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-rw-r--r--src/bench/Examples.cpp4
-rw-r--r--src/bench/base58.cpp6
-rw-r--r--src/bench/bench.cpp182
-rw-r--r--src/bench/bench.h143
-rw-r--r--src/bench/bench_bitcoin.cpp48
-rw-r--r--src/bench/ccoins_caching.cpp2
-rw-r--r--src/bench/checkblock.cpp4
-rw-r--r--src/bench/checkqueue.cpp4
-rw-r--r--src/bench/coin_selection.cpp2
-rw-r--r--src/bench/crypto_hash.cpp35
-rw-r--r--src/bench/lockedpool.cpp3
-rw-r--r--src/bench/mempool_eviction.cpp2
-rw-r--r--src/bench/prevector_destructor.cpp4
-rw-r--r--src/bench/rollingbloom.cpp16
-rw-r--r--src/bench/verify_script.cpp2
15 files changed, 286 insertions, 171 deletions
diff --git a/src/bench/Examples.cpp b/src/bench/Examples.cpp
index 536e450940..47d80e5e01 100644
--- a/src/bench/Examples.cpp
+++ b/src/bench/Examples.cpp
@@ -15,7 +15,7 @@ static void Sleep100ms(benchmark::State& state)
}
}
-BENCHMARK(Sleep100ms);
+BENCHMARK(Sleep100ms, 10);
// Extremely fast-running benchmark:
#include <math.h>
@@ -31,4 +31,4 @@ static void Trig(benchmark::State& state)
}
}
-BENCHMARK(Trig);
+BENCHMARK(Trig, 12 * 1000 * 1000);
diff --git a/src/bench/base58.cpp b/src/bench/base58.cpp
index 2d9a9f2908..294fcc3c33 100644
--- a/src/bench/base58.cpp
+++ b/src/bench/base58.cpp
@@ -54,6 +54,6 @@ static void Base58Decode(benchmark::State& state)
}
-BENCHMARK(Base58Encode);
-BENCHMARK(Base58CheckEncode);
-BENCHMARK(Base58Decode);
+BENCHMARK(Base58Encode, 470 * 1000);
+BENCHMARK(Base58CheckEncode, 320 * 1000);
+BENCHMARK(Base58Decode, 800 * 1000);
diff --git a/src/bench/bench.cpp b/src/bench/bench.cpp
index 1482452814..edbad09ebd 100644
--- a/src/bench/bench.cpp
+++ b/src/bench/bench.cpp
@@ -8,98 +8,136 @@
#include <assert.h>
#include <iostream>
#include <iomanip>
+#include <algorithm>
+#include <regex>
+#include <numeric>
-benchmark::BenchRunner::BenchmarkMap &benchmark::BenchRunner::benchmarks() {
- static std::map<std::string, benchmark::BenchFunction> benchmarks_map;
- return benchmarks_map;
+void benchmark::ConsolePrinter::header()
+{
+ std::cout << "# Benchmark, evals, iterations, total, min, max, median" << std::endl;
}
-benchmark::BenchRunner::BenchRunner(std::string name, benchmark::BenchFunction func)
+void benchmark::ConsolePrinter::result(const State& state)
{
- benchmarks().insert(std::make_pair(name, func));
+ auto results = state.m_elapsed_results;
+ std::sort(results.begin(), results.end());
+
+ double total = state.m_num_iters * std::accumulate(results.begin(), results.end(), 0.0);
+
+ double front = 0;
+ double back = 0;
+ double median = 0;
+
+ if (!results.empty()) {
+ front = results.front();
+ back = results.back();
+
+ size_t mid = results.size() / 2;
+ median = results[mid];
+ if (0 == results.size() % 2) {
+ median = (results[mid] + results[mid + 1]) / 2;
+ }
+ }
+
+ std::cout << std::setprecision(6);
+ std::cout << state.m_name << ", " << state.m_num_evals << ", " << state.m_num_iters << ", " << total << ", " << front << ", " << back << ", " << median << std::endl;
}
-void
-benchmark::BenchRunner::RunAll(benchmark::duration elapsedTimeForOne)
+void benchmark::ConsolePrinter::footer() {}
+benchmark::PlotlyPrinter::PlotlyPrinter(std::string plotly_url, int64_t width, int64_t height)
+ : m_plotly_url(plotly_url), m_width(width), m_height(height)
