public async Task UsageMethodAsync_Execute_ShouldReturnValidUsageResponse() { // Arrange BaseMethodTest bmt = new BaseMethodTest(); // Act var target = new UsageMethod(bmt.Service); var results = await target.GetUsageAsync(); // Assert TestResults(results); }
public void UsageMethod_Execute_ShouldReturnValidUsageResponse() { // Arrange BaseMethodTest bmt = new BaseMethodTest(); // Act var target = new UsageMethod(bmt.Service); var results = target.GetUsage(); // Assert TestResults(results); }
public async Task BlobBasicMethod_ExecuteAsync_ShouldReturnStringValues() { // Arrange BaseMethodTest bmt = new BaseMethodTest(); const int numberToReturn = 2; int size = bmt.Random.Next(1, 10) * 8; // Act var target = new BlobBasicMethod(bmt.AdvisoryDelayHandler, bmt.Service); IEnumerable<string> actual = await target.GenerateBlobsAsync(numberToReturn, size); // Assert TestResults(actual, numberToReturn); }
public void DecimalBasicMethod_Execute_ShouldReturnDecimalValuesInRange() { // Arrange BaseMethodTest bmt = new BaseMethodTest(); const int numberToReturn = 2; int numberOfDecimalPlaces = bmt.Random.Next(1, 20); const bool allowDuplicates = false; // Act var target = new DecimalBasicMethod(bmt.AdvisoryDelayHandler, bmt.Service); var actual = target.GenerateDecimalsFractions(numberToReturn, numberOfDecimalPlaces, allowDuplicates); TestResults(actual.ToList(), numberToReturn, numberOfDecimalPlaces); }
public async Task UuidBasicMethod_ExecuteAsync_ShouldReturnGuidValues() { // Arrange BaseMethodTest bmt = new BaseMethodTest(); int numberToReturn = 2; // Act var target = new UuidBasicMethod(bmt.AdvisoryDelayHandler, bmt.Service); IEnumerable<Guid> results = await target.GenerateUuidsAsync(numberToReturn); // Assert results.Should().Not.Be.Null(); results.Count().Should().Equal(numberToReturn); }
public async Task IntegerBasicMethod_ExecuteAsync_ShouldReturnIntegerValuesInRange() { // Arrange BaseMethodTest bmt = new BaseMethodTest(); int numberToReturn = 2; int minNumber = bmt.Random.Next(1, 1000); int maxNumber = bmt.Random.Next(minNumber + 1, 1000000); bool allowDuplicates = bmt.Random.Next(1, 2) == 1; // Act var target = new IntegerBasicMethod(bmt.AdvisoryDelayHandler, bmt.Service); var results = await target.GenerateIntegersAsync(numberToReturn, minNumber, maxNumber, allowDuplicates); // Assert TestResults(results.ToList(), numberToReturn, minNumber, maxNumber, allowDuplicates); }
public async Task StringBasicMethod_ExecuteAsync_ShouldReturnStringValues() { // Arrange BaseMethodTest bmt = new BaseMethodTest(); int numberToReturn = 2; int length = bmt.Random.Next(1, 20); CharactersAllowed charactersAllowed = CharactersAllowed.AlphaNumeric; const bool allowDuplicates = false; var target = new StringBasicMethod(bmt.AdvisoryDelayHandler, bmt.Service); var results = await target.GenerateStringsAsync(numberToReturn, length, charactersAllowed, allowDuplicates); // Assert TestResults(results.ToList(), numberToReturn, length, "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789"); }
public async Task GuassianBasicMethod_ExecuteAsync_ShouldReturnDoubleValuesInRange() { // Arrange BaseMethodTest bmt = new BaseMethodTest(); int numberToReturn = 2; int mean = bmt.Random.Next(-1000000, 1000000); int standardDeviation = bmt.Random.Next(-1000000, 1000000); int signifantDigits = bmt.Random.Next(2, 20); // Act var target = new GuassianBasicMethod(bmt.AdvisoryDelayHandler, bmt.Service); var results = await target.GenerateGuassiansAsync(numberToReturn, mean, standardDeviation, signifantDigits); // Assert TestResults(results.ToList(), numberToReturn); }