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Слияние
author | cin |
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date | Tue, 22 Aug 2017 09:35:54 +0300 |
parents | 130781364799 |
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<?xml version="1.0"?> <doc> <assembly> <name>nunit.framework</name> </assembly> <members> <member name="T:NUnit.Framework.Internal.AssemblyHelper"> <summary> AssemblyHelper provides static methods for working with assemblies. </summary> </member> <member name="M:NUnit.Framework.Internal.AssemblyHelper.GetAssemblyName(System.Reflection.Assembly)"> <summary> Gets the AssemblyName of an assembly. </summary> <param name="assembly">The assembly</param> <returns>An AssemblyName</returns> </member> <member name="M:NUnit.Framework.Internal.AssemblyHelper.Load(System.String)"> <summary> Loads an assembly given a string, which is the AssemblyName </summary> <param name="name"></param> <returns></returns> </member> <member name="T:NUnit.Framework.Internal.ILogger"> <summary> Interface for logging within the engine </summary> </member> <member name="M:NUnit.Framework.Internal.ILogger.Error(System.String)"> <summary> Logs the specified message at the error level. </summary> <param name="message">The message.</param> </member> <member name="M:NUnit.Framework.Internal.ILogger.Error(System.String,System.Object[])"> <summary> Logs the specified message at the error level. </summary> <param name="message">The message.</param> <param name="args">The arguments.</param> </member> <member name="M:NUnit.Framework.Internal.ILogger.Warning(System.String)"> <summary> Logs the specified message at the warning level. </summary> <param name="message">The message.</param> </member> <member name="M:NUnit.Framework.Internal.ILogger.Warning(System.String,System.Object[])"> <summary> Logs the specified message at the warning level. </summary> <param name="message">The message.</param> <param name="args">The arguments.</param> </member> <member name="M:NUnit.Framework.Internal.ILogger.Info(System.String)"> <summary> Logs the specified message at the info level. </summary> <param name="message">The message.</param> </member> <member name="M:NUnit.Framework.Internal.ILogger.Info(System.String,System.Object[])"> <summary> Logs the specified message at the info level. </summary> <param name="message">The message.</param> <param name="args">The arguments.</param> </member> <member name="M:NUnit.Framework.Internal.ILogger.Debug(System.String)"> <summary> Logs the specified message at the debug level. </summary> <param name="message">The message.</param> </member> <member name="M:NUnit.Framework.Internal.ILogger.Debug(System.String,System.Object[])"> <summary> Logs the specified message at the debug level. </summary> <param name="message">The message.</param> <param name="args">The arguments.</param> </member> <member name="T:NUnit.Framework.Internal.InternalTrace"> <summary> InternalTrace provides facilities for tracing the execution of the NUnit framework. Tests and classes under test may make use of Console writes, System.Diagnostics.Trace or various loggers and NUnit itself traps and processes each of them. For that reason, a separate internal trace is needed. Note: InternalTrace uses a global lock to allow multiple threads to write trace messages. This can easily make it a bottleneck so it must be used sparingly. Keep the trace Level as low as possible and only insert InternalTrace writes where they are needed. TODO: add some buffering and a separate writer thread as an option. 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name="M:NUnit.Framework.Internal.AsyncInvocationRegion.WaitForPendingOperationsToComplete(System.Object)"> <summary> Waits for pending asynchronous operations to complete, if appropriate, and returns a proper result of the invocation by unwrapping task results </summary> <param name="invocationResult">The raw result of the method invocation</param> <returns>The unwrapped result, if necessary</returns> </member> <member name="T:NUnit.Framework.Internal.Builders.CombinatorialStrategy"> <summary> CombinatorialStrategy creates test cases by using all possible combinations of the parameter data. </summary> </member> <member name="M:NUnit.Framework.Internal.Builders.CombinatorialStrategy.GetTestCases(System.Collections.IEnumerable[])"> <summary> Gets the test cases generated by the CombiningStrategy. </summary> <returns>The test cases.