benchmark/test/reporter_output_test.cc

712 lines
35 KiB
C++
Raw Normal View History

#undef NDEBUG
#include <utility>
#include "benchmark/benchmark.h"
#include "output_test.h"
// ========================================================================= //
// ---------------------- Testing Prologue Output -------------------------- //
// ========================================================================= //
ADD_CASES(TC_ConsoleOut, {{"^[-]+$", MR_Next},
{"^Benchmark %s Time %s CPU %s Iterations$", MR_Next},
{"^[-]+$", MR_Next}});
static int AddContextCases() {
AddCases(TC_ConsoleErr,
{
{"%int[-/]%int[-/]%int %int:%int:%int$", MR_Default},
{"Running .*/reporter_output_test(\\.exe)?$", MR_Next},
{"Run on \\(%int X %float MHz CPU s?\\)", MR_Next},
});
AddCases(TC_JSONOut,
{{"^\\{", MR_Default},
{"\"context\":", MR_Next},
{"\"date\": \"", MR_Next},
{"\"host_name\":", MR_Next},
2018-08-16 16:47:09 +00:00
{"\"executable\": \".*(/|\\\\)reporter_output_test(\\.exe)?\",",
MR_Next},
{"\"num_cpus\": %int,$", MR_Next},
{"\"mhz_per_cpu\": %float,$", MR_Next},
{"\"cpu_scaling_enabled\": ", MR_Next},
{"\"caches\": \\[$", MR_Next}});
auto const& Info = benchmark::CPUInfo::Get();
auto const& Caches = Info.caches;
if (!Caches.empty()) {
AddCases(TC_ConsoleErr, {{"CPU Caches:$", MR_Next}});
}
for (size_t I = 0; I < Caches.size(); ++I) {
std::string num_caches_str =
Caches[I].num_sharing != 0 ? " \\(x%int\\)$" : "$";
AddCases(
TC_ConsoleErr,
{{"L%int (Data|Instruction|Unified) %intK" + num_caches_str, MR_Next}});
AddCases(TC_JSONOut, {{"\\{$", MR_Next},
{"\"type\": \"", MR_Next},
{"\"level\": %int,$", MR_Next},
{"\"size\": %int,$", MR_Next},
{"\"num_sharing\": %int$", MR_Next},
{"}[,]{0,1}$", MR_Next}});
}
AddCases(TC_JSONOut, {{"],$"}});
auto const& LoadAvg = Info.load_avg;
if (!LoadAvg.empty()) {
AddCases(TC_ConsoleErr,
{{"Load Average: (%float, ){0,2}%float$", MR_Next}});
}
AddCases(TC_JSONOut, {{"\"load_avg\": \\[(%float,?){0,3}],$", MR_Next}});
return 0;
}
int dummy_register = AddContextCases();
2017-04-27 18:24:06 +00:00
ADD_CASES(TC_CSVOut, {{"%csv_header"}});
// ========================================================================= //
// ------------------------ Testing Basic Output --------------------------- //
// ========================================================================= //
void BM_basic(benchmark::State& state) {
for (auto _ : state) {
}
}
BENCHMARK(BM_basic);
ADD_CASES(TC_ConsoleOut, {{"^BM_basic %console_report$"}});
ADD_CASES(TC_JSONOut, {{"\"name\": \"BM_basic\",$"},
{"\"run_name\": \"BM_basic\",$", MR_Next},
{"\"run_type\": \"iteration\",$", MR_Next},
{"\"repetitions\": 0,$", MR_Next},
{"\"repetition_index\": 0,$", MR_Next},
{"\"threads\": 1,$", MR_Next},
{"\"iterations\": %int,$", MR_Next},
Json reporter: don't cast floating-point to int; adjust tooling (#426) * Json reporter: passthrough fp, don't cast it to int; adjust tooling Json output format is generally meant for further processing using some automated tools. Thus, it makes sense not to intentionally limit the precision of the values contained in the report. As it can be seen, FormatKV() for doubles, used %.2f format, which was meant to preserve at least some of the precision. However, before that function is ever called, the doubles were already cast to the integer via RoundDouble()... This is also the case for console reporter, where it makes sense because the screen space is limited, and this reporter, however the CSV reporter does output some( decimal digits. Thus i can only conclude that the loss of the precision was not really considered, so i have decided to adjust the code of the json reporter to output the full fp precision. There can be several reasons why that is the right thing to do, the bigger the time_unit used, the greater the precision loss, so i'd say any sort of further processing (like e.g. tools/compare_bench.py does) is best done on the values with most precision. Also, that cast skewed the data away from zero, which i think may or may not result in false- positives/negatives in the output of tools/compare_bench.py * Json reporter: FormatKV(double): address review note * tools/gbench/report.py: skip benchmarks with different time units While it may be useful to teach it to operate on the measurements with different time units, which is now possible since floats are stored, and not the integers, but for now at least doing such a sanity-checking is better than providing misinformation.
2017-07-24 23:13:55 +00:00
{"\"real_time\": %float,$", MR_Next},
{"\"cpu_time\": %float,$", MR_Next},
{"\"time_unit\": \"ns\"$", MR_Next},
{"}", MR_Next}});
ADD_CASES(TC_CSVOut, {{"^\"BM_basic\",%csv_report$"}});
// ========================================================================= //
// ------------------------ Testing Bytes per Second Output ---------------- //
// ========================================================================= //
void BM_bytes_per_second(benchmark::State& state) {
for (auto _ : state) {
}
state.SetBytesProcessed(1);
}
BENCHMARK(BM_bytes_per_second);
ADD_CASES(TC_ConsoleOut, {{"^BM_bytes_per_second %console_report "
"bytes_per_second=%float[kM]{0,1}/s$"}});
ADD_CASES(TC_JSONOut, {{"\"name\": \"BM_bytes_per_second\",$"},
{"\"run_name\": \"BM_bytes_per_second\",$", MR_Next},
{"\"run_type\": \"iteration\",$", MR_Next},
{"\"repetitions\": 0,$", MR_Next},
{"\"repetition_index\": 0,$", MR_Next},
{"\"threads\": 1,$", MR_Next},
{"\"iterations\": %int,$", MR_Next},
Json reporter: don't cast floating-point to int; adjust tooling (#426) * Json reporter: passthrough fp, don't cast it to int; adjust tooling Json output format is generally meant for further processing using some automated tools. Thus, it makes sense not to intentionally limit the precision of the values contained in the report. As it can be seen, FormatKV() for doubles, used %.2f format, which was meant to preserve at least some of the precision. However, before that function is ever called, the doubles were already cast to the integer via RoundDouble()... This is also the case for console reporter, where it makes sense because the screen space is limited, and this reporter, however the CSV reporter does output some( decimal digits. Thus i can only conclude that the loss of the precision was not really considered, so i have decided to adjust the code of the json reporter to output the full fp precision. There can be several reasons why that is the right thing to do, the bigger the time_unit used, the greater the precision loss, so i'd say any sort of further processing (like e.g. tools/compare_bench.py does) is best done on the values with most precision. Also, that cast skewed the data away from zero, which i think may or may not result in false- positives/negatives in the output of tools/compare_bench.py * Json reporter: FormatKV(double): address review note * tools/gbench/report.py: skip benchmarks with different time units While it may be useful to teach it to operate on the measurements with different time units, which is now possible since floats are stored, and not the integers, but for now at least doing such a sanity-checking is better than providing misinformation.
2017-07-24 23:13:55 +00:00
{"\"real_time\": %float,$", MR_Next},
{"\"cpu_time\": %float,$", MR_Next},
{"\"time_unit\": \"ns\",$", MR_Next},
Json reporter: don't cast floating-point to int; adjust tooling (#426) * Json reporter: passthrough fp, don't cast it to int; adjust tooling Json output format is generally meant for further processing using some automated tools. Thus, it makes sense not to intentionally limit the precision of the values contained in the report. As it can be seen, FormatKV() for doubles, used %.2f format, which was meant to preserve at least some of the precision. However, before that function is ever called, the doubles were already cast to the integer via RoundDouble()... This is also the case for console reporter, where it makes sense because the screen space is limited, and this reporter, however the CSV reporter does output some( decimal digits. Thus i can only conclude that the loss of the precision was not really considered, so i have decided to adjust the code of the json reporter to output the full fp precision. There can be several reasons why that is the right thing to do, the bigger the time_unit used, the greater the precision loss, so i'd say any sort of further processing (like e.g. tools/compare_bench.py does) is best done on the values with most precision. Also, that cast skewed the data away from zero, which i think may or may not result in false- positives/negatives in the output of tools/compare_bench.py * Json reporter: FormatKV(double): address review note * tools/gbench/report.py: skip benchmarks with different time units While it may be useful to teach it to operate on the measurements with different time units, which is now possible since floats are stored, and not the integers, but for now at least doing such a sanity-checking is better than providing misinformation.
