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test: custom_rep_test_min_impl updated for V2

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Mateusz Pusz
2023-06-12 12:12:38 +03:00
parent 46f1a00f4b
commit 8a124ffbf0
2 changed files with 162 additions and 236 deletions
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1
test/unit_test/static/CMakeLists.txt
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@@ -35,6 +35,7 @@ add_library(
chrono_test.cpp chrono_test.cpp
concepts_test.cpp concepts_test.cpp
# custom_rep_test_min_expl.cpp # custom_rep_test_min_expl.cpp
custom_rep_test_min_impl.cpp
dimension_test.cpp dimension_test.cpp
fixed_string_test.cpp fixed_string_test.cpp
fractional_exponent_quantity.cpp fractional_exponent_quantity.cpp

397
test/unit_test/static/custom_rep_test_min_impl.cpp
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@@ -20,8 +20,7 @@
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE // OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
// SOFTWARE. // SOFTWARE.
#include <units/generic/dimensionless.h> #include <mp-units/systems/si/units.h>
#include <units/isq/si/length.h>
#include <type_traits> #include <type_traits>
namespace { namespace {
@@ -40,305 +39,231 @@ public:
using value_type = T; using value_type = T;
min_impl() = default; min_impl() = default;
constexpr min_impl(T v) noexcept : value_(v) {} constexpr explicit(false) min_impl(T v) noexcept : value_(v) {}
template<typename U> template<typename U>
constexpr min_impl(min_impl<U> i) noexcept : value_(static_cast<T>(i.value_)) constexpr explicit(false) min_impl(min_impl<U> i) noexcept : value_(static_cast<T>(static_cast<U>(i)))
{ {
} }
constexpr operator T() const noexcept { return value_; } constexpr explicit(false) operator T() const noexcept { return value_; }
}; };
} // namespace } // namespace
template<typename T>
inline constexpr bool mp_units::is_scalar<min_impl<T>> = true;
template<typename T, typename U> template<typename T, typename U>
struct std::common_type<min_impl<T>, min_impl<U>> : std::common_type<T, U> {}; struct std::common_type<min_impl<T>, min_impl<U>> : std::type_identity<min_impl<std::common_type_t<T, U>>> {};
template<typename T, typename U> template<typename T, typename U>
struct std::common_type<min_impl<T>, U> : std::common_type<T, U> {}; struct std::common_type<min_impl<T>, U> : std::type_identity<min_impl<std::common_type_t<T, U>>> {};
template<typename U, typename T> template<typename U, typename T>
struct std::common_type<U, min_impl<T>> : std::common_type<T, U> {}; struct std::common_type<U, min_impl<T>> : std::type_identity<min_impl<std::common_type_t<T, U>>> {};
namespace { namespace {
using namespace units; using namespace mp_units;
using namespace units::isq::si;
static_assert(Representation<min_impl<int>>); static_assert(Representation<min_impl<int>>);
static_assert(Representation<min_impl<double>>); static_assert(Representation<min_impl<double>>);
// construction from a value // construction from a value is not allowed
static_assert(std::constructible_from<length<metre, min_impl<int>>, min_impl<int>>); static_assert(!std::constructible_from<quantity<si::metre, min_impl<int>>, min_impl<int>>);
static_assert(!std::convertible_to<min_impl<int>, length<metre, min_impl<int>>>); static_assert(!std::convertible_to<min_impl<int>, quantity<si::metre, min_impl<int>>>);
static_assert(std::constructible_from<length<metre, min_impl<double>>, min_impl<double>>); static_assert(!std::constructible_from<quantity<si::metre, min_impl<double>>, min_impl<double>>);
static_assert(!std::convertible_to<min_impl<double>, length<metre, min_impl<double>>>); static_assert(!std::convertible_to<min_impl<double>, quantity<si::metre, min_impl<double>>>);
static_assert(std::constructible_from<length<metre, min_impl<double>>, min_impl<int>>); // multiply syntax should work
static_assert(!std::convertible_to<min_impl<int>, length<metre, min_impl<double>>>); template<typename T, Unit auto U>
concept creates_quantity = requires { T{} * U; };
static_assert(!std::constructible_from<length<metre, min_impl<int>>, min_impl<double>>); // narrowing conversion static_assert(creates_quantity<min_impl<int>, si::metre>);
static_assert(!std::convertible_to<min_impl<double>, length<metre, min_impl<int>>>); static_assert(creates_quantity<min_impl<double>, si::metre>);
