public void GivenAValueOfTwo_TheExpectedResultIsAListContainingOnlyTwo() { var Two = 2; var result = Primes.FindPrimes(Two); Assert.IsTrue(result[0] is 2); }
public void GivenAValueOfThree_TheExpectedResultIsAListContainingOnlyTwoAndThree() { var Three = 3; var result = Primes.FindPrimes(Three); Assert.IsTrue(result[0] is 2 && result[1] is 3); }
public void GivenAValueOfOne_TheExpectedResultIsAnEmptyList() { // Arrange - Setup the values for the function var One = 1; // Act - Perform an operation var result = Primes.FindPrimes(One); // Assert - Check for validity Assert.IsTrue(empty.Count.Equals(result.Count) && empty.Count is 0); }
public void GivenAValueOfZero_TheExpectedResultIsAnEmptyList() { // Arrange - Setup the values for the function var Zero = 0; // Act - Perform an operation var result = Primes.FindPrimes(Zero); // Assert - Check for validity Assert.IsTrue(empty.Count == result.Count && empty.Count == 0); }
public void GivenAValueOfTen_TheExpectedResultIsAListOfTwoThreeFiveSeven() { var value = 10; var result = Primes.FindPrimes(value); Assert.IsTrue( result[0] is 2 && result[1] is 3 && result[2] is 5 && result[3] is 7); }
public void GivenAValueOfThirteen_TheExpectedResultIsAListOfPrimesUpToAndIncludingThirteen() { var value = 13; var result = Primes.FindPrimes(value); Assert.IsTrue( result[0] is 2 && result[1] is 3 && result[2] is 5 && result[3] is 7 && result[4] is 11 && result[5] is 13); }
private static void FindPrimes(object obj) { var range = (Range)obj; var primes = new Primes(); var stopwatch = new Stopwatch(); stopwatch.Start(); var primeNumbers = primes.FindPrimes(range.Start.Value, range.End.Value); stopwatch.Stop(); Console.WriteLine("Primes : {0} at {1}", primeNumbers.Count, stopwatch.Elapsed); }
private static void SingleThreadTest() { var primes = new Primes(); var stopwatch = new Stopwatch(); stopwatch.Start(); var primes1 = primes.FindPrimes(1, 100_000); var primes2 = primes.FindPrimes(100_000, 150_000); var primes3 = primes.FindPrimes(150_000, 200_000); // 2.1 sec stopwatch.Stop(); Console.WriteLine("Primes : {0}", primes1.Count + primes2.Count + primes3.Count); Console.WriteLine("Elapsed : {0}", stopwatch.Elapsed); }
private static void SingleThreadTest() { //PrintThreadDetails(); var comp = new Primes(); var stopwatch = new Stopwatch(); stopwatch.Start(); var primes1 = comp.FindPrimes(1, 100_000); var primes2 = comp.FindPrimes(100_000, 150_000); var primes3 = comp.FindPrimes(150_000, 200_000); // 8.3 sec stopwatch.Stop(); Console.WriteLine("Primes : {0}", primes1.Count + primes2.Count + primes3.Count); Console.WriteLine("Elapsed : {0}", stopwatch.Elapsed); }
private static void FindPrimes(object obj) { PrintThreadDetailsLock(); var range = (Range)obj; var comp = new Primes(); var stopwatch = new Stopwatch(); stopwatch.Start(); var primes = comp.FindPrimes(range.Start.Value, range.End.Value); stopwatch.Stop(); Console.WriteLine("Primes : {0}", primes.Count); Console.WriteLine("Elapsed : {0}", stopwatch.Elapsed); // DEMO: decrement thread-sync counter Waiter.Signal(); }
private static void FindPrimes(object obj) { // DEMO : concurrent access to shared resource (Console) //PrintThreadDetails(); PrintThreadDetailsLock(); var range = (Range)obj; var comp = new Primes(); var stopwatch = new Stopwatch(); stopwatch.Start(); var primes = comp.FindPrimes(range.Start.Value, range.End.Value); // DEMO: Unhandled exception in thread //throw new InvalidOperationException("Oops!"); stopwatch.Stop(); Console.WriteLine("Primes : {0}", primes.Count); Console.WriteLine("Elapsed : {0}", stopwatch.Elapsed); }