| /external/ltp/tools/pounder21/src/mem_alloc_test/ |
| H A D | Makefile | 21 bins = mem_alloc macro
23 all: ${bins}
26 rm -f ${bins}
|
| /external/ltp/tools/pounder21/src/memxfer5b/ |
| H A D | Makefile | 22 bins = memxfer5b macro
24 all: ${bins}
27 rm -f ${bins}
|
| /external/ltp/tools/pounder21/src/randacoords/ |
| H A D | Makefile | 22 bins = coords macro
24 all: ${bins}
27 rm -f ${bins}
|
| /external/ltp/tools/pounder21/src/randasyscall/ |
| H A D | Makefile | 22 bins = randasys macro
24 all: ${bins}
27 rm -f ${bins}
|
| /external/ltp/tools/pounder21/src/time_tests/ |
| H A D | Makefile | 23 bins = inconsistency-check macro
25 all: ${bins}
28 rm -f ${bins}
|
| /external/ltp/tools/pounder21/src/cpufreq/ |
| H A D | Makefile | 23 bins = cpufreq.bin macro
25 all: ${bins}
31 rm -f ${bins}
|
| /external/ltp/tools/pounder21/src/ramsnake/ |
| H A D | Makefile | 22 bins = snake.exe macro
24 all: ${bins}
30 rm -f ${bins}
|
| /external/ltp/tools/pounder21/src/xbonkers/ |
| H A D | Makefile | 23 bins = xbonkers macro
25 all: ${bins}
28 rm -f ${bins}
|
| /external/eigen/test/ |
| H A D | rand.cpp | 40 template<typename Scalar> void check_histogram(Scalar x, Scalar y, int bins) argument
42 Array<int,1,Dynamic> hist(bins);
45 int n = bins*f;
47 int divisor = int((range+1)/bins);
48 assert(((range+1)%bins)==0);
113 int bins = 100; local
114 CALL_SUBTEST(check_histogram<int>(-3333,-3333+bins*(3333/bins)-1,bins));
115 bins
[all...] |
| /external/webp/src/utils/ |
| H A D | filters_utils.c | 32 int bins[WEBP_FILTER_LAST][SMAX]; local
33 memset(bins, 0, sizeof(bins));
46 bins[WEBP_FILTER_NONE][diff0] = 1;
47 bins[WEBP_FILTER_HORIZONTAL][diff1] = 1;
48 bins[WEBP_FILTER_VERTICAL][diff2] = 1;
49 bins[WEBP_FILTER_GRADIENT][diff3] = 1;
60 if (bins[filter][i] > 0) {
|
| /external/skia/tests/ |
| H A D | RandomTest.cpp | 34 static bool chi_square_test(int bins[256], int e) { argument
42 double delta = bins[j] - e;
60 int bins[256]; local
61 memset(bins, 0, sizeof(int)*256);
65 bins[(rand.nextU() >> shift) & 0xff]++;
68 REPORTER_ASSERT(reporter, chi_square_test(bins, 10000));
72 int bins[256]; local
73 memset(bins, 0, sizeof(int)*256);
79 bins[(int)(f*256.f)]++;
81 REPORTER_ASSERT(reporter, chi_square_test(bins, 1000
169 int bins[256]; local
[all...] |
| /external/libdrm/nouveau/ |
| H A D | bufctx.c | 56 struct nouveau_bufbin_priv bins[]; member in struct:nouveau_bufctx_priv
66 nouveau_bufctx_new(struct nouveau_client *client, int bins, argument
71 priv = calloc(1, sizeof(*priv) + sizeof(priv->bins[0]) * bins);
77 priv->nr_bins = bins;
106 struct nouveau_bufbin_priv *pbin = &pctx->bins[bin];
125 struct nouveau_bufbin_priv *pbin = &pctx->bins[bin];
153 struct nouveau_bufbin_priv *pbin = &pctx->bins[bin];
|
| /external/opencv/cv/src/ |
| H A D | cvhistogram.cpp | 62 hist->bins = 0;
65 CV_CALL( hist->bins = cvInitMatNDHeader( &hist->mat, dims, sizes,
67 CV_CALL( cvCreateData( hist->bins ));
71 CV_CALL( hist->bins = cvCreateSparseMat( dims, sizes, CV_HIST_DEFAULT_TYPE ));
109 CV_CALL( hist->bins = cvInitMatNDHeader( &hist->mat, dims, sizes,
127 hist->bins = 0;
154 cvRelease( &temp->bins );
157 cvReleaseData( temp->bins );
158 temp->bins = 0;
180 cvZero( hist->bins );
891 int* bins = ((CvMatND*)(hist->bins))->data.i; local
1149 int* bins = mat->data.i; local
1574 float* bins = mat->data.fl; local