2017-07-24 23:13:55 +00:00
{"\"bytes_per_second\": %float$", MR_Next},
{"}", MR_Next}});
ADD_CASES(TC_CSVOut, {{"^\"BM_bytes_per_second\",%csv_bytes_report$"}});
// ========================================================================= //
// ------------------------ Testing Items per Second Output ---------------- //
// ========================================================================= //
void BM_items_per_second(benchmark::State& state) {
for (auto _ : state) {
}
state.SetItemsProcessed(1);
}
BENCHMARK(BM_items_per_second);
ADD_CASES(TC_ConsoleOut, {{"^BM_items_per_second %console_report "
"items_per_second=%float[kM]{0,1}/s$"}});
ADD_CASES(TC_JSONOut, {{"\"name\": \"BM_items_per_second\",$"},
{"\"run_name\": \"BM_items_per_second\",$", MR_Next},
{"\"run_type\": \"iteration\",$", MR_Next},
{"\"repetitions\": 0,$", MR_Next},
{"\"repetition_index\": 0,$", MR_Next},
{"\"threads\": 1,$", MR_Next},
{"\"iterations\": %int,$", MR_Next},
Json reporter: don't cast floating-point to int; adjust tooling (#426) * Json reporter: passthrough fp, don't cast it to int; adjust tooling Json output format is generally meant for further processing using some automated tools. Thus, it makes sense not to intentionally limit the precision of the values contained in the report. As it can be seen, FormatKV() for doubles, used %.2f format, which was meant to preserve at least some of the precision. However, before that function is ever called, the doubles were already cast to the integer via RoundDouble()... This is also the case for console reporter, where it makes sense because the screen space is limited, and this reporter, however the CSV reporter does output some( decimal digits. Thus i can only conclude that the loss of the precision was not really considered, so i have decided to adjust the code of the json reporter to output the full fp precision. There can be several reasons why that is the right thing to do, the bigger the time_unit used, the greater the precision loss, so i'd say any sort of further processing (like e.g. tools/compare_bench.py does) is best done on the values with most precision. Also, that cast skewed the data away from zero, which i think may or may not result in false- positives/negatives in the output of tools/compare_bench.py * Json reporter: FormatKV(double): address review note * tools/gbench/report.py: skip benchmarks with different time units While it may be useful to teach it to operate on the measurements with different time units, which is now possible since floats are stored, and not the integers, but for now at least doing such a sanity-checking is better than providing misinformation.
2017-07-24 23:13:55 +00:00
{"\"real_time\": %float,$", MR_Next},
{"\"cpu_time\": %float,$", MR_Next},
{"\"time_unit\": \"ns\",$", MR_Next},
Json reporter: don't cast floating-point to int; adjust tooling (#426) * Json reporter: passthrough fp, don't cast it to int; adjust tooling Json output format is generally meant for further processing using some automated tools. Thus, it makes sense not to intentionally limit the precision of the values contained in the report. As it can be seen, FormatKV() for doubles, used %.2f format, which was meant to preserve at least some of the precision. However, before that function is ever called, the doubles were already cast to the integer via RoundDouble()... This is also the case for console reporter, where it makes sense because the screen space is limited, and this reporter, however the CSV reporter does output some( decimal digits. Thus i can only conclude that the loss of the precision was not really considered, so i have decided to adjust the code of the json reporter to output the full fp precision. There can be several reasons why that is the right thing to do, the bigger the time_unit used, the greater the precision loss, so i'd say any sort of further processing (like e.g. tools/compare_bench.py does) is best done on the values with most precision. Also, that cast skewed the data away from zero, which i think may or may not result in false- positives/negatives in the output of tools/compare_bench.py * Json reporter: FormatKV(double): address review note * tools/gbench/report.py: skip benchmarks with different time units While it may be useful to teach it to operate on the measurements with different time units, which is now possible since floats are stored, and not the integers, but for now at least doing such a sanity-checking is better than providing misinformation.
2017-07-24 23:13:55 +00:00
{"\"items_per_second\": %float$", MR_Next},
{"}", MR_Next}});
ADD_CASES(TC_CSVOut, {{"^\"BM_items_per_second\",%csv_items_report$"}});
// ========================================================================= //
// ------------------------ Testing Label Output --------------------------- //
// ========================================================================= //
void BM_label(benchmark::State& state) {
for (auto _ : state) {
}
state.SetLabel("some label");
}
BENCHMARK(BM_label);
ADD_CASES(TC_ConsoleOut, {{"^BM_label %console_report some label$"}});
ADD_CASES(TC_JSONOut, {{"\"name\": \"BM_label\",$"},
{"\"run_name\": \"BM_label\",$", MR_Next},
{"\"run_type\": \"iteration\",$", MR_Next},
{"\"repetitions\": 0,$", MR_Next},
{"\"repetition_index\": 0,$", MR_Next},
{"\"threads\": 1,$", MR_Next},
{"\"iterations\": %int,$", MR_Next},
Json reporter: don't cast floating-point to int; adjust tooling (#426) * Json reporter: passthrough fp, don't cast it to int; adjust tooling Json output format is generally meant for further processing using some automated tools. Thus, it makes sense not to intentionally limit the precision of the values contained in the report. As it can be seen, FormatKV() for doubles, used %.2f format, which was meant to preserve at least some of the precision. However, before that function is ever called, the doubles were already cast to the integer via RoundDouble()... This is also the case for console reporter, where it makes sense because the screen space is limited, and this reporter, however the CSV reporter does output some( decimal digits. Thus i can only conclude that the loss of the precision was not really considered, so i have decided to adjust the code of the json reporter to output the full fp precision. There can be several reasons why that is the right thing to do, the bigger the time_unit used, the greater the precision loss, so i'd say any sort of further processing (like e.g. tools/compare_bench.py does) is best done on the values with most precision. Also, that cast skewed the data away from zero, which i think may or may not result in false- positives/negatives in the output of tools/compare_bench.py * Json reporter: FormatKV(double): address review note * tools/gbench/report.py: skip benchmarks with different time units While it may be useful to teach it to operate on the measurements with different time units, which is now possible since floats are stored, and not the integers, but for now at least doing such a sanity-checking is better than providing misinformation.
2017-07-24 23:13:55 +00:00
{"\"real_time\": %float,$", MR_Next},
{"\"cpu_time\": %float,$", MR_Next},
{"\"time_unit\": \"ns\",$", MR_Next},
{"\"label\": \"some label\"$", MR_Next},
{"}", MR_Next}});
ADD_CASES(TC_CSVOut, {{"^\"BM_label\",%csv_label_report_begin\"some "
"label\"%csv_label_report_end$"}});
// ========================================================================= //
// ------------------------ Testing Error Output --------------------------- //
// ========================================================================= //
void BM_error(benchmark::State& state) {
state.SkipWithError("message");
for (auto _ : state) {
}
}
BENCHMARK(BM_error);
ADD_CASES(TC_ConsoleOut, {{"^BM_error[ ]+ERROR OCCURRED: 'message'$"}});
ADD_CASES(TC_JSONOut, {{"\"name\": \"BM_error\",$"},
{"\"run_name\": \"BM_error\",$", MR_Next},
{"\"run_type\": \"iteration\",$", MR_Next},
{"\"repetitions\": 0,$", MR_Next},
{"\"repetition_index\": 0,$", MR_Next},
{"\"threads\": 1,$", MR_Next},
{"\"error_occurred\": true,$", MR_Next},
{"\"error_message\": \"message\",$", MR_Next}});
ADD_CASES(TC_CSVOut, {{"^\"BM_error\",,,,,,,,true,\"message\"$"}});
// ========================================================================= //
// ------------------------ Testing No Arg Name Output -----------------------
// //
// ========================================================================= //
void BM_no_arg_name(benchmark::State& state) {
for (auto _ : state) {
}
}
BENCHMARK(BM_no_arg_name)->Arg(3);
ADD_CASES(TC_ConsoleOut, {{"^BM_no_arg_name/3 %console_report$"}});
ADD_CASES(TC_JSONOut, {{"\"name\": \"BM_no_arg_name/3\",$"},
{"\"run_name\": \"BM_no_arg_name/3\",$", MR_Next},
{"\"run_type\": \"iteration\",$", MR_Next},
{"\"repetitions\": 0,$", MR_Next},
{"\"repetition_index\": 0,$", MR_Next},
{"\"threads\": 1,$", MR_Next}});
ADD_CASES(TC_CSVOut, {{"^\"BM_no_arg_name/3\",%csv_report$"}});
// ========================================================================= //
// ------------------------ Testing Arg Name Output ----------------------- //
// ========================================================================= //
void BM_arg_name(benchmark::State& state) {
for (auto _ : state) {
}
}
BENCHMARK(BM_arg_name)->ArgName("first")->Arg(3);
ADD_CASES(TC_ConsoleOut, {{"^BM_arg_name/first:3 %console_report$"}});
ADD_CASES(TC_JSONOut, {{"\"name\": \"BM_arg_name/first:3\",$"},
{"\"run_name\": \"BM_arg_name/first:3\",$", MR_Next},
{"\"run_type\": \"iteration\",$", MR_Next},
{"\"repetitions\": 0,$", MR_Next},
{"\"repetition_index\": 0,$", MR_Next},
{"\"threads\": 1,$", MR_Next}});
ADD_CASES(TC_CSVOut, {{"^\"BM_arg_name/first:3\",%csv_report$"}});
// ========================================================================= //
// ------------------------ Testing Arg Names Output ----------------------- //
// ========================================================================= //
void BM_arg_names(benchmark::State& state) {
for (auto _ : state) {
}
}
BENCHMARK(BM_arg_names)->Args({2, 5, 4})->ArgNames({"first", "", "third"});
ADD_CASES(TC_ConsoleOut,
{{"^BM_arg_names/first:2/5/third:4 %console_report$"}});
ADD_CASES(TC_JSONOut,
{{"\"name\": \"BM_arg_names/first:2/5/third:4\",$"},
{"\"run_name\": \"BM_arg_names/first:2/5/third:4\",$", MR_Next},
{"\"run_type\": \"iteration\",$", MR_Next},
{"\"repetitions\": 0,$", MR_Next},
{"\"repetition_index\": 0,$", MR_Next},
{"\"threads\": 1,$", MR_Next}});
ADD_CASES(TC_CSVOut, {{"^\"BM_arg_names/first:2/5/third:4\",%csv_report$"}});
// ========================================================================= //
// ------------------------ Testing Big Args Output ------------------------ //
// ========================================================================= //
void BM_BigArgs(benchmark::State& state) {
for (auto _ : state) {
}
}
BENCHMARK(BM_BigArgs)->RangeMultiplier(2)->Range(1U << 30U, 1U << 31U);
ADD_CASES(TC_ConsoleOut, {{"^BM_BigArgs/1073741824 %console_report$"},
{"^BM_BigArgs/2147483648 %console_report$"}});
// ========================================================================= //
// ----------------------- Testing Complexity Output ----------------------- //
// ========================================================================= //
void BM_Complexity_O1(benchmark::State& state) {
for (auto _ : state) {
}
state.SetComplexityN(state.range(0));
}
BENCHMARK(BM_Complexity_O1)->Range(1, 1 << 18)->Complexity(benchmark::o1);
SET_SUBSTITUTIONS({{"%bigOStr", "[ ]* %float \\([0-9]+\\)"},
{"%RMS", "[ ]*[0-9]+ %"}});
ADD_CASES(TC_ConsoleOut, {{"^BM_Complexity_O1_BigO %bigOStr %bigOStr[ ]*$"},
{"^BM_Complexity_O1_RMS %RMS %RMS[ ]*$"}});
// ========================================================================= //
