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> "If you liked it then you `"should have put a"_test` on it", Beyonce rule

# UT / Ξt

| [Motivation](#motivation) | [Quick Start](#quick-start) | [Overview](#overview) | [Tutorial](#tutorial) | [Examples](#examples) | [User Guide](#user-guide) | [FAQ](#faq) | [Benchmarks](#benchmarks) |

<details open><summary>C++ <b>single header/single module, macro-free</b> Ξ(micro)/Unit Testing Framework</summary>
<p>

<p align="center">
  <a href="https://godbolt.org/z/Jqb5Ye"><img src="https://github.com/boost-ext/ut/raw/gh-pages/images/ut.png"></a>
</p>

<a name="motivation"></a>
<details open><summary>Motivation</summary>
<p>

Testing is a very important part of the Software Development, however, C++ doesn't provide any good testing facilities out of the box,
which often leads into a poor testing experience for develops and/or lack of tests/coverage in general.

> One should treat testing code as production code!

Additionally, well established testing practises such as [Test Driven Development (TDD)](https://en.wikipedia.org/wiki/Test-driven_development)/[Behaviour Driven Development (BDD)](https://en.wikipedia.org/wiki/Behavior-driven_development) are often not followed due to the same reasons.

The following snippet is a common example of testing with projects in C++.

```cpp
int main() {
  // should sum numbers
  {
    assert(3 == sum(1, 2));
  }
}
```

There are quite a few problems with the approach above

* No names for tests (Hard to follow intentions by further readers)
* No automatic registration of tests (No way to run specific tests)
* Hard to debug (Assertions don't provide any information why it failed)
* Hard to scale (No easy path forward for parameterized tests, multiple suites, parallel execution, etc...)
* Hard to integrate (No easy way to have a custom output such as XML for CI integration)
* Easy to make mistakes (With implicit casting, floating point comparison, pointer comparison for strings, etc...)
* Hard to follow good practises such as `TDD/BDD` (Lack of support for sections and declarative expressions)
* ...

`UT` is trying to address these issues by simplifying testing experience with a few simple steps:

* Just get a single [header/module](https://github.com/boost-ext/ut/blob/master/include/boost/ut.hpp)
* Integrate it into your project
* Learn a few simple concepts ([expect, test, suite](#api))

And you good to go!

Okay, great, but why I would use `UT` over other/similar testing frameworks already available in C++?

* [Boost.Test](https://github.com/boostorg/test)
* [GoogleTest](https://github.com/google/googletest)
* [Catch](https://github.com/catchorg/Catch2)
* [...](https://en.wikipedia.org/wiki/List_of_unit_testing_frameworks#C++)

Great question! There are a few unique features which makes `UT` worth trying

* Firstly, it supports all the basic Unit Testing Framework features (automatic registration of tests, assertions, suites, etc...)
* It's easy to integrate (it's just one [header/module](https://github.com/boost-ext/ut/blob/master/include/boost/ut.hpp))
* It's macro free which makes testing experience that much nicer (it uses modern C++ features instead, macros are opt-in rather than being compulsory - [Can I still use macros?](#macros))
* It's flexible (all parts of the framework such as: [runner, reporter, printer](#examples) can be customized, basically most other Unit Testing Frameworks can be implemented on top of UT primitives)
* It has smaller learning curve (just a few simple concepts ([expect, test, suite](#api)))
* It leverages C++ features to support more complex testing ([parameterized](#examples))
* It's faster to compile and execute than similar frameworks which makes it suitable for bigger projects without additional hassle ([Benchmarks](#benchmarks))
* It supports [TDD/BDD](#examples) workflows
* It supports [Gherkin](#examples) specification
* It supports [Spec](#examples)
* ...

Sounds intriguing/interesting? Learn more at

* [Tutorial](#tutorial)
* [Examples](#examples)
* [User-Guide](#user-guide)

</p>
</details>

<a name="quick-start"></a>
<details open><summary>Quick Start</summary>
<p>

> https://bit.ly/ut-quick-start (slides)

</p>
</details>

<a name="overview"></a>
<details open><summary>Overview</summary>
<p>

* No dependencies ([C++20](#cpp-20), Tested Compilers: GCC-9+, Clang-9.0+, Apple Clang-11.0.0+, MSVC-2019+*, Clang-cl-9.0+
* Single header/module ([boost/ut.hpp](https://github.com/boost-ext/ut/blob/master/include/boost/ut.hpp))
* Macro-free ([How does it work?](#how-it-works))
* Easy to use ([Minimal API](#api) - `test, suite, operators, literals, [expect]`)
* Fast to compile/execute ([Benchmarks](#benchmarks))
* Features ([Assertions](https://github.com/boost-ext/ut/blob/master/example/expect.cpp), [Suites](https://github.com/boost-ext/ut/blob/master/example/suite.cpp), [Tests](https://github.com/boost-ext/ut/blob/master/example/test.cpp), [Sections](https://github.com/boost-ext/ut/blob/master/example/section.cpp), [Parameterized](https://github.com/boost-ext/ut/blob/master/example/parameterized.cpp), [BDD](https://github.com/boost-ext/ut/blob/master/example/BDD.cpp), [Gherkin](https://github.com/boost-ext/ut/blob/master/example/gherkin.cpp), [Spec](https://github.com/boost-ext/ut/blob/master/example/spec.cpp), [Matchers](https://github.com/boost-ext/ut/blob/master/example/matcher.cpp), [Logging](https://github.com/boost-ext/ut/blob/master/example/log.cpp), [Runners](https://github.com/boost-ext/ut/blob/master/example/cfg/runner.cpp), [Reporters](https://github.com/boost-ext/ut/blob/master/example/cfg/reporter.cpp), [...](https://github.com/boost-ext/ut/blob/master/example))
* Integrations ([ApprovalTests.cpp](https://github.com/approvals/ApprovalTests.cpp/releases/tag/v.7.0.0))

</p>
</details>

<a name="tutorial"></a>
<details open><summary>Tutorial</summary>
<p>

<details open><summary>&nbsp;&nbsp;&nbsp;&nbsp;Step 0: Get it...</summary>
<p>

> Get the latest latest header/module from [here!](https://github.com/boost-ext/ut/blob/master/include/boost/ut.hpp)

> Include/Import

```cpp
// #include <boost/ut.hpp> // single header
// import boost.ut;        // single module (C++20)

int main() { }
```

> Compile & Run

```
$CXX main.cpp && ./a.out
```

```
All tests passed (0 assert in 0 test)
```

> [Optional] Install it

```
cmake -Bbuild -H.
cd build && make         # run tests
cd build && make install # install
```

> [Optional] CMake integration

This project provides a CMake config and target.
Just load `ut` with `find_package` to import the `Boost::ut` target.
Linking against this target will add the necessary include directory for the single header file.
This is demonstrated in the following example.

```cmake
find_package(ut REQUIRED)
add_library(my_test my_test.cpp)
target_link_libraries(my_test PRIVATE Boost::ut)
```

> [Optional] [Conan](https://conan.io) integration

The [boost-ext-ut](https://conan.io/center/boost-ext-ut) package is available from [Conan Center](https://conan.io/center/).
Just include it in your project's Conanfile with `boost-ext-ut/1.1.9`.