</returns> </member> <member name="T:NUnit.Framework.Internal.Builders.DatapointProvider"> <summary> Provides data from fields marked with the 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<member name="M:NUnit.Framework.Internal.Builders.DefaultSuiteBuilder.CanBuildFrom(NUnit.Framework.Interfaces.ITypeInfo)"> <summary> Checks to see if the provided Type is a fixture. To be considered a fixture, it must be a non-abstract class with one or more attributes implementing the IFixtureBuilder interface or one or more methods marked as tests. </summary> <param name="typeInfo">The fixture type to check</param> <returns>True if the fixture can be built, false if not</returns> </member> <member name="M:NUnit.Framework.Internal.Builders.DefaultSuiteBuilder.BuildFrom(NUnit.Framework.Interfaces.ITypeInfo)"> <summary> Build a TestSuite from TypeInfo provided. </summary> <param name="typeInfo">The fixture type to build</param> <returns>A TestSuite built from that type</returns> </member> <member name="M:NUnit.Framework.Internal.Builders.DefaultSuiteBuilder.GetFixtureBuilderAttributes(NUnit.Framework.Interfaces.ITypeInfo)"> <summary> We look for attributes implementing IFixtureBuilder at one level of inheritance at a time. Attributes on base classes are not used unless there are no fixture builder attributes at all on the derived class. This is by design. </summary> <param name="typeInfo">The type being examined for attributes</param> <returns>A list of the attributes found.</returns> </member> <member name="T:NUnit.Framework.Internal.Builders.DefaultTestCaseBuilder"> <summary> Class to build ether a parameterized or a normal NUnitTestMethod. There are four cases that the builder must deal with: 1. The method needs no params and none are provided 2. The method needs params and they are provided 3. The method needs no params but they are provided in error 4. The method needs params but they are not provided This could have been done using two different builders, but it turned out to be simpler to have just one. The BuildFrom method takes a different branch depending on whether any parameters are provided, but all four cases are dealt with in lower-level methods </summary> </member> <member name="M:NUnit.Framework.Internal.Builders.DefaultTestCaseBuilder.CanBuildFrom(NUnit.Framework.Interfaces.IMethodInfo)"> <summary> Determines if the method can be used to build an NUnit test test method of some kind. The method must normally be marked with an identifying attribute for this to be true. Note that this method does not check that the signature of the method for validity. If we did that here, any test methods with invalid signatures would be passed over in silence in the test run. Since we want such methods to be reported, the check for validity is made in BuildFrom rather than here. </summary> <param name="method">An IMethodInfo for the method being used as a test method</param> <returns>True if the builder can create a test case from this method</returns> </member> <member name="M:NUnit.Framework.Internal.Builders.DefaultTestCaseBuilder.BuildFrom(NUnit.Framework.Interfaces.IMethodInfo)"> <summary> Build a Test from the provided MethodInfo. 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Since we want such methods to be reported, the check for validity is made in BuildFrom rather than here. </summary> <param name="method">An IMethodInfo for the method being used as a test method</param> <param name="parentSuite">The test suite being built, to which the new test would be added</param> <returns>True if the builder can create a test case from this method</returns> </member> <member name="M:NUnit.Framework.Internal.Builders.DefaultTestCaseBuilder.BuildFrom(NUnit.Framework.Interfaces.IMethodInfo,NUnit.Framework.Internal.Test)"> <summary> Build a Test from the provided MethodInfo. 