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optional_ext_test.cpp
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214 lines (172 loc) · 7.9 KB
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#include "optional_ext.h"
#include "catch.hpp"
using std::string;
using knatten::optional;
TEST_CASE("transform") {
SECTION("with lvalue") {
optional o(2);
auto p = o.transform([](int& v){ return v*2;});
REQUIRE(p.value() == 4);
auto p2 = o.transform([](const int& v){ return v*3;});
REQUIRE(p2.value() == 6);
//Can't use these, doesn't compile
//o.transform([](int&){ return 0; });
//o.transform([](int&&) { return 0; });
}
SECTION("with const lvalue") {
const optional o(2);
auto p = o.transform([](const int& v){ return v*3;});
REQUIRE(p.value() == 6);
//Can't use these, doesn't compile
//o.transform([](int& v){ return 0;});
//o.transform([](int&){ return 0; });
//o.transform([](const int&&) { return 0; });
}
SECTION("with rvalue") {
auto p = optional(3).transform([](int&& mv) { return mv * 2; });
REQUIRE(p.value() == 6);
auto p2 = optional(3).transform([](const int&& v){ return v*3;});
REQUIRE(p2.value() == 9);
auto p3 = optional(3).transform([](const int& v){ return v*4;});
REQUIRE(p3.value() == 12);
//Can't use these, doesn't compile
//optional<int>(3).transform([](int& v){ return v*4;});
}
SECTION("with const rvalue") {
auto p = static_cast<const optional<int>&&>(optional<int>(2)).transform([](const int& mv){ return mv * 2;});
REQUIRE(p.value() == 4);
auto p2 = static_cast<const optional<int>&&>(optional<int>(2)).transform([](const int&& mv){ return mv * 3;});
REQUIRE(p2.value() == 6);
//Can't use these, doesn't compile
//static_cast<const optional<int>&&>(optional<int>(2)).transform([](int& mv){ return mv * 2;});
//static_cast<const optional<int>&&>(optional<int>(2)).transform([](int&& mv){ return mv * 2;});
}
SECTION("with no value") {
optional<int> o;
auto p = o.transform([](int v){ return v*2;});
REQUIRE(p.has_value() == false);
const optional<int> co;
auto p2 = o.transform([](int v){ return v*2;});
REQUIRE(p2.has_value() == false);
auto p3 = optional<int>().transform([](int v){ return v*2;});
REQUIRE(p3.has_value() == false);
auto p4 = static_cast<const optional<int>&&>(optional<int>()).transform([](int v){ return v*2;});
REQUIRE(p4.has_value() == false);
}
}
TEST_CASE("transform_optional") {
SECTION("with lvalue") {
optional o(2);
auto p = o.transform_optional([](int& v){ return optional(v*2);});
REQUIRE(p.value() == 4);
auto p2 = o.transform_optional([](const int& v){ return optional(v*3);});
REQUIRE(p2.value() == 6);
//Can't use these, doesn't compile
//o.transform_optional([](int&& v){ return optional(v*3);});
//o.transform_optional([](const int&& v){ return optional(v*3);});
}
SECTION("with const lvalue") {
const optional o(2);
auto p = o.transform_optional([](const int& v){ return optional(v*2);});
REQUIRE(p.value() == 4);
//Can't use these, doesn't compile
//o.transform_optional([](int& v){ return optional(v*3);});
//o.transform_optional([](int&& v){ return optional(v*3);});
//o.transform_optional([](const int&& v){ return optional(v*3);});
}
SECTION("with rvalue") {
auto p = optional(3).transform_optional([](int&& mv) { return optional(mv * 2); });
REQUIRE(p.value() == 6);
auto p2 = optional(3).transform_optional([](const int&& mv) { return optional(mv * 3); });
REQUIRE(p2.value() == 9);
auto p3 = optional(3).transform_optional([](const int& mv) { return optional(mv * 4); });
REQUIRE(p3.value() == 12);
//Can't use these, doesn't compile
