git/t/helper/test-lazy-init-name-hash.c at 3505ddecbdd4a2eaf3d2aaea746dc18d7a0b6a6b - mirrors/git - Incest Forge: Beyond sex. We incest.

mirrors/git

mirror of https://github.com/git/git.git synced 2024-11-01 06:47:52 +01:00

Jeff Hostetler ea19489532 name-hash: add test-lazy-init-name-hash

Add t/helper/test-lazy-init-name-hash.c test code
to demonstrate performance times for lazy_init_name_hash()
using the original single-threaded and the new multi-threaded
code paths.

Includes a --dump option to dump the created hashmaps to
stdout.  You can use this to run both code paths and
confirm that they generate the same hashmaps.

Includes a --analyze option to analyze performance of both
code paths over a range of index sizes to help you find a
lower bound for the LAZY_THREAD_COST in name-hash.c.
For example, passing "-a 4000" will set "istate.cache_nr"
to 4000 and then try the multi-threaded code -- probably
giving 2 threads with 2000 entries each.  It will then
run both the single-threaded (1x4000) and the multi-threaded
(2x2000) and compare the times.  It will then repeat the
test with 8000, 12000, and etc. so that you can see the
cross over.

Signed-off-by: Jeff Hostetler <jeffhost@microsoft.com>
Signed-off-by: Junio C Hamano <gitster@pobox.com>