{
- perf_init();
- if (std::ratio_less_equal<benchmark::clock::period, std::micro>::value) {
- std::cerr << "WARNING: Clock precision is worse than microsecond - benchmarks may be less accurate!\n";
- }
- std::cout << "#Benchmark" << "," << "count" << "," << "min(ns)" << "," << "max(ns)" << "," << "average(ns)" << ","
- << "min_cycles" << "," << "max_cycles" << "," << "average_cycles" << "\n";
+}
- for (const auto &p: benchmarks()) {
- State state(p.first, elapsedTimeForOne);
- p.second(state);
- }
- perf_fini();
+void benchmark::PlotlyPrinter::header()
+{
+ std::cout << "<html><head>"
+ << "<script src=\"" << m_plotly_url << "\"></script>"
+ << "</head><body><div id=\"myDiv\" style=\"width:" << m_width << "px; height:" << m_height << "px\"></div>"
+ << "<script> var data = ["
+ << std::endl;
}
-bool benchmark::State::KeepRunning()
+void benchmark::PlotlyPrinter::result(const State& state)
{
- if (count & countMask) {
- ++count;
- return true;
+ std::cout << "{ " << std::endl
+ << " name: '" << state.m_name << "', " << std::endl
+ << " y: [";
+
+ const char* prefix = "";
+ for (const auto& e : state.m_elapsed_results) {
+ std::cout << prefix << std::setprecision(6) << e;
+ prefix = ", ";
}
- time_point now;
+ std::cout << "]," << std::endl
+ << " boxpoints: 'all', jitter: 0.3, pointpos: 0, type: 'box',"
+ << std::endl
+ << "}," << std::endl;
+}
+
+void benchmark::PlotlyPrinter::footer()
+{
+ std::cout << "]; var layout = { showlegend: false, yaxis: { rangemode: 'tozero', autorange: true } };"
+ << "Plotly.newPlot('myDiv', data, layout);"
+ << "</script></body></html>";
+}
- uint64_t nowCycles;
- if (count == 0) {
- lastTime = beginTime = now = clock::now();
- lastCycles = beginCycles = nowCycles = perf_cpucycles();
+
+benchmark::BenchRunner::BenchmarkMap& benchmark::BenchRunner::benchmarks()
+{
+ static std::map<std::string, Bench> benchmarks_map;
+ return benchmarks_map;
+}
+
+benchmark::BenchRunner::BenchRunner(std::string name, benchmark::BenchFunction func, uint64_t num_iters_for_one_second)
+{
+ benchmarks().insert(std::make_pair(name, Bench{func, num_iters_for_one_second}));
+}
+
+void benchmark::BenchRunner::RunAll(Printer& printer, uint64_t num_evals, double scaling, const std::string& filter, bool is_list_only)
+{
+ perf_init();
+ if (!std::ratio_less_equal<benchmark::clock::period, std::micro>::value) {
+ std::cerr << "WARNING: Clock precision is worse than microsecond - benchmarks may be less accurate!\n";
}
- else {
- now = clock::now();
- auto elapsed = now - lastTime;
- auto elapsedOne = elapsed / (countMask + 1);
- if (elapsedOne < minTime) minTime = elapsedOne;
- if (elapsedOne > maxTime) maxTime = elapsedOne;
-
- // We only use relative values, so don't have to handle 64-bit wrap-around specially
- nowCycles = perf_cpucycles();
- uint64_t elapsedOneCycles = (nowCycles - lastCycles) / (countMask + 1);
- if (elapsedOneCycles < minCycles) minCycles = elapsedOneCycles;
- if (elapsedOneCycles > maxCycles) maxCycles = elapsedOneCycles;
-
- if (elapsed*128 < maxElapsed) {
- // If the execution was much too fast (1/128th of maxElapsed), increase the count mask by 8x and restart timing.
- // The restart avoids including the overhead of this code in the measurement.