// ----------------------- Testing Aggregate Output ------------------------ //
// ========================================================================= //
// Test that non-aggregate data is printed by default
void BM_Repeat(benchmark::State& state) {
for (auto _ : state) {
}
}
Drop Stat1, refactor statistics to be user-providable, add median. (#428) * Drop Stat1, refactor statistics to be user-providable, add median. My main goal was to add median statistic. Since Stat1 calculated the stats incrementally, and did not store the values themselves, it is was not possible. Thus, i have replaced Stat1 with simple std::vector<double>, containing all the values. Then, i have refactored current mean/stdev to be a function that is provided with values vector, and returns the statistic. While there, it seemed to make sense to deduplicate the code by storing all the statistics functions in a map, and then simply iterate over it. And the interface to add new statistics is intentionally exposed, so they may be added easily. The notable change is that Iterations are no longer displayed as 0 for stdev. Is could be changed, but i'm not sure how to nicely fit that into the API. Similarly, this dance about sometimes (for some fields, for some statistics) dividing by run.iterations, and then multiplying the calculated stastic back is also dropped, and if you do the math, i fail to see why it was needed there in the first place. Since that was the only use of stat.h, it is removed. * complexity.h: attempt to fix MSVC build * Update README.md * Store statistics to compute in a vector, ensures ordering. * Add a bit more tests for repetitions. * Partially address review notes. * Fix gcc build: drop extra ';' clang, why didn't you warn me? * Address review comments. * double() -> 0.0 * early return
2017-08-23 23:44:29 +00:00
// need two repetitions min to be able to output any aggregate output
BENCHMARK(BM_Repeat)->Repetitions(2);
ADD_CASES(TC_ConsoleOut,
{{"^BM_Repeat/repeats:2 %console_report$"},
{"^BM_Repeat/repeats:2 %console_report$"},
{"^BM_Repeat/repeats:2_mean %console_time_only_report [ ]*2$"},
{"^BM_Repeat/repeats:2_median %console_time_only_report [ ]*2$"},
{"^BM_Repeat/repeats:2_stddev %console_time_only_report [ ]*2$"}});
Drop Stat1, refactor statistics to be user-providable, add median. (#428) * Drop Stat1, refactor statistics to be user-providable, add median. My main goal was to add median statistic. Since Stat1 calculated the stats incrementally, and did not store the values themselves, it is was not possible. Thus, i have replaced Stat1 with simple std::vector<double>, containing all the values. Then, i have refactored current mean/stdev to be a function that is provided with values vector, and returns the statistic. While there, it seemed to make sense to deduplicate the code by storing all the statistics functions in a map, and then simply iterate over it. And the interface to add new statistics is intentionally exposed, so they may be added easily. The notable change is that Iterations are no longer displayed as 0 for stdev. Is could be changed, but i'm not sure how to nicely fit that into the API. Similarly, this dance about sometimes (for some fields, for some statistics) dividing by run.iterations, and then multiplying the calculated stastic back is also dropped, and if you do the math, i fail to see why it was needed there in the first place. Since that was the only use of stat.h, it is removed. * complexity.h: attempt to fix MSVC build * Update README.md * Store statistics to compute in a vector, ensures ordering. * Add a bit more tests for repetitions. * Partially address review notes. * Fix gcc build: drop extra ';' clang, why didn't you warn me? * Address review comments. * double() -> 0.0 * early return
2017-08-23 23:44:29 +00:00
ADD_CASES(TC_JSONOut, {{"\"name\": \"BM_Repeat/repeats:2\",$"},
{"\"run_name\": \"BM_Repeat/repeats:2\"", MR_Next},
{"\"run_type\": \"iteration\",$", MR_Next},
{"\"repetitions\": 2,$", MR_Next},
{"\"repetition_index\": 0,$", MR_Next},
{"\"threads\": 1,$", MR_Next},
Drop Stat1, refactor statistics to be user-providable, add median. (#428) * Drop Stat1, refactor statistics to be user-providable, add median. My main goal was to add median statistic. Since Stat1 calculated the stats incrementally, and did not store the values themselves, it is was not possible. Thus, i have replaced Stat1 with simple std::vector<double>, containing all the values. Then, i have refactored current mean/stdev to be a function that is provided with values vector, and returns the statistic. While there, it seemed to make sense to deduplicate the code by storing all the statistics functions in a map, and then simply iterate over it. And the interface to add new statistics is intentionally exposed, so they may be added easily. The notable change is that Iterations are no longer displayed as 0 for stdev. Is could be changed, but i'm not sure how to nicely fit that into the API. Similarly, this dance about sometimes (for some fields, for some statistics) dividing by run.iterations, and then multiplying the calculated stastic back is also dropped, and if you do the math, i fail to see why it was needed there in the first place. Since that was the only use of stat.h, it is removed. * complexity.h: attempt to fix MSVC build * Update README.md * Store statistics to compute in a vector, ensures ordering. * Add a bit more tests for repetitions. * Partially address review notes. * Fix gcc build: drop extra ';' clang, why didn't you warn me? * Address review comments. * double() -> 0.0 * early return
2017-08-23 23:44:29 +00:00
{"\"name\": \"BM_Repeat/repeats:2\",$"},
{"\"run_name\": \"BM_Repeat/repeats:2\",$", MR_Next},
{"\"run_type\": \"iteration\",$", MR_Next},
{"\"repetitions\": 2,$", MR_Next},
{"\"repetition_index\": 1,$", MR_Next},
{"\"threads\": 1,$", MR_Next},
Drop Stat1, refactor statistics to be user-providable, add median. (#428) * Drop Stat1, refactor statistics to be user-providable, add median. My main goal was to add median statistic. Since Stat1 calculated the stats incrementally, and did not store the values themselves, it is was not possible. Thus, i have replaced Stat1 with simple std::vector<double>, containing all the values. Then, i have refactored current mean/stdev to be a function that is provided with values vector, and returns the statistic. While there, it seemed to make sense to deduplicate the code by storing all the statistics functions in a map, and then simply iterate over it. And the interface to add new statistics is intentionally exposed, so they may be added easily. The notable change is that Iterations are no longer displayed as 0 for stdev. Is could be changed, but i'm not sure how to nicely fit that into the API. Similarly, this dance about sometimes (for some fields, for some statistics) dividing by run.iterations, and then multiplying the calculated stastic back is also dropped, and if you do the math, i fail to see why it was needed there in the first place. Since that was the only use of stat.h, it is removed. * complexity.h: attempt to fix MSVC build * Update README.md * Store statistics to compute in a vector, ensures ordering. * Add a bit more tests for repetitions. * Partially address review notes. * Fix gcc build: drop extra ';' clang, why didn't you warn me? * Address review comments. * double() -> 0.0 * early return
2017-08-23 23:44:29 +00:00
{"\"name\": \"BM_Repeat/repeats:2_mean\",$"},
{"\"run_name\": \"BM_Repeat/repeats:2\",$", MR_Next},
{"\"run_type\": \"aggregate\",$", MR_Next},
{"\"repetitions\": 2,$", MR_Next},
{"\"threads\": 1,$", MR_Next},
{"\"aggregate_name\": \"mean\",$", MR_Next},
{"\"iterations\": 2,$", MR_Next},
Drop Stat1, refactor statistics to be user-providable, add median. (#428) * Drop Stat1, refactor statistics to be user-providable, add median. My main goal was to add median statistic. Since Stat1 calculated the stats incrementally, and did not store the values themselves, it is was not possible. Thus, i have replaced Stat1 with simple std::vector<double>, containing all the values. Then, i have refactored current mean/stdev to be a function that is provided with values vector, and returns the statistic. While there, it seemed to make sense to deduplicate the code by storing all the statistics functions in a map, and then simply iterate over it. And the interface to add new statistics is intentionally exposed, so they may be added easily. The notable change is that Iterations are no longer displayed as 0 for stdev. Is could be changed, but i'm not sure how to nicely fit that into the API. Similarly, this dance about sometimes (for some fields, for some statistics) dividing by run.iterations, and then multiplying the calculated stastic back is also dropped, and if you do the math, i fail to see why it was needed there in the first place. Since that was the only use of stat.h, it is removed. * complexity.h: attempt to fix MSVC build * Update README.md * Store statistics to compute in a vector, ensures ordering. * Add a bit more tests for repetitions. * Partially address review notes. * Fix gcc build: drop extra ';' clang, why didn't you warn me? * Address review comments. * double() -> 0.0 * early return
2017-08-23 23:44:29 +00:00
{"\"name\": \"BM_Repeat/repeats:2_median\",$"},
{"\"run_name\": \"BM_Repeat/repeats:2\",$", MR_Next},
{"\"run_type\": \"aggregate\",$", MR_Next},
{"\"repetitions\": 2,$", MR_Next},
{"\"threads\": 1,$", MR_Next},
{"\"aggregate_name\": \"median\",$", MR_Next},
{"\"iterations\": 2,$", MR_Next},
{"\"name\": \"BM_Repeat/repeats:2_stddev\",$"},
{"\"run_name\": \"BM_Repeat/repeats:2\",$", MR_Next},
{"\"run_type\": \"aggregate\",$", MR_Next},
{"\"repetitions\": 2,$", MR_Next},
{"\"threads\": 1,$", MR_Next},
{"\"aggregate_name\": \"stddev\",$", MR_Next},
{"\"iterations\": 2,$", MR_Next}});
Drop Stat1, refactor statistics to be user-providable, add median. (#428) * Drop Stat1, refactor statistics to be user-providable, add median. My main goal was to add median statistic. Since Stat1 calculated the stats incrementally, and did not store the values themselves, it is was not possible. Thus, i have replaced Stat1 with simple std::vector<double>, containing all the values. Then, i have refactored current mean/stdev to be a function that is provided with values vector, and returns the statistic. While there, it seemed to make sense to deduplicate the code by storing all the statistics functions in a map, and then simply iterate over it. And the interface to add new statistics is intentionally exposed, so they may be added easily. The notable change is that Iterations are no longer displayed as 0 for stdev. Is could be changed, but i'm not sure how to nicely fit that into the API. Similarly, this dance about sometimes (for some fields, for some statistics) dividing by run.iterations, and then multiplying the calculated stastic back is also dropped, and if you do the math, i fail to see why it was needed there in the first place. Since that was the only use of stat.h, it is removed. * complexity.h: attempt to fix MSVC build * Update README.md * Store statistics to compute in a vector, ensures ordering. * Add a bit more tests for repetitions. * Partially address review notes. * Fix gcc build: drop extra ';' clang, why didn't you warn me? * Address review comments. * double() -> 0.0 * early return
2017-08-23 23:44:29 +00:00
ADD_CASES(TC_CSVOut, {{"^\"BM_Repeat/repeats:2\",%csv_report$"},
{"^\"BM_Repeat/repeats:2\",%csv_report$"},
{"^\"BM_Repeat/repeats:2_mean\",%csv_report$"},
{"^\"BM_Repeat/repeats:2_median\",%csv_report$"},
{"^\"BM_Repeat/repeats:2_stddev\",%csv_report$"}});
// but for two repetitions, mean and median is the same, so let's repeat..
