libavutil/tests/lfg.c - manifest_repos/ffmpeg - Git at Google

 /*
  * This file is part of FFmpeg.
  *
  * FFmpeg is free software; you can redistribute it and/or
  * modify it under the terms of the GNU Lesser General Public
  * License as published by the Free Software Foundation; either
  * version 2.1 of the License, or (at your option) any later version.
  *
  * FFmpeg is distributed in the hope that it will be useful,
  * but WITHOUT ANY WARRANTY; without even the implied warranty of
  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
  * Lesser General Public License for more details.
  *
  * You should have received a copy of the GNU Lesser General Public
  * License along with FFmpeg; if not, write to the Free Software
  * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
  */

 #include "libavutil/log.h"
 #include "libavutil/timer.h"
 #include "libavutil/lfg.h"

 static const double Z_TABLE[31][10] = {
     {0.5000,  0.5040,  0.5080,  0.5120,  0.5160,  0.5199,  0.5239,  0.5279,  0.5319,  0.5359},
     {0.5398,  0.5438,  0.5478,  0.5517,  0.5557,  0.5596,  0.5636,  0.5675,  0.5714,  0.5753},
     {0.5793,  0.5832,  0.5871,  0.5910,  0.5948,  0.5987,  0.6026,  0.6064,  0.6103,  0.6141},
     {0.6179,  0.6217,  0.6255,  0.6293,  0.6331,  0.6368,  0.6406,  0.6443,  0.6480,  0.6517},
     {0.6554,  0.6591,  0.6628,  0.6664,  0.6700,  0.6736,  0.6772,  0.6808,  0.6844,  0.6879},
     {0.6915,  0.6950,  0.6985,  0.7019,  0.7054,  0.7088,  0.7123,  0.7157,  0.7190,  0.7224},
     {0.7257,  0.7291,  0.7324,  0.7357,  0.7389,  0.7422,  0.7454,  0.7486,  0.7517,  0.7549},
     {0.7580,  0.7611,  0.7642,  0.7673,  0.7704,  0.7734,  0.7764,  0.7794,  0.7823,  0.7852},
     {0.7881,  0.7910,  0.7939,  0.7967,  0.7995,  0.8023,  0.8051,  0.8078,  0.8106,  0.8133},
     {0.8159,  0.8186,  0.8212,  0.8238,  0.8264,  0.8289,  0.8315,  0.8340,  0.8365,  0.8389},
     {0.8413,  0.8438,  0.8461,  0.8485,  0.8508,  0.8531,  0.8554,  0.8577,  0.8599,  0.8621},
     {0.8643,  0.8665,  0.8686,  0.8708,  0.8729,  0.8749,  0.8770,  0.8790,  0.8810,  0.8830},
     {0.8849,  0.8869,  0.8888,  0.8907,  0.8925,  0.8944,  0.8962,  0.8980,  0.8997,  0.9015},
     {0.9032,  0.9049,  0.9066,  0.9082,  0.9099,  0.9115,  0.9131,  0.9147,  0.9162,  0.9177},
     {0.9192,  0.9207,  0.9222,  0.9236,  0.9251,  0.9265,  0.9279,  0.9292,  0.9306,  0.9319},
     {0.9332,  0.9345,  0.9357,  0.9370,  0.9382,  0.9394,  0.9406,  0.9418,  0.9429,  0.9441},
     {0.9452,  0.9463,  0.9474,  0.9484,  0.9495,  0.9505,  0.9515,  0.9525,  0.9535,  0.9545},
     {0.9554,  0.9564,  0.9573,  0.9582,  0.9591,  0.9599,  0.9608,  0.9616,  0.9625,  0.9633},
     {0.9641,  0.9649,  0.9656,  0.9664,  0.9671,  0.9678,  0.9686,  0.9693,  0.9699,  0.9706},
     {0.9713,  0.9719,  0.9726,  0.9732,  0.9738,  0.9744,  0.9750,  0.9756,  0.9761,  0.9767},
     {0.9772,  0.9778,  0.9783,  0.9788,  0.9793,  0.9798,  0.9803,  0.9808,  0.9812,  0.9817},
     {0.9821,  0.9826,  0.9830,  0.9834,  0.9838,  0.9842,  0.9846,  0.9850,  0.9854,  0.9857},
     {0.9861,  0.9864,  0.9868,  0.9871,  0.9875,  0.9878,  0.9881,  0.9884,  0.9887,  0.9890},
     {0.9893,  0.9896,  0.9898,  0.9901,  0.9904,  0.9906,  0.9909,  0.9911,  0.9913,  0.9916},
     {0.9918,  0.9920,  0.9922,  0.9925,  0.9927,  0.9929,  0.9931,  0.9932,  0.9934,  0.9936},
     {0.9938,  0.9940,  0.9941,  0.9943,  0.9945,  0.9946,  0.9948,  0.9949,  0.9951,  0.9952},
     {0.9953,  0.9955,  0.9956,  0.9957,  0.9959,  0.9960,  0.9961,  0.9962,  0.9963,  0.9964},
     {0.9965,  0.9966,  0.9967,  0.9968,  0.9969,  0.9970,  0.9971,  0.9972,  0.9973,  0.9974},
     {0.9974,  0.9975,  0.9976,  0.9977,  0.9977,  0.9978,  0.9979,  0.9979,  0.9980,  0.9981},
     {0.9981,  0.9982,  0.9982,  0.9983,  0.9984,  0.9984,  0.9985,  0.9985,  0.9986,  0.9986},
     {0.9987,  0.9987,  0.9987,  0.9988,  0.9988,  0.9989,  0.9989,  0.9989,  0.9990,  0.9990} };