</p>
</details>

<details open><summary>&nbsp;&nbsp;&nbsp;&nbsp;Step 1: Expect it...</summary>
<p>

> Let's write our first assertion, shall we?

```cpp
int main() {
  boost::ut::expect(true);
}
```

```
All tests passed (1 asserts in 0 test)
```

> https://godbolt.org/z/vfx-eB


> Okay, let's make it fail now?

```cpp
int main() {
  boost::ut::expect(1 == 2);
}
```

```
main.cpp:4:FAILED [false]
===============================================================================
tests:   0 | 0 failed
asserts: 1 | 0 passed | 1 failed
```

> https://godbolt.org/z/7qTePx

> Notice that expression `1 == 2` hasn't been printed. Instead we got `false`?

> Let's print it then?

```cpp
int main() {
  using namespace boost::ut;
  expect(1_i == 2);
}
```

```
main.cpp:4:FAILED [1 == 2]
===============================================================================
tests:   0 | 0 failed
asserts: 1 | 0 passed | 1 failed
```

> https://godbolt.org/z/7MXVzu

> Okay, now we have it! `1 == 2` has been printed as expected.
> Notice the User Defined Literal (UDL) `1_i` was used.
> `_i` is a compile-time constant integer value

* It allows to override comparison operators 👍
* It disallow comparison of different types 👍

See the [User-guide](#user-guide) for more details.

> Alternatively, a `terse` notation (no expect required) can be used.

```cpp
int main() {
  using namespace boost::ut::literals;
  using namespace boost::ut::operators::terse;

  1_i == 2; // terse notation
}
```

```
main.cpp:7:FAILED [1 == 2]
===============================================================================
tests:   0 | 0 failed
asserts: 1 | 0 passed | 1 failed
```

> https://godbolt.org/z/s77GSm

> Other expression syntaxes are also available.

```cpp
expect(1_i == 2);       // UDL syntax
expect(1 == 2_i);       // UDL syntax
expect(that % 1 == 2);  // Matcher syntax
expect(eq(1, 2));       // eq/neq/gt/ge/lt/le
```

```
main.cpp:6:FAILED [1 == 2]
main.cpp:7:FAILED [1 == 2]
main.cpp:8:FAILED [1 == 2]
main.cpp:9:FAILED [1 == 2]
===============================================================================
tests:   0 | 0 failed
asserts: 4 | 0 passed | 4 failed
```

> https://godbolt.org/z/QbgGtc

> Okay, but what about the case if my assertion is fatal.
> Meaning that the program will crash unless the processing will be terminated.
> Nothing easier, let's just add `>> fatal` after the expected expression to make it fatal.

```cpp
expect((1 == 2_i) >> fatal); // fatal assertion
expect(1_i == 2);            // not executed
```

```
main.cpp:6:FAILED [1 == 2]
===============================================================================
tests:   1 | 1 failed
asserts: 2 | 0 passed | 2 failed
```

> https://godbolt.org/z/WMe8Y1

> But my expression is more complex than just simple comparisons.
> Not a problem, logic operators are also supported in the `expect` 👍.

```cpp
expect(42l == 42_l and 1 == 2_i); // compound expression
```

```
main.cpp:5:FAILED [(42 == 42 and 1 == 2)]
===============================================================================
tests:   0 | 0 failed
asserts: 1 | 0 passed | 1 failed
```

> https://godbolt.org/z/aEhX4t

> Can I add a custom message though?
> Sure, `expect` calls are streamable!

```cpp
int main() {
  expect(42l == 42_l and 1 == 2_i) << "additional info";
}
```

```
main.cpp:5:FAILED [(42 == 42 and 1 == 2)] additional info
===============================================================================
tests:   0 | 0 failed
asserts: 1 | 0 passed | 1 failed
```

> https://godbolt.org/z/v2PDuU

</p>
</details>

<details open><summary>&nbsp;&nbsp;&nbsp;&nbsp;Step 2: Group it...</summary>
<p>

> Assertions are great, but how to combine them into more cohesive units?
> `Test cases` are the way to go! They allow to group expectations for the same functionality into coherent units.

```cpp
"hello world"_test = [] { };
```

> Alternatively `test("hello world") = [] {}` can be used.

```
All tests passed (0 asserts in 1 tests)
```

> https://godbolt.org/z/Bh-EmY


> Notice `1 tests` but `0 asserts`.

> Let's make our first end-2-end test case, shall we?

```cpp
int main() {
  "hello world"_test = [] {
    int i = 43;
    expect(42_i == i);
  };
}
```

```
Running "hello world"...
  main.cpp:8:FAILED [42 == 43]
FAILED
===============================================================================
tests:   1 | 1 failed
asserts: 1 | 0 passed | 1 failed
```

> https://godbolt.org/z/Y43mXz

> 👍 We are done here!

> I'd like to nest my tests, though and share setup/tear-down.
> With lambdas used to represents `tests/sections` we can easily achieve that.
> Let's just take a look at the following example.

```cpp
int main() {
  "[vector]"_test = [] {
    std::vector<int> v(5);

    expect((5_ul == std::size(v)) >> fatal);

    should("resize bigger") = [v] { // or "resize bigger"_test
      mut(v).resize(10);
      expect(10_ul == std::size(v));
    };

    expect((5_ul == std::size(v)) >> fatal);

    should("resize smaller") = [=]() mutable { // or "resize smaller"_test
      v.resize(0);
      expect(0_ul == std::size(v));
    };
  }
}
```

```
All tests passed (4 asserts in 1 tests)
```

> https://godbolt.org/z/XWAdYt

> Nice! That was easy, but I'm a believer into Behaviour Driven Development (`BDD`).
> Is there a support for that?
> Yes! Same example as above just with the `BDD` syntax.

```cpp
int main() {
  "vector"_test = [] {
    given("I have a vector") = [] {
      std::vector<int> v(5);
      expect((5_ul == std::size(v)) >> fatal);

      when("I resize bigger") = [=] {
        mut(v).resize(10);

        then("The size should increase") = [=] {
          expect(10_ul == std::size(v));
        };
      };
    };
  };
}
```

```
All tests passed (2 asserts in 1 tests)
```

> https://godbolt.org/z/dnvxsE

> On top of that, `feature/scenario` aliases can be leveraged.

```cpp
int main() {
  feature("vector") = [] {
    scenario("size") = [] {
      given("I have a vector") = [] {
        std::vector<int> v(5);
        expect((5_ul == std::size(v)) >> fatal);

        when("I resize bigger") = [=] {
          mut(v).resize(10);

          then("The size should increase") = [=] {
            expect(10_ul == std::size(v));
          };
        };
      };
    };
  };
}
```

```
All tests passed (2 asserts in 1 tests)
```

> https://godbolt.org/z/T4cWss

> Can I use `Gherkin`?
> Yeah, let's rewrite the example using `Gherkin` specification

```cpp
int main() {
  bdd::gherkin::steps steps = [](auto& steps) {
    steps.feature("Vector") = [&] {
      steps.scenario("*") = [&] {
        steps.given("I have a vector") = [&] {
          std::vector<int> v(5);
          expect((5_ul == std::size(v)) >> fatal);

          steps.when("I resize bigger") = [&] {
            v.resize(10);
          };

          steps.then("The size should increase") = [&] {
            expect(10_ul == std::size(v));
          };
        };
      };
    };
  };

  "Vector"_test = steps |
    R"(
      Feature: Vector
        Scenario: Resize
          Given I have a vector
           When I resize bigger
           Then The size should increase
    )";
}
```

```
All tests passed (2 asserts in 1 tests)
```