BENCHMARK(BM_Repeat)->Repetitions(3);
ADD_CASES(TC_ConsoleOut,
{{"^BM_Repeat/repeats:3 %console_report$"},
{"^BM_Repeat/repeats:3 %console_report$"},
{"^BM_Repeat/repeats:3 %console_report$"},
{"^BM_Repeat/repeats:3_mean %console_time_only_report [ ]*3$"},
{"^BM_Repeat/repeats:3_median %console_time_only_report [ ]*3$"},
{"^BM_Repeat/repeats:3_stddev %console_time_only_report [ ]*3$"}});
ADD_CASES(TC_JSONOut, {{"\"name\": \"BM_Repeat/repeats:3\",$"},
{"\"run_name\": \"BM_Repeat/repeats:3\",$", MR_Next},
{"\"run_type\": \"iteration\",$", MR_Next},
{"\"repetitions\": 3,$", MR_Next},
{"\"repetition_index\": 0,$", MR_Next},
{"\"threads\": 1,$", MR_Next},
{"\"name\": \"BM_Repeat/repeats:3\",$"},
{"\"run_name\": \"BM_Repeat/repeats:3\",$", MR_Next},
{"\"run_type\": \"iteration\",$", MR_Next},
{"\"repetitions\": 3,$", MR_Next},
{"\"repetition_index\": 1,$", MR_Next},
{"\"threads\": 1,$", MR_Next},
{"\"name\": \"BM_Repeat/repeats:3\",$"},
{"\"run_name\": \"BM_Repeat/repeats:3\",$", MR_Next},
{"\"run_type\": \"iteration\",$", MR_Next},
{"\"repetitions\": 3,$", MR_Next},
{"\"repetition_index\": 2,$", MR_Next},
{"\"threads\": 1,$", MR_Next},
{"\"name\": \"BM_Repeat/repeats:3_mean\",$"},
{"\"run_name\": \"BM_Repeat/repeats:3\",$", MR_Next},
{"\"run_type\": \"aggregate\",$", MR_Next},
{"\"repetitions\": 3,$", MR_Next},
{"\"threads\": 1,$", MR_Next},
{"\"aggregate_name\": \"mean\",$", MR_Next},
{"\"iterations\": 3,$", MR_Next},
Drop Stat1, refactor statistics to be user-providable, add median. (#428) * Drop Stat1, refactor statistics to be user-providable, add median. My main goal was to add median statistic. Since Stat1 calculated the stats incrementally, and did not store the values themselves, it is was not possible. Thus, i have replaced Stat1 with simple std::vector<double>, containing all the values. Then, i have refactored current mean/stdev to be a function that is provided with values vector, and returns the statistic. While there, it seemed to make sense to deduplicate the code by storing all the statistics functions in a map, and then simply iterate over it. And the interface to add new statistics is intentionally exposed, so they may be added easily. The notable change is that Iterations are no longer displayed as 0 for stdev. Is could be changed, but i'm not sure how to nicely fit that into the API. Similarly, this dance about sometimes (for some fields, for some statistics) dividing by run.iterations, and then multiplying the calculated stastic back is also dropped, and if you do the math, i fail to see why it was needed there in the first place. Since that was the only use of stat.h, it is removed. * complexity.h: attempt to fix MSVC build * Update README.md * Store statistics to compute in a vector, ensures ordering. * Add a bit more tests for repetitions. * Partially address review notes. * Fix gcc build: drop extra ';' clang, why didn't you warn me? * Address review comments. * double() -> 0.0 * early return
2017-08-23 23:44:29 +00:00
{"\"name\": \"BM_Repeat/repeats:3_median\",$"},
{"\"run_name\": \"BM_Repeat/repeats:3\",$", MR_Next},
{"\"run_type\": \"aggregate\",$", MR_Next},
{"\"repetitions\": 3,$", MR_Next},
{"\"threads\": 1,$", MR_Next},
{"\"aggregate_name\": \"median\",$", MR_Next},
{"\"iterations\": 3,$", MR_Next},
{"\"name\": \"BM_Repeat/repeats:3_stddev\",$"},
{"\"run_name\": \"BM_Repeat/repeats:3\",$", MR_Next},
{"\"run_type\": \"aggregate\",$", MR_Next},
{"\"repetitions\": 3,$", MR_Next},
{"\"threads\": 1,$", MR_Next},
{"\"aggregate_name\": \"stddev\",$", MR_Next},
{"\"iterations\": 3,$", MR_Next}});
ADD_CASES(TC_CSVOut, {{"^\"BM_Repeat/repeats:3\",%csv_report$"},
{"^\"BM_Repeat/repeats:3\",%csv_report$"},
{"^\"BM_Repeat/repeats:3\",%csv_report$"},
{"^\"BM_Repeat/repeats:3_mean\",%csv_report$"},
Drop Stat1, refactor statistics to be user-providable, add median. (#428) * Drop Stat1, refactor statistics to be user-providable, add median. My main goal was to add median statistic. Since Stat1 calculated the stats incrementally, and did not store the values themselves, it is was not possible. Thus, i have replaced Stat1 with simple std::vector<double>, containing all the values. Then, i have refactored current mean/stdev to be a function that is provided with values vector, and returns the statistic. While there, it seemed to make sense to deduplicate the code by storing all the statistics functions in a map, and then simply iterate over it. And the interface to add new statistics is intentionally exposed, so they may be added easily. The notable change is that Iterations are no longer displayed as 0 for stdev. Is could be changed, but i'm not sure how to nicely fit that into the API. Similarly, this dance about sometimes (for some fields, for some statistics) dividing by run.iterations, and then multiplying the calculated stastic back is also dropped, and if you do the math, i fail to see why it was needed there in the first place. Since that was the only use of stat.h, it is removed. * complexity.h: attempt to fix MSVC build * Update README.md * Store statistics to compute in a vector, ensures ordering. * Add a bit more tests for repetitions. * Partially address review notes. * Fix gcc build: drop extra ';' clang, why didn't you warn me? * Address review comments. * double() -> 0.0 * early return
2017-08-23 23:44:29 +00:00
{"^\"BM_Repeat/repeats:3_median\",%csv_report$"},
{"^\"BM_Repeat/repeats:3_stddev\",%csv_report$"}});
Drop Stat1, refactor statistics to be user-providable, add median. (#428) * Drop Stat1, refactor statistics to be user-providable, add median. My main goal was to add median statistic. Since Stat1 calculated the stats incrementally, and did not store the values themselves, it is was not possible. Thus, i have replaced Stat1 with simple std::vector<double>, containing all the values. Then, i have refactored current mean/stdev to be a function that is provided with values vector, and returns the statistic. While there, it seemed to make sense to deduplicate the code by storing all the statistics functions in a map, and then simply iterate over it. And the interface to add new statistics is intentionally exposed, so they may be added easily. The notable change is that Iterations are no longer displayed as 0 for stdev. Is could be changed, but i'm not sure how to nicely fit that into the API. Similarly, this dance about sometimes (for some fields, for some statistics) dividing by run.iterations, and then multiplying the calculated stastic back is also dropped, and if you do the math, i fail to see why it was needed there in the first place. Since that was the only use of stat.h, it is removed. * complexity.h: attempt to fix MSVC build * Update README.md * Store statistics to compute in a vector, ensures ordering. * Add a bit more tests for repetitions. * Partially address review notes. * Fix gcc build: drop extra ';' clang, why didn't you warn me? * Address review comments. * double() -> 0.0 * early return
2017-08-23 23:44:29 +00:00
// median differs between even/odd number of repetitions, so just to be sure
BENCHMARK(BM_Repeat)->Repetitions(4);
ADD_CASES(TC_ConsoleOut,
{{"^BM_Repeat/repeats:4 %console_report$"},
{"^BM_Repeat/repeats:4 %console_report$"},
{"^BM_Repeat/repeats:4 %console_report$"},
{"^BM_Repeat/repeats:4 %console_report$"},
{"^BM_Repeat/repeats:4_mean %console_time_only_report [ ]*4$"},
{"^BM_Repeat/repeats:4_median %console_time_only_report [ ]*4$"},
{"^BM_Repeat/repeats:4_stddev %console_time_only_report [ ]*4$"}});