// construction from an underlying type // dimensionless quantity is constructible and convertible from a value
static_assert(std::constructible_from<length<metre, min_impl<int>>, int>); static_assert(std::constructible_from<quantity<one, min_impl<int>>, min_impl<int>>);
static_assert(!std::convertible_to<int, length<metre, min_impl<int>>>); static_assert(std::convertible_to<min_impl<int>, quantity<one, min_impl<int>>>);
static_assert(std::constructible_from<length<metre, min_impl<double>>, double>); static_assert(std::constructible_from<quantity<one, min_impl<double>>, min_impl<double>>);
static_assert(!std::convertible_to<double, length<metre, min_impl<double>>>); static_assert(std::convertible_to<min_impl<double>, quantity<one, min_impl<double>>>);
static_assert(std::constructible_from<length<metre, min_impl<double>>, int>); static_assert(std::constructible_from<quantity<one, min_impl<double>>, min_impl<int>>);
static_assert(!std::convertible_to<int, length<metre, min_impl<double>>>); static_assert(std::convertible_to<min_impl<int>, quantity<one, min_impl<double>>>);
static_assert(!std::constructible_from<length<metre, min_impl<int>>, double>); // narrowing conversion static_assert(!std::constructible_from<quantity<one, min_impl<int>>, min_impl<double>>); // narrowing conversion
static_assert(!std::convertible_to<double, length<metre, min_impl<int>>>); static_assert(!std::convertible_to<min_impl<double>, quantity<one, min_impl<int>>>);
// dimensionless quantity is convertible from a value
static_assert(std::constructible_from<dimensionless<one, min_impl<int>>, min_impl<int>>);
static_assert(std::convertible_to<min_impl<int>, dimensionless<one, min_impl<int>>>);
static_assert(std::constructible_from<dimensionless<one, min_impl<double>>, min_impl<double>>);
static_assert(std::convertible_to<min_impl<double>, dimensionless<one, min_impl<double>>>);
static_assert(std::constructible_from<dimensionless<one, min_impl<double>>, min_impl<int>>);
static_assert(std::convertible_to<min_impl<int>, dimensionless<one, min_impl<double>>>);
static_assert(!std::constructible_from<dimensionless<one, min_impl<int>>, min_impl<double>>); // narrowing conversion
static_assert(!std::convertible_to<min_impl<double>, dimensionless<one, min_impl<int>>>);
// and underlying type // and underlying type
static_assert(std::constructible_from<dimensionless<one, min_impl<int>>, int>); static_assert(std::constructible_from<quantity<one, min_impl<int>>, int>);
static_assert(std::convertible_to<int, dimensionless<one, min_impl<int>>>); static_assert(std::convertible_to<int, quantity<one, min_impl<int>>>);
static_assert(std::constructible_from<dimensionless<one, min_impl<double>>, double>); static_assert(std::constructible_from<quantity<one, min_impl<double>>, double>);
static_assert(std::convertible_to<double, dimensionless<one, min_impl<double>>>); static_assert(std::convertible_to<double, quantity<one, min_impl<double>>>);
static_assert(std::constructible_from<dimensionless<one, min_impl<double>>, int>); static_assert(std::constructible_from<quantity<one, min_impl<double>>, int>);
static_assert(std::convertible_to<int, dimensionless<one, min_impl<double>>>); static_assert(std::convertible_to<int, quantity<one, min_impl<double>>>);
static_assert(!std::constructible_from<dimensionless<one, min_impl<int>>, double>); // narrowing conversion static_assert(!std::constructible_from<quantity<one, min_impl<int>>, double>); // narrowing conversion
static_assert(!std::convertible_to<double, dimensionless<one, min_impl<int>>>); static_assert(!std::convertible_to<double, quantity<one, min_impl<int>>>);
// but only for ratio(1), otherwise not convertible // but only for ratio(1)
static_assert(std::constructible_from<dimensionless<percent, min_impl<int>>, min_impl<int>>); static_assert(!std::constructible_from<quantity<percent, min_impl<int>>, min_impl<int>>);
static_assert(!std::convertible_to<min_impl<int>, dimensionless<percent, min_impl<int>>>); static_assert(!std::convertible_to<min_impl<int>, quantity<percent, min_impl<int>>>);
static_assert(std::constructible_from<dimensionless<percent, min_impl<double>>, min_impl<double>>); static_assert(!std::constructible_from<quantity<percent, min_impl<double>>, min_impl<double>>);