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Used to locate namespace parent suites for fixtures. </summary> </member> <member name="F:NUnit.Framework.Internal.Builders.NamespaceTreeBuilder.rootSuite"> <summary> The root of the test suite being created by this builder. </summary> </member> <member name="M:NUnit.Framework.Internal.Builders.NamespaceTreeBuilder.#ctor(NUnit.Framework.Internal.TestSuite)"> <summary> Initializes a new instance of the <see cref="T:NUnit.Framework.Internal.Builders.NamespaceTreeBuilder"/> class. </summary> <param name="rootSuite">The root suite.</param> </member> <member name="P:NUnit.Framework.Internal.Builders.NamespaceTreeBuilder.RootSuite"> <summary> Gets the root entry in the tree created by the NamespaceTreeBuilder. </summary> <value>The root suite.</value> </member> <member name="M:NUnit.Framework.Internal.Builders.NamespaceTreeBuilder.Add(System.Collections.Generic.IList{NUnit.Framework.Internal.Test})"> <summary> Adds the specified fixtures to the tree. </summary> <param name="fixtures">The fixtures to be added.</param> </member> <member name="M:NUnit.Framework.Internal.Builders.NamespaceTreeBuilder.Add(NUnit.Framework.Internal.TestSuite)"> <summary> Adds the specified fixture to the tree. </summary> <param name="fixture">The fixture to be added.</param> </member> <member name="T:NUnit.Framework.Internal.Builders.NUnitTestCaseBuilder"> <summary> NUnitTestCaseBuilder is a utility class used by attributes that build test cases. </summary> </member> <member name="M:NUnit.Framework.Internal.Builders.NUnitTestCaseBuilder.#ctor"> <summary> Constructs an <see cref="T:NUnit.Framework.Internal.Builders.NUnitTestCaseBuilder"/> </summary> </member> <member name="M:NUnit.Framework.Internal.Builders.NUnitTestCaseBuilder.BuildTestMethod(NUnit.Framework.Interfaces.IMethodInfo,NUnit.Framework.Internal.Test,NUnit.Framework.Internal.TestCaseParameters)"> <summary> Builds a single NUnitTestMethod, either as a child of the fixture or as one of a set of test cases under a ParameterizedTestMethodSuite. </summary> <param name="method">The MethodInfo from which to construct the TestMethod</param> <param name="parentSuite">The suite or fixture to which the new test will be added</param> <param name="parms">The ParameterSet to be used, or null</param> <returns></returns> </member> <member name="M:NUnit.Framework.Internal.Builders.NUnitTestCaseBuilder.CheckTestMethodSignature(NUnit.Framework.Internal.TestMethod,NUnit.Framework.Internal.TestCaseParameters)"> <summary> Helper method that checks the signature of a TestMethod and any supplied parameters to determine if the test is valid. Currently, NUnitTestMethods are required to be public, non-abstract methods, either static or instance, returning void. They may take arguments but the _values must be provided or the TestMethod is not considered runnable. Methods not meeting these criteria will be marked as non-runnable and the method will return false in that case. </summary> <param name="testMethod">The TestMethod to be checked. If it is found to be non-runnable, it will be modified.</param> <param name="parms">Parameters to be used for this test, or null</param> <returns>True if the method signature is valid, false if not</returns> <remarks> The return value is no longer used internally, but is retained for testing purposes. </remarks> </member> <member name="T:NUnit.Framework.Internal.Builders.NUnitTestFixtureBuilder"> <summary> NUnitTestFixtureBuilder is able to build a fixture given a class marked with a TestFixtureAttribute or an unmarked class containing test methods. In the first case, it is called by the attribute and in the second directly by NUnitSuiteBuilder. </summary> </member> <member name="M:NUnit.Framework.Internal.Builders.NUnitTestFixtureBuilder.BuildFrom(NUnit.Framework.Interfaces.ITypeInfo)"> <summary> Build a TestFixture from type provided. A non-null TestSuite must always be returned, since the method is generally called because the user has marked the target class as a fixture. If something prevents the fixture from being used, it should be returned nonetheless, labelled as non-runnable. </summary> <param name="typeInfo">An ITypeInfo for the fixture to be used.</param> <returns>A TestSuite object or one derived from TestSuite.