olm/lib/doctest/examples/all_features/templated_test_cases.cpp

#include <doctest/doctest.h>

DOCTEST_MAKE_STD_HEADERS_CLEAN_FROM_WARNINGS_ON_WALL_BEGIN
#include <vector>
DOCTEST_MAKE_STD_HEADERS_CLEAN_FROM_WARNINGS_ON_WALL_END

// =================================================================================================
// NORMAL TEMPLATED TEST CASES
// =================================================================================================

TEST_CASE_TEMPLATE("signed integers stuff", T, signed char, short, int) {
    T var = T();
    --var;
    CHECK(var == -1);
}

// teach the library how to stringify this type - otherwise <> will be used
TYPE_TO_STRING(std::vector<int>);

TEST_CASE_TEMPLATE("vector stuff", T, std::vector<int>) {
    T vec(10);
    CHECK(vec.size() == 20); // will fail
}

// =================================================================================================
// NAMED TEMPLATED TEST CASES WITH DEFERRED INSTANTIATION
// =================================================================================================

TEST_CASE_TEMPLATE_DEFINE("default construction", T, test_id) {
    T var = T();
    CHECK(doctest::Approx(var) == T());
}

TEST_CASE_TEMPLATE_INVOKE(test_id, signed char, short, int);
TEST_CASE_TEMPLATE_INVOKE(test_id, double, double); // note that types won't be filtered for uniqueness

TEST_CASE_TEMPLATE_APPLY(test_id, std::tuple<unsigned char, char>);

// =================================================================================================
// MULTIPLE TYPES AS PARAMETERS
// =================================================================================================

template <typename first, typename second>
struct TypePair
{
    typedef first  A;
    typedef second B;
};

TEST_CASE_TEMPLATE("multiple types", T, TypePair<int, char>, TypePair<char, int>, TypePair<bool, int>) {
    typedef typename T::A T1;
    typedef typename T::B T2;
    T1 t1 = T1();
    T2 t2 = T2();
    // use T1 and T2 types
    CHECK(t1 == T1());
    CHECK(t2 != T2());
}

// currently the string result will be "int_pair" instead of "TypePair<int, int>" because of the way the type stringification works
typedef TypePair<int, int> int_pair;
TYPE_TO_STRING(int_pair);

TEST_CASE_TEMPLATE("bad stringification of type pair", T, int_pair) {
    typedef typename T::A T1;
    typedef typename T::B T2;
    T1 t1 = T1();
    T2 t2 = T2();
    // use T1 and T2 types
    CHECK(t1 == T1());
    CHECK(t2 != T2());
}
switch to doctest for unit testing thanks to Nico Werner, who did most of the porting work 2021-12-22 19:45:33 +01:00			`#include <doctest/doctest.h>`

			`DOCTEST_MAKE_STD_HEADERS_CLEAN_FROM_WARNINGS_ON_WALL_BEGIN`
			`#include <vector>`
			`DOCTEST_MAKE_STD_HEADERS_CLEAN_FROM_WARNINGS_ON_WALL_END`

			`// =================================================================================================`
			`// NORMAL TEMPLATED TEST CASES`
			`// =================================================================================================`

			`TEST_CASE_TEMPLATE("signed integers stuff", T, signed char, short, int) {`
			`T var = T();`
			`--var;`
			`CHECK(var == -1);`
			`}`

			`// teach the library how to stringify this type - otherwise <> will be used`
			`TYPE_TO_STRING(std::vector<int>);`

			`TEST_CASE_TEMPLATE("vector stuff", T, std::vector<int>) {`
			`T vec(10);`
			`CHECK(vec.size() == 20); // will fail`
			`}`

			`// =================================================================================================`
			`// NAMED TEMPLATED TEST CASES WITH DEFERRED INSTANTIATION`
			`// =================================================================================================`

			`TEST_CASE_TEMPLATE_DEFINE("default construction", T, test_id) {`
			`T var = T();`
			`CHECK(doctest::Approx(var) == T());`
			`}`

			`TEST_CASE_TEMPLATE_INVOKE(test_id, signed char, short, int);`
			`TEST_CASE_TEMPLATE_INVOKE(test_id, double, double); // note that types won't be filtered for uniqueness`

			`TEST_CASE_TEMPLATE_APPLY(test_id, std::tuple<unsigned char, char>);`

			`// =================================================================================================`
			`// MULTIPLE TYPES AS PARAMETERS`
			`// =================================================================================================`

			`template <typename first, typename second>`
			`struct TypePair`
			`{`
			`typedef first A;`
			`typedef second B;`
			`};`

			`TEST_CASE_TEMPLATE("multiple types", T, TypePair<int, char>, TypePair<char, int>, TypePair<bool, int>) {`
			`typedef typename T::A T1;`
			`typedef typename T::B T2;`
			`T1 t1 = T1();`
			`T2 t2 = T2();`
			`// use T1 and T2 types`
			`CHECK(t1 == T1());`
			`CHECK(t2 != T2());`
			`}`

			`// currently the string result will be "int_pair" instead of "TypePair<int, int>" because of the way the type stringification works`
			`typedef TypePair<int, int> int_pair;`
			`TYPE_TO_STRING(int_pair);`

			`TEST_CASE_TEMPLATE("bad stringification of type pair", T, int_pair) {`
			`typedef typename T::A T1;`
			`typedef typename T::B T2;`
			`T1 t1 = T1();`
			`T2 t2 = T2();`
			`// use T1 and T2 types`
			`CHECK(t1 == T1());`
			`CHECK(t2 != T2());`
			`}`