/
PrimaryTypeConversionTests.cpp
226 lines (204 loc) · 9.96 KB
/
PrimaryTypeConversionTests.cpp
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/*
Copyright (c) 2017-2020,
Battelle Memorial Institute; Lawrence Livermore National Security, LLC; Alliance for Sustainable Energy, LLC. See
the top-level NOTICE for additional details. All rights reserved.
SPDX-License-Identifier: BSD-3-Clause
*/
#include <complex>
#include <gtest/gtest.h>
#include <list>
#include <set>
/** these test cases test out the value converters
*/
#include "helics/application_api/HelicsPrimaryTypes.hpp"
using namespace std::string_literals;
using namespace helics;
template<class T1, class T2>
bool checkTypeConversion1(const T1& val1, const T2& exp)
{
defV val = val1;
T2 v2{};
valueExtract(val, v2);
if (v2 != exp) {
return false;
}
return true;
}
TEST(type_conversion_tests, vectorNorm_tests)
{
using c = std::complex<double>;
using cv = std::vector<c>;
EXPECT_EQ(vectorNorm(std::vector<double>()), 0.0);
EXPECT_EQ(vectorNorm(std::vector<double>{4.0}), 4.0);
EXPECT_EQ(vectorNorm(std::vector<double>{3.0, 4.0}), 5.0);
EXPECT_EQ(vectorNorm(std::vector<double>{-3.0, -4.0}), 5.0);
EXPECT_EQ(vectorNorm(std::vector<double>{-3.0, -3.0, -3.0, -3.0, -3.0}), std::sqrt(9.0 * 5.0));
EXPECT_EQ(vectorNorm(cv()), 0.0);
EXPECT_EQ(vectorNorm(cv{c(4.0, 0)}), 4.0);
EXPECT_EQ(vectorNorm(cv{c(3.0, 4.0)}), 5.0);
EXPECT_EQ(vectorNorm(cv{c(-3.0, -4.0)}), 5.0);
EXPECT_EQ(
vectorNorm(cv{c(-3.0, -4.0), c(-3.0, -4.0), c(-3.0, -4.0), c(-3.0, -4.0), c(-3.0, -4.0)}),
std::sqrt(25.0 * 5.0));
}
TEST(type_conversion_tests, string_type_tests)
{
EXPECT_TRUE(helicsType<std::string>() == data_type::helics_string);
// EXPECT_TRUE(helicsType<char *>() == data_type::helics_string);
}
TEST(type_conversion_tests, string_converstion_tests)
{
std::string vstr("45.786");
double val = 45.786;
EXPECT_TRUE(checkTypeConversion1(vstr, vstr));
EXPECT_TRUE(checkTypeConversion1(vstr, val));
EXPECT_TRUE(checkTypeConversion1(vstr, static_cast<int64_t>(val)));
EXPECT_TRUE(checkTypeConversion1(vstr, static_cast<float>(val)));
EXPECT_TRUE(checkTypeConversion1(vstr, std::complex<double>(val, 0)));
EXPECT_TRUE(checkTypeConversion1(vstr, std::vector<double>{val}));
EXPECT_TRUE(checkTypeConversion1(
vstr, std::vector<std::complex<double>>{std::complex<double>(val, 0.0)}));
EXPECT_TRUE(checkTypeConversion1(vstr, true));
EXPECT_TRUE(checkTypeConversion1(vstr, NamedPoint{"value", val}));
std::string test1("test1");
EXPECT_TRUE(checkTypeConversion1(test1, NamedPoint{test1, std::nan("0")}));
}
TEST(type_conversion_tests, double_type_tests)
{
EXPECT_TRUE(helicsType<double>() == data_type::helics_double);
EXPECT_TRUE(helicsType<float>() == data_type::helics_custom);
EXPECT_TRUE(isConvertableType<float>() == true);
EXPECT_TRUE(isConvertableType<double>() == false);
}
TEST(type_conversion_tests, double_conversion_tests)
{
double val = 45.786;
EXPECT_TRUE(checkTypeConversion1(val, val));
EXPECT_TRUE(checkTypeConversion1(val, std::to_string(val)));
EXPECT_TRUE(checkTypeConversion1(val, static_cast<int64_t>(val)));
EXPECT_TRUE(checkTypeConversion1(val, static_cast<float>(val)));
EXPECT_TRUE(checkTypeConversion1(val, std::complex<double>(val, 0)));