- countMask = ((countMask<<3)|7) & ((1LL<<60)-1);
- count = 0;
- minTime = duration::max();
- maxTime = duration::zero();
- minCycles = std::numeric_limits<uint64_t>::max();
- maxCycles = std::numeric_limits<uint64_t>::min();
- return true;
+
+ std::regex reFilter(filter);
+ std::smatch baseMatch;
+
+ printer.header();
+
+ for (const auto& p : benchmarks()) {
+ if (!std::regex_match(p.first, baseMatch, reFilter)) {
+ continue;
+ }
+
+ uint64_t num_iters = static_cast<uint64_t>(p.second.num_iters_for_one_second * scaling);
+ if (0 == num_iters) {
+ num_iters = 1;
}
- if (elapsed*16 < maxElapsed) {
- uint64_t newCountMask = ((countMask<<1)|1) & ((1LL<<60)-1);
- if ((count & newCountMask)==0) {
- countMask = newCountMask;
- }
+ State state(p.first, num_evals, num_iters, printer);
+ if (!is_list_only) {
+ p.second.func(state);
}
+ printer.result(state);
}
- lastTime = now;
- lastCycles = nowCycles;
- ++count;
- if (now - beginTime < maxElapsed) return true; // Keep going
+ printer.footer();
- --count;
+ perf_fini();
+}
- assert(count != 0 && "count == 0 => (now == 0 && beginTime == 0) => return above");
+bool benchmark::State::UpdateTimer(const benchmark::time_point current_time)
+{
+ if (m_start_time != time_point()) {
+ std::chrono::duration<double> diff = current_time - m_start_time;
+ m_elapsed_results.push_back(diff.count() / m_num_iters);
- // Output results
- // Duration casts are only necessary here because hardware with sub-nanosecond clocks
- // will lose precision.
- int64_t min_elapsed = std::chrono::duration_cast<std::chrono::nanoseconds>(minTime).count();
- int64_t max_elapsed = std::chrono::duration_cast<std::chrono::nanoseconds>(maxTime).count();
- int64_t avg_elapsed = std::chrono::duration_cast<std::chrono::nanoseconds>((now-beginTime)/count).count();
- int64_t averageCycles = (nowCycles-beginCycles)/count;
- std::cout << std::fixed << std::setprecision(15) << name << "," << count << "," << min_elapsed << "," << max_elapsed << "," << avg_elapsed << ","
- << minCycles << "," << maxCycles << "," << averageCycles << "\n";
- std::cout.copyfmt(std::ios(nullptr));
+ if (m_elapsed_results.size() == m_num_evals) {
+ return false;
+ }
+ }
- return false;
+ m_num_iters_left = m_num_iters - 1;
+ return true;
}
diff --git a/src/bench/bench.h b/src/bench/bench.h
index 071a5dc9c7..b7d81f0e21 100644
--- a/src/bench/bench.h
+++ b/src/bench/bench.h
@@ -9,6 +9,7 @@
#include <limits>
#include <map>
#include <string>
+#include <vector>
#include <chrono>
#include <boost/preprocessor/cat.hpp>
@@ -32,64 +33,110 @@ static void CODE_TO_TIME(benchmark::State& state)
... do any cleanup needed...
}
-BENCHMARK(CODE_TO_TIME);
+// default to running benchmark for 5000 iterations
+BENCHMARK(CODE_TO_TIME, 5000);
*/
-
+
namespace benchmark {
- // In case high_resolution_clock is steady, prefer that, otherwise use steady_clock.
- struct best_clock {
- using hi_res_clock = std::chrono::high_resolution_clock;
- using steady_clock = std::chrono::steady_clock;
- using type = std::conditional<hi_res_clock::is_steady, hi_res_clock, steady_clock>::type;
- };
- using clock = best_clock::type;
- using time_point = clock::time_point;
- using duration = clock::duration;
-
- class State {
- std::string name;
- duration maxElapsed;
- time_point beginTime, lastTime;
- duration minTime, maxTime;
- uint64_t count;
- uint64_t countMask;
- uint64_t beginCycles;
- uint64_t lastCycles;
- uint64_t minCycles;
- uint64_t maxCycles;
- public:
- State(std::string _name, duration _maxElapsed) :
- name(_name),
- maxElapsed(_maxElapsed),
- minTime(duration::max()),
- maxTime(duration::zero()),
- count(0),
- countMask(1),
- beginCycles(0),
- lastCycles(0),
- minCycles(std::numeric_limits<uint64_t>::max()),
- maxCycles(std::numeric_limits<uint64_t>::min()) {
- }
- bool KeepRunning();
- };
+// In case high_resolution_clock is steady, prefer that, otherwise use steady_clock.