</returns> </member> <member name="M:NUnit.Framework.Internal.Builders.NUnitTestFixtureBuilder.BuildFrom(NUnit.Framework.Interfaces.ITypeInfo,NUnit.Framework.Interfaces.ITestFixtureData)"> <summary> Overload of BuildFrom called by tests that have arguments. Builds a fixture using the provided type and information in the ITestFixtureData object. </summary> <param name="typeInfo">The TypeInfo for which to construct a fixture.</param> <param name="testFixtureData">An object implementing ITestFixtureData or null.</param> <returns></returns> </member> <member name="M:NUnit.Framework.Internal.Builders.NUnitTestFixtureBuilder.AddTestCasesToFixture(NUnit.Framework.Internal.TestFixture)"> <summary> Method to add test cases to the newly constructed fixture. </summary> <param name="fixture">The fixture to which cases should be added</param> </member> <member name="M:NUnit.Framework.Internal.Builders.NUnitTestFixtureBuilder.BuildTestCase(NUnit.Framework.Interfaces.IMethodInfo,NUnit.Framework.Internal.TestSuite)"> <summary> Method to create a test case from a MethodInfo and add it to the fixture being built. It first checks to see if any global TestCaseBuilder addin wants to build the test case. If not, it uses the internal builder collection maintained by this fixture builder. The default implementation has no test case builders. Derived classes should add builders to the collection in their constructor. </summary> <param name="method">The method for which a test is to be created</param> <param name="suite">The test suite being built.</param> <returns>A newly constructed Test</returns> </member> <member name="T:NUnit.Framework.Internal.Builders.PairwiseStrategy"> <summary> PairwiseStrategy creates test cases by combining the parameter data so that all possible pairs of data items are used. </summary> <remarks> <para> The number of test cases that cover all possible pairs of test function parameters values is significantly less than the number of test cases that cover all possible combination of test function parameters values. And because different studies show that most of software failures are caused by combination of no more than two parameters, pairwise testing can be an effective ways to test the system when it's impossible to test all combinations of parameters. </para> <para> The PairwiseStrategy code is based on "jenny" tool by Bob Jenkins: http://burtleburtle.net/bob/math/jenny.html </para> </remarks> </member> <member name="T:NUnit.Framework.Internal.Builders.PairwiseStrategy.FleaRand"> <summary> FleaRand is a pseudo-random number generator developed by Bob Jenkins: http://burtleburtle.net/bob/rand/talksmall.html#flea </summary> </member> <member name="M:NUnit.Framework.Internal.Builders.PairwiseStrategy.FleaRand.#ctor(System.UInt32)"> <summary> Initializes a new instance of the FleaRand class. </summary> <param name="seed">The seed.</param> </member> <member name="T:NUnit.Framework.Internal.Builders.PairwiseStrategy.FeatureInfo"> <summary> FeatureInfo represents coverage of a single value of test function parameter, represented as a pair of indices, Dimension and Feature. In terms of unit testing, Dimension is the index of the test parameter and Feature is the index of the supplied value in that parameter's list of sources. </summary> </member> <member name="M:NUnit.Framework.Internal.Builders.PairwiseStrategy.FeatureInfo.#ctor(System.Int32,System.Int32)"> <summary> Initializes a new instance of FeatureInfo class. </summary> <param name="dimension">Index of a dimension.</param> <param name="feature">Index of a feature.</param> </member> <member name="T:NUnit.Framework.Internal.Builders.PairwiseStrategy.FeatureTuple"> <summary> A FeatureTuple represents a combination of features, one per test parameter, which should be covered by a test case. In the PairwiseStrategy, we are only trying to cover pairs of features, so the tuples actually may contain only single feature or pair of features, but the algorithm itself works with triplets, quadruples and so on. </summary> </member> <member name="M:NUnit.Framework.Internal.Builders.PairwiseStrategy.FeatureTuple.