 // Inverse cumulative distribution function
 static double inv_cdf(double u)
 {
     const double a[4] = { 2.50662823884,
                          -18.61500062529,
                           41.39119773534,
                          -25.44106049637};

     const double b[4] = {-8.47351093090,
                           23.08336743743,
                          -21.06224101826,
                            3.13082909833};

     const double c[9] = {0.3374754822726147,
                           0.9761690190917186,
                           0.1607979714918209,
                           0.0276438810333863,
                           0.0038405729373609,
                           0.0003951896511919,
                           0.0000321767881768,
                           0.0000002888167364,
                           0.0000003960315187};

     double r;
     double x = u - 0.5;

     // Beasley-Springer
      if (fabs(x) < 0.42) {

         double y = x * x;
         r        = x * (((a[3]*y+a[2])*y+a[1])*y+a[0]) /
                         ((((b[3]*y+b[2])*y+b[1])*y+b[0])*y+1.0);
     }
     else {// Moro
         r = u;
         if (x > 0.0)
             r = 1.0 - u;
         r = log(-log(r));
         r = c[0] + r*(c[1]+r*(c[2]+r*(c[3]+r*(c[4]+r*(c[5]+r*(c[6]+
                                                         r*(c[7]+r*c[8])))))));
         if (x < 0.0)
             r = -r;
     }

     return r;
 }
 int main(void)
 {
     int x = 0;
     int i, j;
     AVLFG state;
     av_lfg_init(&state, 0xdeadbeef);
     for (j = 0; j < 10000; j++) {
         for (i = 0; i < 624; i++) {
             //av_log(NULL, AV_LOG_ERROR, "%X\n", av_lfg_get(&state));
             x += av_lfg_get(&state);
         }
     }
     av_log(NULL, AV_LOG_ERROR, "final value:%X\n", x);

     /* BMG usage example */
     {
         double mean   = 1000;
         double stddev = 53;
         double samp_mean = 0.0, samp_stddev = 0.0, QH = 0;
         double Z, p_value = -1, tot_samp = 1000;
         double *PRN_arr = av_malloc_array(tot_samp, sizeof(double));

         if (!PRN_arr) {
             fprintf(stderr, "failed to allocate memory!\n");
             return 1;
         }