> https://godbolt.org/z/jb1d8P

> Nice, is `Spec` notation supported as well?

```cpp
int main() {
  describe("vector") = [] {
    std::vector<int> v(5);
    expect((5_ul == std::size(v)) >> fatal);

    it("should resize bigger") = [v] {
      mut(v).resize(10);
      expect(10_ul == std::size(v));
    };
  };
}
```

```
All tests passed (2 asserts in 1 tests)
```

> https://godbolt.org/z/6jKKzT

> That's great, but how can call the same tests with different arguments/types to be DRY (Don't Repeat Yourself)?
> Parameterized tests to the rescue!

```cpp
int main() {
  for (auto i : std::vector{1, 2, 3}) {
    test("parameterized " + std::to_string(i)) = [i] { // 3 tests
      expect(that % i > 0); // 3 asserts
    };
  }
}
```

```
All tests passed (3 asserts in 3 tests)
```

> https://godbolt.org/z/Utnd6X

> That's it ðŸ˜Ū!
> Alternatively, a convenient test syntax is also provided 👍

```cpp
int main() {
  "args"_test = [](const auto& arg) {
    expect(arg > 0_i) << "all values greater than 0";
  } | std::vector{1, 2, 3};
}
```

```
All tests passed (3 asserts in 3 tests)
```

> https://godbolt.org/z/6FHtpq

> Check [Examples](#examples) for further reading.

</p>
</details>

<details open><summary>&nbsp;&nbsp;&nbsp;&nbsp;Step 3: Scale it...</summary>
<p>

> Okay, but my project is more complex than that. How can I scale?
> `Test suites` will make that possible. By using `suite` in translation units
> `tests` defined inside will be automatically registered 👍

```cpp
suite errors = [] {
  "exception"_test = [] {
    expect(throws([] { throw 0; })) << "throws any exception";
  };

  "failure"_test = [] {
    expect(aborts([] { assert(false); }));
  };
};

int main() { }
```

```
All tests passed (2 asserts in 2 tests)
```

> https://godbolt.org/z/_ccGwZ

---

> What's next?
> * [Examples](#examples)
> * [User-Guide](#user-guide)

</p>
</details>

</p>
</details>

<a name="examples"></a>
<details open><summary>Examples</summary>
<p>

<details open><summary>&nbsp;&nbsp;&nbsp;&nbsp;Assertions</summary>
<p>

```cpp
// operators
expect(0_i == sum());
expect(2_i != sum(1, 2));
expect(sum(1) >= 0_i);
expect(sum(1) <= 1_i);
```

```cpp
// message
expect(3_i == sum(1, 2)) << "wrong sum";
```

```cpp
// expressions
expect(0_i == sum() and 42_i == sum(40, 2));
expect(0_i == sum() or 1_i == sum()) << "compound";
```

```cpp
// matchers
expect(that % 0 == sum());
expect(that % 42 == sum(40, 2) and that % (1 + 2) == sum(1, 2));
expect(that % 1 != 2 or 2_i > 3);
```

```cpp
// eq/neq/gt/ge/lt/le
expect(eq(42, sum(40, 2)));
expect(neq(1, 2));
expect(eq(sum(1), 1) and neq(sum(1, 2), 2));
expect(eq(1, 1) and that % 1 == 1 and 1_i == 1);
```

```cpp
// floating points
expect(42.1_d == 42.101) << "epsilon=0.1";
expect(42.10_d == 42.101) << "epsilon=0.01";
expect(42.10000001 == 42.1_d) << "epsilon=0.1";
```

```cpp
// constant
constexpr auto compile_time_v = 42;
auto run_time_v = 99;
expect(constant<42_i == compile_time_v> and run_time_v == 99_i);
```

```cpp
// failure
expect(1_i == 2) << "should fail";
expect(sum() == 1_i or 2_i == sum()) << "sum?";
```

```
assertions.cpp:53:FAILED [1 == 2] should fail
assertions.cpp:54:FAILED [(0 == 1 or 2 == 0)] sum?
===============================================================================
tests:   0  | 0 failed
asserts: 20 | 18 passed | 2 failed
```

> https://godbolt.org/z/E1c7G5

</p>
</details>

<details open><summary>&nbsp;&nbsp;&nbsp;&nbsp;Tests</summary>
<p>

<details open><summary>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Run/Skip/Tag</summary>
<p>

```cpp
"run UDL"_test = [] {
  expect(42_i == 42);
};

skip / "don't run UDL"_test = [] {
  expect(42_i == 43) << "should not fire!";
};
```

```
All tests passed (1 asserts in 1 tests)
1 tests skipped
```

```cpp
test("run function") = [] {
  expect(42_i == 42);
};

skip / test("don't run function") = [] {
  expect(42_i == 43) << "should not fire!";
};
```

```
All tests passed (1 asserts in 1 tests)
1 tests skipped
```

```cpp
tag("nightly") / tag("slow") /
"performance"_test= [] {
  expect(42_i == 42);
};

tag("slow") /
"run slowly"_test= [] {
  expect(42_i == 43) << "should not fire!";
};
```

```
cfg<override> = {.tag = {"nightly"}};
```

```
All tests passed (1 asserts in 1 tests)
1 tests skipped
```

> https://godbolt.org/z/X3_kG4

</p>
</details>

<details open><summary>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Sections</summary>
<p>

```cpp
"[vector]"_test = [] {
  std::vector<int> v(5);

  expect((5_ul == std::size(v)) >> fatal);

  should("resize bigger") = [=] { // or "resize bigger"_test
    mut(v).resize(10);
    expect(10_ul == std::size(v));
  };

  expect((5_ul == std::size(v)) >> fatal);

  should("resize smaller") = [=]() mutable { // or "resize smaller"_test
    v.resize(0);
    expect(0_ul == std::size(v));
  };
};
```

```
All tests passed (4 asserts in 1 tests)
```

> https://godbolt.org/z/cE91bj

</p>
</details>

<details open><summary>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Behavior Driven Development (BDD)</summary>
<p>

```cpp
"Scenario"_test = [] {
  given("I have...") = [] {
    when("I run...") = [] {
      then("I expect...") = [] { expect(1_i == 1); };
      then("I expect...") = [] { expect(1 == 1_i); };
    };
  };
};
```

```
All tests passed (2 asserts in 1 tests)
```

> https://godbolt.org/z/mNBySr

</p>
</details>

<details open><summary>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Gherkin</summary>
<p>

```cpp
int main() {
  bdd::gherkin::steps steps = [](auto& steps) {
    steps.feature("*") = [&] {
      steps.scenario("*") = [&] {
        steps.given("I have a number {value}") = [&](int value) {
          auto number = value;
          steps.when("I add {value} to it") = [&](int value) {
            number += value;
          };
          steps.then("I expect number to be {value}") = [&](int value) {
            expect(that % number == value);
          };
        };
      };
    };
  };

  "Gherkin"_test = steps |
    R"(
      Feature: Number
        Scenario: Addition
          Given I have a number 40
           When I add 2 to it
           Then I expect number to be 42
    )";
}
```

```
All tests passed (1 asserts in 1 tests)
```

> https://godbolt.org/z/BP3hyt

</p>
</details>

<details open><summary>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Spec</summary>
<p>

```cpp
int main() {
  describe("equality") = [] {
    it("should be equal")     = [] { expect(0_i == 0); };
    it("should not be equal") = [] { expect(1_i != 0); };
  };
}
```

```
All tests passed (2 asserts in 1 tests)
```