#ctor(NUnit.Framework.Internal.Builders.PairwiseStrategy.FeatureInfo)"> <summary> Initializes a new instance of FeatureTuple class for a single feature. </summary> <param name="feature1">Single feature.</param> </member> <member name="M:NUnit.Framework.Internal.Builders.PairwiseStrategy.FeatureTuple.#ctor(NUnit.Framework.Internal.Builders.PairwiseStrategy.FeatureInfo,NUnit.Framework.Internal.Builders.PairwiseStrategy.FeatureInfo)"> <summary> Initializes a new instance of FeatureTuple class for a pair of features. </summary> <param name="feature1">First feature.</param> <param name="feature2">Second feature.</param> </member> <member name="T:NUnit.Framework.Internal.Builders.PairwiseStrategy.TestCaseInfo"> <summary> TestCase represents a single test case covering a list of features. </summary> </member> <member name="M:NUnit.Framework.Internal.Builders.PairwiseStrategy.TestCaseInfo.#ctor(System.Int32)"> <summary> Initializes a new instance of TestCaseInfo class. </summary> <param name="length">A number of features in the test case.</param> </member> <member name="T:NUnit.Framework.Internal.Builders.PairwiseStrategy.PairwiseTestCaseGenerator"> <summary> PairwiseTestCaseGenerator class implements an algorithm which generates a set of test cases which covers all pairs of possible values of test function. </summary> <remarks> <para> The algorithm starts with creating a set of all feature tuples which we will try to cover (see <see cref="M:NUnit.Framework.Internal.Builders.PairwiseStrategy.PairwiseTestCaseGenerator.CreateAllTuples" /> method). This set includes every single feature and all possible pairs of features. We store feature tuples in the 3-D collection (where axes are "dimension", "feature", and "all combinations which includes this feature"), and for every two feature (e.g. "A" and "B") we generate both ("A", "B") and ("B", "A") pairs. This data structure extremely reduces the amount of time needed to calculate coverage for a single test case (this calculation is the most time-consuming part of the algorithm). </para> <para> Then the algorithm picks one tuple from the uncovered tuple, creates a test case that covers this tuple, and then removes this tuple and all other tuples covered by this test case from the collection of uncovered tuples. </para> <para> Picking a tuple to cover </para> <para> There are no any special rules defined for picking tuples to cover. We just pick them one by one, in the order they were generated. </para> <para> Test generation </para> <para> Test generation starts from creating a completely random test case which covers, nevertheless, previously selected tuple. Then the algorithm tries to maximize number of tuples which this test covers. </para> <para> Test generation and maximization process repeats seven times for every selected tuple and then the algorithm picks the best test case ("seven" is a magic number which provides good results in acceptable time). </para> <para>Maximizing test coverage</para> <para> To maximize tests coverage, the algorithm walks thru the list of mutable dimensions (mutable dimension is a dimension that are not included in the previously selected tuple). Then for every dimension, the algorithm walks thru the list of features and checks if this feature provides better coverage than randomly selected feature, and if yes keeps this feature. </para> <para> This process repeats while it shows progress. If the last iteration doesn't improve coverage, the process ends. </para> <para> In addition, for better results, before start every iteration, the algorithm "scrambles" dimensions - so for every iteration dimension probes in a different order. </para> </remarks> </member> <member name="M:NUnit.Framework.Internal.Builders.PairwiseStrategy.PairwiseTestCaseGenerator.GetTestCases(System.Int32[])"> <summary> Creates a set of test cases for specified dimensions. </summary> <param name="dimensions"> An array which contains information about dimensions. Each element of this array represents a number of features in the specific dimension. </param> <returns> A set of test cases. </returns> </member> <member name="M:NUnit.Framework.Internal.Builders.PairwiseStrategy.GetTestCases(System.Collections.IEnumerable[])"> <summary> Gets the test cases generated by this strategy instance. </summary> <returns>A set of test cases.