         av_lfg_init(&state, 42);
         for (i = 0; i < tot_samp; i += 2) {
             double bmg_out[2];
             av_bmg_get(&state, bmg_out);
             PRN_arr[i  ] = bmg_out[0] * stddev + mean;
             PRN_arr[i+1] = bmg_out[1] * stddev + mean;
             samp_mean   += PRN_arr[i] + PRN_arr[i+1];
             samp_stddev += PRN_arr[i] * PRN_arr[i] + PRN_arr[i+1] * PRN_arr[i+1];
             printf("PRN%d : %f\n"
                    "PRN%d : %f\n",
                    i, PRN_arr[i], i+1, PRN_arr[i+1]);
         }
         samp_mean /= tot_samp;
         samp_stddev /= (tot_samp - 1);
         samp_stddev -= (tot_samp * 1.0 / (tot_samp - 1))*samp_mean*samp_mean;
         samp_stddev = sqrt(samp_stddev);
         Z = (mean - samp_mean) / (stddev / sqrt(tot_samp));
         {
             int x, y, a, b, flag = 0;

             if (Z < 0.0) {
                 flag = !flag;
                 Z = Z * -1.0;
             }

             a = (int)(Z * 100);
             b = ((int)Z * 100);
             x = Z * 10;
             y = (b > 0) ? a % b : a;
             y = y % 10;
             if (x > 30 || y > 9) {
                 av_log(NULL, AV_LOG_INFO, "error: out of bounds! tried to access"
                                           "Z_TABLE[%d][%d]\n", x, y);
                 goto SKIP;
             }
             p_value = flag ? 1 - Z_TABLE[x][y] : Z_TABLE[x][y];
         }

 SKIP:   for (i = 0; i < tot_samp; ++i) {

             if ( i < (tot_samp - 1)) {
                 double H_diff;
                 H_diff  = inv_cdf((i + 2.0 - (3.0/8.0)) / (tot_samp + (1.0/4.0)));
                 H_diff -= inv_cdf((i + 1.0 - (3.0/8.0)) / (tot_samp + (1.0/4.0)));

                 QH     += ((PRN_arr[i + 1] - PRN_arr[i]) / H_diff);
             }
         }
         QH = 1.0 - QH / ((tot_samp - 1.0) * samp_stddev);

         printf("sample mean  : %f\n"
                "true mean    : %f\n"
                "sample stddev: %f\n"
                "true stddev  : %f\n"
                "z-score      : %f\n"
                "p-value      : %f\n"
                "QH[normality]: %f\n",
                samp_mean, mean, samp_stddev, stddev, Z, p_value, QH);

         av_freep(&PRN_arr);
     }
     return 0;
 }
	/*
	* This file is part of FFmpeg.
	*
	* FFmpeg is free software; you can redistribute it and/or
	* modify it under the terms of the GNU Lesser General Public
	* License as published by the Free Software Foundation; either
	* version 2.1 of the License, or (at your option) any later version.
	*
	* FFmpeg is distributed in the hope that it will be useful,
	* but WITHOUT ANY WARRANTY; without even the implied warranty of
	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
	* Lesser General Public License for more details.
	*
	* You should have received a copy of the GNU Lesser General Public
	* License along with FFmpeg; if not, write to the Free Software
	* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
	*/

	#include "libavutil/log.h"
	#include "libavutil/timer.h"
	#include "libavutil/lfg.h"