> https://godbolt.org/z/BXYJ3a

</p>
</details>

<details open><summary>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Parameterized</summary>
<p>

```cpp
for (auto i : std::vector{1, 2, 3}) {
  test("parameterized " + std::to_string(i)) = [i] {
    expect(that % i > 0);
  };
}

"args"_test =
   [](auto arg) {
      expect(arg >= 1_i);
    }
  | std::vector{1, 2, 3};

"types"_test =
    []<class T> {
      expect(std::is_integral_v<T>) << "all types are integrals";
    }
  | std::tuple<bool, int>{};

"args and types"_test =
    []<class TArg>(TArg arg) {
      expect(std::is_integral_v<TArg> >> fatal);
      expect(42_i == arg or "is true"_b == arg);
      expect(type<TArg> == type<int> or type<TArg> == type<bool>);
    }
  | std::tuple{true, 42};
```

```
All tests passed (14 asserts in 10 tests)
```

> https://godbolt.org/z/4xGGdo

  
> And whenever I need to know the specific type for which the test failed,
> I can use `reflection::type_name<T>()`, like this:
  
```cpp
"types with type name"_test =
    []<class T>() {
      expect(std::is_unsigned_v<T>) << reflection::type_name<T>() << "is unsigned";
    }
  | std::tuple<unsigned int, float>{};
```

```
Running "types with type name"...PASSED
Running "types with type name"...
  <source>:10:FAILED [false] float is unsigned
FAILED
```
  
> https://godbolt.org/z/MEnGnbTY4

</p>
</details>


</p>
</details>

<details open><summary>&nbsp;&nbsp;&nbsp;&nbsp;Suites</summary>
<p>

```cpp
namespace ut = boost::ut;

ut::suite errors = [] {
  using namespace ut;

  "throws"_test = [] {
    expect(throws([] { throw 0; }));
  };

  "doesn't throw"_test = [] {
    expect(nothrow([]{}));
  };
};

int main() { }
```

```
All tests passed (2 asserts in 2 tests)
```

> https://godbolt.org/z/CFbTP9

</p>
</details>

<details open><summary>&nbsp;&nbsp;&nbsp;&nbsp;Misc</summary>
<p>

<details open><summary>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Logging</summary>
<p>

```cpp
"logging"_test = [] {
  log << "pre";
  expect(42_i == 43) << "message on failure";
  log << "post";
};
```

```
Running "logging"...
pre
  logging.cpp:8:FAILED [42 == 43] message on failure
post
FAILED

===============================================================================

tests:   1 | 1 failed
asserts: 1 | 0 passed | 1 failed
```

> https://godbolt.org/z/26fPSY

</p>
</details>

<details open><summary>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Matchers</summary>
<p>

```cpp
"matchers"_test = [] {
  constexpr auto is_between = [](auto lhs, auto rhs) {
    return [=](auto value) {
      return that % value >= lhs and that % value <= rhs;
    };
  };

  expect(is_between(1, 100)(42));
  expect(not is_between(1, 100)(0));
};
```

```
All tests passed (2 asserts in 1 tests)
```

> https://godbolt.org/z/4qwrCi

</p>
</details>

<details open><summary>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Exceptions/Aborts</summary>
<p>

```cpp
"exceptions/aborts"_test = [] {
  expect(throws<std::runtime_error>([] { throw std::runtime_error{""}; }))
    << "throws runtime_error";
  expect(throws([] { throw 0; })) << "throws any exception";
  expect(nothrow([]{})) << "doesn't throw";
  expect(aborts([] { assert(false); }));
};
```

```
All tests passed (4 asserts in 1 tests)
```

> https://godbolt.org/z/A2EehK

</p>
</details>

</p>
</details>

<details open><summary>&nbsp;&nbsp;&nbsp;&nbsp;Config</summary>
<p>

<details open><summary>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Runner</summary>
<p>

```cpp
namespace ut = boost::ut;

namespace cfg {
  class runner {
   public:
    template <class... Ts> auto on(ut::events::test<Ts...> test) { test(); }
    template <class... Ts> auto on(ut::events::skip<Ts...>) {}
    template <class TExpr>
    auto on(ut::events::assertion<TExpr>) -> bool { return true; }
    auto on(ut::events::fatal_assertion) {}
    template <class TMsg> auto on(ut::events::log<TMsg>) {}
  };
} // namespace cfg

template<> auto ut::cfg<ut::override> = cfg::runner{};
```

> https://godbolt.org/z/jdg687

</p>
</details>

<details open><summary>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Reporter</summary>
<p>

```cpp
namespace ut = boost::ut;

namespace cfg {
  class reporter {
   public:
    auto on(ut::events::test_begin) -> void {}
    auto on(ut::events::test_run) -> void {}
    auto on(ut::events::test_skip) -> void {}
    auto on(ut::events::test_end) -> void {}
    template <class TMsg> auto on(ut::events::log<TMsg>) -> void {}
    template <class TExpr>
    auto on(ut::events::assertion_pass<TExpr>) -> void {}
    template <class TExpr>
    auto on(ut::events::assertion_fail<TExpr>) -> void {}
    auto on(ut::events::fatal_assertion) -> void {}
    auto on(ut::events::exception) -> void {}
    auto on(ut::events::summary) -> void {}
  };
}  // namespace cfg

template <>
auto ut::cfg<ut::override> = ut::runner<cfg::reporter>{};
```

> https://godbolt.org/z/gsAPKg

</p>
</details>

<details open><summary>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Printer</summary>
<p>

```cpp
namespace ut = boost::ut;

namespace cfg {
struct printer : ut::printer {
  template <class T>
  auto& operator<<(T&& t) {
    std::cerr << std::forward<T>(t);
    return *this;
  }
};
}  // namespace cfg

template <>
auto ut::cfg<ut::override> = ut::runner<ut::reporter<cfg::printer>>{};

int main() {
  using namespace ut;
  "printer"_test = [] {};
}
```

> https://godbolt.org/z/XCscF9

</p>
</details>

</p>
</details>

</p>
</details>

<a name="api"></a>
<a name="configuration"></a>
<a name="user-guide"></a>
<details open><summary>User Guide</summary>
<p>