</returns> </member> <member name="T:NUnit.Framework.Internal.Builders.ParameterDataProvider"> <summary> The ParameterDataProvider class implements IParameterDataProvider and hosts one or more individual providers. </summary> </member> <member name="M:NUnit.Framework.Internal.Builders.ParameterDataProvider.#ctor(NUnit.Framework.Interfaces.IParameterDataProvider[])"> <summary> Construct with a collection of individual providers </summary> </member> <member name="M:NUnit.Framework.Internal.Builders.ParameterDataProvider.HasDataFor(NUnit.Framework.Interfaces.IParameterInfo)"> <summary> Determine whether any data is available for a parameter. </summary> <param name="parameter">An IParameterInfo representing one argument to a parameterized test</param> <returns>True if any data is available, otherwise false.</returns> </member> <member name="M:NUnit.Framework.Internal.Builders.ParameterDataProvider.GetDataFor(NUnit.Framework.Interfaces.IParameterInfo)"> <summary> Return an IEnumerable providing data for use with the supplied parameter. </summary> <param name="parameter">An IParameterInfo representing one argument to a parameterized test</param> <returns>An IEnumerable providing the required data</returns> </member> <member name="T:NUnit.Framework.Internal.Builders.ParameterDataSourceProvider"> <summary> ParameterDataSourceProvider supplies individual argument _values for single parameters using attributes implementing IParameterDataSource. </summary> </member> <member name="M:NUnit.Framework.Internal.Builders.ParameterDataSourceProvider.HasDataFor(NUnit.Framework.Interfaces.IParameterInfo)"> <summary> Determine whether any data is available for a parameter. </summary> <param name="parameter">A ParameterInfo representing one argument to a parameterized test</param> <returns> True if any data is available, otherwise false. </returns> </member> <member name="M:NUnit.Framework.Internal.Builders.ParameterDataSourceProvider.GetDataFor(NUnit.Framework.Interfaces.IParameterInfo)"> <summary> Return an IEnumerable providing data for use with the supplied parameter. </summary> <param name="parameter">An IParameterInfo representing one argument to a parameterized test</param> <returns> An IEnumerable providing the required data </returns> </member> <member name="T:NUnit.Framework.Internal.Builders.SequentialStrategy"> <summary> SequentialStrategy creates test cases by using all of the parameter data sources in parallel, substituting <c>null</c> when any of them run out of data. </summary> </member> <member name="M:NUnit.Framework.Internal.Builders.SequentialStrategy.GetTestCases(System.Collections.IEnumerable[])"> <summary> Gets the test cases generated by the CombiningStrategy. </summary> <returns>The test cases.</returns> </member> <member name="T:NUnit.Framework.Internal.Commands.ApplyChangesToContextCommand"> <summary> ContextSettingsCommand applies specified changes to the TestExecutionContext prior to running a test. No special action is needed after the test runs, since the prior context will be restored automatically. </summary> </member> <member name="T:NUnit.Framework.Internal.Commands.CommandStage"> <summary> The CommandStage enumeration represents the defined stages of execution for a series of TestCommands. The int _values of the enum are used to apply decorators in the proper order. Lower _values are applied first and are therefore "closer" to the actual test execution. </summary> <remarks> No CommandStage is defined for actual invocation of the test or for creation of the context. Execution may be imagined as proceeding from the bottom of the list upwards, with cleanup after the test running in the opposite order. </remarks> </member> <member name="F:NUnit.Framework.Internal.Commands.CommandStage.Default"> <summary> Use an application-defined default value. </summary> </member> <member name="F:NUnit.Framework.Internal.Commands.CommandStage.BelowSetUpTearDown"> <summary> Make adjustments needed before and after running the raw test - that is, after any SetUp has run and before TearDown. </summary> </member> <member