| /external/opencv/ml/src/ |
| mltestset.cpp | 60 int num_samples,
87 if( num_samples < 1 )
88 CV_ERROR( CV_StsBadArg, "num_samples parameter must be positive" );
105 CV_CALL( *samples = cvCreateMat( num_samples, num_features, CV_32FC1 ) );
106 CV_CALL( *responses = cvCreateMat( 1, num_samples, CV_32SC1 ) );
133 num_classes = MIN( num_samples, num_classes );
136 for( i = 0, cur_class = 0; i < num_samples; ++cur_class )
141 last_idx = num_samples * (cur_class + 1) / num_classes - 1;
145 for( ; elem.d <= max_dst && i < num_samples; ++i )
148 if( i < num_samples - 1
[all...] |
| mlknearest.cpp | 325 CV_ERROR( CV_StsBadArg, "Input samples must be floating-point matrix (<num_samples>x<var_count>)" );
346 "The neighbor responses (if present) must be floating-point matrix of <num_samples> x <k> size" );
354 "The distances from the neighbors (if present) must be floating-point matrix of <num_samples> x <k> size" );
|
| /prebuilts/gcc/linux-x86/host/i686-linux-glibc2.7-4.4.3/i686-linux/include/c++/4.4.3/parallel/ |
| quicksort.h | 45 * @param num_samples Choose pivot from that many samples.
57 num_samples, thread_index_t num_threads)
64 num_samples = std::min(num_samples, n);
68 static_cast<value_type*>(::operator new(num_samples
71 for (difference_type s = 0; s < num_samples; ++s)
74 * n / num_samples;
78 __gnu_sequential::sort(samples, samples + num_samples, comp);
80 value_type& pivot = samples[pivot_rank * num_samples / n];
|
| multiway_mergesort.h | 94 * @param num_samples Number of samples to select.
99 _DifferenceTp num_samples)
107 difference_type* es = new difference_type[num_samples + 2];
110 num_samples + 1, es);
112 for (difference_type i = 0; i < num_samples; ++i)
113 ::new(&(sd->samples[iam * num_samples + i]))
138 num_samples)
194 num_samples)
201 determine_samples(sd, num_samples);
207 sd->samples + (num_samples * sd->num_threads)
348 difference_type num_samples = local
[all...] |
| multiway_merge.h | 1117 difference_type num_samples = local
1349 difference_type num_samples = local
[all...] |
| /external/srec/srec/cfront/ |
| spec_anl.c | 50 int num_samples, coefdata pre_mel,
58 samdata *outgo, int num_samples)
71 preemph(channel->prebuff, freqobj->window_length, income, num_samples,
144 int num_samples, coefdata pre_mel,
156 ASSERT(num_samples >= 0);
157 if (num_samples > window_len)
158 num_samples = window_len;
160 if (num_samples < window_len)
161 MEMMOVE(data, data + num_samples, (window_len - num_samples),
[all...] |
| ca_wave.c | 277 hWave->data.num_samples = sampleCount;
296 for (ii = 0; ii < hWave->data.num_samples; ii++)
300 for (ii = 0; ii < hWave->data.num_samples; ii++)
|
| ca_front.c | 152 hWave->data.num_samples,
159 hWave->data.num_samples,
|
| chelfep.c | 54 int num_samples,
72 inFramesWorth, refFramesWorth, num_samples);
|
| wav_acc.c | 197 for (ii = 0; ii < wave->num_samples; ii++)
231 /* assumes wave->num_samples < 32878 */
|
| /external/opencv/cvaux/src/ |
| cvhmm1d.cpp | 321 int* num_samples; /* number of observations in every state */
337 num_samples = (int*)icvAlloc( total * sizeof(int) );
346 memset( num_samples, 0 , total*sizeof(int) );
358 num_samples[state] += 1;
367 a_class[i] = (int*)icvAlloc( num_samples[i] * sizeof(int) );
368 samples[i] = (CvVect32f*)icvAlloc( num_samples[i] * sizeof(CvVect32f) );
369 samples_mix[i] = (int**)icvAlloc( num_samples[i] * sizeof(int*) );
397 for (k = 0; k < num_samples[i]; k++)
403 else if( num_samples[i] )
406 icvKMeans( first_state[i].num_mix, samples[i], num_samples[i],
[all...] |
| cvhmm.cpp | 379 int* num_samples; /* number of observations in every state */ local
401 num_samples = (int*)cvAlloc( total * sizeof(int) );
410 memset( num_samples, 0 , total*sizeof(int) );
425 num_samples[state] += 1;
435 a_class[i] = (int*)cvAlloc( num_samples[i] * sizeof(int) );
436 samples[i] = (CvVect32f*)cvAlloc( num_samples[i] * sizeof(CvVect32f) );
437 samples_mix[i] = (int**)cvAlloc( num_samples[i] * sizeof(int*) );
465 for (k = 0; k < num_samples[i]; k++)
471 else if( num_samples[i] )
474 cvKMeans( first_state[i].num_mix, samples[i], num_samples[i],
[all...] |
| /external/srec/srec/include/ |
| front.h | 233 int num_samples,
243 int num_samples);
|
| sample.h | 184 int num_samples; member in struct:__anon15455
|
| /external/webrtc/src/modules/audio_coding/codecs/isac/main/source/ |
| pitch_filter.c | 99 * num_samples : number of samples to be processed in each segment.
114 int num_samples; member in struct:__anon18293
149 for (n = 0; n < parameters->num_samples; ++n) {
312 filter_parameters.num_samples = PITCH_UPDATE;
353 filter_parameters.num_samples = QLOOKAHEAD;
|
| /frameworks/av/media/libstagefright/ |
| MP3Extractor.cpp | 513 int num_samples; local
529 &bitrate, &num_samples)) {
575 mSamplesRead += num_samples;
|
| /frameworks/ex/variablespeed/jni/ |
| sola_time_scaler.h | 107 // @param num_frames number of frames (num_samples / num_channels)
|
| /external/opencv/cv/include/ |
| cvcompat.h | 813 int num_samples, int vec_size,
816 CvMat* samples_mat = cvCreateMat( num_samples, vec_size, CV_32FC1 );
817 CvMat cluster_idx_mat = cvMat( num_samples, 1, CV_32SC1, cluster_idx );
819 for( i = 0; i < num_samples; i++ )
[all...] |
| /external/srec/srec/EventLog/src/ |
| riff.c | 954 int num_samples; local
975 num_samples = num_bytes / bytes_per_sample;
977 num_samples = num_bytes;
1043 short_byte_swap((short *)(ptr + headerSize), num_samples);
|
| EventLogImpl.c | 592 int num_samples; local
597 num_samples = impl->waveform_num_bytes / impl->waveform_bytes_per_sample;
|
| /external/llvm/lib/Target/X86/ |
| README-SSE.txt | 792 double MonteCarlo_num_flops(int Num_samples) {
793 return ((double) Num_samples)* 4.0;
|
| /external/opencv/ml/include/ |
| ml.h | [all...] |