static_assert(!std::convertible_to<min_impl<double>, dimensionless<percent, min_impl<double>>>); static_assert(!std::convertible_to<min_impl<double>, quantity<percent, min_impl<double>>>);
static_assert(std::constructible_from<dimensionless<percent, min_impl<double>>, min_impl<int>>); static_assert(!std::constructible_from<quantity<percent, min_impl<double>>, min_impl<int>>);
static_assert(!std::convertible_to<min_impl<int>, dimensionless<percent, min_impl<double>>>); static_assert(!std::convertible_to<min_impl<int>, quantity<percent, min_impl<double>>>);
static_assert( static_assert(!std::constructible_from<quantity<percent, min_impl<int>>, min_impl<double>>); // narrowing conversion
!std::constructible_from<dimensionless<percent, min_impl<int>>, min_impl<double>>); // narrowing conversion static_assert(!std::convertible_to<min_impl<double>, quantity<percent, min_impl<int>>>);
static_assert(!std::convertible_to<min_impl<double>, dimensionless<percent, min_impl<int>>>);
// implicit conversion tests // multiply syntax
static_assert(std::constructible_from<length<metre, int>, min_impl<int>>); static_assert(creates_quantity<min_impl<int>, one>);
static_assert(!std::convertible_to<min_impl<int>, length<metre, int>>); static_assert(creates_quantity<min_impl<double>, one>);
static_assert(creates_quantity<min_impl<int>, percent>);
static_assert(std::constructible_from<length<metre, double>, min_impl<double>>); static_assert(creates_quantity<min_impl<double>, percent>);
static_assert(!std::convertible_to<min_impl<double>, length<metre, double>>);
static_assert(std::constructible_from<length<metre, double>, min_impl<int>>);
static_assert(!std::convertible_to<min_impl<int>, length<metre, double>>);
static_assert(!std::constructible_from<length<metre, int>, min_impl<double>>); // narrowing conversion
static_assert(!std::convertible_to<min_impl<double>, length<metre, int>>);
// construction from an underlying type
static_assert(std::constructible_from<length<metre, int>, min_impl<int>>);
static_assert(!std::convertible_to<min_impl<int>, length<metre, int>>);
static_assert(std::constructible_from<length<metre, double>, min_impl<double>>);
static_assert(!std::convertible_to<min_impl<double>, length<metre, double>>);
static_assert(std::constructible_from<length<metre, double>, min_impl<int>>);
static_assert(!std::convertible_to<min_impl<int>, length<metre, double>>);
static_assert(!std::constructible_from<length<metre, int>, min_impl<double>>); // narrowing conversion
static_assert(!std::convertible_to<min_impl<double>, length<metre, int>>);
// dimensionless quantity is convertible from a value
static_assert(std::constructible_from<dimensionless<one, int>, min_impl<int>>);
static_assert(std::convertible_to<min_impl<int>, dimensionless<one, int>>);
static_assert(std::constructible_from<dimensionless<one, double>, min_impl<double>>);
static_assert(std::convertible_to<min_impl<double>, dimensionless<one, double>>);
static_assert(std::constructible_from<dimensionless<one, double>, min_impl<int>>);
static_assert(std::convertible_to<min_impl<int>, dimensionless<one, double>>);
static_assert(!std::constructible_from<dimensionless<one, int>, min_impl<double>>); // narrowing conversion
static_assert(!std::convertible_to<min_impl<double>, dimensionless<one, int>>);
// but only for ratio(1), otherwise not convertible
static_assert(std::constructible_from<dimensionless<percent, int>, min_impl<int>>);
static_assert(!std::convertible_to<min_impl<int>, dimensionless<percent, int>>);
static_assert(std::constructible_from<dimensionless<percent, double>, min_impl<double>>);
static_assert(!std::convertible_to<min_impl<double>, dimensionless<percent, double>>);
static_assert(std::constructible_from<dimensionless<percent, double>, min_impl<int>>);
static_assert(!std::convertible_to<min_impl<int>, dimensionless<percent, double>>);
static_assert(!std::constructible_from<dimensionless<percent, int>, min_impl<double>>); // narrowing conversion
static_assert(!std::convertible_to<min_impl<double>, dimensionless<percent, int>>);
// construction from a quantity // construction from a quantity
// min_impl<T> -> min_impl<T> // min_impl<T> -> min_impl<T>