EXPECT_TRUE(checkTypeConversion1(val, std::vector<double>{val}));
EXPECT_TRUE(checkTypeConversion1(
val, std::vector<std::complex<double>>{std::complex<double>(val, 0.0)}));
EXPECT_TRUE(checkTypeConversion1(val, true));
EXPECT_TRUE(checkTypeConversion1(val, NamedPoint{"value", val}));
}
TEST(type_conversion_tests, integer_type_tests)
{
EXPECT_TRUE(helicsType<int64_t>() == data_type::helics_int);
EXPECT_TRUE(helicsType<int>() == data_type::helics_custom);
EXPECT_TRUE(isConvertableType<int>() == true);
EXPECT_TRUE(isConvertableType<int64_t>() == false);
EXPECT_TRUE(isConvertableType<short>() == true);
EXPECT_TRUE(isConvertableType<uint64_t>() == true);
EXPECT_TRUE(isConvertableType<char>() == true);
EXPECT_TRUE(isConvertableType<unsigned char>() == true);
EXPECT_TRUE(isConvertableType<unsigned char>() == true);
}
TEST(type_conversion_tests, namedType_tests)
{
EXPECT_TRUE(getTypeFromString("int") == data_type::helics_int);
EXPECT_TRUE(getTypeFromString("INT") == data_type::helics_int);
EXPECT_TRUE(getTypeFromString("char") == data_type::helics_string);
EXPECT_TRUE(getTypeFromString(typeid(int).name()) == data_type::helics_int);
EXPECT_TRUE(getTypeFromString(typeid(float).name()) == data_type::helics_double);
EXPECT_TRUE(getTypeFromString(typeid(std::string).name()) == data_type::helics_string);
EXPECT_TRUE(getTypeFromString(typeid(char*).name()) == data_type::helics_string);
EXPECT_TRUE(getTypeFromString(typeid(const char*).name()) == data_type::helics_string);
EXPECT_TRUE(getTypeFromString(typeid(double).name()) == data_type::helics_double);
EXPECT_TRUE(getTypeFromString(typeid(bool).name()) == data_type::helics_bool);
EXPECT_TRUE(getTypeFromString(typeid(int64_t).name()) == data_type::helics_int);
EXPECT_TRUE(getTypeFromString(typeid(char).name()) == data_type::helics_string);
EXPECT_TRUE(
getTypeFromString(typeid(std::complex<double>).name()) == data_type::helics_complex);
EXPECT_TRUE(getTypeFromString("COMPLEX") == data_type::helics_complex);
EXPECT_TRUE(getTypeFromString("map") == data_type::helics_custom);
EXPECT_TRUE(getTypeFromString("any") == data_type::helics_any);
EXPECT_TRUE(getTypeFromString("") == data_type::helics_any);
EXPECT_TRUE(
getTypeFromString(typeid(std::vector<std::complex<double>>).name()) ==
data_type::helics_complex_vector);
EXPECT_TRUE(getTypeFromString(typeid(Time).name()) == data_type::helics_time);
}
TEST(type_conversion_tests, integer_conversion_tests)
{
int64_t val = -10;
EXPECT_TRUE(checkTypeConversion1(val, val));
EXPECT_TRUE(checkTypeConversion1(val, std::to_string(val)));
EXPECT_TRUE(checkTypeConversion1(val, static_cast<double>(val)));
EXPECT_TRUE(checkTypeConversion1(val, static_cast<float>(val)));
EXPECT_TRUE(checkTypeConversion1(val, static_cast<short>(val)));
EXPECT_TRUE(checkTypeConversion1(val, static_cast<int>(val)));
EXPECT_TRUE(checkTypeConversion1(val, std::complex<double>(static_cast<double>(val), 0)));
EXPECT_TRUE(checkTypeConversion1(val, std::vector<double>{static_cast<double>(val)}));
EXPECT_TRUE(checkTypeConversion1(
val,
std::vector<std::complex<double>>{std::complex<double>(static_cast<double>(val), 0.0)}));
EXPECT_TRUE(checkTypeConversion1(val, true));
EXPECT_TRUE(checkTypeConversion1(static_cast<int64_t>(0), false));
