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Roman Lebedev d6ba952fc1
compare.py: compute and print 'OVERALL GEOMEAN' aggregate (#1289)
Despite the wide variety of the features we provide,
some people still have the audacity to complain and demand more.

Concretely, i *very* often would like to see the overall result
of the benchmark. Is the 'new' better or worse, overall,
over all the non-aggregate time/cpu measurements.

This comes up for me most often when i want to quickly see
what effect some LLVM optimization change has on the benchmark.

The idea is straight-forward, just produce four lists:
wall times for LHS benchmark, CPU times for LHS benchmark,
wall times for RHS benchmark, CPU times for RHS benchmark;
then compute geomean for each one of those four lists,
and compute the two percentage change between
* geomean wall time for LHS benchmark and geomean wall time for RHS benchmark
* geomean CPU time for LHS benchmark and geomean CPU time for RHS benchmark
and voila!

It is complicated by the fact that it needs to graciously handle
different time units, so pandas.Timedelta dependency is introduced.
That is the only library that does not barf upon floating times,
i have tried numpy.timedelta64 (only takes integers)
and python's datetime.timedelta (does not take nanosecons),
and they won't do.

Fixes https://github.com/google/benchmark/issues/1147
2021-11-24 10:47:08 +00:00
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README.md

Benchmark

build-and-test bazel pylint test-bindings

Build Status Coverage Status

A library to benchmark code snippets, similar to unit tests. Example:

#include <benchmark/benchmark.h>

static void BM_SomeFunction(benchmark::State& state) {
  // Perform setup here
  for (auto _ : state) {
    // This code gets timed
    SomeFunction();
  }
}
// Register the function as a benchmark
BENCHMARK(BM_SomeFunction);
// Run the benchmark
BENCHMARK_MAIN();

Getting Started

To get started, see Requirements and Installation. See Usage for a full example and the User Guide for a more comprehensive feature overview.

It may also help to read the Google Test documentation as some of the structural aspects of the APIs are similar.

Resources

Discussion group

IRC channels:

Additional Tooling Documentation

Assembly Testing Documentation

Requirements

The library can be used with C++03. However, it requires C++11 to build, including compiler and standard library support.

The following minimum versions are required to build the library:

  • GCC 4.8
  • Clang 3.4
  • Visual Studio 14 2015
  • Intel 2015 Update 1

See Platform-Specific Build Instructions.

Installation

This describes the installation process using cmake. As pre-requisites, you'll need git and cmake installed.

See dependencies.md for more details regarding supported versions of build tools.

# Check out the library.
$ git clone https://github.com/google/benchmark.git
# Go to the library root directory
$ cd benchmark
# Make a build directory to place the build output.
$ cmake -E make_directory "build"
# Generate build system files with cmake, and download any dependencies.
$ cmake -E chdir "build" cmake -DBENCHMARK_DOWNLOAD_DEPENDENCIES=on -DCMAKE_BUILD_TYPE=Release ../
# or, starting with CMake 3.13, use a simpler form:
# cmake -DCMAKE_BUILD_TYPE=Release -S . -B "build"
# Build the library.
$ cmake --build "build" --config Release

This builds the benchmark and benchmark_main libraries and tests. On a unix system, the build directory should now look something like this:

/benchmark
  /build
    /src
      /libbenchmark.a
      /libbenchmark_main.a
    /test
      ...

Next, you can run the tests to check the build.

$ cmake -E chdir "build" ctest --build-config Release

If you want to install the library globally, also run:

sudo cmake --build "build" --config Release --target install

Note that Google Benchmark requires Google Test to build and run the tests. This dependency can be provided two ways:

  • Checkout the Google Test sources into benchmark/googletest.
  • Otherwise, if -DBENCHMARK_DOWNLOAD_DEPENDENCIES=ON is specified during configuration as above, the library will automatically download and build any required dependencies.

If you do not wish to build and run the tests, add -DBENCHMARK_ENABLE_GTEST_TESTS=OFF to CMAKE_ARGS.

Debug vs Release

By default, benchmark builds as a debug library. You will see a warning in the output when this is the case. To build it as a release library instead, add -DCMAKE_BUILD_TYPE=Release when generating the build system files, as shown above. The use of --config Release in build commands is needed to properly support multi-configuration tools (like Visual Studio for example) and can be skipped for other build systems (like Makefile).

To enable link-time optimisation, also add -DBENCHMARK_ENABLE_LTO=true when generating the build system files.

If you are using gcc, you might need to set GCC_AR and GCC_RANLIB cmake cache variables, if autodetection fails.

If you are using clang, you may need to set LLVMAR_EXECUTABLE, LLVMNM_EXECUTABLE and LLVMRANLIB_EXECUTABLE cmake cache variables.

Stable and Experimental Library Versions

The main branch contains the latest stable version of the benchmarking library; the API of which can be considered largely stable, with source breaking changes being made only upon the release of a new major version.

Newer, experimental, features are implemented and tested on the v2 branch. Users who wish to use, test, and provide feedback on the new features are encouraged to try this branch. However, this branch provides no stability guarantees and reserves the right to change and break the API at any time.

Usage

Basic usage

Define a function that executes the code to measure, register it as a benchmark function using the BENCHMARK macro, and ensure an appropriate main function is available:

#include <benchmark/benchmark.h>

static void BM_StringCreation(benchmark::State& state) {
  for (auto _ : state)
    std::string empty_string;
}
// Register the function as a benchmark
BENCHMARK(BM_StringCreation);

// Define another benchmark
static void BM_StringCopy(benchmark::State& state) {
  std::string x = "hello";
  for (auto _ : state)
    std::string copy(x);
}
BENCHMARK(BM_StringCopy);

BENCHMARK_MAIN();

To run the benchmark, compile and link against the benchmark library (libbenchmark.a/.so). If you followed the build steps above, this library will be under the build directory you created.

# Example on linux after running the build steps above. Assumes the
# `benchmark` and `build` directories are under the current directory.
$ g++ mybenchmark.cc -std=c++11 -isystem benchmark/include \
  -Lbenchmark/build/src -lbenchmark -lpthread -o mybenchmark

Alternatively, link against the benchmark_main library and remove BENCHMARK_MAIN(); above to get the same behavior.

The compiled executable will run all benchmarks by default. Pass the --help flag for option information or see the User Guide.

Usage with CMake

If using CMake, it is recommended to link against the project-provided benchmark::benchmark and benchmark::benchmark_main targets using target_link_libraries. It is possible to use find_package to import an installed version of the library.

find_package(benchmark REQUIRED)

Alternatively, add_subdirectory will incorporate the library directly in to one's CMake project.

add_subdirectory(benchmark)

Either way, link to the library as follows.

target_link_libraries(MyTarget benchmark::benchmark)