<details open><summary>&nbsp;&nbsp;&nbsp;&nbsp;API</summary>
<p>

```cpp
export module boost.ut; /// __cpp_modules

namespace boost::inline ext::ut::inline v1_1_9 {
  /**
   * Represents test suite object
   */
  struct suite final {
    /**
     * Creates and executes test suite
     * @example suite _ = [] {};
     * @param suite test suite function
     */
    constexpr explicit(false) suite(auto suite);
  };

  /**
   * Creates a test
   * @example "name"_test = [] {};
   * @return test object to be executed
   */
  constexpr auto operator""_test;

  /**
   * Creates a test
   * @example test("name") = [] {};
   * @return test object to be executed
   */
  constexpr auto test = [](const auto name);

  /**
   * Creates a test
   * @example should("name") = [] {};
   * @return test object to be executed
   */
  constexpr auto should = [](const auto name);

  /**
   * Behaviour Driven Development (BDD) helper functions
   * @param name step name
   * @return test object to be executed
   */
  constexpr auto given = [](const auto name);
  constexpr auto when  = [](const auto name);
  constexpr auto then  = [](const auto name);

  /**
   * Evaluates an expression
   * @example expect(42 == 42_i and 1 != 2_i);
   * @param expr expression to be evaluated
   * @param source location https://en.cppreference.com/w/cpp/utility/source_location
   * @return stream
   */
  constexpr OStream& expect(
    Expression expr,
    const std::source_location& location = std::source_location::current()
  );

  struct {
    /**
     * @example (that % 42 == 42);
     * @param expr expression to be evaluated
     */
    [[nodiscard]] constexpr auto operator%(Expression expr) const;
  } that{};

  inline namespace literals {
    /**
     * User defined literals to represent constant values
     * @example 42_i, 0_uc, 1.23_d
     */
    constexpr auto operator""_i;  /// int
    constexpr auto operator""_s;  /// short
    constexpr auto operator""_c;  /// char
    constexpr auto operator""_l;  /// long
    constexpr auto operator""_ll; /// long long
    constexpr auto operator""_u;  /// unsigned
    constexpr auto operator""_uc; /// unsigned char
    constexpr auto operator""_us; /// unsigned short
    constexpr auto operator""_ul; /// unsigned long
    constexpr auto operator""_f;  /// float
    constexpr auto operator""_d;  /// double
    constexpr auto operator""_ld; /// long double

    /**
     * Represents dynamic values
     * @example _i(42), _f(42.)
     */
    constexpr auto _b(bool);
    constexpr auto _c(char);
    constexpr auto _s(short);
    constexpr auto _i(int);
    constexpr auto _l(long);
    constexpr auto _ll(long long);
    constexpr auto _u(unsigned);
    constexpr auto _uc(unsigned char);
    constexpr auto _us(unsigned short);
    constexpr auto _ul(unsigned long);
    constexpr auto _f(float);
    constexpr auto _d(double);
    constexpr auto _ld(long double);

    /**
     * Logical representation of constant boolean (true) value
     * @example "is set"_b     : true
     *          not "is set"_b : false
     */
    constexpr auto operator ""_b;
  } // namespace literals

  inline namespace operators {
    /**
     * Comparison functions to be used in expressions
     * @example eq(42, 42), neq(1, 2)
     */
    constexpr auto eq(Operator lhs, Operator rhs);  /// ==
    constexpr auto neq(Operator lhs, Operator rhs); /// !=
    constexpr auto gt(Operator lhs, Operator rhs);  /// >
    constexpr auto ge(Operator lhs, Operator rhs);  /// >=
    constexpr auto lt(Operator lhs, Operator rhs);  /// <
    constexpr auto le(Operator lhs, Operator rhs);  /// <=

    /**
     * Overloaded comparison operators to be used in expressions
     * @example (42_i != 0)
     */
    constexpr auto operator==;
    constexpr auto operator!=;
    constexpr auto operator>;
    constexpr auto operator>=;
    constexpr auto operator<;
    constexpr auto operator<=;

    /**
     * Overloaded logic operators to be used in expressions
     * @example (42_i != 0 and 1 == 2_i)
     */
    constexpr auto operator and;
    constexpr auto operator or;
    constexpr auto operator not;

    /**
     * Executes parameterized tests
     * @example "parameterized"_test = [](auto arg) {} | std::tuple{1, 2, 3};
     */
    constexpr auto operator|;

    /**
     * Creates tags
     * @example tag("slow") / tag("nightly") / "perf"_test = []{};
     */
    constexpr auto operator/;

    /**
     * Creates a `fatal_assertion` from an expression
     * @example (42_i == 0) >> fatal
     */
    constexpr auto operator>>;
  } // namespace operators

  /**
   * Creates skippable test object
   * @example skip / "don't run"_test = [] { };
   */
  constexpr auto skip = tag("skip");

  struct {
    /**
     * @example log << "message!";
     * @param msg stringable message
     */
    auto& operator<<(Msg msg);
  } log{};

  /**
   * Makes object mutable
   * @example mut(object)
   * @param t object to be mutated
   */
  template<class T> auto mut(const T& t) -> T&;

  /**
   * Default execution flow policy
   */
  class runner {
   public:
    /**
     * @example cfg<override> = {
        .filter  = "test.section.*",
        .colors  = { .none = "" },
        .dry__run = true
       };
     * @param options.filter {default: "*"} runs all tests which names
                                            matches test.section.* filter
     * @param options.colors {default: {
                               .none = "\033[0m",
                               .pass = "\033[32m",
                               .fail  = "\033[31m"
              } if specified then overrides default color values
     * @param options.dry_run {default: false} if true then print test names to be
                                               executed without running them
     */
    auto operator=(options);

    /**
     * @example suite _ = [] {};
     * @param suite() executes suite
     */
    template<class TSuite>
    auto on(ut::events::suite<TSuite>);

    /**
     * @example "name"_test = [] {};
     * @param test.type ["test", "given", "when", "then"]
     * @param test.name "name"
     * @param test.arg parameterized argument
     * @param test() executes test
     */
    template<class... Ts>
    auto on(ut::events::test<Ts...>);

    /**
     * @example skip / "don't run"_test = []{};
     * @param skip.type ["test", "given", "when", "then"]
     * @param skip.name "don't run"
     * @param skip.arg parameterized argument
     */
    template<class... Ts>
    auto on(ut::events::skip<Ts...>);

    /**
     * @example file.cpp:42: expect(42_i == 42);
     * @param assertion.expr 42_i == 42
     * @param assertion.location { "file.cpp", 42 }
     * @return true if expr passes, false otherwise
     */
    template <class TExpr>
    auto on(ut::events::assertion<TExpr>) -> bool;

    /**
     * @example expect((2_i == 1) >> fatal)
     * @note triggered by `fatal`
     *       should std::exit
     */
    auto on(ut::events::fatal_assertion);

    /**
     * @example log << "message"
     * @param log.msg "message"
     */
    template<class TMsg>
    auto on(ut::events::log<TMsg>);

    /**
     * Explicitly runs registered test suites
     * If not called directly test suites are executed with run's destructor
     * @example return run({.report_errors = true})
     * @param run_cfg.report_errors {default: false} if true it prints the summary after runnig
     */
    auto run(run_cfg);

    /**
     * Runs registered test suites if they haven't been explicilty executed already
     */
    ~run();
  };

  /**
   * Default reporter policy
   */
  class reporter {
   public:
    /**
     * @example file.cpp:42: "name"_test = [] {};
     * @param test_begin.type ["test", "given", "when", "then"]
     * @param test_begin.name "name"
     * @param test_begin.location { "file.cpp", 42 }
     */
    auto on(ut::events::test_begin) -> void;

    /**
     * @example "name"_test = [] {};
     * @param test_run.type ["test", "given", "when", "then"]
     * @param test_run.name "name"
     */
    auto on(ut::events::test_run) -> void;

    /**
     * @example "name"_test = [] {};
     * @param test_skip.type ["test", "given", "when", "then"]
     * @param test_skip.name "name"
     */
    auto on(ut::events::test_skip) -> void;

    /**
     * @example "name"_test = [] {};
     * @param test_end.type ["test", "given", "when", "then"]
     * @param test_end.name "name"
     */
    auto on(ut::events::test_end) -> void;

    /**
     * @example log << "message"
     * @param log.msg "message"
     */
    template<class TMsg>
    auto on(ut::events::log<TMsg>) -> void;

    /**
     * @example file.cpp:42: expect(42_i == 42);
     * @param assertion_pass.expr 42_i == 42
     * @param assertion_pass.location { "file.cpp", 42 }
     */
    template <class TExpr>
    auto on(ut::events::assertion_pass<TExpr>) -> void;

    /**
     * @example file.cpp:42: expect(42_i != 42);
     * @param assertion_fail.expr 42_i != 42
     * @param assertion_fail.location { "file.cpp", 42 }
     */
    template <class TExpr>
    auto on(ut::events::assertion_fail<TExpr>) -> void;

    /**
     * @example expect((2_i == 1) >> fatal)
     * @note triggered by `fatal`
     *       should std::exit
     */
    auto on(ut::events::fatal_assertion) -> void;

    /**
     * @example "exception"_test = [] { throw std::runtime_error{""}; };
     */
    auto on(ut::events::exception) -> void;

    /**
     * @note triggered on destruction of runner
     */
    auto on(ut::events::summary) -> void;
  };

  /**
   * Used to override default running policy
   * @example template <> auto cfg<override> = runner<reporter>{};
   */
  struct override {};

  /**
   * Default UT execution policy
   * Can be overwritten with override
   */
  template <class = override> auto cfg = runner<reporter>{};
}
```