	static const double Z_TABLE[31][10] = {
	{0.5000, 0.5040, 0.5080, 0.5120, 0.5160, 0.5199, 0.5239, 0.5279, 0.5319, 0.5359},
	{0.5398, 0.5438, 0.5478, 0.5517, 0.5557, 0.5596, 0.5636, 0.5675, 0.5714, 0.5753},
	{0.5793, 0.5832, 0.5871, 0.5910, 0.5948, 0.5987, 0.6026, 0.6064, 0.6103, 0.6141},
	{0.6179, 0.6217, 0.6255, 0.6293, 0.6331, 0.6368, 0.6406, 0.6443, 0.6480, 0.6517},
	{0.6554, 0.6591, 0.6628, 0.6664, 0.6700, 0.6736, 0.6772, 0.6808, 0.6844, 0.6879},
	{0.6915, 0.6950, 0.6985, 0.7019, 0.7054, 0.7088, 0.7123, 0.7157, 0.7190, 0.7224},
	{0.7257, 0.7291, 0.7324, 0.7357, 0.7389, 0.7422, 0.7454, 0.7486, 0.7517, 0.7549},
	{0.7580, 0.7611, 0.7642, 0.7673, 0.7704, 0.7734, 0.7764, 0.7794, 0.7823, 0.7852},
	{0.7881, 0.7910, 0.7939, 0.7967, 0.7995, 0.8023, 0.8051, 0.8078, 0.8106, 0.8133},
	{0.8159, 0.8186, 0.8212, 0.8238, 0.8264, 0.8289, 0.8315, 0.8340, 0.8365, 0.8389},
	{0.8413, 0.8438, 0.8461, 0.8485, 0.8508, 0.8531, 0.8554, 0.8577, 0.8599, 0.8621},
	{0.8643, 0.8665, 0.8686, 0.8708, 0.8729, 0.8749, 0.8770, 0.8790, 0.8810, 0.8830},
	{0.8849, 0.8869, 0.8888, 0.8907, 0.8925, 0.8944, 0.8962, 0.8980, 0.8997, 0.9015},
	{0.9032, 0.9049, 0.9066, 0.9082, 0.9099, 0.9115, 0.9131, 0.9147, 0.9162, 0.9177},
	{0.9192, 0.9207, 0.9222, 0.9236, 0.9251, 0.9265, 0.9279, 0.9292, 0.9306, 0.9319},
	{0.9332, 0.9345, 0.9357, 0.9370, 0.9382, 0.9394, 0.9406, 0.9418, 0.9429, 0.9441},
	{0.9452, 0.9463, 0.9474, 0.9484, 0.9495, 0.9505, 0.9515, 0.9525, 0.9535, 0.9545},
	{0.9554, 0.9564, 0.9573, 0.9582, 0.9591, 0.9599, 0.9608, 0.9616, 0.9625, 0.9633},
	{0.9641, 0.9649, 0.9656, 0.9664, 0.9671, 0.9678, 0.9686, 0.9693, 0.9699, 0.9706},
	{0.9713, 0.9719, 0.9726, 0.9732, 0.9738, 0.9744, 0.9750, 0.9756, 0.9761, 0.9767},
	{0.9772, 0.9778, 0.9783, 0.9788, 0.9793, 0.9798, 0.9803, 0.9808, 0.9812, 0.9817},
	{0.9821, 0.9826, 0.9830, 0.9834, 0.9838, 0.9842, 0.9846, 0.9850, 0.9854, 0.9857},
	{0.9861, 0.9864, 0.9868, 0.9871, 0.9875, 0.9878, 0.9881, 0.9884, 0.9887, 0.9890},
	{0.9893, 0.9896, 0.9898, 0.9901, 0.9904, 0.9906, 0.9909, 0.9911, 0.9913, 0.9916},
	{0.9918, 0.9920, 0.9922, 0.9925, 0.9927, 0.9929, 0.9931, 0.9932, 0.9934, 0.9936},
	{0.9938, 0.9940, 0.9941, 0.9943, 0.9945, 0.9946, 0.9948, 0.9949, 0.9951, 0.9952},
	{0.9953, 0.9955, 0.9956, 0.9957, 0.9959, 0.9960, 0.9961, 0.9962, 0.9963, 0.9964},
	{0.9965, 0.9966, 0.9967, 0.9968, 0.9969, 0.9970, 0.9971, 0.9972, 0.9973, 0.9974},
	{0.9974, 0.9975, 0.9976, 0.9977, 0.9977, 0.9978, 0.9979, 0.9979, 0.9980, 0.9981},
	{0.9981, 0.9982, 0.9982, 0.9983, 0.9984, 0.9984, 0.9985, 0.9985, 0.9986, 0.9986},
	{0.9987, 0.9987, 0.9987, 0.9988, 0.9988, 0.9989, 0.9989, 0.9989, 0.9990, 0.9990} };

	// Inverse cumulative distribution function
	static double inv_cdf(double u)
	{
	const double a[4] = { 2.50662823884,
	-18.61500062529,
	41.39119773534,
	-25.44106049637};

	const double b[4] = {-8.47351093090,
	23.08336743743,
	-21.06224101826,
	3.13082909833};

	const double c[9] = {0.3374754822726147,
	0.9761690190917186,
	0.1607979714918209,
	0.0276438810333863,
	0.0038405729373609,
	0.0003951896511919,
	0.0000321767881768,
	0.0000002888167364,
	0.0000003960315187};

	double r;
	double x = u - 0.5;

