#include "CppUnitTest.h" #include "../_TestingUtilities/Testutil.h" #include "../Eule/Random.h" #include #include using namespace Microsoft::VisualStudio::CppUnitTestFramework; using namespace Eule; namespace _Random { TEST_CLASS(_RandomRange) { public: // Checks that a random double is never outside the specification, two positive values TEST_METHOD(Random_Doublerange_Never_Outside_Specification__pos__pos) { // Test 1000 random integers for (std::size_t i = 0; i < 1000; i++) { double rnd = Random::RandomRange(49.0, 99.0); Assert::IsTrue(rnd >= 49.0, L"rnd too small"); Assert::IsTrue(rnd <= 99.0, L"rnd too big"); } return; } // Checks that a random double is never outside the specification, negative minimum TEST_METHOD(Random_Doublerange_Never_Outside_Specification__neg__pos) { // Test 1000 random integers for (std::size_t i = 0; i < 1000; i++) { double rnd = Random::RandomRange(-39.0, 99.0); Assert::IsTrue(rnd >= -39.0, L"rnd too small"); Assert::IsTrue(rnd <= 99.0, L"rnd too big"); } return; } // Checks that a random double is never outside the specification, two negative values TEST_METHOD(Random_Doublerange_Never_Outside_Specification__neg__neg) { // Test 1000 random integers for (std::size_t i = 0; i < 1000; i++) { double rnd = Random::RandomRange(-39.0, -10.0); Assert::IsTrue(rnd >= -39.0, L"rnd too small"); Assert::IsTrue(rnd <= -10.0, L"rnd too big"); } return; } // Checks that the produced double-precision floating point distribution shows a big standard deviation TEST_METHOD(Double_Big_Standard_Deviation) { // Setup std::vector rands; rands.resize(100); // Exercise // Create 1000 random values std::generate_n(rands.data(), rands.size(), []()->double { return Random::RandomRange(100, 4e9); }); // Verify const double stddev = Testutil::Stddev(rands); Assert::IsTrue(stddev >= 1000000, (std::wstringstream() << stddev).str().c_str()); return; } }; }