Drop Stat1, refactor statistics to be user-providable, add median. (#428) * Drop Stat1, refactor statistics to be user-providable, add median. My main goal was to add median statistic. Since Stat1 calculated the stats incrementally, and did not store the values themselves, it is was not possible. Thus, i have replaced Stat1 with simple std::vector<double>, containing all the values. Then, i have refactored current mean/stdev to be a function that is provided with values vector, and returns the statistic. While there, it seemed to make sense to deduplicate the code by storing all the statistics functions in a map, and then simply iterate over it. And the interface to add new statistics is intentionally exposed, so they may be added easily. The notable change is that Iterations are no longer displayed as 0 for stdev. Is could be changed, but i'm not sure how to nicely fit that into the API. Similarly, this dance about sometimes (for some fields, for some statistics) dividing by run.iterations, and then multiplying the calculated stastic back is also dropped, and if you do the math, i fail to see why it was needed there in the first place. Since that was the only use of stat.h, it is removed. * complexity.h: attempt to fix MSVC build * Update README.md * Store statistics to compute in a vector, ensures ordering. * Add a bit more tests for repetitions. * Partially address review notes. * Fix gcc build: drop extra ';' clang, why didn't you warn me? * Address review comments. * double() -> 0.0 * early return
2017-08-23 23:44:29 +00:00
ADD_CASES(TC_JSONOut, {{"\"name\": \"BM_Repeat/repeats:4\",$"},
{"\"run_name\": \"BM_Repeat/repeats:4\",$", MR_Next},
{"\"run_type\": \"iteration\",$", MR_Next},
{"\"repetitions\": 4,$", MR_Next},
{"\"repetition_index\": 0,$", MR_Next},
{"\"threads\": 1,$", MR_Next},
Drop Stat1, refactor statistics to be user-providable, add median. (#428) * Drop Stat1, refactor statistics to be user-providable, add median. My main goal was to add median statistic. Since Stat1 calculated the stats incrementally, and did not store the values themselves, it is was not possible. Thus, i have replaced Stat1 with simple std::vector<double>, containing all the values. Then, i have refactored current mean/stdev to be a function that is provided with values vector, and returns the statistic. While there, it seemed to make sense to deduplicate the code by storing all the statistics functions in a map, and then simply iterate over it. And the interface to add new statistics is intentionally exposed, so they may be added easily. The notable change is that Iterations are no longer displayed as 0 for stdev. Is could be changed, but i'm not sure how to nicely fit that into the API. Similarly, this dance about sometimes (for some fields, for some statistics) dividing by run.iterations, and then multiplying the calculated stastic back is also dropped, and if you do the math, i fail to see why it was needed there in the first place. Since that was the only use of stat.h, it is removed. * complexity.h: attempt to fix MSVC build * Update README.md * Store statistics to compute in a vector, ensures ordering. * Add a bit more tests for repetitions. * Partially address review notes. * Fix gcc build: drop extra ';' clang, why didn't you warn me? * Address review comments. * double() -> 0.0 * early return
2017-08-23 23:44:29 +00:00
{"\"name\": \"BM_Repeat/repeats:4\",$"},
{"\"run_name\": \"BM_Repeat/repeats:4\",$", MR_Next},
{"\"run_type\": \"iteration\",$", MR_Next},
{"\"repetitions\": 4,$", MR_Next},
{"\"repetition_index\": 1,$", MR_Next},
{"\"threads\": 1,$", MR_Next},
Drop Stat1, refactor statistics to be user-providable, add median. (#428) * Drop Stat1, refactor statistics to be user-providable, add median. My main goal was to add median statistic. Since Stat1 calculated the stats incrementally, and did not store the values themselves, it is was not possible. Thus, i have replaced Stat1 with simple std::vector<double>, containing all the values. Then, i have refactored current mean/stdev to be a function that is provided with values vector, and returns the statistic. While there, it seemed to make sense to deduplicate the code by storing all the statistics functions in a map, and then simply iterate over it. And the interface to add new statistics is intentionally exposed, so they may be added easily. The notable change is that Iterations are no longer displayed as 0 for stdev. Is could be changed, but i'm not sure how to nicely fit that into the API. Similarly, this dance about sometimes (for some fields, for some statistics) dividing by run.iterations, and then multiplying the calculated stastic back is also dropped, and if you do the math, i fail to see why it was needed there in the first place. Since that was the only use of stat.h, it is removed. * complexity.h: attempt to fix MSVC build * Update README.md * Store statistics to compute in a vector, ensures ordering. * Add a bit more tests for repetitions. * Partially address review notes. * Fix gcc build: drop extra ';' clang, why didn't you warn me? * Address review comments. * double() -> 0.0 * early return
2017-08-23 23:44:29 +00:00
{"\"name\": \"BM_Repeat/repeats:4\",$"},
{"\"run_name\": \"BM_Repeat/repeats:4\",$", MR_Next},
{"\"run_type\": \"iteration\",$", MR_Next},
{"\"repetitions\": 4,$", MR_Next},
{"\"repetition_index\": 2,$", MR_Next},
{"\"threads\": 1,$", MR_Next},
Drop Stat1, refactor statistics to be user-providable, add median. (#428) * Drop Stat1, refactor statistics to be user-providable, add median. My main goal was to add median statistic. Since Stat1 calculated the stats incrementally, and did not store the values themselves, it is was not possible. Thus, i have replaced Stat1 with simple std::vector<double>, containing all the values. Then, i have refactored current mean/stdev to be a function that is provided with values vector, and returns the statistic. While there, it seemed to make sense to deduplicate the code by storing all the statistics functions in a map, and then simply iterate over it. And the interface to add new statistics is intentionally exposed, so they may be added easily. The notable change is that Iterations are no longer displayed as 0 for stdev. Is could be changed, but i'm not sure how to nicely fit that into the API. Similarly, this dance about sometimes (for some fields, for some statistics) dividing by run.iterations, and then multiplying the calculated stastic back is also dropped, and if you do the math, i fail to see why it was needed there in the first place. Since that was the only use of stat.h, it is removed. * complexity.h: attempt to fix MSVC build * Update README.md * Store statistics to compute in a vector, ensures ordering. * Add a bit more tests for repetitions. * Partially address review notes. * Fix gcc build: drop extra ';' clang, why didn't you warn me? * Address review comments. * double() -> 0.0 * early return
2017-08-23 23:44:29 +00:00
{"\"name\": \"BM_Repeat/repeats:4\",$"},
{"\"run_name\": \"BM_Repeat/repeats:4\",$", MR_Next},
{"\"run_type\": \"iteration\",$", MR_Next},
{"\"repetitions\": 4,$", MR_Next},
{"\"repetition_index\": 3,$", MR_Next},
{"\"threads\": 1,$", MR_Next},
Drop Stat1, refactor statistics to be user-providable, add median. (#428) * Drop Stat1, refactor statistics to be user-providable, add median. My main goal was to add median statistic. Since Stat1 calculated the stats incrementally, and did not store the values themselves, it is was not possible. Thus, i have replaced Stat1 with simple std::vector<double>, containing all the values. Then, i have refactored current mean/stdev to be a function that is provided with values vector, and returns the statistic. While there, it seemed to make sense to deduplicate the code by storing all the statistics functions in a map, and then simply iterate over it. And the interface to add new statistics is intentionally exposed, so they may be added easily. The notable change is that Iterations are no longer displayed as 0 for stdev. Is could be changed, but i'm not sure how to nicely fit that into the API. Similarly, this dance about sometimes (for some fields, for some statistics) dividing by run.iterations, and then multiplying the calculated stastic back is also dropped, and if you do the math, i fail to see why it was needed there in the first place. Since that was the only use of stat.h, it is removed. * complexity.h: attempt to fix MSVC build * Update README.md * Store statistics to compute in a vector, ensures ordering. * Add a bit more tests for repetitions. * Partially address review notes. * Fix gcc build: drop extra ';' clang, why didn't you warn me? * Address review comments. * double() -> 0.0 * early return
2017-08-23 23:44:29 +00:00
{"\"name\": \"BM_Repeat/repeats:4_mean\",$"},
{"\"run_name\": \"BM_Repeat/repeats:4\",$", MR_Next},
{"\"run_type\": \"aggregate\",$", MR_Next},
{"\"repetitions\": 4,$", MR_Next},
