/external/chromium_org/third_party/openmax_dl/dl/sp/src/test/ |
H A D | gensig.c | 27 * The test signal is specified by |signal_type|, and the test signal 34 * for a |signal_type| of 0 or 3; the other signals are already real-valued. 39 int signal_type, 44 switch (signal_type) { 157 fprintf(stderr, "invalid signal type: %d\n", signal_type); 36 GenerateTestSignalAndFFT(struct ComplexFloat* x, struct ComplexFloat* fft, int size, int signal_type, float signal_value, int real_only) argument
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H A D | test_fft32.c | 74 void GenerateSignal(OMX_SC32* x, OMX_SC32* fft, int size, int signal_type) { argument 81 GenerateTestSignalAndFFT(test_signal, true_fft, size, signal_type, 111 float RunOneForwardTest(int fft_log_size, int signal_type, float signal_value, argument 147 GenerateSignal(x, y_true, fft_size, signal_type); 180 float RunOneInverseTest(int fft_log_size, int signal_type, float signal_value, argument 218 GenerateSignal(x, y, fft_size, signal_type);
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H A D | test_float_fft.c | 92 void GenerateSignal(OMX_FC32* x, OMX_FC32* fft, int size, int signal_type, argument 97 signal_type, 102 float RunOneForwardTest(int fft_log_size, int signal_type, float signal_value, argument 139 GenerateSignal(x, y_true, fft_size, signal_type, signal_value); 176 float RunOneInverseTest(int fft_log_size, int signal_type, float signal_value, argument 214 GenerateSignal(x, y, fft_size, signal_type, signal_value);
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H A D | test_float_rfft.c | 99 void GenerateSignal(OMX_F32* x, OMX_FC32* fft, int size, int signal_type, argument 107 GenerateTestSignalAndFFT(test_signal, true_fft, size, signal_type, 128 float RunOneForwardTest(int fft_log_size, int signal_type, float signal_value, argument 163 GenerateSignal(x, y_true, fft_size, signal_type, signal_value); 201 float RunOneInverseTest(int fft_log_size, int signal_type, float signal_value, argument 243 GenerateSignal(x, yTrue, fft_size, signal_type, signal_value);
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H A D | test_rfft16_s16.c | 91 float RunOneForwardTest(int fft_log_size, int signal_type, argument 139 GenerateSignal(y_true, x_true, fft_size, signal_type); 181 float RunOneInverseTest(int fft_log_size, int signal_type, argument 223 GenerateSignal(y_true, x_true, fft_size, signal_type);
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H A D | test_rfft16_s32.c | 68 void GenerateSignal(OMX_S16* x, OMX_SC32* fft, int size, int signal_type) { argument 75 GenerateTestSignalAndFFT(test_signal, true_fft, size, signal_type, 95 float RunOneForwardTest(int fft_log_size, int signal_type, float signal_value, argument 131 GenerateSignal(x, y_true, fft_size, signal_type); 161 float RunOneInverseTest(int fft_log_size, int signal_type, float signal_value, argument 203 GenerateSignal(x, y_true, fft_size, signal_type);
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H A D | test_rfft32.c | 72 void GenerateSignal(OMX_S32* x, OMX_SC32* fft, int size, int signal_type) { argument 80 signal_type, signal_value, 1); 99 float RunOneForwardTest(int fft_log_size, int signal_type, float signal_value, argument 135 GenerateSignal(x, y_true, fft_size, signal_type); 166 float RunOneInverseTest(int fft_log_size, int signal_type, float signal_value, argument 209 GenerateSignal(x, y_true, fft_size, signal_type);
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H A D | test_util.c | 100 fprintf(f, "signal_type = %d\n", options->signal_type_); 162 * (otherwise for forward FFT), and |signal_type| specifies the test 165 int IsKnownFailure(int fft_order, int is_inverse_fft, int signal_type, argument 176 && (signal_type == known_failures->signal_type_)) {
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H A D | test_fft16.c | 121 float RunOneForwardTest(int fft_log_size, int signal_type, argument 175 GenerateSignal(x, y_true, x_true, fft_size, signal_type, scale_factor); 209 float RunOneInverseTest(int fft_log_size, int signal_type, argument 270 GenerateSignal(x, y_true, x_true, fft_size, signal_type, fft_log_size);
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H A D | test_util_fft.c | 41 int signal_type, 48 RunOneForwardTest(fft_log_size, signal_type, signal_value, &snr); 56 RunOneInverseTest(fft_log_size, signal_type, signal_value, &snr); 78 int signal_type; local 90 for (signal_type = 0; signal_type < MaxSignalType(info->real_only_); 91 ++signal_type) { 95 snr = test_function(fft_order, signal_type, 1024.0, &snrResults); 99 signal_type, info->known_failures_); 115 fft_order, signal_type, sn 40 TestOneFFT(int fft_log_size, int signal_type, float signal_value, const struct TestInfo* info, const char* message) argument [all...] |