static_assert(std::constructible_from<length<metre, min_impl<int>>, length<metre, min_impl<int>>>); static_assert(std::constructible_from<quantity<si::metre, min_impl<int>>, quantity<si::metre, min_impl<int>>>);
static_assert(std::convertible_to<length<metre, min_impl<int>>, length<metre, min_impl<int>>>); static_assert(std::convertible_to<quantity<si::metre, min_impl<int>>, quantity<si::metre, min_impl<int>>>);
static_assert(std::constructible_from<length<metre, min_impl<double>>, length<metre, min_impl<double>>>); static_assert(std::constructible_from<quantity<si::metre, min_impl<double>>, quantity<si::metre, min_impl<double>>>);
static_assert(std::convertible_to<length<metre, min_impl<double>>, length<metre, min_impl<double>>>); static_assert(std::convertible_to<quantity<si::metre, min_impl<double>>, quantity<si::metre, min_impl<double>>>);
static_assert(std::constructible_from<length<metre, min_impl<double>>, length<metre, min_impl<int>>>); static_assert(std::constructible_from<quantity<si::metre, min_impl<double>>, quantity<si::metre, min_impl<int>>>);
static_assert(std::convertible_to<length<metre, min_impl<int>>, length<metre, min_impl<double>>>); static_assert(std::convertible_to<quantity<si::metre, min_impl<int>>, quantity<si::metre, min_impl<double>>>);
static_assert( static_assert(!std::constructible_from<quantity<si::metre, min_impl<int>>,
!std::constructible_from<length<metre, min_impl<int>>, length<metre, min_impl<double>>>); // narrowing conversion quantity<si::metre, min_impl<double>>>); // narrowing conversion
static_assert(!std::convertible_to<length<metre, min_impl<double>>, length<metre, min_impl<int>>>); static_assert(!std::convertible_to<quantity<si::metre, min_impl<double>>, quantity<si::metre, min_impl<int>>>);
// T -> min_impl<T> // T -> min_impl<T>
static_assert(std::constructible_from<length<metre, min_impl<int>>, length<metre, int>>); static_assert(std::constructible_from<quantity<si::metre, min_impl<int>>, quantity<si::metre, int>>);
static_assert(std::convertible_to<length<metre, int>, length<metre, min_impl<int>>>); static_assert(std::convertible_to<quantity<si::metre, int>, quantity<si::metre, min_impl<int>>>);
static_assert(std::constructible_from<length<metre, min_impl<double>>, length<metre, double>>); static_assert(std::constructible_from<quantity<si::metre, min_impl<double>>, quantity<si::metre, double>>);
static_assert(std::convertible_to<length<metre, double>, length<metre, min_impl<double>>>); static_assert(std::convertible_to<quantity<si::metre, double>, quantity<si::metre, min_impl<double>>>);
static_assert(std::constructible_from<length<metre, min_impl<double>>, length<metre, int>>); static_assert(std::constructible_from<quantity<si::metre, min_impl<double>>, quantity<si::metre, int>>);
static_assert(std::convertible_to<length<metre, int>, length<metre, min_impl<double>>>); static_assert(std::convertible_to<quantity<si::metre, int>, quantity<si::metre, min_impl<double>>>);
static_assert(!std::constructible_from<length<metre, min_impl<int>>, length<metre, double>>); // narrowing conversion static_assert(
static_assert(!std::convertible_to<length<metre, double>, length<metre, min_impl<int>>>); !std::constructible_from<quantity<si::metre, min_impl<int>>, quantity<si::metre, double>>); // narrowing conversion
static_assert(!std::convertible_to<quantity<si::metre, double>, quantity<si::metre, min_impl<int>>>);
// min_impl<T> -> T // min_impl<T> -> T
static_assert(std::constructible_from<length<metre, int>, length<metre, min_impl<int>>>); static_assert(std::constructible_from<quantity<si::metre, int>, quantity<si::metre, min_impl<int>>>);
static_assert(std::convertible_to<length<metre, min_impl<int>>, length<metre, int>>); static_assert(std::convertible_to<quantity<si::metre, min_impl<int>>, quantity<si::metre, int>>);
static_assert(std::constructible_from<length<metre, double>, length<metre, min_impl<double>>>); static_assert(std::constructible_from<quantity<si::metre, double>, quantity<si::metre, min_impl<double>>>);
static_assert(std::convertible_to<length<metre, min_impl<double>>, length<metre, double>>); static_assert(std::convertible_to<quantity<si::metre, min_impl<double>>, quantity<si::metre, double>>);