+struct best_clock {
+ using hi_res_clock = std::chrono::high_resolution_clock;
+ using steady_clock = std::chrono::steady_clock;
+ using type = std::conditional<hi_res_clock::is_steady, hi_res_clock, steady_clock>::type;
+};
+using clock = best_clock::type;
+using time_point = clock::time_point;
+using duration = clock::duration;
+
+class Printer;
+
+class State
+{
+public:
+ std::string m_name;
+ uint64_t m_num_iters_left;
+ const uint64_t m_num_iters;
+ const uint64_t m_num_evals;
+ std::vector<double> m_elapsed_results;
+ time_point m_start_time;
+
+ bool UpdateTimer(time_point finish_time);
- typedef std::function<void(State&)> BenchFunction;
+ State(std::string name, uint64_t num_evals, double num_iters, Printer& printer) : m_name(name), m_num_iters_left(0), m_num_iters(num_iters), m_num_evals(num_evals)
+ {
+ }
- class BenchRunner
+ inline bool KeepRunning()
{
- typedef std::map<std::string, BenchFunction> BenchmarkMap;
- static BenchmarkMap &benchmarks();
+ if (m_num_iters_left--) {
+ return true;
+ }
+
+ bool result = UpdateTimer(clock::now());
+ // measure again so runtime of UpdateTimer is not included
+ m_start_time = clock::now();
+ return result;
+ }
+};
- public:
- BenchRunner(std::string name, BenchFunction func);
+typedef std::function<void(State&)> BenchFunction;
- static void RunAll(duration elapsedTimeForOne = std::chrono::seconds(1));
+class BenchRunner
+{
+ struct Bench {
+ BenchFunction func;
+ uint64_t num_iters_for_one_second;
};
+ typedef std::map<std::string, Bench> BenchmarkMap;
+ static BenchmarkMap& benchmarks();
+
+public:
+ BenchRunner(std::string name, BenchFunction func, uint64_t num_iters_for_one_second);
+
+ static void RunAll(Printer& printer, uint64_t num_evals, double scaling, const std::string& filter, bool is_list_only);
+};
+
+// interface to output benchmark results.
+class Printer
+{
+public:
+ virtual ~Printer() {}
+ virtual void header() = 0;
+ virtual void result(const State& state) = 0;
+ virtual void footer() = 0;
+};
+
+// default printer to console, shows min, max, median.
+class ConsolePrinter : public Printer
+{
+public:
+ void header();
+ void result(const State& state);
+ void footer();
+};
+
+// creates box plot with plotly.js
+class PlotlyPrinter : public Printer
+{
+public:
+ PlotlyPrinter(std::string plotly_url, int64_t width, int64_t height);
+ void header();
+ void result(const State& state);
+ void footer();
+
+private:
+ std::string m_plotly_url;
+ int64_t m_width;
+ int64_t m_height;
+};
}
-// BENCHMARK(foo) expands to: benchmark::BenchRunner bench_11foo("foo", foo);
-#define BENCHMARK(n) \
- benchmark::BenchRunner BOOST_PP_CAT(bench_, BOOST_PP_CAT(__LINE__, n))(BOOST_PP_STRINGIZE(n), n);
+
+// BENCHMARK(foo, num_iters_for_one_second) expands to: benchmark::BenchRunner bench_11foo("foo", num_iterations);
+// Choose a num_iters_for_one_second that takes roughly 1 second. The goal is that all benchmarks should take approximately
+// the same time, and scaling factor can be used that the total time is appropriate for your system.
