app-launcher/computestats.c - platform/system/extras - Git at Google

 #include <fcntl.h>
 #include <sys/ioctl.h>
 #include <stdio.h>
 #include <sys/time.h>
 #include <sys/types.h>
 #include <sys/mman.h>
 #include <unistd.h>
 #include <stdlib.h>
 #include <math.h>

 char *pname;
 char *in_file;

 #define DATA_COUNT	(1024*1024)
 u_int64_t data_items[DATA_COUNT];

 int num_data_items = 0;

 #define BUFSIZE		1024
 char in_buf[BUFSIZE];

 static int
 compare_long(const void *p1, const void *p2)
 {
 	u_int64_t val1 = *(u_int64_t *)p1;
 	u_int64_t val2 = *(u_int64_t *)p2;

 	if (val1 == val2)
 		return 0;
 	if (val1 < val2)
 		return -1;
 	return 1;
 }

 int
 main(int argc, char **argv)
 {
 	FILE *in_fp;
 	u_int64_t sum_x = 0;
 	u_int64_t sum_sq_x = 0;
 	u_int64_t mean;
 	double std_dev;
 	int i;
 	int one_sd = 0;
 	int two_sd = 0;
 	int three_sd = 0;
 	double one_sd_low, one_sd_high;
 	double two_sd_low, two_sd_high;
 	double three_sd_low, three_sd_high;

 	pname = argv[0];
 	if (argc == 1)
 		in_fp = stdin;
 	else {
 		in_file = argv[1];
 		in_fp = fopen(in_file, "r");
 	}
 	while (fgets(in_buf, BUFSIZE, in_fp)) {
 		if (num_data_items == DATA_COUNT) {
 			fprintf(stderr,
 				"DATA overflow, increase size of data_items array\n");
 			exit(1);
 		}
 		sscanf(in_buf, "%ju", &data_items[num_data_items]);
 #if 0
 		printf("%lu\n", data_items[num_data_items++]);
 #endif
 		num_data_items++;
 	}
 	if (num_data_items == 0) {
 		fprintf(stderr, "Empty input file ?\n");
 		exit(1);
 	}
 #if 0
 	printf("Total items %lu\n", num_data_items);
 #endif
 	for (i = 0 ; i < num_data_items ; i++) {
 		sum_x += data_items[i];
 		sum_sq_x += data_items[i] * data_items[i];
 	}
 	mean = sum_x / num_data_items;
 	printf("\tMean %lu\n", mean);
 	std_dev = sqrt((sum_sq_x / num_data_items) - (mean * mean));
 	printf("\tStd Dev %.2f (%.2f%% of mean)\n",
 	       std_dev, (std_dev * 100.0) / mean);
 	one_sd_low = mean - std_dev;
 	one_sd_high = mean + std_dev;
 	two_sd_low = mean - (2 * std_dev);
 	two_sd_high = mean + (2 * std_dev);
 	three_sd_low = mean - (3 * std_dev);
 	three_sd_high = mean + (3 * std_dev);
 	for (i = 0 ; i < num_data_items ; i++) {
 		if (data_items[i] >= one_sd_low &&
 		    data_items[i] <= one_sd_high)
 			one_sd++;
 		if (data_items[i] >= two_sd_low &&
 		    data_items[i] <= two_sd_high)
 			two_sd++;
 		if (data_items[i] >= three_sd_low &&
 			 data_items[i] <= three_sd_high)
 			three_sd++;
 	}
 	printf("\tWithin 1 SD %.2f%%\n",
 	       ((double)one_sd * 100) / num_data_items);
 	printf("\tWithin 2 SD %.2f%%\n",
 	       ((double)two_sd * 100) / num_data_items);
 	printf("\tWithin 3 SD %.2f%%\n",
 	       ((double)three_sd* 100) / num_data_items);
 	printf("\tOutside 3 SD %.2f%%\n",
 	       ((double)(num_data_items - three_sd) * 100) / num_data_items);
 	/* Sort the data to get percentiles */
 	qsort(data_items, num_data_items, sizeof(u_int64_t), compare_long);
 	printf("\t50th percentile %lu\n", data_items[num_data_items / 2]);
 	printf("\t75th percentile %lu\n", data_items[(3 * num_data_items) / 4]);
 	printf("\t90th percentile %lu\n", data_items[(9 * num_data_items) / 10]);
 	printf("\t99th percentile %lu\n", data_items[(99 * num_data_items) / 100]);
 }
	#include <fcntl.h>
	#include <sys/ioctl.h>
	#include <stdio.h>
	#include <sys/time.h>
	#include <sys/types.h>
	#include <sys/mman.h>
	#include <unistd.h>
	#include <stdlib.h>
	#include <math.h>

	char *pname;
	char *in_file;