name="F:NUnit.Framework.Internal.Commands.CommandStage.SetUpTearDown"> <summary> Run SetUp and TearDown for the test. This stage is used internally by NUnit and should not normally appear in user-defined decorators. </summary> </member> <member name="F:NUnit.Framework.Internal.Commands.CommandStage.AboveSetUpTearDown"> <summary> Make adjustments needed before and after running the entire test - including SetUp and TearDown. </summary> </member> <member name="T:NUnit.Framework.Internal.Commands.DelegatingTestCommand"> <summary> TODO: Documentation needed for class </summary> </member> <member name="F:NUnit.Framework.Internal.Commands.DelegatingTestCommand.innerCommand"> <summary>TODO: Documentation needed for field</summary> </member> <member name="M:NUnit.Framework.Internal.Commands.DelegatingTestCommand.#ctor(NUnit.Framework.Internal.Commands.TestCommand)"> <summary> TODO: Documentation needed for constructor </summary> <param name="innerCommand"></param> </member> <member name="T:NUnit.Framework.Internal.Commands.MaxTimeCommand"> <summary> TODO: Documentation needed for class </summary> </member> <member name="M:NUnit.Framework.Internal.Commands.MaxTimeCommand.#ctor(NUnit.Framework.Internal.Commands.TestCommand,System.Int32)"> <summary> Initializes a new instance of the <see cref="T:NUnit.Framework.Internal.Commands.MaxTimeCommand"/> class. </summary> <param name="innerCommand">The inner command.</param> <param name="maxTime">The max time allowed in milliseconds</param> </member> <member name="M:NUnit.Framework.Internal.Commands.MaxTimeCommand.Execute(NUnit.Framework.Internal.TestExecutionContext)"> <summary> Runs the test, saving a TestResult in the supplied TestExecutionContext </summary> <param name="context">The context in which the test should run.</param> <returns>A TestResult</returns> </member> <member name="T:NUnit.Framework.Internal.Commands.OneTimeSetUpCommand"> <summary> OneTimeSetUpCommand runs any one-time setup methods for a suite, constructing the user test object if necessary. </summary> </member> <member name="M:NUnit.Framework.Internal.Commands.OneTimeSetUpCommand.#ctor(NUnit.Framework.Internal.TestSuite,System.Collections.Generic.List{NUnit.Framework.Internal.Commands.SetUpTearDownItem},System.Collections.Generic.List{NUnit.Framework.Internal.Commands.TestActionItem})"> <summary> Constructs a OneTimeSetUpCommand for a suite </summary> <param name="suite">The suite to which the command applies</param> <param name="setUpTearDown">A SetUpTearDownList for use by the command</param> <param name="actions">A List of TestActionItems to be run after Setup</param> </member> <member name="M:NUnit.Framework.Internal.Commands.OneTimeSetUpCommand.Execute(NUnit.Framework.Internal.TestExecutionContext)"> <summary> Overridden to run the one-time setup for a suite. </summary> <param name="context">The TestExecutionContext to be used.</param> <returns>A TestResult</returns> </member> <member name="T:NUnit.Framework.Internal.Commands.OneTimeTearDownCommand"> <summary> OneTimeTearDownCommand performs any teardown actions specified for a suite and calls Dispose on the user test object, if any. </summary> </member> <member name="M:NUnit.Framework.Internal.Commands.OneTimeTearDownCommand.#ctor(NUnit.Framework.Internal.TestSuite,System.Collections.Generic.List{NUnit.Framework.Internal.Commands.SetUpTearDownItem},System.Collections.Generic.List{NUnit.Framework.Internal.Commands.TestActionItem})"> <summary> Construct a OneTimeTearDownCommand </summary> <param name="suite">The test suite to which the command applies</param> <param name="setUpTearDownItems">A SetUpTearDownList for use by the command</param> <param name="actions">A List of TestActionItems to be run before teardown.</param> </member> <member name="M:NUnit.Framework.Internal.Commands.OneTimeTearDownCommand.Execute(NUnit.Framework.Internal.TestExecutionContext)"> <summary> Overridden to run the teardown methods specified on the test. </summary> <param name="context">The TestExecutionContext to be used.