+#define BENCHMARK(n, num_iters_for_one_second) \
+ benchmark::BenchRunner BOOST_PP_CAT(bench_, BOOST_PP_CAT(__LINE__, n))(BOOST_PP_STRINGIZE(n), n, (num_iters_for_one_second));
#endif // BITCOIN_BENCH_BENCH_H
diff --git a/src/bench/bench_bitcoin.cpp b/src/bench/bench_bitcoin.cpp
index 84e51d809a..5e0432f0ee 100644
--- a/src/bench/bench_bitcoin.cpp
+++ b/src/bench/bench_bitcoin.cpp
@@ -10,16 +10,62 @@
#include <util.h>
#include <random.h>
+#include <boost/lexical_cast.hpp>
+
+#include <memory>
+
+static const int64_t DEFAULT_BENCH_EVALUATIONS = 5;
+static const char* DEFAULT_BENCH_FILTER = ".*";
+static const char* DEFAULT_BENCH_SCALING = "1.0";
+static const char* DEFAULT_BENCH_PRINTER = "console";
+static const char* DEFAULT_PLOT_PLOTLYURL = "https://cdn.plot.ly/plotly-latest.min.js";
+static const int64_t DEFAULT_PLOT_WIDTH = 1024;
+static const int64_t DEFAULT_PLOT_HEIGHT = 768;
+
int
main(int argc, char** argv)
{
+ gArgs.ParseParameters(argc, argv);
+
+ if (gArgs.IsArgSet("-?") || gArgs.IsArgSet("-h") || gArgs.IsArgSet("-help")) {
+ std::cout << HelpMessageGroup(_("Options:"))
+ << HelpMessageOpt("-?", _("Print this help message and exit"))
+ << HelpMessageOpt("-list", _("List benchmarks without executing them. Can be combined with -scaling and -filter"))
+ << HelpMessageOpt("-evals=<n>", strprintf(_("Number of measurement evaluations to perform. (default: %u)"), DEFAULT_BENCH_EVALUATIONS))
+ << HelpMessageOpt("-filter=<regex>", strprintf(_("Regular expression filter to select benchmark by name (default: %s)"), DEFAULT_BENCH_FILTER))
+ << HelpMessageOpt("-scaling=<n>", strprintf(_("Scaling factor for benchmark's runtime (default: %u)"), DEFAULT_BENCH_SCALING))
+ << HelpMessageOpt("-printer=(console|plot)", strprintf(_("Choose printer format. console: print data to console. plot: Print results as HTML graph (default: %s)"), DEFAULT_BENCH_PRINTER))
+ << HelpMessageOpt("-plot-plotlyurl=<uri>", strprintf(_("URL to use for plotly.js (default: %s)"), DEFAULT_PLOT_PLOTLYURL))
+ << HelpMessageOpt("-plot-width=<x>", strprintf(_("Plot width in pixel (default: %u)"), DEFAULT_PLOT_WIDTH))
+ << HelpMessageOpt("-plot-height=<x>", strprintf(_("Plot height in pixel (default: %u)"), DEFAULT_PLOT_HEIGHT));
+
+ return 0;
+ }
+
SHA256AutoDetect();
RandomInit();
ECC_Start();
SetupEnvironment();
fPrintToDebugLog = false; // don't want to write to debug.log file
- benchmark::BenchRunner::RunAll();
+ int64_t evaluations = gArgs.GetArg("-evals", DEFAULT_BENCH_EVALUATIONS);
+ std::string regex_filter = gArgs.GetArg("-filter", DEFAULT_BENCH_FILTER);
+ std::string scaling_str = gArgs.GetArg("-scaling", DEFAULT_BENCH_SCALING);
+ bool is_list_only = gArgs.GetBoolArg("-list", false);
+
+ double scaling_factor = boost::lexical_cast<double>(scaling_str);
+
+
+ std::unique_ptr<benchmark::Printer> printer(new benchmark::ConsolePrinter());
+ std::string printer_arg = gArgs.GetArg("-printer", DEFAULT_BENCH_PRINTER);
+ if ("plot" == printer_arg) {
+ printer.reset(new benchmark::PlotlyPrinter(
