benchmark
ut
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benchmark | ut | |
---|---|---|
19 | 10 | |
8,402 | 1,197 | |
2.0% | 1.8% | |
8.8 | 7.0 | |
10 days ago | about 1 month ago | |
C++ | C++ | |
Apache License 2.0 | Boost Software License 1.0 |
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benchmark
- How can I check the execution time of a program rendered in SFML?
- How to Perf profile functions?
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how do you properly benchmark?
I'm aware of one by Google that I used a couple times, but IMO it's better to capture real runtime data from a fully-operational process than to carve out the benchmarkable bits and test them in isolation, so I track information during program testing and print it all to a log instead of using things like that.
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Benchmarking my data structure
If you just want to do some quick benchmarks, you can just use std::chrono::high_resolution_clock::now(). Call it before the code that you are benchmarking and then immediately after. Take them away and you have your duration. If you want to use a proper benchmarking tool then I can totally recommend Google Benchmark. Fantastic benchmarking tool. Honourable mention would be Quick Bench which is an online tool that uses Google Benchmark.
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Google benchmark : No rule to make Target***
I tried to install google benchmark(https://github.com/google/benchmark) in my ubuntu machine by :
- Best accurate way to measure/compare elapsed time in C++
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Don’t Be Scared Of Functional Programming
We don't know if it's a lie until we verify it and that's not difficult, you have a quicksort implementation in a couple of languages, you'll need to pass the necessary parameters to show the time needed by a function call to execute to the compiler or interpreter or you may use use a library(like benchmark for C++) and you're good to go.
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How to identify inefficient method calls?
If you are uncertain about the performance characteristics of a function you should ALWAYS benchmark it. Googles Benchmark library is wonderful for quick micro benchmarks. For more complex things, perhaps look into profiling and then look at invocation counts of copy constructors.
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Is there any fast allocator in std lib / boost for fixed size objects (not at compile time) but has deallocation methods?
Your compiler may be optimising away your loop, there. I typically use a micro-benchmarking tool for these types of tests. You could try Google Benchmark. It’s available in most OS’ package managers, but pretty easy to build from source if not
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Calculate Your Code Performance
C++: C++ has quite a number of benchmarking libraries some of the recent ones involving C++ 20's flexibility. The most notable being Google Bench and UT. C does not have many specific benchmarking libraries, but you can easily integrate C code with C++ benchmarking libraries in order to test the performance of your C code.
ut
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[C++20][safety] static_assert is all you need (no leaks, no UB)
I don't think stepping through static_assert is a thing? Curious if it is, though. Since constexpr is either run-time or compile-time and static_assert is not a poor man's debugging facility could be to -Dstatic_assert(...) assert(__VA_ARGS__) and gdb the code. Alternatively, a more refined solution would be to use an UT framework (for example https://github.com/boost-ext/ut) which helps with that. IMHO, TDD can also limit the requirement of stepping into the code and with gurantees that the code is memory safe and UB safe there is less need for sanitizers and valgrind etc. depending on the coverage.
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snatch -- A lightweight C++20 testing framework
It was not easy, I had to modify Boost UT to get it to run my tests. It doesn't support type-parametrized tests when the type parameter is non-copiable, which was the case for me. This is a symptom of a larger issue, which is that it relies on std::apply and std::tuple to generate the type-parametrized tests, which in turns requires instantiating the tuple and the contained objects (even though these instances aren't actually used; eh). That's a no go for me, since I need to carefully monitor when instance are created, and this was throwing off my test code. I had to effectively disable these checks to get it to run without failures. Then there was a similar issue with expect(), which doesn't work if part of the expression is non-copiable. I reported these issues to them.
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[C++20] New way of meta-programming?
https://github.com/boost-ext/ut (for better user interface when defining tests without macros)
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Getting started with Boost in 2022
https://github.com/boost-ext/ut from Kris Jusiak is worth checking
- How to unit test
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Calculate Your Code Performance
C++: C++ has quite a number of benchmarking libraries some of the recent ones involving C++ 20's flexibility. The most notable being Google Bench and UT. C does not have many specific benchmarking libraries, but you can easily integrate C code with C++ benchmarking libraries in order to test the performance of your C code.
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Benchmarking Code
UT
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Another C++ unit testing framework without macros
In Boost.UT there is a number of different styles to add a parametrized test case. All of them are pretty cryptic bue to heavy isage of oeverloaded operators of custom "non-public" classes. Except for the for-loop method, in all other methods the list of parameter values goes after the test procedure definition. I find this inconvenient, as I want to see list of parameter value next to the test name. This is what I used to from the times I was coding a lot of unit tests in C#.
What are some alternatives?
Catch - A modern, C++-native, test framework for unit-tests, TDD and BDD - using C++14, C++17 and later (C++11 support is in v2.x branch, and C++03 on the Catch1.x branch)
Boost.Test - The reference C++ unit testing framework (TDD, xUnit, C++03/11/14/17)
Google Test - GoogleTest - Google Testing and Mocking Framework
Celero - C++ Benchmark Authoring Library/Framework
FakeIt - C++ mocking made easy. A simple yet very expressive, headers only library for c++ mocking.
hayai - C++ benchmarking framework
doctest - The fastest feature-rich C++11/14/17/20/23 single-header testing framework
Nonius - A C++ micro-benchmarking framework
test - A library for writing unit tests in Dart.
easy_profiler - Lightweight profiler library for c++
KmTest - Kernel-mode C++ unit testing framework in BDD-style