1842 float* bins = mat->data.fl; local
[all...] |
| /external/webrtc/webrtc/system_wrappers/source/spreadsortlib/ |
| H A D | spreadsort.hpp | 44 //This is called for a set of bins, instead of bin-by-bin, to avoid performance overhead
96 //If we can finish in one iteration without exceeding either (2 to the MAX_SPLITS) or n bins, do so
120 //Make sure there is space for the bins
146 RandomAccessIter * bins = size_bins(bin_sizes, bin_cache, cache_offset, cache_end, bin_count);
local
152 bins[0] = first;
154 bins[u + 1] = bins[u] + bin_sizes[u];
160 RandomAccessIter * local_bin = bins + u;
165 for(target_bin = (bins + ((*current >> log_divisor) - div_min)); target_bin != local_bin;
166 target_bin = bins
209 inner_swap_loop(RandomAccessIter * bins, const RandomAccessIter & nextbinstart, unsigned ii, right_shift &shift , const unsigned log_divisor, const div_type div_min) argument
237 swap_loop(RandomAccessIter * bins, RandomAccessIter & nextbinstart, unsigned ii, right_shift &shift , const std::vector<size_t> &bin_sizes, const unsigned log_divisor, const div_type div_min) argument
259 RandomAccessIter * bins = size_bins(bin_sizes, bin_cache, cache_offset, cache_end, bin_count); local
307 RandomAccessIter * bins = size_bins(bin_sizes, bin_cache, cache_offset, cache_end, bin_count); local
438 inner_float_swap_loop(RandomAccessIter * bins, const RandomAccessIter & nextbinstart, unsigned ii , const unsigned log_divisor, const div_type div_min) argument
464 float_swap_loop(RandomAccessIter * bins, RandomAccessIter & nextbinstart, unsigned ii , const std::vector<size_t> &bin_sizes, const unsigned log_divisor, const div_type div_min) argument
500 RandomAccessIter * bins = size_bins(bin_sizes, bin_cache, cache_offset, cache_end, bin_count); local
549 RandomAccessIter * bins = size_bins(bin_sizes, bin_cache, cache_offset, cache_end, bin_count); local
600 RandomAccessIter * bins = size_bins(bin_sizes, bin_cache, cache_offset, cache_end, bin_count); local
649 RandomAccessIter * bins = size_bins(bin_sizes, bin_cache, cache_offset, cache_end, bin_count); local
699 RandomAccessIter * bins = size_bins(bin_sizes, bin_cache, cache_offset, cache_end, bin_count); local
783 RandomAccessIter * bins = size_bins(bin_sizes, bin_cache, cache_offset, cache_end, bin_count); local
867 RandomAccessIter * bins = size_bins(bin_sizes, bin_cache, cache_offset, cache_end, bin_count); local
1130 RandomAccessIter * bins = size_bins(bin_sizes, bin_cache, cache_offset, cache_end, membin_count) + 1; local
1219 RandomAccessIter * bins = size_bins(bin_sizes, bin_cache, cache_offset, cache_end, membin_count); local
1306 RandomAccessIter * bins = size_bins(bin_sizes, bin_cache, cache_offset, cache_end, membin_count) + 1; local
1393 RandomAccessIter * bins = size_bins(bin_sizes, bin_cache, cache_offset, cache_end, membin_count) + 1; local
1483 RandomAccessIter * bins = size_bins(bin_sizes, bin_cache, cache_offset, cache_end, membin_count); local
[all...] |
| /external/opencv/cvaux/include/ |
| H A D | cvaux.hpp | 75 { return m_hist ? cvGetDims( m_hist->bins, dims ) : 0; }
87 bool set_threshold( int threshold ) // threshold applied to the histogram bins
115 { return m_hist ? (float)cvGetRealND(m_hist->bins, bin) : 0.f; }
|
| /external/jemalloc/src/ |
| H A D | android_je_mallinfo.c | 34 arena_bin_t* bin = &arenas[i]->bins[j];
70 arena_bin_t* bin = &arenas[aidx]->bins[j];
