#include "toolbox.hpp" #include #include /** * @brief Test if a given result is equal of the expected one and log result * * @tparam T type of returning values * @param name of the unit test * @param expected result of the function call * @param result of the function */ template static void Assert(const char* const name, const T& expected, const T& result) noexcept { if(expected != result){ std::cerr << "For test named " << name << " Expected '" << expected << "' but got '" << result << "' instead\n"; assert(false); } } /** * @brief Test suite for the format_byte_size output */ void format_byte_size_test(void) noexcept { Assert("format_byte_size null", std::string("0B"), format_byte_size(static_cast(0))); Assert("format_byte_size byte", std::string("1B"), format_byte_size(static_cast(1))); Assert("format_byte_size kilobyte", std::string("1KB"), format_byte_size(static_cast(1)<<10)); Assert("format_byte_size megabyte", std::string("1MB"), format_byte_size(static_cast(1)<<20)); Assert("format_byte_size gigabyte", std::string("1GB"), format_byte_size(static_cast(1)<<30)); Assert("format_byte_size terabyte", std::string("1TB"), format_byte_size(static_cast(1)<<40)); Assert("format_byte_size petabyte", std::string("1PB"), format_byte_size(static_cast(1)<<50)); Assert("format_byte_size exabyte", std::string("1EB"), format_byte_size(static_cast(1)<<60)); // Unsupported due to number of byte bigger than currently supported by ISO c++ //Assert("format_byte_size zettabyte", std::string("1ZB"), format_byte_size(static_cast(1)<<70)); //Assert("format_byte_size yottabyte", std::string("1YB"), format_byte_size(static_cast(1)<<80)); // uint64_t_MAX == 2**64 == 18446744073709551615I64u == -1 Assert("format_byte_size max", std::string("15EB 1023PB 1023TB 1023GB 1023MB 1023KB 1023B"), format_byte_size(static_cast(-1))); } /** * @brief Test suite for the format_time output */ void format_time_test(void) noexcept { // https://en.wikipedia.org/wiki/Unit_of_time Assert("format_time null", std::string("0s"), format_time(static_cast(0))); Assert("format_time second", std::string("1s"), format_time(static_cast(1))); Assert("format_time decasecond", std::string("10s"), format_time(static_cast(10))); Assert("format_time minute", std::string("1m"), format_time(static_cast(60))); Assert("format_time milliday", std::string("1m 26s"), format_time(static_cast(86))); // missing 0.4s due to precision Assert("format_time hectosecond", std::string("1m 40s"), format_time(static_cast(100))); Assert("format_time kilosecond", std::string("16m 40s"), format_time(static_cast(1e3))); Assert("format_time hour", std::string("1h"), format_time(static_cast(3600))); Assert("format_time day", std::string("1j"), format_time(static_cast(86400))); Assert("format_time week/sennight", std::string("1w"), format_time(static_cast(604800))); Assert("format_time megasecond", std::string("1w 4j 13h 46m 40s"), format_time(static_cast(1e6))); Assert("format_time fortnight", std::string("2w"), format_time(static_cast(1209600))); Assert("format_time lunar month (draconitic)", std::string("3w 6j 5h 5m 35s"), format_time(static_cast(2351135))); // missing 0.8 due to precision Assert("format_time lunar month (tropical)", std::string("3w 6j 7h 43m 4s"), format_time(static_cast(2360584))); // missing 0.7 due to precision Assert("format_time lunar month (sidereal)", std::string("3w 6j 7h 43m 11s"), format_time(static_cast(2360591))); // missing 0.6 to precision Assert("format_time lunar month (anomalistic)", std::string("3w 6j 13h 18m 33s"), format_time(static_cast(2380713))); // missing 0.2 due to precision Assert("format_time lunar month (synodic)", std::string("4w 1j 12h 44m 2s"), format_time(static_cast(2551442))); // missing 0.9 due to precision Assert("format_time month", std::string("1M"), format_time(static_cast(2678400))); Assert("format_time quarantine", std::string("1M 1w 2j"), format_time(static_cast(3456e3))); Assert("format_time semester", std::string("4M 2j"), format_time(static_cast(10886400))); Assert("format_time lunar year", std::string("11M 1w 6j 8h 52m 48s"), format_time(static_cast(30617568))); Assert("format_time year", std::string("1y"), format_time(static_cast(31536e3))); Assert("format_time