</p>
</details>

<details open><summary>&nbsp;&nbsp;&nbsp;&nbsp;Configuration</summary>
<p>

| Option | Description | Example |
|-|-|-|
| `BOOST_UT_VERSION`        | Current version | `1'1'9` |

</p>
</details>

</p>
</details>

<a name="faq"></a>
<details open><summary>FAQ</summary>
<p>

<a name="how-it-works"></a>
<details open><summary>&nbsp;&nbsp;&nbsp;&nbsp;How does it work?</summary>
<p>

> `suite`

  ```cpp
  /**
   * Reperesents suite object
   * @example suite _ = []{};
   */
  struct suite final {
    /**
     * Assigns and executes test suite
     */
    [[nodiscard]] constexpr explicit(false) suite(Suite suite) {
      suite();
    }
  };
  ```

> `test`

  ```cpp
  /**
   * Creates named test object
   * @example "hello world"_test
   * @return test object
   */
  [[nodiscard]] constexpr Test operator ""_test(const char* name, std::size_t size) {
    return test{{name, size}};
  }
  ```

  ```cpp
  /**
   * Represents test object
   */
  struct test final {
    std::string_view name{}; /// test case name

    /**
     * Assigns and executes test function
     * @param test function
     */
    constexpr auto operator=(const Test& test) {
      std::cout << "Running... " << name << '\n';
      test();
    }
  };
  ```

> `expect`

  ```cpp
  /**
   * Evaluates an expression
   * @example expect(42_i == 42);
   * @param expr expression to be evaluated
   * @param source location https://en.cppreference.com/w/cpp/utility/source_location
   * @return stream
   */
  constexpr OStream& expect(
    Expression expr,
    const std::source_location& location = std::source_location::current()
  ) {
    if (not static_cast<bool>(expr) {
      std::cerr << location.file()
                << ':'
                << location.line()
                << ":FAILED: "
                << expr
                << '\n';
    }

    return std::cerr;
  }
  ```

  ```cpp
  /**
   * Creates constant object for which operators can be overloaded
   * @example 42_i
   * @return integral constant object
   */
  template <char... Cs>
  [[nodiscard]] constexpr Operator operator""_i() -> integral_constant<int, value<Cs...>>;
  ```

  ```cpp
  /**
   * Overloads comparison if at least one of {lhs, rhs} is an Operator
   * @example (42_i == 42)
   * @param lhs Left-hand side operator
   * @param rhs Right-hand side operator
   * @return Comparison object
   */
  [[nodiscard]] constexpr auto operator==(Operator lhs, Operator rhs) {
    return eq{lhs, rhs};
  }
  ```

  ```cpp
  /**
   * Comparison Operator
   */
  template <Operator TLhs, Opeartor TRhs>
  struct eq final {
    TLhs lhs{}; // Left-hand side operator
    TRhs rhs{}; // Right-hand side operator

    /**
     * Performs comparison operatation
     * @return true if expression is succesful
     */
    [[nodiscard]] constexpr explicit operator bool() const {
      return lhs == rhs;
    }

    /**
     * Nicely prints the operation
     */
    friend auto operator<<(OStream& os, const eq& op) -> Ostream& {
      return (os << op.lhs << " == " << op.rhs);
    }
  };
  ```

> `Sections`

  ```cpp
  /**
   * Convenient aliases for creating test named object
   * @example should("return true") = [] {};
   */
  constexpr auto should = [](const auto name) { return test{name}; };
  ```

> `Behaviour Driven Development (BDD)`

  ```cpp
  /**
   * Convenient aliases for creating BDD tests
   * @example feature("Feature") = [] {};
   * @example scenario("Scenario") = [] {};
   * @example given("I have an object") = [] {};
   * @example when("I call it") = [] {};
   * @example then("I should get") = [] {};
   */
  constexpr auto feature  = [](const auto name) { return test{name}; };
  constexpr auto scenario = [](const auto name) { return test{name}; };
  constexpr auto given    = [](const auto name) { return test{name}; };
  constexpr auto when     = [](const auto name) { return test{name}; };
  constexpr auto then     = [](const auto name) { return test{name}; };
  ```

> https://godbolt.org/z/6Nk5Mi

> `Spec`

  ```cpp
  /**
   * Convenient aliases for creating Spec tests
   * @example describe("test") = [] {};
   * @example it("should...") = [] {};
   */
  constexpr auto describe = [](const auto name) { return test{name}; };
  constexpr auto it       = [](const auto name) { return test{name}; };
  ```

> [Example implementation](https://github.com/boost-ext/ut/tree/gh-pages/denver-cpp-2020/example)

> Try it online

* Header - https://godbolt.org/z/x96n8b
* Module - https://wandbox.org/permlink/LrV7WwIgghTP1nrs

</p>
</details>

<a name="fast-compilation-times"></a>
<details open><summary>&nbsp;&nbsp;&nbsp;&nbsp;Fast compilation times <a href="#benchmarks">(Benchmarks)</a>?</summary>
<p>

> Implementation

* Leveraging [C++20](#cpp-20) features

* Avoiding unique types for lambda expressions

```cpp
  template <class Test>
    requires not std::convertible_to<Test, void (*)()>>
  constexpr auto operator=(Test test);

vs

  // Compiles 5x faster because it doesn't introduce a new type for each lambda
  constexpr auto operator=(void (*test)());
```

* `Type-name` erasure (allows types/function memoization)

```cpp
  eq<integral_constant<42>, int>{ {}, 42 }

vs

  // Can be memoized - faster to compile
  eq<int, int>{42, 42}
```

* Limiting preprocessor work
  * Single header/module
  * Minimal number of include files

* Simplified versions of
  * `std::function`
  * `std::string_view`

</p>
</details>

<a name="cpp-20"></a>
<details open><summary>&nbsp;&nbsp;&nbsp;&nbsp;C++20 features?</summary>
<p>

* API

  * [Source Location](https://eel.is/c++draft/support.srcloc#source.location.syn)
    * Assertions - `expect(false)` - ` __FILE__:__LINE__:FAILED [false]`

  * [Designated initializers](https://eel.is/c++draft/dcl.init#nt:designated-initializer-list)
    * Configuration - `cfg<override> = {.filter = "test"}`

  * [Non-Type Template Parameter](https://eel.is/c++draft/temp.arg.nontype)
    * Constant matchers - `constant<42_i == 42>`

  * [Template Parameter List for generic lambdas](https://eel.is/c++draft/expr.prim.lambda)
    * Parameterized tests - `"types"_test = []<class T>() {};`

