tomlplusplus/tests/parsing_floats.cpp
Mark Gillard cb000809b0 support for upcoming TOML v1.0.0 release
see https://github.com/toml-lang/toml/issues/698 for info about TOML v1.0.0

also:
- fixed some parser error-paths not returning early enough when exceptions were disabled
- added more specific error messages for parsing errors relating to prohibited codepoints
- added compilation speed improvements (particularly for platforms lacking floating-point `std::to_chars`)
- added many minor documentation improvements
- added additional tests
2020-04-03 00:39:21 +03:00

141 lines
5.7 KiB
C++

#include "tests.h"
TEST_CASE("parsing - floats")
{
parsing_should_succeed(S(R"(
# fractional
flt1 = +1.0
flt2 = 3.1415
flt3 = -0.01
# exponent
flt4 = 5e+22
flt5 = 1e06
flt6 = -2E-2
# both
flt7 = 6.626e-34
flt8 = 224_617.445_991_228
)"sv),
[](table&& tbl) noexcept
{
CHECK(tbl[S("flt1")] == 1.0);
CHECK(tbl[S("flt2")] == 3.1415);
CHECK(tbl[S("flt3")] == -0.01);
CHECK(tbl[S("flt4")].as<double>()->get() == 5e+22_a);
CHECK(tbl[S("flt5")].as<double>()->get() == 1e6_a);
CHECK(tbl[S("flt6")] == -2E-2);
CHECK(tbl[S("flt7")].as<double>()->get() == 6.626e-34_a);
CHECK(tbl[S("flt8")].as<double>()->get() == 224617.445991228_a);
}
);
// "Each underscore must be surrounded by at least one digit on each side."
parsing_should_fail(S("flt8 = 224_617.445_991_228_"sv));
parsing_should_fail(S("flt8 = _224_617.445_991_228"sv));
parsing_should_fail(S("flt8 = 224__617.445_991_228"sv));
// "Float values -0.0 and +0.0 are valid and should map according to IEEE 754."
parsing_should_succeed(
S(R"(zeroes = [-0.0, +0.0])"sv),
[](table&& tbl) noexcept
{
CHECK(tbl[S("zeroes")][0] == -0.0);
CHECK(tbl[S("zeroes")][1] == +0.0);
}
);
//value tests
parse_expected_value( "1e1"sv, 1e1 );
parse_expected_value( "1e-1"sv, 1e-1 );
parse_expected_value( "1e+1"sv, 1e+1 );
parse_expected_value( "1.0"sv, 1.0 );
parse_expected_value( "1.0e1"sv, 1.0e1 );
parse_expected_value( "1.0e-1"sv, 1.0e-1 );
parse_expected_value( "1.0e+1"sv, 1.0e+1 );
parse_expected_value( "+1e1"sv, +1e1 );
parse_expected_value( "+1.0"sv, +1.0 );
parse_expected_value( "+1.0e1"sv, +1.0e1 );
parse_expected_value( "+1.0e+1"sv, +1.0e+1 );
parse_expected_value( "+1.0e-1"sv, +1.0e-1 );
parse_expected_value( "-1.0e+1"sv, -1.0e+1 );
parse_expected_value( "-1e1"sv, -1e1 );
parse_expected_value( "-1.0"sv, -1.0 );
parse_expected_value( "-1.0e1"sv, -1.0e1 );
parse_expected_value( "-1.0e-1"sv, -1.0e-1 );
parse_expected_value( "1.0"sv, 1.0 );
parse_expected_value( "0.1"sv, 0.1 );
parse_expected_value( "0.001"sv, 0.001 );
parse_expected_value( "0.100"sv, 0.100 );
parse_expected_value( "+3.14"sv, +3.14 );
parse_expected_value( "-3.14"sv, -3.14 );
parse_expected_value( "3.1415_9265_3589"sv, 3.141592653589 );
parse_expected_value( "+3.1415_9265_3589"sv, +3.141592653589 );
parse_expected_value( "-3.1415_9265_3589"sv, -3.141592653589 );
parse_expected_value( "123_456.789"sv, 123456.789 );
parse_expected_value( "+123_456.789"sv, +123456.789 );
parse_expected_value( "-123_456.789"sv, -123456.789 );
parse_expected_value( "+0.0"sv, +0.0 );
parse_expected_value( "-0.0"sv, -0.0 );
parse_expected_value( "1e10"sv, 1e10 );
parse_expected_value( "1e+10"sv, 1e+10 );
parse_expected_value( "1e-10"sv, 1e-10 );
parse_expected_value( "+1e10"sv, +1e10 );
parse_expected_value( "+1e+10"sv, +1e+10 );
parse_expected_value( "+1e-10"sv, +1e-10 );
parse_expected_value( "-1e10"sv, -1e10 );
parse_expected_value( "-1e+10"sv, -1e+10 );
parse_expected_value( "-1e-10"sv, -1e-10 );
parse_expected_value( "123e-10"sv, 123e-10 );
parse_expected_value( "1E10"sv, 1E10 );
parse_expected_value( "1E+10"sv, 1E+10 );
parse_expected_value( "1E-10"sv, 1E-10 );
parse_expected_value( "123E-10"sv, 123E-10 );
parse_expected_value( "1_2_3E-10"sv, 123E-10 );
parse_expected_value( "1_2_3E-1_0"sv, 123E-10 );
parse_expected_value( "+0e0"sv, +0e0 );
parse_expected_value( "-0e0"sv, -0e0 );
parse_expected_value( "1_2_3E-01"sv, 123E-01 );
parse_expected_value( "1_2_3E-0_1"sv, 123E-01 );
parse_expected_value( "6.02e23"sv, 6.02e23 );
parse_expected_value( "6.02e+23"sv, 6.02e+23 );
parse_expected_value( "1.112_650_06e-17"sv, 1.11265006e-17 );
//toml/issues/562 (hexfloats)
#if TOML_LANG_UNRELEASED
parse_expected_value(" 0x10.1p0"sv, 0x10.1p0 );
parse_expected_value(" 0x0.3p10"sv, 0x0.3p10 );
parse_expected_value(" 0x12.2P2"sv, 0x12.2P2 );
#else
parsing_should_fail(S("val = 0x10.1p0"sv));
parsing_should_fail(S("val = 0x0.3p10"sv));
parsing_should_fail(S("val = 0x12.2P2"sv));
#endif
}
TEST_CASE("parsing - inf and nan")
{
parsing_should_succeed(S(R"(
# infinity
sf1 = inf # positive infinity
sf2 = +inf # positive infinity
sf3 = -inf # negative infinity
# not a number
sf4 = nan # actual sNaN/qNaN encoding is implementation specific
sf5 = +nan # same as `nan`
sf6 = -nan # valid, actual encoding is implementation specific
)"sv),
[](table&& tbl) noexcept
{
CHECK(tbl[S("sf1")] == std::numeric_limits<double>::infinity());
CHECK(tbl[S("sf2")] == std::numeric_limits<double>::infinity());
CHECK(tbl[S("sf3")] == -std::numeric_limits<double>::infinity());
CHECK(std::isnan(tbl[S("sf4")].as<double>()->get()));
CHECK(std::isnan(tbl[S("sf5")].as<double>()->get()));
CHECK(std::isnan(tbl[S("sf6")].as<double>()->get()));
}
);
}