/* @file bu.test.cpp */ #include "xo/unit/basis_unit.hpp" #include "xo/unit/bu_store.hpp" #include "xo/indentlog/scope.hpp" #include "xo/flatstring/flatstring_pretty.hpp" //#include "xo/indentlog/print/tag.hpp" #include namespace xo { using xo::qty::scalefactor_ratio_type; using xo::qty::bu_abbrev; using xo::qty::basis_unit; using xo::qty::bu_abbrev_type; using xo::qty::native_unit2_v; using xo::qty::dim; namespace bu = xo::qty::detail::bu; namespace ut { /* compile-time test: * verify we can use a basis_unit as a non-type template parameter * we will need this for quantity> */ template constexpr bu_abbrev_type bu_mpl_abbrev = bu_abbrev(bu); TEST_CASE("basis_unit", "[basis_unit]") { static_assert(bu_mpl_abbrev == bu_abbrev(bu::gram)); REQUIRE(bu_mpl_abbrev == bu_abbrev(bu::gram)); } /*TEST_CASE(basis_unit)*/ TEST_CASE("basis_unit1", "[basis_unit]") { constexpr bool c_debug_flag = false; scope log(XO_DEBUG2(c_debug_flag, "TEST_CASE.basis_unit1")); static_assert(native_unit2_v[static_cast(dim::mass)].native_dim() == dim::mass); static_assert(native_unit2_v[static_cast(dim::distance)].native_dim() == dim::distance); static_assert(native_unit2_v[static_cast(dim::time)].native_dim() == dim::time); static_assert(native_unit2_v[static_cast(dim::time)].native_dim() == dim::time); static_assert(native_unit2_v[static_cast(dim::currency)].native_dim() == dim::currency); static_assert(native_unit2_v[static_cast(dim::price)].native_dim() == dim::price); log && log(xtag("mass*10^3", bu_abbrev(bu::kilogram))); static_assert(bu_abbrev(bu::kilogram) == bu_abbrev_type::from_chars("kg")); log && log("---------------------"); /* note: using CHECK to make test show up in coverage */ # define REQUIRE_x2(x) static_assert(x); REQUIRE(x) log && log(xtag("mass", bu_abbrev(bu::meter))); REQUIRE_x2(bu_abbrev(bu::picogram) == bu_abbrev_type::from_chars("pg")); REQUIRE_x2(bu_abbrev(bu::nanogram) == bu_abbrev_type::from_chars("ng")); REQUIRE_x2(bu_abbrev(bu::microgram) == bu_abbrev_type::from_chars("ug")); REQUIRE_x2(bu_abbrev(bu::milligram) == bu_abbrev_type::from_chars("mg")); REQUIRE_x2(bu_abbrev(bu::gram) == bu_abbrev_type::from_chars("g")); REQUIRE_x2(bu_abbrev(bu::kilogram) == bu_abbrev_type::from_chars("kg")); REQUIRE_x2(bu_abbrev(bu::tonne) == bu_abbrev_type::from_chars("t")); REQUIRE_x2(bu_abbrev(bu::kilotonne) == bu_abbrev_type::from_chars("kt")); REQUIRE_x2(bu_abbrev(bu::megatonne) == bu_abbrev_type::from_chars("Mt")); REQUIRE_x2(bu_abbrev(bu::gigatonne) == bu_abbrev_type::from_chars("Gt")); log && log(xtag("distance", bu_abbrev(bu::meter))); REQUIRE_x2(bu_abbrev(bu::picometre) == bu_abbrev_type::from_chars("pm")); REQUIRE_x2(bu_abbrev(bu::nanometre) == bu_abbrev_type::from_chars("nm")); REQUIRE_x2(bu_abbrev(bu::micrometre) == bu_abbrev_type::from_chars("um")); REQUIRE_x2(bu_abbrev(bu::millimetre) == bu_abbrev_type::from_chars("mm")); REQUIRE_x2(bu_abbrev(bu::metre) == bu_abbrev_type::from_chars("m")); REQUIRE_x2(bu_abbrev(bu::kilometre) == bu_abbrev_type::from_chars("km")); REQUIRE_x2(bu_abbrev(bu::megametre) == bu_abbrev_type::from_chars("Mm")); REQUIRE_x2(bu_abbrev(bu::gigametre) == bu_abbrev_type::from_chars("Gm")); REQUIRE_x2(bu_abbrev(bu::picometer) == bu_abbrev_type::from_chars("pm")); REQUIRE_x2(bu_abbrev(bu::nanometer) == bu_abbrev_type::from_chars("nm")); REQUIRE_x2(bu_abbrev(bu::micrometer) == bu_abbrev_type::from_chars("um")); REQUIRE_x2(bu_abbrev(bu::millimeter) == bu_abbrev_type::from_chars("mm")); REQUIRE_x2(bu_abbrev(bu::meter) == bu_abbrev_type::from_chars("m")); REQUIRE_x2(bu_abbrev(bu::kilometer) == bu_abbrev_type::from_chars("km")); REQUIRE_x2(bu_abbrev(bu::megameter) == bu_abbrev_type::from_chars("Mm")); REQUIRE_x2(bu_abbrev(bu::gigameter) == bu_abbrev_type::from_chars("Gm")); REQUIRE_x2(bu_abbrev(bu::lightsecond) == flatstring("lsec")); REQUIRE_x2(bu_abbrev(bu::astronomicalunit) == flatstring("AU")); REQUIRE_x2(bu_abbrev(bu::inch) == flatstring("in")); REQUIRE_x2(bu_abbrev(bu::foot) == flatstring("ft")); REQUIRE_x2(bu_abbrev(bu::yard) == flatstring("yd")); REQUIRE_x2(bu_abbrev(bu::mile) == flatstring("mi")); log && log(xtag("time", bu_abbrev(bu::second))); REQUIRE_x2(bu_abbrev(bu::picosecond) == bu_abbrev_type::from_chars("ps")); REQUIRE_x2(bu_abbrev(bu::nanosecond) == bu_abbrev_type::from_chars("ns")); REQUIRE_x2(bu_abbrev(bu::microsecond) == bu_abbrev_type::from_chars("us")); REQUIRE_x2(bu_abbrev(bu::millisecond) == bu_abbrev_type::from_chars("ms")); REQUIRE_x2(bu_abbrev(bu::second) == bu_abbrev_type::from_chars("s")); REQUIRE_x2(bu_abbrev(bu::minute) == bu_abbrev_type::from_chars("min")); REQUIRE_x2(bu_abbrev(bu::hour) == bu_abbrev_type::from_chars("hr")); REQUIRE_x2(bu_abbrev(bu::day) == bu_abbrev_type::from_chars("dy")); REQUIRE_x2(bu_abbrev(bu::week) == bu_abbrev_type::from_chars("wk")); REQUIRE_x2(bu_abbrev(bu::month) == bu_abbrev_type::from_chars("mo")); REQUIRE_x2(bu_abbrev(bu::year) == bu_abbrev_type::from_chars("yr")); REQUIRE_x2(bu_abbrev(bu::year250) == bu_abbrev_type::from_chars("yr250")); REQUIRE_x2(bu_abbrev(bu::year360) == bu_abbrev_type::from_chars("yr360")); REQUIRE_x2(bu_abbrev(bu::year365) == bu_abbrev_type::from_chars("yr365")); log && log(xtag("currency", bu_abbrev(bu::currency))); REQUIRE_x2(bu_abbrev(bu::currency) == flatstring("ccy")); log && log(xtag("price", bu_abbrev(bu::price))); REQUIRE_x2(bu_abbrev(bu::price) == flatstring("px")); # undef REQUIRE_x2 } /*TEST_CASE(basis_unit1)*/ } /*namespace ut*/ } /*namespace xo*/ /* end bu.test.cpp */