EXPECT_TRUE(checkTypeConversion1(val, NamedPoint{"value", static_cast<double>(val)}));
}
TEST(type_conversion_tests, namedpoint_type_tests)
{
EXPECT_TRUE(helicsType<NamedPoint>() == data_type::helics_named_point);
// EXPECT_TRUE(helicsType<char *>() == data_type::helics_string);
}
TEST(type_conversion_tests, namedpoint_conversion_tests)
{
double val = 45.786;
NamedPoint vp{"point", val};
EXPECT_TRUE(checkTypeConversion1(vp, vp));
EXPECT_TRUE(checkTypeConversion1(vp, val));
EXPECT_TRUE(checkTypeConversion1(vp, static_cast<int64_t>(val)));
EXPECT_TRUE(checkTypeConversion1(vp, static_cast<float>(val)));
EXPECT_TRUE(checkTypeConversion1(vp, std::complex<double>(val, 0)));
EXPECT_TRUE(checkTypeConversion1(vp, std::vector<double>{val}));
EXPECT_TRUE(checkTypeConversion1(
vp, std::vector<std::complex<double>>{std::complex<double>(val, 0.0)}));
EXPECT_TRUE(checkTypeConversion1(vp, true));
EXPECT_TRUE(checkTypeConversion1(vp, std::string("{\"point\":" + std::to_string(val) + "}")));
NamedPoint vp2{"v2[3.0,-4.0]", std::nan("0")};
double v2 = 5.0;
EXPECT_TRUE(checkTypeConversion1(vp2, vp2));
EXPECT_TRUE(checkTypeConversion1(vp2, v2));
EXPECT_TRUE(checkTypeConversion1(vp2, static_cast<int64_t>(v2)));
EXPECT_TRUE(checkTypeConversion1(vp2, static_cast<float>(v2)));
EXPECT_TRUE(checkTypeConversion1(vp2, std::complex<double>(3.0, -4.0)));
EXPECT_TRUE(checkTypeConversion1(vp2, std::vector<double>{3.0, -4.0}));
EXPECT_TRUE(checkTypeConversion1(
vp2, std::vector<std::complex<double>>{std::complex<double>(3.0, -4.0)}));
EXPECT_TRUE(checkTypeConversion1(vp2, true));
EXPECT_TRUE(checkTypeConversion1(vp2, vp2.name));
NamedPoint t1("this is a longer string for testing purposes", 234.252622334);
auto s = helicsNamedPointString(t1);
auto t2 = helicsGetNamedPoint(s);
EXPECT_EQ(t1.name, t2.name);
EXPECT_NEAR(t1.value, t2.value, 0.00001);
}
TEST(type_conversion_tests, bool_conversion_tests)
{
bool val{false};
EXPECT_TRUE(checkTypeConversion1(std::string{"false"}, val));
EXPECT_TRUE(checkTypeConversion1(std::string{"0"}, val));
EXPECT_TRUE(checkTypeConversion1(std::string{"F"}, val));
EXPECT_TRUE(checkTypeConversion1(0.0F, val));
EXPECT_TRUE(checkTypeConversion1(0.0, val));
EXPECT_TRUE(checkTypeConversion1(NamedPoint{"value", 0.0}, val));
EXPECT_TRUE(checkTypeConversion1(std::vector<double>{0.0}, val));
EXPECT_TRUE(checkTypeConversion1(std::vector<double>{}, val));
EXPECT_TRUE(checkTypeConversion1(std::complex<double>{0.0, 0.0}, val));
EXPECT_TRUE(checkTypeConversion1(std::vector<std::complex<double>>{{0.0, 0.0}}, val));
EXPECT_TRUE(checkTypeConversion1(std::vector<std::complex<double>>{}, val));
val = true;
EXPECT_TRUE(checkTypeConversion1(std::string{"on"}, val));
EXPECT_TRUE(checkTypeConversion1(std::string{"1"}, val));
EXPECT_TRUE(checkTypeConversion1(std::string{"Y"}, val));
EXPECT_TRUE(checkTypeConversion1(1.0F, val));
EXPECT_TRUE(checkTypeConversion1(1.0, val));
EXPECT_TRUE(checkTypeConversion1(NamedPoint{"value", 1.0}, val));
EXPECT_TRUE(checkTypeConversion1(std::vector<double>{1.0}, val));
EXPECT_TRUE(checkTypeConversion1(std::vector<double>{0.0, 1.0}, val));
EXPECT_TRUE(checkTypeConversion1(std::complex<double>{0.0, 1.0}, val));
EXPECT_TRUE(checkTypeConversion1(std::complex<double>{0.0, -0.5}, val));
}