static_assert(std::constructible_from<length<metre, double>, length<metre, min_impl<int>>>); static_assert(std::constructible_from<quantity<si::metre, double>, quantity<si::metre, min_impl<int>>>);
static_assert(std::convertible_to<length<metre, min_impl<int>>, length<metre, double>>); static_assert(std::convertible_to<quantity<si::metre, min_impl<int>>, quantity<si::metre, double>>);
static_assert(!std::constructible_from<length<metre, int>, length<metre, min_impl<double>>>); // narrowing conversion static_assert(
static_assert(!std::convertible_to<length<metre, min_impl<double>>, length<metre, int>>); !std::constructible_from<quantity<si::metre, int>, quantity<si::metre, min_impl<double>>>); // narrowing conversion
static_assert(!std::convertible_to<quantity<si::metre, min_impl<double>>, quantity<si::metre, int>>);
// arithmetic operators // arithmetic operators
static_assert(length<metre, min_impl<int>>(1) + length<metre, min_impl<int>>(1) == length<metre, min_impl<int>>(2)); static_assert(min_impl<int>{1} * si::metre + min_impl<int>{1} * si::metre == min_impl<int>{2} * si::metre);
static_assert(length<metre, min_impl<int>>(1) + length<metre, min_impl<double>>(1.5) == static_assert(min_impl<int>{1} * si::metre + min_impl<double>{1.5} * si::metre == min_impl<double>{2.5} * si::metre);
length<metre, min_impl<double>>(2.5)); static_assert(1 * si::metre + min_impl<int>{1} * si::metre == min_impl<int>{2} * si::metre);
static_assert(length<metre, int>(1) + length<metre, min_impl<int>>(1) == length<metre, min_impl<int>>(2)); static_assert(1 * si::metre + min_impl<double>{1.5} * si::metre == min_impl<double>{2.5} * si::metre);
static_assert(length<metre, int>(1) + length<metre, min_impl<double>>(1.5) == length<metre, min_impl<double>>(2.5)); static_assert(min_impl<int>{1} * si::metre + 1 * si::metre == min_impl<int>{2} * si::metre);
static_assert(length<metre, min_impl<int>>(1) + length<metre, int>(1) == length<metre, min_impl<int>>(2)); static_assert(min_impl<int>{1} * si::metre + double{1.5} * si::metre == min_impl<double>{2.5} * si::metre);
static_assert(length<metre, min_impl<int>>(1) + length<metre, double>(1.5) == length<metre, min_impl<double>>(2.5)); static_assert(min_impl<int>{1} * si::metre + min_impl<int>{1} * si::metre == 2 * si::metre);
static_assert(length<metre, min_impl<int>>(1) + length<metre, min_impl<int>>(1) == length<metre, int>(2)); static_assert(min_impl<int>{1} * si::metre + min_impl<double>{1.5} * si::metre == double{2.5} * si::metre);
static_assert(length<metre, min_impl<int>>(1) + length<metre, min_impl<double>>(1.5) == length<metre, double>(2.5));
static_assert(length<kilometre, min_impl<int>>(1) + length<metre, min_impl<int>>(1) == static_assert(min_impl<int>{1} * si::kilo<si::metre> + min_impl<int>{1} * si::metre ==
length<metre, min_impl<int>>(1001)); min_impl<int>{1'001} * si::metre);
static_assert(length<kilometre, min_impl<int>>(1) + length<metre, min_impl<double>>(1.5) == static_assert(min_impl<int>{1} * si::kilo<si::metre> + min_impl<double>{1.5} * si::metre ==
length<metre, min_impl<double>>(1001.5)); min_impl<double>{1001.5} * si::metre);
static_assert(length<kilometre, int>(1) + length<metre, min_impl<int>>(1) == length<metre, min_impl<int>>(1001)); static_assert(1 * si::kilo<si::metre> + min_impl<int>{1} * si::metre == min_impl<int>{1'001} * si::metre);
static_assert(length<kilometre, int>(1) + length<metre, min_impl<double>>(1.5) == static_assert(1 * si::kilo<si::metre> + min_impl<double>{1.5} * si::metre == min_impl<double>{1001.5} * si::metre);
length<metre, min_impl<double>>(1001.5)); static_assert(min_impl<int>{1} * si::kilo<si::metre> + 1 * si::metre == min_impl<int>{1'001} * si::metre);
static_assert(length<kilometre, min_impl<int>>(1) + length<metre, int>(1) == length<metre, min_impl<int>>(1001)); static_assert(min_impl<int>{1} * si::kilo<si::metre> + double{1.5} * si::metre == min_impl<double>{1001.5} * si::metre);
static_assert(length<kilometre, min_impl<int>>(1) + length<metre, double>(1.5) == static_assert(min_impl<int>{1} * si::kilo<si::metre> + min_impl<int>{1} * si::metre == 1'001 * si::metre);
length<metre, min_impl<double>>(1001.5)); static_assert(min_impl<int>{1} * si::kilo<si::metre> + min_impl<double>{1.5} * si::metre == double{1001.5} * si::metre);
static_assert(length<kilometre, min_impl<int>>(1) + length<metre, min_impl<int>>(1) == length<metre, int>(1001));