  * [Concepts](https://eel.is/c++draft/concepts.lang)
    * Operators - `Operator @ Operator`

  * [Modules](https://eel.is/c++draft/module)
    * `import boost.ut;`

</p>
</details>

<a name="cpp-2x"></a>
<details open><summary>&nbsp;&nbsp;&nbsp;&nbsp;C++2X integration?</summary>
<p>

> Parameterized tests with Expansion statements (https://wg21.link/P1306r1)

```cpp
template for (auto arg : std::tuple<int, double>{}) {
  test("types " + std::to_string(arg)) = [arg] {
    expect(type(arg) == type<int> or type(arg) == type<double>);
  };
}
```

```
All tests passed (2 asserts in 2 tests)
```

> https://cppx.godbolt.org/z/dMmqmM

</p>
</details>

<a name="std"></a>
<details open><summary>&nbsp;&nbsp;&nbsp;&nbsp;Is standardization an option?</summary>
<p>

> Personally, I believe that C++ standard could benefit from common testing primitives (`expect`, `""_test`) because

* It lowers the entry-level to the language (no need for third-party libraries)
* It improves the education aspect (one standard way of doing it)
* It makes the language more coherent/stable (consistent design with other features, stable API)
* It makes the testing a first class citizen (shows that the community cares about this aspect of the language)
* It allows to publish tests for the Standard Library (STL) in the standard way (coherency, easier to extend)
* It allows to act as additional documentation as a way to verify whether a particular implementation is conforming (quality, self-verification)
* It helps with establishing standard vocabulary for testing (common across STL and other projects)

</p>
</details>

<a name="macros"></a>
<details open><summary>&nbsp;&nbsp;&nbsp;&nbsp;Can I still use macros?</summary>
<p>

> Sure, although please notice that there are negatives of using macros such as

* Error messages might be not clear and/or point to the wrong line
* Global scope will be polluted
* Type safety will be ignored

```cpp
#define EXPECT(...) ::boost::ut::expect(::boost::ut::that % __VA_ARGS__)
#define SUITE       ::boost::ut::suite _ = []
#define TEST(name)  ::boost::ut::detail::test{"test", name} = [=]() mutable

SUITE {
  TEST("suite") {
    EXPECT(42 == 42);
  };
};

int main() {
  TEST("macro") {
    EXPECT(1 != 2);
  };

  TEST("vector") {
    std::vector<int> v(5);

   EXPECT((5u == std::size(v)) >> fatal) << "fatal";

    TEST("resize bigger") {
      v.resize(10);
      EXPECT(10u == std::size(v));
    };
  };
}
```

```
All tests passed (4 asserts in 3 tests)
```

> https://godbolt.org/z/WcEKTr

</p>
</details>

<details open><summary>&nbsp;&nbsp;&nbsp;&nbsp;What about Mocks/Stubs/Fakes?</summary>
<p>

> Consider using one of the following frameworks

* https://github.com/cpp-testing/GUnit/blob/master/docs/GMock.md
* https://github.com/eranpeer/FakeIt
* https://github.com/dascandy/hippomocks

</p>
</details>

<details open><summary>&nbsp;&nbsp;&nbsp;&nbsp;What about Microbenchmarking?</summary>
<p>

> [Example benchmark](example/benchmark.cpp)

> Consider using one of the following frameworks

* https://github.com/google/benchmark
* https://github.com/DigitalInBlue/Celero
* https://github.com/libnonius/nonius
* https://github.com/martinus/nanobench

</p>
</details>

<details open><summary>&nbsp;&nbsp;&nbsp;&nbsp;Related materials/talks?</summary>
<p>

* [[Boost].UT - Unit Testing Framework - Kris Jusiak](https://boost-ext.github.io/ut/denver-cpp-2019)
* [Future of Testing with C++20 - Kris Jusiak](https://boost-ext.github.io/ut/meeting-cpp-2020)
* [Macro-Free Testing with C++20 - Kris Jusiak](https://www.youtube.com/watch?v=irdgFyxOs_Y)
* ["If you liked it then you `"should have put a"_test` on it", Beyonce rule - Kris Jusiak](https://www.youtube.com/watch?v=yCI8MjvOMeE)
* [Principles of Unit Testing With C++ - Dave Steffen and Kris Jusiak](https://www.youtube.com/watch?v=oOcuJdJJ33g)
* [Empirical Unit Testing - Dave Steffen](https://www.twitch.tv/videos/686512433)

</p>
</details>

<a name="how-to-contribute"></a>
<details open><summary>&nbsp;&nbsp;&nbsp;&nbsp;How to contribute?</summary>
<p>

> [CONTRIBUTING](.github/CONTRIBUTING.md)

</p></details>

</p>
</details>

<a name="benchmarks"></a>
<details open><summary>Benchmarks</summary>
<p>

| Framework | Version | Standard | License | Linkage | Test configuration |
|-|-|-|-|-|-|
| [Boost.Test](https://github.com/boostorg/test) | [1.71.0](https://www.boost.org/users/history/version_1_71_0.html) | C++03 | Boost 1.0 | single header/library | `static library` |
| [GoogleTest](https://github.com/google/googletest) | [1.10.0](https://github.com/google/googletest/releases/tag/release-1.10.0) | C++11 | BSD-3 | library | `static library` |
| [Catch](https://github.com/catchorg/Catch2) | [2.10.2](https://github.com/catchorg/Catch2/releases/download/v2.10.2/catch.hpp) | C++11 | Boost 1.0 | single header | `CATCH_CONFIG_FAST_COMPILE` |
| [Doctest](https://github.com/onqtam/doctest) | [2.3.5](https://github.com/onqtam/doctest/blob/master/doctest/doctest.h) | C++11 | MIT | single header | `DOCTEST_CONFIG_SUPER_FAST_ASSERTS` |
| [UT](https://github.com/boost-ext/ut) | [1.1.0](https://github.com/boost-ext/ut/blob/master/include/boost/ut.hpp) | C++20 | Boost 1.0 | single header/module | |

<table>
  <tr>
    <td colspan="3" align="center">
    <a href="https://github.com/cpp-testing/ut-benchmark/tree/master/benchmarks"><b>Include</b></a> / <i>0 tests, 0 asserts, 1 cpp file</i>
    </td>
  </tr>
  <tr>
    <td colspan="3" align="center"><a href="https://raw.githubusercontent.com/cpp-testing/ut-benchmark/master/results/Compilation_include.png"><img src="https://raw.githubusercontent.com/cpp-testing/ut-benchmark/master/results/Compilation_include.png"></a></td>
    <td></td>
  </tr>

  <tr>
    <td colspan="3" align="center">
    <a href="https://github.com/cpp-testing/ut-benchmark/tree/master/benchmarks"><b>Assert</b></a> / <i>1 test, 1'000'000 asserts, 1 cpp file</i>
    </td>
  </tr>
  <tr>
    <td><a href="https://raw.githubusercontent.com/cpp-testing/ut-benchmark/master/results/Compilation_assert.png"><img src="https://raw.githubusercontent.com/cpp-testing/ut-benchmark/master/results/Compilation_assert.png"></a></td>
    <td><a href="https://raw.githubusercontent.com/cpp-testing/ut-benchmark/master/results/Execution_assert.png"><img src="https://raw.githubusercontent.com/cpp-testing/ut-benchmark/master/results/Execution_assert.png"></a></td>
    <td><a href="https://raw.githubusercontent.com/cpp-testing/ut-benchmark/master/results/BinarySize_assert.png"><img src="https://raw.githubusercontent.com/cpp-testing/ut-benchmark/master/results/BinarySize_assert.png"></a></td>
  </tr>