+ gArgs.GetArg("-plot-plotlyurl", DEFAULT_PLOT_PLOTLYURL),
+ gArgs.GetArg("-plot-width", DEFAULT_PLOT_WIDTH),
+ gArgs.GetArg("-plot-height", DEFAULT_PLOT_HEIGHT)));
+ }
+
+ benchmark::BenchRunner::RunAll(*printer, evaluations, scaling_factor, regex_filter, is_list_only);
ECC_Stop();
}
diff --git a/src/bench/ccoins_caching.cpp b/src/bench/ccoins_caching.cpp
index 89ba3d3d21..1bce0fffbd 100644
--- a/src/bench/ccoins_caching.cpp
+++ b/src/bench/ccoins_caching.cpp
@@ -84,4 +84,4 @@ static void CCoinsCaching(benchmark::State& state)
}
}
-BENCHMARK(CCoinsCaching);
+BENCHMARK(CCoinsCaching, 170 * 1000);
diff --git a/src/bench/checkblock.cpp b/src/bench/checkblock.cpp
index 9533b3c711..af77c8cd8b 100644
--- a/src/bench/checkblock.cpp
+++ b/src/bench/checkblock.cpp
@@ -52,5 +52,5 @@ static void DeserializeAndCheckBlockTest(benchmark::State& state)
}
}
-BENCHMARK(DeserializeBlockTest);
-BENCHMARK(DeserializeAndCheckBlockTest);
+BENCHMARK(DeserializeBlockTest, 130);
+BENCHMARK(DeserializeAndCheckBlockTest, 160);
diff --git a/src/bench/checkqueue.cpp b/src/bench/checkqueue.cpp
index 35750aa1b6..e79c986792 100644
--- a/src/bench/checkqueue.cpp
+++ b/src/bench/checkqueue.cpp
@@ -99,5 +99,5 @@ static void CCheckQueueSpeedPrevectorJob(benchmark::State& state)
tg.interrupt_all();
tg.join_all();
}
-BENCHMARK(CCheckQueueSpeed);
-BENCHMARK(CCheckQueueSpeedPrevectorJob);
+BENCHMARK(CCheckQueueSpeed, 29000);
+BENCHMARK(CCheckQueueSpeedPrevectorJob, 1400);
diff --git a/src/bench/coin_selection.cpp b/src/bench/coin_selection.cpp
index ff57f88170..b9353293d4 100644
--- a/src/bench/coin_selection.cpp
+++ b/src/bench/coin_selection.cpp
@@ -56,4 +56,4 @@ static void CoinSelection(benchmark::State& state)
}
}
-BENCHMARK(CoinSelection);
+BENCHMARK(CoinSelection, 650);
diff --git a/src/bench/crypto_hash.cpp b/src/bench/crypto_hash.cpp
index b37b5cad62..bb89718074 100644
--- a/src/bench/crypto_hash.cpp
+++ b/src/bench/crypto_hash.cpp
@@ -46,9 +46,9 @@ static void SHA256_32b(benchmark::State& state)
{
std::vector<uint8_t> in(32,0);
while (state.KeepRunning()) {
- for (int i = 0; i < 1000000; i++) {
- CSHA256().Write(in.data(), in.size()).Finalize(in.data());
- }
+ CSHA256()
+ .Write(in.data(), in.size())
+ .Finalize(in.data());
}
}
@@ -63,10 +63,9 @@ static void SHA512(benchmark::State& state)
static void SipHash_32b(benchmark::State& state)
{
uint256 x;
+ uint64_t k1 = 0;
while (state.KeepRunning()) {
- for (int i = 0; i < 1000000; i++) {
- *((uint64_t*)x.begin()) = SipHashUint256(0, i, x);
- }
+ *((uint64_t*)x.begin()) = SipHashUint256(0, ++k1, x);
}
}
@@ -75,9 +74,7 @@ static void FastRandom_32bit(benchmark::State& state)
FastRandomContext rng(true);
uint32_t x = 0;
while (state.KeepRunning()) {
- for (int i = 0; i < 1000000; i++) {
- x += rng.rand32();
- }
+ x += rng.rand32();
}
}
@@ -86,18 +83,16 @@ static void FastRandom_1bit(benchmark::State& state)
FastRandomContext rng(true);
uint32_t x = 0;
while (state.KeepRunning()) {
- for (int i = 0; i < 1000000; i++) {
- x += rng.randbool();
- }
+ x += rng.randbool();
}
}
-BENCHMARK(RIPEMD160);