tropical year", std::string("1y 5h 48m 45s"), format_time(static_cast(31556925))); // missing 0.216 due to precision Assert("format_time gregorian year", std::string("1y 5h 49m 12s"), format_time(static_cast(31556952))); Assert("format_time sidereal year", std::string("1y 6h 9m 9s"), format_time(static_cast(31558149))); // missing 0.7635456 due to precision Assert("format_time leap year", std::string("1y 1j"), format_time(static_cast(31622400))); Assert("format_time olympiad", std::string("4y"), format_time(static_cast(126144e3))); Assert("format_time lusturm", std::string("5y"), format_time(static_cast(15768e4))); Assert("format_time decade", std::string("10y"), format_time(static_cast(31536e4))); Assert("format_time indiction", std::string("15y"), format_time(static_cast(47304e4))); Assert("format_time score", std::string("20y"), format_time(static_cast(63072e4))); Assert("format_time gigasecond", std::string("31y 8M 1w 4j 1h 46m 40s"), format_time(static_cast(1e9))); Assert("format_time jubilee", std::string("50y"), format_time(static_cast(15768e5))); Assert("format_time century", std::string("1c"), format_time(static_cast(31536e5))); Assert("format_time millennium", std::string("10c"), format_time(static_cast(31536e6))); Assert("format_time age", std::string("257c 72y"), format_time(static_cast(812745792e3))); Assert("format_time terasecond", std::string("3170c 97y 10M 3w 4j 17h 46m 40s"), format_time(static_cast(1e13))); Assert("format_time megaannum", std::string("10000c"), format_time(static_cast(31536e9))); Assert("format_time petasecond", std::string("317097c 91y 11M 2w 4j 1h 46m 40s"), format_time(static_cast(1e15))); Assert("format_time galactic year", std::string("2300000c"), format_time(static_cast(725328e10))); Assert("format_time eon", std::string("10000000c"), format_time(static_cast(31536e12))); Assert("format_time kalpa", std::string("43200000c"), format_time(static_cast(13623552e10))); Assert("format_time exasecond", std::string("317097919c 83y 9M 1h 46m 40s"), format_time(static_cast(1e18))); // Cannot use number bigger than currently supported ISO C++ //Assert("format_time zettasecond", std::string(""), format_time(static_cast(1e21))); //Assert("format_time yottasecond", std::string(""), format_time(static_cast(1e24))); //Assert("format_time ronnasecond", std::string(""), format_time(static_cast(1e27))); //Assert("format_time quettasecond", std::string(""), format_time(static_cast(1e30))); // uint64_t_MAX == 2**64 == 18446744073709551615I64u == -1 Assert("format_time max", std::string("5849424173c 55y 3w 5j 7h 15s"), format_time(static_cast(-1))); } /** * @brief Test suite for the format_time_ns output */ void format_time_ns_test(void) noexcept { // https://en.wikipedia.org/wiki/Unit_of_time Assert("format_time_ns null", std::string("0ns"), format_time_ns(static_cast(0))); Assert("format_time_ns nanosecond", std::string("1ns"), format_time_ns(static_cast(1))); Assert("format_time_ns shake", std::string("10ns"), format_time_ns(static_cast(10))); Assert("format_time_ns microsecond", std::string("1us"), format_time_ns(static_cast(1e3))); Assert("format_time_ns millisecond", std::string("1ms"), format_time_ns(static_cast(1e6))); Assert("format_time_ns centisecond", std::string("10ms"), format_time_ns(static_cast(1e7))); Assert("format_time_ns decisecond", std::string("100ms"), format_time_ns(static_cast(1e8))); Assert("format_time_ns second", std::string("1s"), format_time_ns(static_cast(1e9))); Assert("format_time_ns decasecond", std::string("10s"), format_time_ns(static_cast(1e10))); Assert("format_time_ns minute", std::string("1m"), format_time_ns(static_cast(6e10))); Assert("format_time_ns milliday", std::string("1m 26s 400ms"), format_time_ns(static_cast(864e8))); Assert("format_time_ns hectosecond", std::string("1m 40s"), format_time_ns(static_cast(1e11))); Assert("format_time_ns kilosecond", std::string("16m 40s"), format_time_ns(static_cast(1e12))); Assert("format_time_ns hour", std::string("1h"), format_time_ns(static_cast(36e11))); Assert("format_time_ns day", std::string("1j"), format_time_ns(static_cast(864e11))); Assert("format_time_ns week/sennight", std::string("1w"), format_time_ns(static_cast(6048e11))); Assert("format_time_ns