  <tr>
    <td colspan="3" align="center">
    <a href="https://github.com/cpp-testing/ut-benchmark/tree/master/benchmarks"><b>Test</b></a> / <i>1'000 tests, 0 asserts, 1 cpp file</i>
    </td>
  </tr>
  <tr>
    <td><a href="https://raw.githubusercontent.com/cpp-testing/ut-benchmark/master/results/Compilation_test.png"><img src="https://raw.githubusercontent.com/cpp-testing/ut-benchmark/master/results/Compilation_test.png"></a></td>
    <td><a href="https://raw.githubusercontent.com/cpp-testing/ut-benchmark/master/results/Execution_test.png"><img src="https://raw.githubusercontent.com/cpp-testing/ut-benchmark/master/results/Execution_test.png"></a></td>
    <td><a href="https://raw.githubusercontent.com/cpp-testing/ut-benchmark/master/results/BinarySize_test.png"><img src="https://raw.githubusercontent.com/cpp-testing/ut-benchmark/master/results/BinarySize_test.png"></a></td>
  </tr>

  <tr>
    <td colspan="3" align="center">
    <a href="https://github.com/cpp-testing/ut-benchmark/tree/master/benchmarks"><b>Suite</b></a> / <i>10'000 tests, 0 asserts, 100 cpp files</i>
    </td>
  </tr>
  <tr>
    <td><a href="https://raw.githubusercontent.com/cpp-testing/ut-benchmark/master/results/Compilation_suite.png"><img src="https://raw.githubusercontent.com/cpp-testing/ut-benchmark/master/results/Compilation_suite.png"></a></td>
    <td><a href="https://raw.githubusercontent.com/cpp-testing/ut-benchmark/master/results/Execution_suite.png"><img src="https://raw.githubusercontent.com/cpp-testing/ut-benchmark/master/results/Execution_suite.png"></a></td>
    <td><a href="https://raw.githubusercontent.com/cpp-testing/ut-benchmark/master/results/BinarySize_suite.png"><img src="https://raw.githubusercontent.com/cpp-testing/ut-benchmark/master/results/BinarySize_suite.png"></a></td>
  </tr>

  <tr>
    <td colspan="3" align="center">
    <a href="https://github.com/cpp-testing/ut-benchmark/tree/master/benchmarks"><b>Suite+Assert</b></a> / <i>10'000 tests, 40'000 asserts, 100 cpp files</i>
    </td>
  </tr>
  <tr>
    <td><a href="https://raw.githubusercontent.com/cpp-testing/ut-benchmark/master/results/Compilation_suite+assert.png"><img src="https://raw.githubusercontent.com/cpp-testing/ut-benchmark/master/results/Compilation_suite+assert.png"></a></td>
    <td><a href="https://raw.githubusercontent.com/cpp-testing/ut-benchmark/master/results/Execution_suite+assert.png"><img src="https://raw.githubusercontent.com/cpp-testing/ut-benchmark/master/results/Execution_suite+assert.png"></a></td>
    <td><a href="https://raw.githubusercontent.com/cpp-testing/ut-benchmark/master/results/BinarySize_suite+assert.png"><img src="https://raw.githubusercontent.com/cpp-testing/ut-benchmark/master/results/BinarySize_suite+assert.png"></a></td>
  </tr>

  <tr>
    <td colspan="3" align="center">
    <a href="https://github.com/cpp-testing/ut-benchmark/tree/master/benchmarks"><b>Suite+Assert+STL</b></a> / <i>10'000 tests, 20'000 asserts, 100 cpp files</i>
    </td>
  </tr>
  <tr>
    <td><a href="https://raw.githubusercontent.com/cpp-testing/ut-benchmark/master/results/Compilation_suite+assert+stl.png"><img src="https://raw.githubusercontent.com/cpp-testing/ut-benchmark/master/results/Compilation_suite+assert+stl.png"></a></td>
    <td><a href="https://raw.githubusercontent.com/cpp-testing/ut-benchmark/master/results/Execution_suite+assert+stl.png"><img src="https://raw.githubusercontent.com/cpp-testing/ut-benchmark/master/results/Execution_suite+assert+stl.png"></a></td>
    <td><a href="https://raw.githubusercontent.com/cpp-testing/ut-benchmark/master/results/BinarySize_suite+assert+stl.png"><img src="https://raw.githubusercontent.com/cpp-testing/ut-benchmark/master/results/BinarySize_suite+assert+stl.png"></a></td>
  </tr>

  <tr>
    <td colspan="3" align="center">
    <a href="https://github.com/cpp-testing/ut-benchmark/tree/master/benchmarks"><b>Incremental Build - Suite+Assert+STL</b></a> / <i>1 cpp file change (1'000 tests, 20'000 asserts, 100 cpp files)</i>
    </td>
  </tr>
  <tr>
    <td><a href="https://raw.githubusercontent.com/cpp-testing/ut-benchmark/master/results/Compilation_incremental.suite+assert+stl.png"><img src="https://raw.githubusercontent.com/cpp-testing/ut-benchmark/master/results/Compilation_incremental.suite+assert+stl.png"></a></td>
    <td><a href="https://raw.githubusercontent.com/cpp-testing/ut-benchmark/master/results/Execution_incremental.suite+assert+stl.png"><img src="https://raw.githubusercontent.com/cpp-testing/ut-benchmark/master/results/Execution_incremental.suite+assert+stl.png"></a></td>
    <td><a href="https://raw.githubusercontent.com/cpp-testing/ut-benchmark/master/results/BinarySize_incremental.suite+assert+stl.png"><img src="https://raw.githubusercontent.com/cpp-testing/ut-benchmark/master/results/BinarySize_incremental.suite+assert+stl.png"></a></td>
  </tr>

  <tr>
    <td colspan="3" align="center">
    <a href="https://github.com/cpp-testing/ut-benchmark/tree/master/benchmarks"><b>Suite+Assert+STL</b></a> / <i>10'000 tests, 20'000 asserts, 100 cpp files<br/>(Headers vs Precompiled headers vs C++20 Modules)</i>
    </td>
  </tr>
  <tr>
    <td><a href="https://raw.githubusercontent.com/cpp-testing/ut-benchmark/master/results/ut_Compilation_suite+assert+stl.png"><img src="https://raw.githubusercontent.com/cpp-testing/ut-benchmark/master/results/ut_Compilation_suite+assert+stl.png"></a></td>
    <td><a href="https://raw.githubusercontent.com/cpp-testing/ut-benchmark/master/results/ut_Execution_suite+assert+stl.png"><img src="https://raw.githubusercontent.com/cpp-testing/ut-benchmark/master/results/ut_Execution_suite+assert+stl.png"></a></td>
    <td><a href="https://raw.githubusercontent.com/cpp-testing/ut-benchmark/master/results/ut_BinarySize_suite+assert+stl.png"><img src="https://raw.githubusercontent.com/cpp-testing/ut-benchmark/master/results/ut_BinarySize_suite+assert+stl.png"></a></td>
  </tr>
</table>

> https://github.com/cpp-testing/ut-benchmark

</p>
</details>

</p>
</details>

---

**Disclaimer** `UT` is not an official Boost library.

<p align="left"><img width="5%" src="https://github.com/boost-ext/ut/raw/gh-pages/images/logo.png" /></p>