2017-03-24 11:00:03 -07:00

264 lines

6.2 KiB

C

Raw Blame History

 #include "cache.h"
 #include "parse-options.h"
 static int single;
 static int multi;
 static int count = 1;
 static int dump;
 static int perf;
 static int analyze;
 static int analyze_step;
 /*
  * Dump the contents of the "dir" and "name" hash tables to stdout.
  * If you sort the result, you can compare it with the other type
  * mode and verify that both single and multi produce the same set.
  */
 static void dump_run(void)
 {
 	struct hashmap_iter iter_dir;
 	struct hashmap_iter iter_cache;
 	/* Stolen from name-hash.c */
 	struct dir_entry {
 		struct hashmap_entry ent;
 		struct dir_entry *parent;
 		int nr;
 		unsigned int namelen;
 		char name[FLEX_ARRAY];
 	};
 	struct dir_entry *dir;
 	struct cache_entry *ce;
 	read_cache();
 	if (single) {
 		test_lazy_init_name_hash(&the_index, 0);
 	} else {
 		int nr_threads_used = test_lazy_init_name_hash(&the_index, 1);
 		if (!nr_threads_used)
 			die("non-threaded code path used");
 	}
 	dir = hashmap_iter_first(&the_index.dir_hash, &iter_dir);
 	while (dir) {
 		printf("dir %08x %7d %s\n", dir->ent.hash, dir->nr, dir->name);
 		dir = hashmap_iter_next(&iter_dir);
 	}
 	ce = hashmap_iter_first(&the_index.name_hash, &iter_cache);
 	while (ce) {
 		printf("name %08x %s\n", ce->ent.hash, ce->name);
 		ce = hashmap_iter_next(&iter_cache);
 	}
 	discard_cache();
 }
 /*
  * Run the single or multi threaded version "count" times and
  * report on the time taken.
  */
 static uint64_t time_runs(int try_threaded)
 {
 	uint64_t t0, t1, t2;
 	uint64_t sum = 0;
 	uint64_t avg;
 	int nr_threads_used;
 	int i;
 	for (i = 0; i < count; i++) {
 		t0 = getnanotime();
 		read_cache();
 		t1 = getnanotime();
 		nr_threads_used = test_lazy_init_name_hash(&the_index, try_threaded);
 		t2 = getnanotime();
 		sum += (t2 - t1);
 		if (try_threaded && !nr_threads_used)
 			die("non-threaded code path used");
 		if (nr_threads_used)
 			printf("%f %f %d multi %d\n",
 				   ((double)(t1 - t0))/1000000000,
 				   ((double)(t2 - t1))/1000000000,
 				   the_index.cache_nr,
 				   nr_threads_used);
 		else
 			printf("%f %f %d single\n",
 				   ((double)(t1 - t0))/1000000000,
 				   ((double)(t2 - t1))/1000000000,
 				   the_index.cache_nr);
 		fflush(stdout);
 		discard_cache();
 	}
 	avg = sum / count;
 	if (count > 1)
 		printf("avg %f %s\n",
 			   (double)avg/1000000000,
 			   (try_threaded) ? "multi" : "single");
 	return avg;
 }
 /*
  * Try a series of runs varying the "istate->cache_nr" and
  * try to find a good value for the multi-threaded criteria.
  */
 static void analyze_run(void)
 {
 	uint64_t t1s, t1m, t2s, t2m;
 	int cache_nr_limit;
 	int nr_threads_used;
 	int i;
 	int nr;
 	read_cache();
 	cache_nr_limit = the_index.cache_nr;
 	discard_cache();
 	nr = analyze;
 	while (1) {
 		uint64_t sum_single = 0;
 		uint64_t sum_multi = 0;
 		uint64_t avg_single;
 		uint64_t avg_multi;
 		if (nr > cache_nr_limit)
 			nr = cache_nr_limit;
 		for (i = 0; i < count; i++) {
 			read_cache();
 			the_index.cache_nr = nr; /* cheap truncate of index */
 			t1s = getnanotime();
 			test_lazy_init_name_hash(&the_index, 0);
 			t2s = getnanotime();
 			sum_single += (t2s - t1s);
 			the_index.cache_nr = cache_nr_limit;
 			discard_cache();
 			read_cache();
 			the_index.cache_nr = nr; /* cheap truncate of index */
 			t1m = getnanotime();
 			nr_threads_used = test_lazy_init_name_hash(&the_index, 1);
 			t2m = getnanotime();
 			sum_multi += (t2m - t1m);
 			the_index.cache_nr = cache_nr_limit;
 			discard_cache();
 			if (!nr_threads_used)
 				printf("    [size %8d] [single %f]   non-threaded code path used\n",
 					   nr, ((double)(t2s - t1s))/1000000000);
 			else
 				printf("    [size %8d] [single %f] %c [multi %f %d]\n",
 					   nr,
 					   ((double)(t2s - t1s))/1000000000,
 					   (((t2s - t1s) < (t2m - t1m)) ? '<' : '>'),
 					   ((double)(t2m - t1m))/1000000000,
 					   nr_threads_used);
 			fflush(stdout);
 		}
 		if (count > 1) {
 			avg_single = sum_single / count;
 			avg_multi = sum_multi / count;
 			if (!nr_threads_used)
 				printf("avg [size %8d] [single %f]\n",
 					   nr,
 					   (double)avg_single/1000000000);
 			else
 				printf("avg [size %8d] [single %f] %c [multi %f %d]\n",
 					   nr,
 					   (double)avg_single/1000000000,
 					   (avg_single < avg_multi ? '<' : '>'),
 					   (double)avg_multi/1000000000,
 					   nr_threads_used);
 			fflush(stdout);
 		}
 		if (nr >= cache_nr_limit)
 			return;
 		nr += analyze_step;
 	}
 }
 int cmd_main(int argc, const char **argv)
 {
 	const char *usage[] = {
 		"test-lazy-init-name-hash -d (-s | -m)",
 		"test-lazy-init-name-hash -p [-c c]",
 		"test-lazy-init-name-hash -a a [--step s] [-c c]",
 		"test-lazy-init-name-hash (-s | -m) [-c c]",
 		"test-lazy-init-name-hash -s -m [-c c]",
 		NULL
 	};
 	struct option options[] = {
 		OPT_BOOL('s', "single", &single, "run single-threaded code"),
 		OPT_BOOL('m', "multi", &multi, "run multi-threaded code"),
 		OPT_INTEGER('c', "count", &count, "number of passes"),
 		OPT_BOOL('d', "dump", &dump, "dump hash tables"),
 		OPT_BOOL('p', "perf", &perf, "compare single vs multi"),
 		OPT_INTEGER('a', "analyze", &analyze, "analyze different multi sizes"),
 		OPT_INTEGER(0, "step", &analyze_step, "analyze step factor"),
 		OPT_END(),
 	};
 	const char *prefix;
 	uint64_t avg_single, avg_multi;
 	prefix = setup_git_directory();
 	argc = parse_options(argc, argv, prefix, options, usage, 0);
 	/*
 	 * istate->dir_hash is only created when ignore_case is set.
 	 */
 	ignore_case = 1;
 	if (dump) {
 		if (perf || analyze > 0)
 			die("cannot combine dump, perf, or analyze");
 		if (count > 1)
 			die("count not valid with dump");
 		if (single && multi)
 			die("cannot use both single and multi with dump");
 		if (!single && !multi)
 			die("dump requires either single or multi");
 		dump_run();
 		return 0;
 	}
 	if (perf) {
 		if (analyze > 0)
 			die("cannot combine dump, perf, or analyze");
 		if (single || multi)
 			die("cannot use single or multi with perf");
 		avg_single = time_runs(0);
 		avg_multi = time_runs(1);
 		if (avg_multi > avg_single)
 			die("multi is slower");
 		return 0;
 	}
 	if (analyze) {
 		if (analyze < 500)
 			die("analyze must be at least 500");
 		if (!analyze_step)
 			analyze_step = analyze;
 		if (single || multi)
 			die("cannot use single or multi with analyze");
 		analyze_run();
 		return 0;
 	}
 	if (!single && !multi)
 		die("require either -s or -m or both");
 	if (single)
 		time_runs(0);
 	if (multi)
 		time_runs(1);
 	return 0;
 }