-BENCHMARK(SHA1);
-BENCHMARK(SHA256);
-BENCHMARK(SHA512);
+BENCHMARK(RIPEMD160, 440);
+BENCHMARK(SHA1, 570);
+BENCHMARK(SHA256, 340);
+BENCHMARK(SHA512, 330);
-BENCHMARK(SHA256_32b);
-BENCHMARK(SipHash_32b);
-BENCHMARK(FastRandom_32bit);
-BENCHMARK(FastRandom_1bit);
+BENCHMARK(SHA256_32b, 4700 * 1000);
+BENCHMARK(SipHash_32b, 40 * 1000 * 1000);
+BENCHMARK(FastRandom_32bit, 110 * 1000 * 1000);
+BENCHMARK(FastRandom_1bit, 440 * 1000 * 1000);
diff --git a/src/bench/lockedpool.cpp b/src/bench/lockedpool.cpp
index b0bfa95144..914e37a2ed 100644
--- a/src/bench/lockedpool.cpp
+++ b/src/bench/lockedpool.cpp
@@ -43,5 +43,4 @@ static void BenchLockedPool(benchmark::State& state)
addr.clear();
}
-BENCHMARK(BenchLockedPool);
-
+BENCHMARK(BenchLockedPool, 530);
diff --git a/src/bench/mempool_eviction.cpp b/src/bench/mempool_eviction.cpp
index eda6edbb23..de9f6432e3 100644
--- a/src/bench/mempool_eviction.cpp
+++ b/src/bench/mempool_eviction.cpp
@@ -111,4 +111,4 @@ static void MempoolEviction(benchmark::State& state)
}
}
-BENCHMARK(MempoolEviction);
+BENCHMARK(MempoolEviction, 41000);
diff --git a/src/bench/prevector_destructor.cpp b/src/bench/prevector_destructor.cpp
index de7ecab737..39d0ee5eb1 100644
--- a/src/bench/prevector_destructor.cpp
+++ b/src/bench/prevector_destructor.cpp
@@ -32,5 +32,5 @@ static void PrevectorClear(benchmark::State& state)
}
}
-BENCHMARK(PrevectorDestructor);
-BENCHMARK(PrevectorClear);
+BENCHMARK(PrevectorDestructor, 5700);
+BENCHMARK(PrevectorClear, 5600);
diff --git a/src/bench/rollingbloom.cpp b/src/bench/rollingbloom.cpp
index 452099b800..031355c06e 100644
--- a/src/bench/rollingbloom.cpp
+++ b/src/bench/rollingbloom.cpp
@@ -12,8 +12,6 @@ static void RollingBloom(benchmark::State& state)
CRollingBloomFilter filter(120000, 0.000001);
std::vector<unsigned char> data(32);
uint32_t count = 0;
- uint32_t nEntriesPerGeneration = (120000 + 1) / 2;
- uint32_t countnow = 0;
uint64_t match = 0;
while (state.KeepRunning()) {
count++;
@@ -21,16 +19,8 @@ static void RollingBloom(benchmark::State& state)
data[1] = count >> 8;
data[2] = count >> 16;
data[3] = count >> 24;
- if (countnow == nEntriesPerGeneration) {
- auto b = benchmark::clock::now();
- filter.insert(data);
- auto total = std::chrono::duration_cast<std::chrono::nanoseconds>(benchmark::clock::now() - b).count();
- std::cout << "RollingBloom-refresh,1," << total << "," << total << "," << total << "\n";
- countnow = 0;
- } else {
- filter.insert(data);
- }
- countnow++;
+ filter.insert(data);
+
data[0] = count >> 24;
data[1] = count >> 16;
data[2] = count >> 8;
@@ -39,4 +29,4 @@ static void RollingBloom(benchmark::State& state)
}
}
-BENCHMARK(RollingBloom);
+BENCHMARK(RollingBloom, 1500 * 1000);
diff --git a/src/bench/verify_script.cpp b/src/bench/verify_script.cpp
index bfa5806c9d..af6d626ed0 100644
--- a/src/bench/verify_script.cpp
+++ b/src/bench/verify_script.cpp
@@ -105,4 +105,4 @@ static void VerifyScriptBench(benchmark::State& state)
}
}
-BENCHMARK(VerifyScriptBench);
+BENCHMARK(VerifyScriptBench, 6300);