public void TestMethod_NumberOfPrimeUnder_11() { const int source = 11; int expected = 5; int result = FunctionsPrimes.NumberOfPrimeUnder(source); Assert.AreEqual(result, expected); }
public void TestMethod_IsTwinPrime_11() { const int source = 11; bool expected = true; bool result = FunctionsPrimes.IsTwinPrime(source); Assert.AreEqual(result, expected); }
public void TestMethod_NumberOfPrimesByHundred_300() { const int source = 300; Dictionary <int, int> expected = new Dictionary <int, int> { { 100, 25 }, { 200, 21 }, { 300, 16 } }; Dictionary <int, int> result = FunctionsPrimes.NumberOfPrimesByHundred(source); Assert.IsTrue(AssertDictionaryAreEqualed(result, expected)); }
public void TestMethod_GetPrimesBefore_18() { const int source = 18; List <int> expected = new List <int> { 2, 3, 5, 7, 11, 13, 17 }; List <int> result = FunctionsPrimes.GetPrimesBefore(source); Assert.IsTrue(AssertListAreEqualed(result, expected)); }
public void TestMethod_GetTwinPrimeBefore_11() { const int source = 11; List <int> expected = new List <int>() { 2, 5, 11 }; List <int> result = FunctionsPrimes.GetTwinPrimeBefore(source); Assert.IsTrue(AssertListAreEqualed(result, expected)); }
public void TestMethod_GetTwinPrimeWith6NBefore_43() { const int source = 43; List <int> expected = new List <int>() { 2, 5, 11, 17, 29, 41 }; List <int> result = FunctionsPrimes.GetTwinPrimeWith6NBefore(source); Assert.IsTrue(AssertListAreEqualed(result, expected)); }
public void TestMethod_GetAbsoluteValues() { Dictionary <int, int> source = FunctionsPrimes.GetAbsoluteValues(); }