	#define DATA_COUNT (1024*1024)
	u_int64_t data_items[DATA_COUNT];

	int num_data_items = 0;

	#define BUFSIZE 1024
	char in_buf[BUFSIZE];

	static int
	compare_long(const void p1, const void p2)
	{
	u_int64_t val1 = (u_int64_t )p1;
	u_int64_t val2 = (u_int64_t )p2;

	if (val1 == val2)
	return 0;
	if (val1 < val2)
	return -1;
	return 1;
	}

	int
	main(int argc, char **argv)
	{
	FILE *in_fp;
	u_int64_t sum_x = 0;
	u_int64_t sum_sq_x = 0;
	u_int64_t mean;
	double std_dev;
	int i;
	int one_sd = 0;
	int two_sd = 0;
	int three_sd = 0;
	double one_sd_low, one_sd_high;
	double two_sd_low, two_sd_high;
	double three_sd_low, three_sd_high;

	pname = argv[0];
	if (argc == 1)
	in_fp = stdin;
	else {
	in_file = argv[1];
	in_fp = fopen(in_file, "r");
	}
	while (fgets(in_buf, BUFSIZE, in_fp)) {
	if (num_data_items == DATA_COUNT) {
	fprintf(stderr,
	"DATA overflow, increase size of data_items array\n");
	exit(1);
	}
	sscanf(in_buf, "%ju", &data_items[num_data_items]);
	#if 0
	printf("%lu\n", data_items[num_data_items++]);
	#endif
	num_data_items++;
	}
	if (num_data_items == 0) {
	fprintf(stderr, "Empty input file ?\n");
	exit(1);
	}
	#if 0
	printf("Total items %lu\n", num_data_items);
	#endif
	for (i = 0 ; i < num_data_items ; i++) {
	sum_x += data_items[i];
	sum_sq_x += data_items[i] * data_items[i];
	}
	mean = sum_x / num_data_items;
	printf("\tMean %lu\n", mean);
	std_dev = sqrt((sum_sq_x / num_data_items) - (mean * mean));
	printf("\tStd Dev %.2f (%.2f%% of mean)\n",
	std_dev, (std_dev * 100.0) / mean);
	one_sd_low = mean - std_dev;
	one_sd_high = mean + std_dev;
	two_sd_low = mean - (2 * std_dev);
	two_sd_high = mean + (2 * std_dev);
	three_sd_low = mean - (3 * std_dev);
	three_sd_high = mean + (3 * std_dev);
	for (i = 0 ; i < num_data_items ; i++) {
	if (data_items[i] >= one_sd_low &&
	data_items[i] <= one_sd_high)
	one_sd++;
	if (data_items[i] >= two_sd_low &&
	data_items[i] <= two_sd_high)
	two_sd++;
	if (data_items[i] >= three_sd_low &&
	data_items[i] <= three_sd_high)
	three_sd++;
	}
	printf("\tWithin 1 SD %.2f%%\n",
	((double)one_sd * 100) / num_data_items);
	printf("\tWithin 2 SD %.2f%%\n",
	((double)two_sd * 100) / num_data_items);
	printf("\tWithin 3 SD %.2f%%\n",
	((double)three_sd* 100) / num_data_items);
	printf("\tOutside 3 SD %.2f%%\n",
	((double)(num_data_items - three_sd) * 100) / num_data_items);
	/* Sort the data to get percentiles */
	qsort(data_items, num_data_items, sizeof(u_int64_t), compare_long);
	printf("\t50th percentile %lu\n", data_items[num_data_items / 2]);
	printf("\t75th percentile %lu\n", data_items[(3 * num_data_items) / 4]);
	printf("\t90th percentile %lu\n", data_items[(9 * num_data_items) / 10]);
	printf("\t99th percentile %lu\n", data_items[(99 * num_data_items) / 100]);
	}