static_assert(length<kilometre, min_impl<int>>(1) + length<metre, min_impl<double>>(1.5) ==
length<metre, double>(1001.5));
static_assert(length<metre, min_impl<int>>(1) + length<kilometre, min_impl<int>>(1) == static_assert(min_impl<int>{1} * si::metre + min_impl<int>{1} * si::kilo<si::metre> ==
length<metre, min_impl<int>>(1001)); min_impl<int>{1'001} * si::metre);
static_assert(length<metre, min_impl<int>>(1) + length<kilometre, min_impl<double>>(1.5) == static_assert(min_impl<int>{1} * si::metre + min_impl<double>{1.5} * si::kilo<si::metre> ==
length<metre, min_impl<double>>(1501)); min_impl<double>{1'501} * si::metre);
static_assert(length<metre, int>(1) + length<kilometre, min_impl<int>>(1) == length<metre, min_impl<int>>(1001)); static_assert(1 * si::metre + min_impl<int>{1} * si::kilo<si::metre> == min_impl<int>{1'001} * si::metre);
static_assert(length<metre, int>(1) + length<kilometre, min_impl<double>>(1.5) == static_assert(1 * si::metre + min_impl<double>{1.5} * si::kilo<si::metre> == min_impl<double>{1'501} * si::metre);
length<metre, min_impl<double>>(1501)); static_assert(min_impl<int>{1} * si::metre + 1 * si::kilo<si::metre> == min_impl<int>{1'001} * si::metre);
static_assert(length<metre, min_impl<int>>(1) + length<kilometre, int>(1) == length<metre, min_impl<int>>(1001)); static_assert(min_impl<int>{1} * si::metre + double{1.5} * si::kilo<si::metre> == min_impl<double>{1'501} * si::metre);
static_assert(length<metre, min_impl<int>>(1) + length<kilometre, double>(1.5) == static_assert(min_impl<int>{1} * si::metre + min_impl<int>{1} * si::kilo<si::metre> == 1'001 * si::metre);
length<metre, min_impl<double>>(1501)); static_assert(min_impl<int>{1} * si::metre + min_impl<double>{1.5} * si::kilo<si::metre> == double{1'501} * si::metre);
static_assert(length<metre, min_impl<int>>(1) + length<kilometre, min_impl<int>>(1) == length<metre, int>(1001));
static_assert(length<metre, min_impl<int>>(1) + length<kilometre, min_impl<double>>(1.5) ==
length<metre, double>(1501));
static_assert(length<metre, min_impl<int>>(2) - length<metre, min_impl<int>>(1) == length<metre, min_impl<int>>(1)); static_assert(min_impl<int>{2} * si::metre - min_impl<int>{1} * si::metre == min_impl<int>{1} * si::metre);
static_assert(length<metre, min_impl<int>>(2) - length<metre, min_impl<double>>(1.5) == static_assert(min_impl<int>{2} * si::metre - min_impl<double>{1.5} * si::metre == min_impl<double>{0.5} * si::metre);
length<metre, min_impl<double>>(0.5)); static_assert(2 * si::metre - min_impl<int>{1} * si::metre == min_impl<int>{1} * si::metre);
static_assert(length<metre, int>(2) - length<metre, min_impl<int>>(1) == length<metre, min_impl<int>>(1)); static_assert(2 * si::metre - min_impl<double>{1.5} * si::metre == min_impl<double>{0.5} * si::metre);
static_assert(length<metre, int>(2) - length<metre, min_impl<double>>(1.5) == length<metre, min_impl<double>>(0.5)); static_assert(min_impl<int>{2} * si::metre - 1 * si::metre == min_impl<int>{1} * si::metre);
static_assert(length<metre, min_impl<int>>(2) - length<metre, int>(1) == length<metre, min_impl<int>>(1)); static_assert(min_impl<int>{2} * si::metre - double{1.5} * si::metre == min_impl<double>{0.5} * si::metre);
static_assert(length<metre, min_impl<int>>(2) - length<metre, double>(1.5) == length<metre, min_impl<double>>(0.5)); static_assert(min_impl<int>{2} * si::metre - min_impl<int>{1} * si::metre == 1 * si::metre);
static_assert(length<metre, min_impl<int>>(2) - length<metre, min_impl<int>>(1) == length<metre, int>(1)); static_assert(min_impl<int>{2} * si::metre - min_impl<double>{1.5} * si::metre == double{0.5} * si::metre);
static_assert(length<metre, min_impl<int>>(2) - length<metre, min_impl<double>>(1.5) == length<metre, double>(0.5));
static_assert(length<kilometre, min_impl<int>>(2) - length<metre, min_impl<int>>(1) == static_assert(min_impl<int>{2} * si::kilo<si::metre> - min_impl<int>{1} * si::metre ==
length<metre, min_impl<int>>(1999)); min_impl<int>{1'999} * si::metre);
static_assert(length<kilometre, min_impl<int>>(2) - length<metre, min_impl<double>>(1.5) == static_assert(min_impl<int>{2} * si::kilo<si::metre> - min_impl<double>{1.5} * si::metre ==
length<metre, min_impl<double>>(1998.5)); min_impl<double>{1998.5} * si::metre);