megasecond", std::string("1w 4j 13h 46m 40s"), format_time_ns(static_cast(1e15))); Assert("format_time_ns fortnight", std::string("2w"), format_time_ns(static_cast(12096e11))); Assert("format_time_ns lunar month (draconitic)", std::string("3w 6j 5h 5m 35s 800ms"), format_time_ns(static_cast(23511358e8))); Assert("format_time_ns lunar month (tropical)", std::string("3w 6j 7h 43m 4s 700ms"), format_time_ns(static_cast(23605847e8))); Assert("format_time_ns lunar month (sidereal)", std::string("3w 6j 7h 43m 11s 600ms"), format_time_ns(static_cast(23605916e8))); Assert("format_time_ns lunar month (anomalistic)", std::string("3w 6j 13h 18m 33s 200ms"), format_time_ns(static_cast(23807132e8))); Assert("format_time_ns lunar month (synodic)", std::string("4w 1j 12h 44m 2s 900ms"), format_time_ns(static_cast(25514429e8))); Assert("format_time_ns month", std::string("1M"), format_time_ns(static_cast(26784e11))); Assert("format_time_ns quarantine", std::string("1M 1w 2j"), format_time_ns(static_cast(3456e12))); Assert("format_time_ns semester", std::string("4M 2j"), format_time_ns(static_cast(108864e11))); Assert("format_time_ns lunar year", std::string("11M 1w 6j 8h 52m 48s"), format_time_ns(static_cast(30617568e9))); Assert("format_time_ns year", std::string("1y"), format_time_ns(static_cast(31536e12))); Assert("format_time_ns tropical year", std::string("1y 5h 48m 45s 216ms"), format_time_ns(static_cast(31556925216e6))); Assert("format_time_ns gregorian year", std::string("1y 5h 49m 12s"), format_time_ns(static_cast(31556952e9))); Assert("format_time_ns sidereal year", std::string("1y 6h 9m 9s 763ms 545us 600ns"), format_time_ns(static_cast(315581497635456e2))); Assert("format_time_ns leap year", std::string("1y 1j"), format_time_ns(static_cast(316224e11))); Assert("format_time_ns olympiad", std::string("4y"), format_time_ns(static_cast(126144e12))); Assert("format_time_ns lusturm", std::string("5y"), format_time_ns(static_cast(15768e13))); Assert("format_time_ns decade", std::string("10y"), format_time_ns(static_cast(31536e13))); Assert("format_time_ns indiction", std::string("15y"), format_time_ns(static_cast(47304e13))); Assert("format_time_ns score", std::string("20y"), format_time_ns(static_cast(63072e13))); Assert("format_time_ns gigasecond", std::string("31y 8M 1w 4j 1h 46m 40s"), format_time_ns(static_cast(1e18))); Assert("format_time_ns jubilee", std::string("50y"), format_time_ns(static_cast(15768e14))); Assert("format_time_ns century", std::string("1c"), format_time_ns(static_cast(31536e14))); // Cannot use number bigger than currently supported ISO C++ //Assert("format_time_ns millennium", std::string("10c"), format_time_ns(static_cast(31536e15))); //Assert("format_time_ns age", std::string("257c 72y"), format_time_ns(static_cast(812745792e12))); //Assert("format_time_ns terasecond", std::string("3170c 97y 10M 3w 4j 17h 46m 40s"), format_time_ns(static_cast(1e22))); //Assert("format_time_ns megaannum", std::string("10000c"), format_time_ns(static_cast(31536e18))); //Assert("format_time_ns petasecond", std::string("317097c 91y 11M 2w 4j 1h 46m 40s"), format_time_ns(static_cast(1e24))); //Assert("format_time_ns galactic year", std::string("2300000c"), format_time_ns(static_cast(725328e19))); //Assert("format_time_ns eon", std::string("10000000c"), format_time_ns(static_cast(31536e21))); //Assert("format_time_ns kalpa", std::string("43200000c"), format_time_ns(static_cast(13623552e19))); //Assert("format_time_ns exasecond", std::string("317097919c 83y 9M 1h 46m 40s"), format_time_ns(static_cast(1e27))); //Assert("format_time_ns zettasecond", std::string(""), format_time_ns(static_cast(1e30))); //Assert("format_time_ns yottasecond", std::string(""), format_time_ns(static_cast(1e33))); //Assert("format_time_ns ronnasecond", std::string(""), format_time_ns(static_cast(1e36))); //Assert("format_time_ns quettasecond", std::string(""), format_time_ns(static_cast(1e39))); // uint64_t_MAX == 2**64 == 18446744073709551615I64u == -1 Assert("format_time_ns max", std::string("5c 84y 11M 2j 23h 34m 33s 709ms 551us 615ns"), format_time_ns(static_cast(-1))); } /** * @brief Test suite for the thousand_sep output */ void