public void DifferentNodesAreNotEqualAccordingToTags( ISpecimenBuilderNode first, ISpecimenBuilderNode second) { // Arrange // Act var actual = first.GraphEquals(second, new TaggedNodeComparer()); // Assert Assert.False(actual); }
public void SimilarNodesAreEqualAccordingToTags( ISpecimenBuilderNode first, ISpecimenBuilderNode second) { // Arrange // Act var actual = first.GraphEquals(second, new TaggedNodeComparer()); // Assert Assert.True(actual); }
public void DifferentNodesAreNotEqualWhenComparerIsOmitted( ISpecimenBuilderNode first, ISpecimenBuilderNode second) { // Arrange // Act var actual = first.GraphEquals(second); // Assert Assert.False(actual); }
public void IdenticalNodesAreEqual( ISpecimenBuilderNode first, ISpecimenBuilderNode second) { // Arrange // Act var actual = first.GraphEquals(second); // Assert Assert.True(actual); }
public void DifferentNodesAreNotEqualAccordingToTags( ISpecimenBuilderNode first, ISpecimenBuilderNode second) { // Fixture setup // Exercise system var actual = first.GraphEquals(second, new TaggedNodeComparer()); // Verify outcome Assert.False(actual); // Teardown }
public void DifferentNodesAreNotEqualWhenComparerIsOmitted( ISpecimenBuilderNode first, ISpecimenBuilderNode second) { // Fixture setup // Exercise system var actual = first.GraphEquals(second); // Verify outcome Assert.False(actual); // Teardown }
public void IdenticalNodesAreEqual( ISpecimenBuilderNode first, ISpecimenBuilderNode second) { // Fixture setup // Exercise system var actual = first.GraphEquals(second); // Verify outcome Assert.True(actual); // Teardown }
public void NodesWithDifferentShapesAreNotEqualEvenWhenComparerIsAlwaysTrue( ISpecimenBuilderNode first, ISpecimenBuilderNode second) { // Arrange var trueComparer = new TrueComparer <ISpecimenBuilder>(); // Act var actual = first.GraphEquals(second, trueComparer); // Assert Assert.False(actual); }
public void NodesWithIdenticalShapesAreEqualWhenComparerIsAlwaysTrue( ISpecimenBuilderNode first, ISpecimenBuilderNode second) { // Arrange var trueComparer = new TrueComparer <ISpecimenBuilder>(); // Act var actual = first.GraphEquals(second, trueComparer); // Assert Assert.True(actual); }
/// <summary> /// Determines whether two <see cref="ISpecimenBuilderNode" /> /// instances are define the same graph. /// </summary> /// <param name="first"> /// An <see cref="ISpecimenBuilderNode" /> to compare against /// <paramref name="second" />. /// </param> /// <param name="second"> /// An <see cref="ISpecimenBuilderNode" /> to compare against /// <paramref name="first" />. /// </param> /// <returns> /// <see langword="true" /> if the two /// <see cref="ISpecimenBuilderNode" /> define the same graph; /// otherwise, <see langword="false" />. /// </returns> /// <remarks> /// <para> /// Two <see cref="ISpecimenBuilderNode" /> instances define the same /// graph if they themselves are equal to each other, and all their /// child nodes recursively are equal to each other. /// </para> /// </remarks> /// <exception cref="System.ArgumentNullException">first</exception> /// <exception cref="System.ArgumentNullException">second</exception> /// <seealso cref="GraphEquals(ISpecimenBuilderNode, ISpecimenBuilderNode, IEqualityComparer{ISpecimenBuilder})"/> public static bool GraphEquals(this ISpecimenBuilderNode first, ISpecimenBuilderNode second) { if (first == null) { throw new ArgumentNullException(nameof(first)); } if (second == null) { throw new ArgumentNullException(nameof(second)); } return(first.GraphEquals(second, EqualityComparer <ISpecimenBuilder> .Default)); }
public void NodesWithDifferentShapesAreNotEqualEvenWhenComparerIsAlwaysTrue( ISpecimenBuilderNode first, ISpecimenBuilderNode second) { // Fixture setup var trueComparer = new TrueComparer <ISpecimenBuilder>(); // Exercise system var actual = first.GraphEquals(second, trueComparer); // Verify outcome Assert.False(actual); // Teardown }