static_assert(length<kilometre, int>(2) - length<metre, min_impl<int>>(1) == length<metre, min_impl<int>>(1999)); static_assert(2 * si::kilo<si::metre> - min_impl<int>{1} * si::metre == min_impl<int>{1'999} * si::metre);
static_assert(length<kilometre, int>(2) - length<metre, min_impl<double>>(1.5) == static_assert(2 * si::kilo<si::metre> - min_impl<double>{1.5} * si::metre == min_impl<double>{1998.5} * si::metre);
length<metre, min_impl<double>>(1998.5)); static_assert(min_impl<int>{2} * si::kilo<si::metre> - 1 * si::metre == min_impl<int>{1'999} * si::metre);
static_assert(length<kilometre, min_impl<int>>(2) - length<metre, int>(1) == length<metre, min_impl<int>>(1999)); static_assert(min_impl<int>{2} * si::kilo<si::metre> - double{1.5} * si::metre == min_impl<double>{1998.5} * si::metre);
static_assert(length<kilometre, min_impl<int>>(2) - length<metre, double>(1.5) == static_assert(min_impl<int>{2} * si::kilo<si::metre> - min_impl<int>{1} * si::metre == 1'999 * si::metre);
length<metre, min_impl<double>>(1998.5)); static_assert(min_impl<int>{2} * si::kilo<si::metre> - min_impl<double>{1.5} * si::metre == double{1998.5} * si::metre);
static_assert(length<kilometre, min_impl<int>>(2) - length<metre, min_impl<int>>(1) == length<metre, int>(1999));
static_assert(length<kilometre, min_impl<int>>(2) - length<metre, min_impl<double>>(1.5) ==
length<metre, double>(1998.5));
static_assert(length<metre, min_impl<int>>(2000) - length<kilometre, min_impl<int>>(1) == static_assert(min_impl<int>{2'000} * si::metre - min_impl<int>{1} * si::kilo<si::metre> ==
length<metre, min_impl<int>>(1000)); min_impl<int>{1'000} * si::metre);
static_assert(length<metre, min_impl<int>>(2000) - length<kilometre, min_impl<double>>(1.5) == static_assert(min_impl<int>{2'000} * si::metre - min_impl<double>{1.5} * si::kilo<si::metre> ==
length<metre, min_impl<double>>(500)); min_impl<double>{500} * si::metre);
static_assert(length<metre, int>(2000) - length<kilometre, min_impl<int>>(1) == length<metre, min_impl<int>>(1000)); static_assert(2'000 * si::metre - min_impl<int>{1} * si::kilo<si::metre> == min_impl<int>{1'000} * si::metre);
static_assert(length<metre, int>(2000) - length<kilometre, min_impl<double>>(1.5) == static_assert(2'000 * si::metre - min_impl<double>{1.5} * si::kilo<si::metre> == min_impl<double>{500} * si::metre);
length<metre, min_impl<double>>(500)); static_assert(min_impl<int>{2'000} * si::metre - 1 * si::kilo<si::metre> == min_impl<int>{1'000} * si::metre);
static_assert(length<metre, min_impl<int>>(2000) - length<kilometre, int>(1) == length<metre, min_impl<int>>(1000)); static_assert(min_impl<int>{2'000} * si::metre - double{1.5} * si::kilo<si::metre> ==
static_assert(length<metre, min_impl<int>>(2000) - length<kilometre, double>(1.5) == min_impl<double>{500} * si::metre);
length<metre, min_impl<double>>(500)); static_assert(min_impl<int>{2'000} * si::metre - min_impl<int>{1} * si::kilo<si::metre> == 1'000 * si::metre);
static_assert(length<metre, min_impl<int>>(2000) - length<kilometre, min_impl<int>>(1) == length<metre, int>(1000)); static_assert(min_impl<int>{2'000} * si::metre - min_impl<double>{1.5} * si::kilo<si::metre> ==
static_assert(length<metre, min_impl<int>>(2000) - length<kilometre, min_impl<double>>(1.5) == double{500} * si::metre);
length<metre, double>(500));
static_assert(length<metre, min_impl<int>>(123) * min_impl<double>(1.5) == length<metre, min_impl<double>>(184.5)); static_assert(min_impl<int>{123} * si::metre * min_impl<double>(1.5) == min_impl<double>{184.5} * si::metre);
static_assert(length<metre, min_impl<int>>(123) * 1.5 == length<metre, min_impl<double>>(184.5)); static_assert(min_impl<int>{123} * si::metre * 1.5 == min_impl<double>{184.5} * si::metre);
static_assert(length<metre, int>(123) * min_impl<double>(1.5) == length<metre, min_impl<double>>(184.5)); static_assert(123 * si::metre * min_impl<double>(1.5) == min_impl<double>{184.5} * si::metre);
static_assert(length<metre, min_impl<int>>(123) * quantity{min_impl<double>(1.5)} == static_assert(min_impl<int>{123} * si::metre * (min_impl<double>(1.5) * one) == min_impl<double>{184.5} * si::metre);
length<metre, min_impl<double>>(184.5)); static_assert(min_impl<int>{123} * si::metre * (1.5 * one) == min_impl<double>{184.5} * si::metre);