H A D | test_fft_time.c | 56 int signal_type); 57 void TimeFloatFFT(int count, float signal_value, int signal_type); 61 int signal_type); 62 void TimeFloatRFFT(int count, float signal_value, int signal_type); 66 int signal_type); 67 void TimeSC16FFT(int count, float signal_value, int signal_type); 69 int signal_type, s16_s32 s16s32); 70 void TimeRFFT16(int count, float signal_value, int signal_type); 72 int signal_type); 73 void TimeSC32FFT(int count, float signal_value, int signal_type); 147 int signal_type = 0; local 327 TimeOneFloatFFT(int count, int fft_log_size, float signal_value, int signal_type) argument 400 TimeFloatFFT(int count, float signal_value, int signal_type) argument 413 GenerateRealFloatSignal(OMX_F32* x, OMX_FC32* fft, int size, int signal_type, float signal_value) argument 442 TimeOneFloatRFFT(int count, int fft_log_size, float signal_value, int signal_type) argument 519 TimeFloatRFFT(int count, float signal_value, int signal_type) argument 532 generateSC32Signal(OMX_SC32* x, OMX_SC32* fft, int size, int signal_type, float signal_value) argument 558 TimeOneSC32FFT(int count, int fft_log_size, float signal_value, int signal_type) argument 700 TimeSC32FFT(int count, float signal_value, int signal_type) argument 714 generateSC16Signal(OMX_SC16* x, OMX_SC16* fft, int size, int signal_type, float signal_value) argument 740 TimeOneSC16FFT(int count, int fft_log_size, float signal_value, int signal_type) argument 882 TimeSC16FFT(int count, float signal_value, int signal_type) argument 896 GenerateRFFT16Signal(OMX_S16* x, OMX_SC32* fft, int size, int signal_type, float signal_value) argument 928 TimeOneRFFT16(int count, int fft_log_size, float signal_value, int signal_type, s16_s32 s16s32) argument 1145 TimeRFFT16(int count, float signal_value, int signal_type) argument 1167 GenerateRFFT32Signal(OMX_S32* x, OMX_SC32* fft, int size, int signal_type, float signal_value) argument 1195 TimeOneRFFT32(int count, int fft_log_size, float signal_value, int signal_type) argument 1374 TimeRFFT32(int count, float signal_value, int signal_type) argument [all...] |
/external/chromium_org/third_party/opus/src/silk/ |
H A D | NSQ_del_dec.c | 73 const opus_int signal_type, /* I Signal type */ 646 const opus_int signal_type, /* I Signal type */ 694 if( signal_type == TYPE_VOICED && NSQ->rewhite_flag == 0 ) { 633 silk_nsq_del_dec_scale_states( const silk_encoder_state *psEncC, silk_nsq_state *NSQ, NSQ_del_dec_struct psDelDec[], const opus_int32 x_Q3[], opus_int32 x_sc_Q10[], const opus_int16 sLTP[], opus_int32 sLTP_Q15[], opus_int subfr, opus_int nStatesDelayedDecision, const opus_int LTP_scale_Q14, const opus_int32 Gains_Q16[ MAX_NB_SUBFR ], const opus_int pitchL[ MAX_NB_SUBFR ], const opus_int signal_type, const opus_int decisionDelay ) argument
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/external/libopus/silk/ |
H A D | NSQ_del_dec.c | 73 const opus_int signal_type, /* I Signal type */ 646 const opus_int signal_type, /* I Signal type */ 694 if( signal_type == TYPE_VOICED && NSQ->rewhite_flag == 0 ) { 633 silk_nsq_del_dec_scale_states( const silk_encoder_state *psEncC, silk_nsq_state *NSQ, NSQ_del_dec_struct psDelDec[], const opus_int32 x_Q3[], opus_int32 x_sc_Q10[], const opus_int16 sLTP[], opus_int32 sLTP_Q15[], opus_int subfr, opus_int nStatesDelayedDecision, const opus_int LTP_scale_Q14, const opus_int32 Gains_Q16[ MAX_NB_SUBFR ], const opus_int pitchL[ MAX_NB_SUBFR ], const opus_int signal_type, const opus_int decisionDelay ) argument
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/external/chromium_org/third_party/opus/src/src/ |
H A D | opus_encoder.c | 69 int signal_type; member in struct:OpusEncoder 224 st->signal_type = OPUS_AUTO; 1009 if (st->signal_type == OPUS_AUTO) 1068 if (st->signal_type == OPUS_SIGNAL_VOICE) 1070 else if (st->signal_type == OPUS_SIGNAL_MUSIC) 2312 st->signal_type = value; 2322 *value = st->signal_type;
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/external/libopus/src/ |
H A D | opus_encoder.c | 69 int signal_type; member in struct:OpusEncoder 224 st->signal_type = OPUS_AUTO; 1009 if (st->signal_type == OPUS_AUTO) 1068 if (st->signal_type == OPUS_SIGNAL_VOICE) 1070 else if (st->signal_type == OPUS_SIGNAL_MUSIC) 2312 st->signal_type = value; 2322 *value = st->signal_type;
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