{"\"threads\": 1,$", MR_Next},
{"\"aggregate_name\": \"mean\",$", MR_Next},
{"\"iterations\": 4,$", MR_Next},
Drop Stat1, refactor statistics to be user-providable, add median. (#428) * Drop Stat1, refactor statistics to be user-providable, add median. My main goal was to add median statistic. Since Stat1 calculated the stats incrementally, and did not store the values themselves, it is was not possible. Thus, i have replaced Stat1 with simple std::vector<double>, containing all the values. Then, i have refactored current mean/stdev to be a function that is provided with values vector, and returns the statistic. While there, it seemed to make sense to deduplicate the code by storing all the statistics functions in a map, and then simply iterate over it. And the interface to add new statistics is intentionally exposed, so they may be added easily. The notable change is that Iterations are no longer displayed as 0 for stdev. Is could be changed, but i'm not sure how to nicely fit that into the API. Similarly, this dance about sometimes (for some fields, for some statistics) dividing by run.iterations, and then multiplying the calculated stastic back is also dropped, and if you do the math, i fail to see why it was needed there in the first place. Since that was the only use of stat.h, it is removed. * complexity.h: attempt to fix MSVC build * Update README.md * Store statistics to compute in a vector, ensures ordering. * Add a bit more tests for repetitions. * Partially address review notes. * Fix gcc build: drop extra ';' clang, why didn't you warn me? * Address review comments. * double() -> 0.0 * early return
2017-08-23 23:44:29 +00:00
{"\"name\": \"BM_Repeat/repeats:4_median\",$"},
{"\"run_name\": \"BM_Repeat/repeats:4\",$", MR_Next},
{"\"run_type\": \"aggregate\",$", MR_Next},
{"\"repetitions\": 4,$", MR_Next},
{"\"threads\": 1,$", MR_Next},
{"\"aggregate_name\": \"median\",$", MR_Next},
{"\"iterations\": 4,$", MR_Next},
{"\"name\": \"BM_Repeat/repeats:4_stddev\",$"},
{"\"run_name\": \"BM_Repeat/repeats:4\",$", MR_Next},
{"\"run_type\": \"aggregate\",$", MR_Next},
{"\"repetitions\": 4,$", MR_Next},
{"\"threads\": 1,$", MR_Next},
{"\"aggregate_name\": \"stddev\",$", MR_Next},
{"\"iterations\": 4,$", MR_Next}});
Drop Stat1, refactor statistics to be user-providable, add median. (#428) * Drop Stat1, refactor statistics to be user-providable, add median. My main goal was to add median statistic. Since Stat1 calculated the stats incrementally, and did not store the values themselves, it is was not possible. Thus, i have replaced Stat1 with simple std::vector<double>, containing all the values. Then, i have refactored current mean/stdev to be a function that is provided with values vector, and returns the statistic. While there, it seemed to make sense to deduplicate the code by storing all the statistics functions in a map, and then simply iterate over it. And the interface to add new statistics is intentionally exposed, so they may be added easily. The notable change is that Iterations are no longer displayed as 0 for stdev. Is could be changed, but i'm not sure how to nicely fit that into the API. Similarly, this dance about sometimes (for some fields, for some statistics) dividing by run.iterations, and then multiplying the calculated stastic back is also dropped, and if you do the math, i fail to see why it was needed there in the first place. Since that was the only use of stat.h, it is removed. * complexity.h: attempt to fix MSVC build * Update README.md * Store statistics to compute in a vector, ensures ordering. * Add a bit more tests for repetitions. * Partially address review notes. * Fix gcc build: drop extra ';' clang, why didn't you warn me? * Address review comments. * double() -> 0.0 * early return
2017-08-23 23:44:29 +00:00
ADD_CASES(TC_CSVOut, {{"^\"BM_Repeat/repeats:4\",%csv_report$"},
{"^\"BM_Repeat/repeats:4\",%csv_report$"},
{"^\"BM_Repeat/repeats:4\",%csv_report$"},
{"^\"BM_Repeat/repeats:4\",%csv_report$"},
{"^\"BM_Repeat/repeats:4_mean\",%csv_report$"},
{"^\"BM_Repeat/repeats:4_median\",%csv_report$"},
{"^\"BM_Repeat/repeats:4_stddev\",%csv_report$"}});
// Test that a non-repeated test still prints non-aggregate results even when
// only-aggregate reports have been requested
void BM_RepeatOnce(benchmark::State& state) {
for (auto _ : state) {
}
}
BENCHMARK(BM_RepeatOnce)->Repetitions(1)->ReportAggregatesOnly();
ADD_CASES(TC_ConsoleOut, {{"^BM_RepeatOnce/repeats:1 %console_report$"}});
ADD_CASES(TC_JSONOut, {{"\"name\": \"BM_RepeatOnce/repeats:1\",$"},
{"\"run_name\": \"BM_RepeatOnce/repeats:1\",$", MR_Next},
{"\"run_type\": \"iteration\",$", MR_Next},
{"\"repetitions\": 1,$", MR_Next},
{"\"repetition_index\": 0,$", MR_Next},
{"\"threads\": 1,$", MR_Next}});
ADD_CASES(TC_CSVOut, {{"^\"BM_RepeatOnce/repeats:1\",%csv_report$"}});
// Test that non-aggregate data is not reported
void BM_SummaryRepeat(benchmark::State& state) {
for (auto _ : state) {
}
}
BENCHMARK(BM_SummaryRepeat)->Repetitions(3)->ReportAggregatesOnly();
ADD_CASES(
TC_ConsoleOut,
{{".*BM_SummaryRepeat/repeats:3 ", MR_Not},
{"^BM_SummaryRepeat/repeats:3_mean %console_time_only_report [ ]*3$"},
{"^BM_SummaryRepeat/repeats:3_median %console_time_only_report [ ]*3$"},
{"^BM_SummaryRepeat/repeats:3_stddev %console_time_only_report [ ]*3$"}});
ADD_CASES(TC_JSONOut,
{{".*BM_SummaryRepeat/repeats:3 ", MR_Not},
{"\"name\": \"BM_SummaryRepeat/repeats:3_mean\",$"},
{"\"run_name\": \"BM_SummaryRepeat/repeats:3\",$", MR_Next},
{"\"run_type\": \"aggregate\",$", MR_Next},
{"\"repetitions\": 3,$", MR_Next},
{"\"threads\": 1,$", MR_Next},
{"\"aggregate_name\": \"mean\",$", MR_Next},
{"\"iterations\": 3,$", MR_Next},
{"\"name\": \"BM_SummaryRepeat/repeats:3_median\",$"},
{"\"run_name\": \"BM_SummaryRepeat/repeats:3\",$", MR_Next},
{"\"run_type\": \"aggregate\",$", MR_Next},
{"\"repetitions\": 3,$", MR_Next},
{"\"threads\": 1,$", MR_Next},
{"\"aggregate_name\": \"median\",$", MR_Next},
{"\"iterations\": 3,$", MR_Next},
{"\"name\": \"BM_SummaryRepeat/repeats:3_stddev\",$"},
{"\"run_name\": \"BM_SummaryRepeat/repeats:3\",$", MR_Next},
{"\"run_type\": \"aggregate\",$", MR_Next},
{"\"repetitions\": 3,$", MR_Next},
{"\"threads\": 1,$", MR_Next},
{"\"aggregate_name\": \"stddev\",$", MR_Next},
{"\"iterations\": 3,$", MR_Next}});
ADD_CASES(TC_CSVOut, {{".*BM_SummaryRepeat/repeats:3 ", MR_Not},
{"^\"BM_SummaryRepeat/repeats:3_mean\",%csv_report$"},
Drop Stat1, refactor statistics to be user-providable, add median. (#428) * Drop Stat1, refactor statistics to be user-providable, add median. My main goal was to add median statistic. Since Stat1 calculated the stats incrementally, and did not store the values themselves, it is was not possible. Thus, i have replaced Stat1 with simple std::vector<double>, containing all the values. Then, i have refactored current mean/stdev to be a function that is provided with values vector, and returns the statistic. While there, it seemed to make sense to deduplicate the code by storing all the statistics functions in a map, and then simply iterate over it. And the interface to add new statistics is intentionally exposed, so they may be added easily. The notable change is that Iterations are no longer displayed as 0 for stdev. Is could be changed, but i'm not sure how to nicely fit that into the API. Similarly, this dance about sometimes (for some fields, for some statistics) dividing by run.iterations, and then multiplying the calculated stastic back is also dropped, and if you do the math, i fail to see why it was needed there in the first place. Since that was the only use of stat.h, it is removed. * complexity.h: attempt to fix MSVC build * Update README.md * Store statistics to compute in a vector, ensures ordering. * Add a bit more tests for repetitions. * Partially address review notes. * Fix gcc build: drop extra ';' clang, why didn't you warn me? * Address review comments. * double() -> 0.0 * early return
2017-08-23 23:44:29 +00:00
{"^\"BM_SummaryRepeat/repeats:3_median\",%csv_report$"},
{"^\"BM_SummaryRepeat/repeats:3_stddev\",%csv_report$"}});
// Test that non-aggregate data is not displayed.
// NOTE: this test is kinda bad. we are only testing the display output.
