for EG1 */ 168 We implement the EG1 using a linear gain value, which means that the 169 attack segment is handled by incrementing (adding) the linear gain. 171 the Attack portion. For Decay, Sustain, and Release, the gain is 173 a linear scale. Because we use a linear gain for EG1, we implement 180 #define MULT_EG1_EG1(gain,damping) /*lint -e(704) <avoid divide for performance>*/ \ 183 ((EAS_I32)(gain)) * ((EAS_I32)(damping)) \ 199 #define MULT_EG1_EG1_X2(gain,damping) /*lint -e(702) <avoid divide for performance>*/ \ 202 ((EAS_I32)(gain)) * ((EAS_I32)(damping)) \ 237 For gain, the LFO generates a value that modulates in term [all...] |
/external/sonivox/arm-wt-22k/lib_src/ |
eas_math.h | 155 /* the max positive gain used in the synth for EG1 */ 168 We implement the EG1 using a linear gain value, which means that the 169 attack segment is handled by incrementing (adding) the linear gain. 171 the Attack portion. For Decay, Sustain, and Release, the gain is 173 a linear scale. Because we use a linear gain for EG1, we implement 180 #define MULT_EG1_EG1(gain,damping) /*lint -e(704) <avoid divide for performance>*/ \ 183 ((EAS_I32)(gain)) * ((EAS_I32)(damping)) \ 199 #define MULT_EG1_EG1_X2(gain,damping) /*lint -e(702) <avoid divide for performance>*/ \ 202 ((EAS_I32)(gain)) * ((EAS_I32)(damping)) \ 237 For gain, the LFO generates a value that modulates in term [all...] |