thousand_sep_test(void) noexcept { // https://en.wikipedia.org/wiki/Names_of_large_numbers Assert("thousand_sep null", std::string("0"), thousand_sep(static_cast(0))); Assert("thousand_sep unit", std::string("1"), thousand_sep(static_cast(1))); Assert("thousand_sep ten", std::string("10"), thousand_sep(static_cast(10))); Assert("thousand_sep hundred", std::string("100"), thousand_sep(static_cast(100))); Assert("thousand_sep thousand", std::string("1,000"), thousand_sep(static_cast(1e3))); Assert("thousand_sep ten thousand", std::string("10,000"), thousand_sep(static_cast(1e4))); Assert("thousand_sep hundred thousand", std::string("100,000"), thousand_sep(static_cast(1e5))); Assert("thousand_sep million", std::string("1,000,000"), thousand_sep(static_cast(1e6))); Assert("thousand_sep ten million", std::string("10,000,000"), thousand_sep(static_cast(1e7))); Assert("thousand_sep hundred million", std::string("100,000,000"), thousand_sep(static_cast(1e8))); Assert("thousand_sep billion", std::string("1,000,000,000"), thousand_sep(static_cast(1e9))); Assert("thousand_sep ten billion", std::string("10,000,000,000"), thousand_sep(static_cast(1e10))); Assert("thousand_sep hundred billion", std::string("100,000,000,000"), thousand_sep(static_cast(1e11))); Assert("thousand_sep trillion", std::string("1,000,000,000,000"), thousand_sep(static_cast(1e12))); Assert("thousand_sep ten trillion", std::string("10,000,000,000,000"), thousand_sep(static_cast(1e13))); Assert("thousand_sep hundred trillion", std::string("100,000,000,000,000"), thousand_sep(static_cast(1e14))); Assert("thousand_sep quadrillion", std::string("1,000,000,000,000,000"), thousand_sep(static_cast(1e15))); Assert("thousand_sep ten quadrillion", std::string("10,000,000,000,000,000"), thousand_sep(static_cast(1e16))); Assert("thousand_sep hundred quadrillion", std::string("100,000,000,000,000,000"), thousand_sep(static_cast(1e17))); Assert("thousand_sep quintillion", std::string("1,000,000,000,000,000,000"), thousand_sep(static_cast(1e18))); Assert("thousand_sep ten quintillion", std::string("10,000,000,000,000,000,000"), thousand_sep(static_cast(1e19))); // Cannot use number bigger than currently supported ISO C++ //Assert("thousand_sep hundred quintillion", std::string("100,000,000,000,000,000,000"), thousand_sep(static_cast(1e20))); //Assert("thousand_sep sextillion", std::string("1,000,000,000,000,000,000,000"), thousand_sep(static_cast(1e21))); //Assert("thousand_sep ten sextillion", std::string("10,000,000,000,000,000,000,000"), thousand_sep(static_cast(1e22))); //Assert("thousand_sep hundred sextillion", std::string("100,000,000,000,000,000,000,000"), thousand_sep(static_cast(1e23))); //Assert("thousand_sep septillion", std::string("1,000,000,000,000,000,000,000,000"), thousand_sep(static_cast(1e24))); //Assert("thousand_sep ten septillion", std::string("10,000,000,000,000,000,000,000,000"), thousand_sep(static_cast(1e25))); //Assert("thousand_sep hundred septillion", std::string("100,000,000,000,000,000,000,000,000"), thousand_sep(static_cast(1e26))); //Assert("thousand_sep octillion", std::string("1,000,000,000,000,000,000,000,000,000"), thousand_sep(static_cast(1e27))); //Assert("thousand_sep ten octillion", std::string("10,000,000,000,000,000,000,000,000,000"), thousand_sep(static_cast(1e28))); //Assert("thousand_sep hundred octillion", std::string("100,000,000,000,000,000,000,000,000,000"), thousand_sep(static_cast(1e29))); //Assert("thousand_sep nonillion", std::string("1,000,000,000,000,000,000,000,000,000,000"), thousand_sep(static_cast(1e30))); //Assert("thousand_sep ten nonillion", std::string("10,000,000,000,000,000,000,000,000,000,000"), thousand_sep(static_cast(1e31))); //Assert("thousand_sep hundred nonillion", std::string("100,000,000,000,000,000,000,000,000,000,000"), thousand_sep(static_cast(1e32))); Assert("thousand_sep order", std::string("1,234,567,890"), thousand_sep(static_cast(1234567890))); Assert("thousand_sep reverse order", std::string("9,876,543,210"), thousand_sep(static_cast(9876543210))); // uint64_t_MAX == 2**64 == 18446744073709551615I64u == -1 Assert("thousand_sep max", std::string("18,446,744,073,709,551,615"), thousand_sep(static_cast(-1))); }