// But we don't check that the file output still contains everything...
void BM_SummaryDisplay(benchmark::State& state) {
for (auto _ : state) {
}
}
BENCHMARK(BM_SummaryDisplay)->Repetitions(2)->DisplayAggregatesOnly();
ADD_CASES(
TC_ConsoleOut,
{{".*BM_SummaryDisplay/repeats:2 ", MR_Not},
{"^BM_SummaryDisplay/repeats:2_mean %console_time_only_report [ ]*2$"},
{"^BM_SummaryDisplay/repeats:2_median %console_time_only_report [ ]*2$"},
{"^BM_SummaryDisplay/repeats:2_stddev %console_time_only_report [ ]*2$"}});
ADD_CASES(TC_JSONOut,
{{".*BM_SummaryDisplay/repeats:2 ", MR_Not},
{"\"name\": \"BM_SummaryDisplay/repeats:2_mean\",$"},
{"\"run_name\": \"BM_SummaryDisplay/repeats:2\",$", MR_Next},
{"\"run_type\": \"aggregate\",$", MR_Next},
{"\"repetitions\": 2,$", MR_Next},
{"\"threads\": 1,$", MR_Next},
{"\"aggregate_name\": \"mean\",$", MR_Next},
{"\"iterations\": 2,$", MR_Next},
{"\"name\": \"BM_SummaryDisplay/repeats:2_median\",$"},
{"\"run_name\": \"BM_SummaryDisplay/repeats:2\",$", MR_Next},
{"\"run_type\": \"aggregate\",$", MR_Next},
{"\"repetitions\": 2,$", MR_Next},
{"\"threads\": 1,$", MR_Next},
{"\"aggregate_name\": \"median\",$", MR_Next},
{"\"iterations\": 2,$", MR_Next},
{"\"name\": \"BM_SummaryDisplay/repeats:2_stddev\",$"},
{"\"run_name\": \"BM_SummaryDisplay/repeats:2\",$", MR_Next},
{"\"run_type\": \"aggregate\",$", MR_Next},
{"\"repetitions\": 2,$", MR_Next},
{"\"threads\": 1,$", MR_Next},
{"\"aggregate_name\": \"stddev\",$", MR_Next},
{"\"iterations\": 2,$", MR_Next}});
ADD_CASES(TC_CSVOut,
{{".*BM_SummaryDisplay/repeats:2 ", MR_Not},
{"^\"BM_SummaryDisplay/repeats:2_mean\",%csv_report$"},
{"^\"BM_SummaryDisplay/repeats:2_median\",%csv_report$"},
{"^\"BM_SummaryDisplay/repeats:2_stddev\",%csv_report$"}});
// Test repeats with custom time unit.
2016-10-21 12:59:06 +00:00
void BM_RepeatTimeUnit(benchmark::State& state) {
for (auto _ : state) {
2016-10-21 12:59:06 +00:00
}
}
BENCHMARK(BM_RepeatTimeUnit)
->Repetitions(3)
->ReportAggregatesOnly()
->Unit(benchmark::kMicrosecond);
ADD_CASES(
TC_ConsoleOut,
{{".*BM_RepeatTimeUnit/repeats:3 ", MR_Not},
{"^BM_RepeatTimeUnit/repeats:3_mean %console_us_time_only_report [ ]*3$"},
{"^BM_RepeatTimeUnit/repeats:3_median %console_us_time_only_report [ "
"]*3$"},
{"^BM_RepeatTimeUnit/repeats:3_stddev %console_us_time_only_report [ "
"]*3$"}});
ADD_CASES(TC_JSONOut,
{{".*BM_RepeatTimeUnit/repeats:3 ", MR_Not},
{"\"name\": \"BM_RepeatTimeUnit/repeats:3_mean\",$"},
{"\"run_name\": \"BM_RepeatTimeUnit/repeats:3\",$", MR_Next},
{"\"run_type\": \"aggregate\",$", MR_Next},
{"\"repetitions\": 3,$", MR_Next},
{"\"threads\": 1,$", MR_Next},
{"\"aggregate_name\": \"mean\",$", MR_Next},
{"\"iterations\": 3,$", MR_Next},
{"\"time_unit\": \"us\",?$"},
{"\"name\": \"BM_RepeatTimeUnit/repeats:3_median\",$"},
{"\"run_name\": \"BM_RepeatTimeUnit/repeats:3\",$", MR_Next},
{"\"run_type\": \"aggregate\",$", MR_Next},
{"\"repetitions\": 3,$", MR_Next},
{"\"threads\": 1,$", MR_Next},
{"\"aggregate_name\": \"median\",$", MR_Next},
{"\"iterations\": 3,$", MR_Next},
{"\"time_unit\": \"us\",?$"},
{"\"name\": \"BM_RepeatTimeUnit/repeats:3_stddev\",$"},
{"\"run_name\": \"BM_RepeatTimeUnit/repeats:3\",$", MR_Next},
{"\"run_type\": \"aggregate\",$", MR_Next},
{"\"repetitions\": 3,$", MR_Next},
{"\"threads\": 1,$", MR_Next},
{"\"aggregate_name\": \"stddev\",$", MR_Next},
{"\"iterations\": 3,$", MR_Next},
{"\"time_unit\": \"us\",?$"}});
2016-10-21 12:59:06 +00:00
ADD_CASES(TC_CSVOut,
{{".*BM_RepeatTimeUnit/repeats:3 ", MR_Not},
{"^\"BM_RepeatTimeUnit/repeats:3_mean\",%csv_us_report$"},
Drop Stat1, refactor statistics to be user-providable, add median. (#428) * Drop Stat1, refactor statistics to be user-providable, add median. My main goal was to add median statistic. Since Stat1 calculated the stats incrementally, and did not store the values themselves, it is was not possible. Thus, i have replaced Stat1 with simple std::vector<double>, containing all the values. Then, i have refactored current mean/stdev to be a function that is provided with values vector, and returns the statistic. While there, it seemed to make sense to deduplicate the code by storing all the statistics functions in a map, and then simply iterate over it. And the interface to add new statistics is intentionally exposed, so they may be added easily. The notable change is that Iterations are no longer displayed as 0 for stdev. Is could be changed, but i'm not sure how to nicely fit that into the API. Similarly, this dance about sometimes (for some fields, for some statistics) dividing by run.iterations, and then multiplying the calculated stastic back is also dropped, and if you do the math, i fail to see why it was needed there in the first place. Since that was the only use of stat.h, it is removed. * complexity.h: attempt to fix MSVC build * Update README.md * Store statistics to compute in a vector, ensures ordering. * Add a bit more tests for repetitions. * Partially address review notes. * Fix gcc build: drop extra ';' clang, why didn't you warn me? * Address review comments. * double() -> 0.0 * early return
2017-08-23 23:44:29 +00:00
{"^\"BM_RepeatTimeUnit/repeats:3_median\",%csv_us_report$"},
2016-10-21 12:59:06 +00:00
{"^\"BM_RepeatTimeUnit/repeats:3_stddev\",%csv_us_report$"}});
Drop Stat1, refactor statistics to be user-providable, add median. (#428) * Drop Stat1, refactor statistics to be user-providable, add median. My main goal was to add median statistic. Since Stat1 calculated the stats incrementally, and did not store the values themselves, it is was not possible. Thus, i have replaced Stat1 with simple std::vector<double>, containing all the values. Then, i have refactored current mean/stdev to be a function that is provided with values vector, and returns the statistic. While there, it seemed to make sense to deduplicate the code by storing all the statistics functions in a map, and then simply iterate over it. And the interface to add new statistics is intentionally exposed, so they may be added easily. The notable change is that Iterations are no longer displayed as 0 for stdev. Is could be changed, but i'm not sure how to nicely fit that into the API. Similarly, this dance about sometimes (for some fields, for some statistics) dividing by run.iterations, and then multiplying the calculated stastic back is also dropped, and if you do the math, i fail to see why it was needed there in the first place. Since that was the only use of stat.h, it is removed. * complexity.h: attempt to fix MSVC build * Update README.md * Store statistics to compute in a vector, ensures ordering. * Add a bit more tests for repetitions. * Partially address review notes. * Fix gcc build: drop extra ';' clang, why didn't you warn me? * Address review comments. * double() -> 0.0 * early return
2017-08-23 23:44:29 +00:00
// ========================================================================= //
// -------------------- Testing user-provided statistics ------------------- //
// ========================================================================= //
const auto UserStatistics = [](const std::vector<double>& v) {
return v.back();
};
void BM_UserStats(benchmark::State& state) {
for (auto _ : state) {
state.SetIterationTime(150 / 10e8);
Drop Stat1, refactor statistics to be user-providable, add median. (#428) * Drop Stat1, refactor statistics to be user-providable, add median. My main goal was to add median statistic. Since Stat1 calculated the stats incrementally, and did not store the values themselves, it is was not possible. Thus, i have replaced Stat1 with simple std::vector<double>, containing all the values. Then, i have refactored current mean/stdev to be a function that is provided with values vector, and returns the statistic. While there, it seemed to make sense to deduplicate the code by storing all the statistics functions in a map, and then simply iterate over it. And the interface to add new statistics is intentionally exposed, so they may be added easily. The notable change is that Iterations are no longer displayed as 0 for stdev. Is could be changed, but i'm not sure how to nicely fit that into the API. Similarly, this dance about sometimes (for some fields, for some statistics) dividing by run.iterations, and then multiplying the calculated stastic back is also dropped, and if you do the math, i fail to see why it was needed there in the first place. Since that was the only use of stat.h, it is removed. * complexity.h: attempt to fix MSVC build * Update README.md * Store statistics to compute in a vector, ensures ordering. * Add a bit more tests for repetitions. * Partially address review notes. * Fix gcc build: drop extra ';' clang, why didn't you warn me? * Address review comments. * double() -> 0.0 * early return
2017-08-23 23:44:29 +00:00
}
}
// clang-format off