89 arena_bin_t* bin = &arenas[aidx]->bins[bidx];
|
| /external/bison/lib/ |
| H A D | bitset_stats.c | 108 unsigned int n_bins, unsigned int *bins)
115 total += bins[i];
124 (i + 1) * 100.0 / n_bins, bins[i],
125 (100.0 * bins[i]) / total);
132 unsigned int n_bins, unsigned int *bins)
140 total += bins[i];
145 /* Determine number of useful bins. */
146 for (i = n_bins; i > 3 && ! bins[i - 1]; i--)
156 max_width, i, bins[i], 100.0 * bins[
107 bitset_percent_histogram_print(FILE *file, const char *name, const char *msg, unsigned int n_bins, unsigned int *bins) argument
131 bitset_log_histogram_print(FILE *file, const char *name, const char *msg, unsigned int n_bins, unsigned int *bins) argument
[all...] |
| /external/opencv/cvaux/src/ |
| H A D | camshift.cpp | 171 dims = cvGetDims( m_hist->bins );
187 cvScale( m_hist->bins, m_hist->bins, max_val ? 255. / max_val : 0. );
255 int c_dims2 = cvGetDims( m_hist->bins, dims2 );
|
| /external/walt/android/WALT/app/src/main/java/org/chromium/latency/walt/ |
| H A D | HistogramChart.java | 250 int[][] bins = new int[rawData.size()][getNumBins()];
254 ++bins[setNum][(int) (Math.floor((d - minBin) / binWidth))];
261 for (int i = 0; i < bins[setNum].length; i++) {
262 dataSet.addEntry(new BarEntry(i, bins[setNum][i]));
|
| /external/lisa/libs/utils/analysis/ |
| H A D | latency_analysis.py | 285 def plotLatency(self, task, kind='all', tag=None, threshold_ms=1, bins=64):
307 :param bins: number of bins to be used for the runtime's histogram
308 :type bins: int
392 df.latency.plot(kind='hist', bins=bins, ax=axes,
394 title='Latency histogram ({} bins, {} [ms] green threshold)'\
395 .format(bins, threshold_ms));
481 def plotActivations(self, task, tag=None, threshold_ms=16, bins=64):
492 - Activations intervals histogram: reports a 64 bins histogra
[all...] |
| /external/libvpx/libvpx/build/make/ |
| H A D | Makefile | 371 .bins: $(BINS)
378 .install-bins: .bins $(addprefix $(DIST_DIR)/,$(INSTALL-BINS))
382 rm -f .bins .install-bins $(BINS)
450 BUILD_TARGETS += .docs .libs .bins
451 INSTALL_TARGETS += .install-docs .install-srcs .install-libs .install-bins
|
| /external/jemalloc/include/jemalloc/internal/ |
| H A D | size_classes.sh | 243 * NTBINS: Number of tiny bins.
244 * NLBINS: Number of bins supported by the lookup table.
245 * NBINS: Number of small size class bins.
263 # Iterate through page sizes and compute how many bins there are.
|
| /external/trappy/tests/trappy/ |
| H A D | plot_utils.py | 177 def plot_hist(data, ax, title, unit, bins, xlabel, xlim, ylim):
185 data.hist(ax=ax, bins=bins)
|
| /external/trappy/trappy/ |
| H A D | plot_utils.py | 177 def plot_hist(data, ax, title, unit, bins, xlabel, xlim, ylim):
185 data.hist(ax=ax, bins=bins)
|
| /external/fio/tools/hist/ |
| H A D | fiologparser_hist.py | 139 idx : the value of the index into the histogram bins
168 # bin index with a max of 1536 bins (FIO_IO_U_PLAT_GROUP_NR = 24 in stat.h)
196 through all the histograms and figuring out which of their bins have
208 # Only look at bins of the current histogram sample which
234 bins = [ctx.group_nr * (1 << 6)]
236 bins = [1216,1280,1344,1408,1472,1536,1600,1664]
240 arr = np.transpose(list(map(fncn, bins)))
246 "columns of which we assume %d " % (hist_cols,) + "correspond to histogram bins. \n"
254 return bins[idx[1][0]]
|