static_assert(length<metre, min_impl<int>>(123) * quantity{1.5} == length<metre, min_impl<double>>(184.5)); static_assert(123 * si::metre * (min_impl<double>(1.5) * one) == min_impl<double>{184.5} * si::metre);
static_assert(length<metre, int>(123) * quantity{min_impl<double>(1.5)} == length<metre, min_impl<double>>(184.5));
static_assert(min_impl<double>(1.5) * length<metre, min_impl<int>>(123) == length<metre, min_impl<double>>(184.5)); static_assert(min_impl<double>(1.5) * min_impl<int>{123} * si::metre == min_impl<double>{184.5} * si::metre);
static_assert(min_impl<double>(1.5) * length<metre, int>(123) == length<metre, min_impl<double>>(184.5)); static_assert(min_impl<double>(1.5) * 123 * si::metre == min_impl<double>{184.5} * si::metre);
static_assert(1.5 * length<metre, min_impl<int>>(123) == length<metre, min_impl<double>>(184.5)); static_assert(1.5 * min_impl<int>{123} * si::metre == min_impl<double>{184.5} * si::metre);
static_assert(quantity{min_impl<double>(1.5)} * length<metre, min_impl<int>>(123) == static_assert(min_impl<double>(1.5) * one * (min_impl<int>{123} * si::metre) == min_impl<double>{184.5} * si::metre);
length<metre, min_impl<double>>(184.5)); static_assert(min_impl<double>(1.5) * one * (123 * si::metre) == min_impl<double>{184.5} * si::metre);
static_assert(quantity{min_impl<double>(1.5)} * length<metre, int>(123) == length<metre, min_impl<double>>(184.5)); static_assert(1.5 * one * (min_impl<int>{123} * si::metre) == min_impl<double>{184.5} * si::metre);
static_assert(quantity{1.5} * length<metre, min_impl<int>>(123) == length<metre, min_impl<double>>(184.5));
static_assert(length<metre, min_impl<int>>(123) / min_impl<double>(2.) == length<metre, min_impl<double>>(61.5)); static_assert(min_impl<int>{123} * si::metre / min_impl<double>(2.) == min_impl<double>{61.5} * si::metre);
static_assert(length<metre, min_impl<int>>(123) / 2. == length<metre, min_impl<double>>(61.5)); static_assert(min_impl<int>{123} * si::metre / 2. == min_impl<double>{61.5} * si::metre);
static_assert(length<metre, int>(123) / min_impl<double>(2.) == length<metre, min_impl<double>>(61.5)); static_assert(123 * si::metre / min_impl<double>(2.) == min_impl<double>{61.5} * si::metre);
static_assert(length<metre, min_impl<int>>(123) / quantity{min_impl<double>(2.)} == static_assert(min_impl<int>{123} * si::metre / (min_impl<double>(2.) * one) == min_impl<double>{61.5} * si::metre);
length<metre, min_impl<double>>(61.5)); static_assert(min_impl<int>{123} * si::metre / (2. * one) == min_impl<double>{61.5} * si::metre);
static_assert(length<metre, min_impl<int>>(123) / quantity{2.} == length<metre, min_impl<double>>(61.5)); static_assert(123 * si::metre / (min_impl<double>(2.) * one) == min_impl<double>{61.5} * si::metre);
static_assert(length<metre, int>(123) / quantity{min_impl<double>(2.)} == length<metre, min_impl<double>>(61.5));
static_assert(length<metre, min_impl<int>>(123) / length<metre, min_impl<double>>(2.) == 61.5); static_assert(min_impl<int>{123} * si::metre / (min_impl<double>{2.} * si::metre) == 61.5);
static_assert(length<metre, min_impl<int>>(123) / length<metre, double>(2.) == 61.5); static_assert(min_impl<int>{123} * si::metre / (double{2.} * si::metre) == 61.5);
static_assert(length<metre, int>(123) / length<metre, min_impl<double>>(2.) == 61.5); static_assert(123 * si::metre / (min_impl<double>{2.} * si::metre) == 61.5);
static_assert(length<metre, min_impl<int>>(123) % min_impl<int>(100) == length<metre, int>(23)); static_assert(min_impl<int>{123} * si::metre % (min_impl<int>(100) * si::metre) == 23 * si::metre);
static_assert(length<metre, min_impl<int>>(123) % 100 == length<metre, int>(23)); static_assert(min_impl<int>{123} * si::metre % (100 * si::metre) == 23 * si::metre);
static_assert(length<metre, int>(123) % min_impl<int>(100) == length<metre, int>(23)); static_assert(123 * si::metre % (min_impl<int>(100) * si::metre) == 23 * si::metre);
static_assert(length<metre, min_impl<int>>(123) % quantity{min_impl<int>(100)} == length<metre, int>(23));
static_assert(length<metre, min_impl<int>>(123) % quantity{100} == length<metre, int>(23));
static_assert(length<metre, int>(123) % quantity{min_impl<int>(100)} == length<metre, int>(23));
} // namespace } // namespace