Drop Stat1, refactor statistics to be user-providable, add median. (#428) * Drop Stat1, refactor statistics to be user-providable, add median. My main goal was to add median statistic. Since Stat1 calculated the stats incrementally, and did not store the values themselves, it is was not possible. Thus, i have replaced Stat1 with simple std::vector<double>, containing all the values. Then, i have refactored current mean/stdev to be a function that is provided with values vector, and returns the statistic. While there, it seemed to make sense to deduplicate the code by storing all the statistics functions in a map, and then simply iterate over it. And the interface to add new statistics is intentionally exposed, so they may be added easily. The notable change is that Iterations are no longer displayed as 0 for stdev. Is could be changed, but i'm not sure how to nicely fit that into the API. Similarly, this dance about sometimes (for some fields, for some statistics) dividing by run.iterations, and then multiplying the calculated stastic back is also dropped, and if you do the math, i fail to see why it was needed there in the first place. Since that was the only use of stat.h, it is removed. * complexity.h: attempt to fix MSVC build * Update README.md * Store statistics to compute in a vector, ensures ordering. * Add a bit more tests for repetitions. * Partially address review notes. * Fix gcc build: drop extra ';' clang, why didn't you warn me? * Address review comments. * double() -> 0.0 * early return
2017-08-23 23:44:29 +00:00
BENCHMARK(BM_UserStats)
->Repetitions(3)
->Iterations(5)
->UseManualTime()
->ComputeStatistics("", UserStatistics);
// clang-format on
Drop Stat1, refactor statistics to be user-providable, add median. (#428) * Drop Stat1, refactor statistics to be user-providable, add median. My main goal was to add median statistic. Since Stat1 calculated the stats incrementally, and did not store the values themselves, it is was not possible. Thus, i have replaced Stat1 with simple std::vector<double>, containing all the values. Then, i have refactored current mean/stdev to be a function that is provided with values vector, and returns the statistic. While there, it seemed to make sense to deduplicate the code by storing all the statistics functions in a map, and then simply iterate over it. And the interface to add new statistics is intentionally exposed, so they may be added easily. The notable change is that Iterations are no longer displayed as 0 for stdev. Is could be changed, but i'm not sure how to nicely fit that into the API. Similarly, this dance about sometimes (for some fields, for some statistics) dividing by run.iterations, and then multiplying the calculated stastic back is also dropped, and if you do the math, i fail to see why it was needed there in the first place. Since that was the only use of stat.h, it is removed. * complexity.h: attempt to fix MSVC build * Update README.md * Store statistics to compute in a vector, ensures ordering. * Add a bit more tests for repetitions. * Partially address review notes. * Fix gcc build: drop extra ';' clang, why didn't you warn me? * Address review comments. * double() -> 0.0 * early return
2017-08-23 23:44:29 +00:00
// check that user-provided stats is calculated, and is after the default-ones
// empty string as name is intentional, it would sort before anything else
ADD_CASES(TC_ConsoleOut, {{"^BM_UserStats/iterations:5/repeats:3/manual_time [ "
"]* 150 ns %time [ ]*5$"},
{"^BM_UserStats/iterations:5/repeats:3/manual_time [ "
"]* 150 ns %time [ ]*5$"},
{"^BM_UserStats/iterations:5/repeats:3/manual_time [ "
"]* 150 ns %time [ ]*5$"},
{"^BM_UserStats/iterations:5/repeats:3/"
"manual_time_mean [ ]* 150 ns %time [ ]*3$"},
{"^BM_UserStats/iterations:5/repeats:3/"
"manual_time_median [ ]* 150 ns %time [ ]*3$"},
{"^BM_UserStats/iterations:5/repeats:3/"
"manual_time_stddev [ ]* 0.000 ns %time [ ]*3$"},
{"^BM_UserStats/iterations:5/repeats:3/manual_time_ "
"[ ]* 150 ns %time [ ]*3$"}});
ADD_CASES(
TC_JSONOut,
{{"\"name\": \"BM_UserStats/iterations:5/repeats:3/manual_time\",$"},
{"\"run_name\": \"BM_UserStats/iterations:5/repeats:3/manual_time\",$",
MR_Next},
{"\"run_type\": \"iteration\",$", MR_Next},
{"\"repetitions\": 3,$", MR_Next},
{"\"repetition_index\": 0,$", MR_Next},
{"\"threads\": 1,$", MR_Next},
{"\"iterations\": 5,$", MR_Next},
{"\"real_time\": 1\\.5(0)*e\\+(0)*2,$", MR_Next},
{"\"name\": \"BM_UserStats/iterations:5/repeats:3/manual_time\",$"},
{"\"run_name\": \"BM_UserStats/iterations:5/repeats:3/manual_time\",$",
MR_Next},
{"\"run_type\": \"iteration\",$", MR_Next},
{"\"repetitions\": 3,$", MR_Next},
{"\"repetition_index\": 1,$", MR_Next},
{"\"threads\": 1,$", MR_Next},
{"\"iterations\": 5,$", MR_Next},
{"\"real_time\": 1\\.5(0)*e\\+(0)*2,$", MR_Next},
{"\"name\": \"BM_UserStats/iterations:5/repeats:3/manual_time\",$"},
{"\"run_name\": \"BM_UserStats/iterations:5/repeats:3/manual_time\",$",
MR_Next},
{"\"run_type\": \"iteration\",$", MR_Next},
{"\"repetitions\": 3,$", MR_Next},
{"\"repetition_index\": 2,$", MR_Next},
{"\"threads\": 1,$", MR_Next},
{"\"iterations\": 5,$", MR_Next},
{"\"real_time\": 1\\.5(0)*e\\+(0)*2,$", MR_Next},
{"\"name\": \"BM_UserStats/iterations:5/repeats:3/manual_time_mean\",$"},
{"\"run_name\": \"BM_UserStats/iterations:5/repeats:3/manual_time\",$",
MR_Next},
{"\"run_type\": \"aggregate\",$", MR_Next},
{"\"repetitions\": 3,$", MR_Next},
{"\"threads\": 1,$", MR_Next},
{"\"aggregate_name\": \"mean\",$", MR_Next},
{"\"iterations\": 3,$", MR_Next},
{"\"real_time\": 1\\.5(0)*e\\+(0)*2,$", MR_Next},
{"\"name\": \"BM_UserStats/iterations:5/repeats:3/manual_time_median\",$"},
{"\"run_name\": \"BM_UserStats/iterations:5/repeats:3/manual_time\",$",
MR_Next},
{"\"run_type\": \"aggregate\",$", MR_Next},
{"\"repetitions\": 3,$", MR_Next},
{"\"threads\": 1,$", MR_Next},
{"\"aggregate_name\": \"median\",$", MR_Next},
{"\"iterations\": 3,$", MR_Next},
{"\"real_time\": 1\\.5(0)*e\\+(0)*2,$", MR_Next},
{"\"name\": \"BM_UserStats/iterations:5/repeats:3/manual_time_stddev\",$"},
{"\"run_name\": \"BM_UserStats/iterations:5/repeats:3/manual_time\",$",
MR_Next},
{"\"run_type\": \"aggregate\",$", MR_Next},
{"\"repetitions\": 3,$", MR_Next},
{"\"threads\": 1,$", MR_Next},
{"\"aggregate_name\": \"stddev\",$", MR_Next},
{"\"iterations\": 3,$", MR_Next},
{"\"real_time\": %float,$", MR_Next},
{"\"name\": \"BM_UserStats/iterations:5/repeats:3/manual_time_\",$"},
{"\"run_name\": \"BM_UserStats/iterations:5/repeats:3/manual_time\",$",
MR_Next},
{"\"run_type\": \"aggregate\",$", MR_Next},
{"\"repetitions\": 3,$", MR_Next},
{"\"threads\": 1,$", MR_Next},
{"\"aggregate_name\": \"\",$", MR_Next},
{"\"iterations\": 3,$", MR_Next},
{"\"real_time\": 1\\.5(0)*e\\+(0)*2,$", MR_Next}});
ADD_CASES(
TC_CSVOut,
{{"^\"BM_UserStats/iterations:5/repeats:3/manual_time\",%csv_report$"},
{"^\"BM_UserStats/iterations:5/repeats:3/manual_time\",%csv_report$"},
{"^\"BM_UserStats/iterations:5/repeats:3/manual_time\",%csv_report$"},
{"^\"BM_UserStats/iterations:5/repeats:3/manual_time_mean\",%csv_report$"},
{"^\"BM_UserStats/iterations:5/repeats:3/"
"manual_time_median\",%csv_report$"},
{"^\"BM_UserStats/iterations:5/repeats:3/"
"manual_time_stddev\",%csv_report$"},
{"^\"BM_UserStats/iterations:5/repeats:3/manual_time_\",%csv_report$"}});
Drop Stat1, refactor statistics to be user-providable, add median. (#428) * Drop Stat1, refactor statistics to be user-providable, add median. My main goal was to add median statistic. Since Stat1 calculated the stats incrementally, and did not store the values themselves, it is was not possible. Thus, i have replaced Stat1 with simple std::vector<double>, containing all the values. Then, i have refactored current mean/stdev to be a function that is provided with values vector, and returns the statistic. While there, it seemed to make sense to deduplicate the code by storing all the statistics functions in a map, and then simply iterate over it. And the interface to add new statistics is intentionally exposed, so they may be added easily. The notable change is that Iterations are no longer displayed as 0 for stdev. Is could be changed, but i'm not sure how to nicely fit that into the API. Similarly, this dance about sometimes (for some fields, for some statistics) dividing by run.iterations, and then multiplying the calculated stastic back is also dropped, and if you do the math, i fail to see why it was needed there in the first place. Since that was the only use of stat.h, it is removed. * complexity.h: attempt to fix MSVC build * Update README.md * Store statistics to compute in a vector, ensures ordering. * Add a bit more tests for repetitions. * Partially address review notes. * Fix gcc build: drop extra ';' clang, why didn't you warn me? * Address review comments. * double() -> 0.0 * early return
2017-08-23 23:44:29 +00:00
// ========================================================================= //
// --------------------------- TEST CASES END ------------------------------ //
// ========================================================================= //
2016-10-21 12:59:06 +00:00
int main(int argc, char* argv[]) { RunOutputTests(argc, argv); }