#include #include #include using namespace std::literals; TEST_CASE("TrimWhitespace -- positive tests", "[str][trim]") { // Test that things that should be trimmed actually get trimmed auto fee = " J a c k"s; auto fi = "\ra\nd"s; auto fo = "\fthe "s; auto fum = " \t\r\n\v\f Beanstalk\n\n\n\t\r\f\v \n\n\r\f\f\f\f\v"s; for (auto* s: {&fee, &fi, &fo, &fum}) *s = llarp::TrimWhitespace(*s); REQUIRE( fee == "J a c k" ); REQUIRE( fi == "a\nd" ); REQUIRE( fo == "the" ); REQUIRE( fum == "Beanstalk" ); } TEST_CASE("TrimWhitespace -- negative tests", "[str][trim]") { // Test that things that shouldn't be trimmed don't get trimmed auto c = GENERATE(range(std::numeric_limits::min(), std::numeric_limits::max())); std::string plant = c + "bean"s + c; plant = llarp::TrimWhitespace(plant); if (c == ' ' || c == '\t' || c == '\r' || c == '\n' || c == '\f' || c == '\v') REQUIRE( plant == "bean" ); else { REQUIRE( plant.size() == 6 ); REQUIRE( plant.substr(1, 4) == "bean" ); } } TEST_CASE("caseless comparison tests - less than", "[str][lt]") { using namespace llarp; CaselessLessThan lt; // Workaround for gcc 5's stdlib; we can drop this crap (and drop all the `T`'s below) once we // stop supporting it. using T = std::tuple; auto expect_less_than = GENERATE(table({ T{"", "1"}, T{"1", "11"}, T{"abc", "abcd"}, T{"ABC", "abcd"}, T{"abc", "ABCD"}, T{"abc", "Abcd"}, T{"abc", "abcD"}, T{"abc", "abCd"}, T{"abc", "zz"}, T{"abc", "zzzz"}, T{"abc", "abd"}, T{"abc", "aBd"}, T{"abc", "abD"}, T{"ABC", "abd"}, T{"abC", "abd"}, })); REQUIRE( lt(std::get<0>(expect_less_than), std::get<1>(expect_less_than)) ); REQUIRE( !lt(std::get<1>(expect_less_than), std::get<0>(expect_less_than)) ); } TEST_CASE("caseless comparison tests - equality", "[str][eq]") { using namespace llarp; CaselessLessThan lt; using T = std::tuple; // gcc 5 workaround auto expect_equal = GENERATE(table({ T{"1", "1"}, T{"a", "A"}, T{"abc", "ABC"}, T{"abc", "aBc"}, T{"ABC", "abc"}, })); REQUIRE( !lt(std::get<0>(expect_equal), std::get<1>(expect_equal)) ); REQUIRE( !lt(std::get<1>(expect_equal), std::get<0>(expect_equal)) ); } TEST_CASE("truthy string values", "[str][truthy]") { auto val = GENERATE("true", "TruE", "yes", "yeS", "yES", "yes", "YES", "1", "on", "oN", "ON"); REQUIRE( llarp::IsTrueValue(val) ); } TEST_CASE("falsey string values", "[str][falsey]") { auto val = GENERATE("false", "FalSe", "no", "NO", "No", "nO", "0", "off", "OFF"); REQUIRE( llarp::IsFalseValue(val) ); } TEST_CASE("neither true nor false string values", "[str][nottruefalse]") { auto val = GENERATE("false y", "maybe", "not on", "2", "yesno", "YESNO", "-1", "default", "OMG"); REQUIRE( !llarp::IsTrueValue(val) ); REQUIRE( !llarp::IsFalseValue(val) ); } TEST_CASE("split strings with multiple matches", "[str]") { auto splits = llarp::split("this is a test", ' '); REQUIRE(splits.size() == 4); REQUIRE(splits[0] == "this"); REQUIRE(splits[1] == "is"); REQUIRE(splits[2] == "a"); REQUIRE(splits[3] == "test"); } TEST_CASE("split strings with single match", "[str]") { auto splits = llarp::split("uno", ';'); REQUIRE(splits.size() == 1); REQUIRE(splits[0] == "uno"); } TEST_CASE("split strings with consecutive delimiters", "[str]") { auto splits = llarp::split("a o e u", ' '); REQUIRE(splits.size() == 4); REQUIRE(splits[0] == "a"); REQUIRE(splits[1] == "o"); REQUIRE(splits[2] == "e"); REQUIRE(splits[3] == "u"); } TEST_CASE("split delimiter-only string", "[str]") { auto splits = llarp::split(" ", ' '); REQUIRE(splits.size() == 0); splits = llarp::split(" ", ' '); REQUIRE(splits.size() == 0); } TEST_CASE("split empty string", "[str]") { auto splits = llarp::split("", ' '); REQUIRE(splits.size() == 0); }