	// Beasley-Springer
	if (fabs(x) < 0.42) {

	double y = x * x;
	r = x * (((a[3]y+a[2])y+a[1])*y+a[0]) /
	((((b[3]y+b[2])y+b[1])y+b[0])y+1.0);
	}
	else {// Moro
	r = u;
	if (x > 0.0)
	r = 1.0 - u;
	r = log(-log(r));
	r = c[0] + r(c[1]+r(c[2]+r(c[3]+r(c[4]+r(c[5]+r(c[6]+
	r(c[7]+rc[8])))))));
	if (x < 0.0)
	r = -r;
	}

	return r;
	}
	int main(void)
	{
	int x = 0;
	int i, j;
	AVLFG state;
	av_lfg_init(&state, 0xdeadbeef);
	for (j = 0; j < 10000; j++) {
	for (i = 0; i < 624; i++) {
	//av_log(NULL, AV_LOG_ERROR, "%X\n", av_lfg_get(&state));
	x += av_lfg_get(&state);
	}
	}
	av_log(NULL, AV_LOG_ERROR, "final value:%X\n", x);

	/* BMG usage example */
	{
	double mean = 1000;
	double stddev = 53;
	double samp_mean = 0.0, samp_stddev = 0.0, QH = 0;
	double Z, p_value = -1, tot_samp = 1000;
	double *PRN_arr = av_malloc_array(tot_samp, sizeof(double));

	if (!PRN_arr) {
	fprintf(stderr, "failed to allocate memory!\n");
	return 1;
	}

	av_lfg_init(&state, 42);
	for (i = 0; i < tot_samp; i += 2) {
	double bmg_out[2];
	av_bmg_get(&state, bmg_out);
	PRN_arr[i ] = bmg_out[0] * stddev + mean;
	PRN_arr[i+1] = bmg_out[1] * stddev + mean;
	samp_mean += PRN_arr[i] + PRN_arr[i+1];
	samp_stddev += PRN_arr[i] * PRN_arr[i] + PRN_arr[i+1] * PRN_arr[i+1];
	printf("PRN%d : %f\n"
	"PRN%d : %f\n",
	i, PRN_arr[i], i+1, PRN_arr[i+1]);
	}
	samp_mean /= tot_samp;
	samp_stddev /= (tot_samp - 1);
	samp_stddev -= (tot_samp * 1.0 / (tot_samp - 1))samp_meansamp_mean;
	samp_stddev = sqrt(samp_stddev);
	Z = (mean - samp_mean) / (stddev / sqrt(tot_samp));
	{
	int x, y, a, b, flag = 0;

	if (Z < 0.0) {
	flag = !flag;
	Z = Z * -1.0;
	}

	a = (int)(Z * 100);
	b = ((int)Z * 100);
	x = Z * 10;
	y = (b > 0) ? a % b : a;
	y = y % 10;
	if (x > 30 \|\| y > 9) {
	av_log(NULL, AV_LOG_INFO, "error: out of bounds! tried to access"
	"Z_TABLE[%d][%d]\n", x, y);
	goto SKIP;
	}
	p_value = flag ? 1 - Z_TABLE[x][y] : Z_TABLE[x][y];
	}

	SKIP: for (i = 0; i < tot_samp; ++i) {

	if ( i < (tot_samp - 1)) {
	double H_diff;
	H_diff = inv_cdf((i + 2.0 - (3.0/8.0)) / (tot_samp + (1.0/4.0)));
	H_diff -= inv_cdf((i + 1.0 - (3.0/8.0)) / (tot_samp + (1.0/4.0)));

	QH += ((PRN_arr[i + 1] - PRN_arr[i]) / H_diff);
	}
	}
	QH = 1.0 - QH / ((tot_samp - 1.0) * samp_stddev);

	printf("sample mean : %f\n"
	"true mean : %f\n"
	"sample stddev: %f\n"
	"true stddev : %f\n"
	"z-score : %f\n"
	"p-value : %f\n"
	"QH[normality]: %f\n",
	samp_mean, mean, samp_stddev, stddev, Z, p_value, QH);

	av_freep(&PRN_arr);
	}
	return 0;
	}