/frameworks/base/media/libstagefright/codecs/aacenc/src/ |
grp_data.c | 125 Word32 energy = sfbEnergy->sfbShort[wnd][sfb]; local 127 energy = L_add(energy, sfbEnergy->sfbShort[wnd+j][sfb]); 129 sfbEnergy->sfbLong[i] = energy; 140 Word32 energy = sfbEnergyMS->sfbShort[wnd][sfb]; local 142 energy = L_add(energy, sfbEnergyMS->sfbShort[wnd+j][sfb]); 144 sfbEnergyMS->sfbLong[i] = energy; 155 Word32 energy = sfbSpreadedEnergy->sfbShort[wnd][sfb]; local 157 energy = L_add(energy, sfbSpreadedEnergy->sfbShort[wnd+j][sfb]) [all...] |
sf_estim.c | 706 Word32 thresh, energy; local 719 energy = psyOutChan->sfbEnergy[i]; 732 /* scfs without energy or with thresh>energy are marked with MIN_16 */ 736 if ((maxSpec > 0) && (energy > thresh)) {
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/frameworks/base/media/tests/MediaFrameworkTest/src/com/android/mediaframeworktest/functional/ |
EnergyProbe.java | 23 * The EnergyProbe class provides audio signal energy measurements based on the FFT returned 25 * value has no unit and is just proportional to the amount of energy present around the 57 int energy = 0; local 70 energy += (int)mFft[0] * (int)mFft[0]; 83 energy += tmp/j; 97 return energy/count;
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MediaVisualizerTest.java | 222 int energy = computeEnergy(data, true); local 223 assertEquals(msg +": getWaveForm reports energy for silence", 224 0, energy); 226 energy = computeEnergy(data, false); 227 assertEquals(msg +": getFft reports energy for silence", 228 0, energy); 234 energy = computeEnergy(data, true); 236 energy > 0); 238 energy = computeEnergy(data, false); 240 energy > 0) 318 int energy = computeEnergy(mWaveform, true); local 401 int energy = 0; local [all...] |
MediaEqualizerTest.java | 283 // measure reference energy around 1kHz 290 // measure energy around 1kHz with band level at min 291 int energy = probe.capture(1000); local 292 assertTrue(msg + ": equalizer has no effect at 1kHz", energy < refEnergy/4);
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/cts/tests/tests/media/src/android/media/cts/ |
VisualizerTest.java | 201 int energy = computeEnergy(data, true); local 202 assertEquals("getWaveForm reports energy for silence", 203 0, energy); 205 energy = computeEnergy(data, false); 206 assertEquals("getFft reports energy for silence", 207 0, energy); 270 int energy = computeEnergy(mWaveform, true); local 271 assertEquals("getWaveForm reports energy for silence", 272 0, energy); 284 energy = computeEnergy(mFft, false) 307 int energy = 0; local [all...] |
/external/speex/libspeex/ |
ltp_bfin.h | 164 VARDECL(spx_word32_t *energy); 169 ALLOC(energy, end-start+2, spx_word32_t); 178 energy[0]=inner_prod(sw-start, sw-start, len); 181 /* energy update -------------------------------------*/ 202 : : "d" (energy), "d" (&sw[-start-1]), "d" (&sw[-start+len-1]), 220 normalize16(energy, ener16, 180, end-start+1); 228 " I1 = %2;\n\t" /* I1: energy */ 231 " R3 = 0;\n\t" /* R3: best energy */ 259 /* Instead of dividing the tmp by the energy, we multiply on the other side */ 295 g = DIV32(corr[i-start], 10+SHR32(MULT16_16(spx_sqrt(e0),spx_sqrt(energy[i-start])),6)) [all...] |
ltp.c | 185 spx_word32_t *energy; local 191 energy = corr; 194 VARDECL(spx_word32_t *energy); 197 ALLOC(energy, end-start+2, spx_word32_t); 200 ener16 = energy; 230 energy[0]=inner_prod(sw-start, sw-start, len); 234 /* Update energy for next pitch*/ 235 energy[i-start+1] = SUB32(ADD32(energy[i-start],SHR32(MULT16_16(sw[-i-1],sw[-i-1]),6)), SHR32(MULT16_16(sw[-i+len-1],sw[-i+len-1]),6)); 236 if (energy[i-start+1] < 0 [all...] |
/cts/apps/CtsVerifier/jni/audioquality/ |
LinearityTest.cpp | 74 double energy = 0.0; local 78 energy += s * s; 80 if (energy > maxEnergy) { 81 maxEnergy = energy;
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/packages/apps/VoiceDialer/src/com/android/voicedialer/ |
VoiceDialerActivity.java | 382 private static final int NUM_PERIODS_BLOCK = 10; // number of sine periods in one energy averaging block 383 private static final int THRESHOLD = 8; // absolute pseudo energy threshold 386 private static final int TOP = 2; // beep constant energy detected 390 int blockSize = 2 * sampleCount; // energy averaging block 402 long prevE = 0; // previous pseudo energy 404 int threshold = THRESHOLD*sampleCount; // absolute energy threshold 417 // compute pseudo energy 427 long energy = (sumxx*sampleCount - sumx*sumx)/(sampleCount*sampleCount); local 428 Log.d(TAG, "sumx " + sumx + " sumxx " + sumxx + " ee " + energy); 432 if (energy > threshold && energy > (prevE * 2) && prevE != 0) [all...] |
/external/webkit/SunSpider/tests/sunspider-0.9/ |
access-nbody.js | 128 NBodySystem.prototype.energy = function(){ 163 ret = bodies.energy(); 167 ret = bodies.energy();
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/external/webkit/SunSpider/tests/sunspider-0.9.1/ |
access-nbody.js | 128 NBodySystem.prototype.energy = function(){ 163 ret = bodies.energy(); 167 ret = bodies.energy();
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