//optional(3).transform_optional([](int& mv) { return optional(mv * 4); });
}
SECTION("with const rvalue") {
auto p = static_cast<const optional<int>&&>(optional(3)).transform_optional([](const int& mv) { return optional(mv * 2); });
REQUIRE(p.value() == 6);
auto p2 = static_cast<const optional<int>&&>(optional(3)).transform_optional([](const int&& mv) { return optional(mv * 3); });
REQUIRE(p2.value() == 9);
//Can't use these, doesn't compile
//static_cast<const optional<int>&&>(optional(3)).transform_optional([](int& mv) { return optional(mv * 2); });
//static_cast<const optional<int>&&>(optional(3)).transform_optional([](int&& mv) { return optional(mv * 2); });
}
SECTION("with no value") {
optional<int> o;
auto p = o.transform_optional([](int v){ return optional(v*2);});
REQUIRE(p.has_value() == false);
const optional<int> o2;
auto p2 = o2.transform_optional([](int v){ return optional(v*2);});
REQUIRE(p2.has_value() == false);
auto p3 = optional<int>().transform_optional([](int v){ return optional(v*2);});
REQUIRE(p3.has_value() == false);
auto p4 = static_cast<const optional<int>&&>(optional<int>()).transform_optional([](int v){ return optional(v*2);});
REQUIRE(p4.has_value() == false);
}
}
TEST_CASE("call") {
SECTION("with lvalue") {
auto o = optional(2);
bool called_non_const = false;
o.call([&called_non_const](int&){ called_non_const = true; });
REQUIRE(called_non_const == true);
bool called_const = false;
o.call([&called_const](const int&){ called_const = true; });
REQUIRE(called_const == true);
//Can't use these, doesn't compile
//o.call([](int&&){});
//o.call([](const int&&){});
}
SECTION("with const lvalue") {
const auto o = optional(2);
bool called_const = false;
o.call([&called_const](const int&){ called_const = true; });
REQUIRE(called_const == true);
//Can't use these, doesn't compile
//o.call([](int&){});
//o.call([](int&&){});
//o.call([](const int&&){});
}
SECTION("with rvalue") {
bool called_rvalue = false;
optional<int>(2).call([&called_rvalue](int&&){ called_rvalue = true; });
REQUIRE(called_rvalue == true);
bool called_const_rvalue = false;
optional<int>(2).call([&called_const_rvalue](const int&&){ called_const_rvalue = true; });
REQUIRE(called_const_rvalue == true);
bool called_const_lvalue = false;
optional<int>(2).call([&called_const_lvalue](int&&){ called_const_lvalue = true; });
REQUIRE(called_const_lvalue == true);
//Can't use these, doesn't compile
//optional<int>(2).call([](int&){});
}
SECTION("with const rvalue") {
bool called_const_rvalue = false;
static_cast<const optional<int>&&>(optional<int>(2)).call([&called_const_rvalue](const int&&){ called_const_rvalue = true; });
REQUIRE(called_const_rvalue == true);
bool called_const_lvalue = false;
static_cast<const optional<int>&&>(optional<int>(2)).call([&called_const_lvalue](const int&){ called_const_lvalue = true; });
REQUIRE(called_const_lvalue == true);
//Can't use these, doesn't compile
//static_cast<const optional<int>&&>(optional<int>(2)).call([](int&&){});
//static_cast<const optional<int>&&>(optional<int>(2)).call([](int&){});
}
SECTION("with no value") {
bool called1 = false;
optional<int> o1;
o1.call([&called1](int){ called1=true;});
REQUIRE(called1 == false);
bool called2 = false;
const optional<int> o2;
o2.call([&called2](int){ called2=true;});
REQUIRE(called2 == false);
bool called3 = false;
optional<int>().call([&called3](int){ called3=true;});
REQUIRE(called3 == false);
bool called4 = false;
static_cast<optional<int>>(optional<int>()).call([&called4](int){ called4=true;});
REQUIRE(called4 == false);
}
}