</param> <returns>A TestResult</returns> </member> <member name="T:NUnit.Framework.Internal.Commands.SetUpTearDownCommand"> <summary> SetUpTearDownCommand runs any SetUp methods for a suite, runs the test and then runs any TearDown methods. </summary> </member> <member name="M:NUnit.Framework.Internal.Commands.SetUpTearDownCommand.#ctor(NUnit.Framework.Internal.Commands.TestCommand)"> <summary> Initializes a new instance of the <see cref="T:NUnit.Framework.Internal.Commands.SetUpTearDownCommand"/> class. </summary> <param name="innerCommand">The inner command.</param> </member> <member name="M:NUnit.Framework.Internal.Commands.SetUpTearDownCommand.Execute(NUnit.Framework.Internal.TestExecutionContext)"> <summary> Runs the test, saving a TestResult in the supplied TestExecutionContext. </summary> <param name="context">The context in which the test should run.</param> <returns>A TestResult</returns> </member> <member name="T:NUnit.Framework.Internal.Commands.SetUpTearDownItem"> <summary> SetUpTearDownItem holds the setup and teardown methods for a single level of the inheritance hierarchy. </summary> </member> <member name="M:NUnit.Framework.Internal.Commands.SetUpTearDownItem.#ctor(System.Collections.Generic.IList{System.Reflection.MethodInfo},System.Collections.Generic.IList{System.Reflection.MethodInfo})"> <summary> Construct a SetUpTearDownNode </summary> <param name="setUpMethods">A list of setup methods for this level</param> <param name="tearDownMethods">A list teardown methods for this level</param> </member> <member name="P:NUnit.Framework.Internal.Commands.SetUpTearDownItem.HasMethods"> <summary> Returns true if this level has any methods at all. This flag is used to discard levels that do nothing. </summary> </member> <member name="M:NUnit.Framework.Internal.Commands.SetUpTearDownItem.RunSetUp(NUnit.Framework.Internal.TestExecutionContext)"> <summary> Run SetUp on this level. </summary> <param name="context">The execution context to use for running.</param> </member> <member name="M:NUnit.Framework.Internal.Commands.SetUpTearDownItem.RunTearDown(NUnit.Framework.Internal.TestExecutionContext)"> <summary> Run TearDown for this level. </summary> <param name="context"></param> </member> <member name="T:NUnit.Framework.Internal.Commands.SkipCommand"> <summary> TODO: Documentation needed for class </summary> </member> <member name="M:NUnit.Framework.Internal.Commands.SkipCommand.#ctor(NUnit.Framework.Internal.Test)"> <summary> Initializes a new instance of the <see cref="T:NUnit.Framework.Internal.Commands.SkipCommand"/> class. </summary> <param name="test">The test being skipped.</param> </member> <member name="M:NUnit.Framework.Internal.Commands.SkipCommand.Execute(NUnit.Framework.Internal.TestExecutionContext)"> <summary> Overridden to simply set the CurrentResult to the appropriate Skipped state. </summary> <param name="context">The execution context for the test</param> <returns>A TestResult</returns> </member> <member name="T:NUnit.Framework.Internal.Commands.TestActionCommand"> <summary> TestActionCommand runs the BeforeTest actions for a test, then runs the test and finally runs the AfterTestActions. </summary> </member> <member name="M:NUnit.Framework.Internal.Commands.TestActionCommand.#ctor(NUnit.Framework.Internal.Commands.TestCommand)"> <summary> Initializes a new instance of the <see cref="T:NUnit.Framework.Internal.Commands.TestActionCommand"/> class. </summary> <param name="innerCommand">The inner command.</param> </member> <member name="M:NUnit.Framework.Internal.Commands.TestActionCommand.Execute(NUnit.Framework.Internal.TestExecutionContext)"> <summary> Runs the test, saving a TestResult in the supplied TestExecutionContext. </summary> <param name="context">The context in which the test should run.</param> <returns>A TestResult</returns> </member> <member name="T:NUnit.Framework.Internal.Commands.TestActionItem"> <summary> TestActionItem represents a single execution of an ITestAction. 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If it is not, then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="arg1">The first value, expected to be greater</param> <param name="arg2">The second value, expected to be less</param> <param name="message">The message to display in case of failure</param> <param name="args">Array of objects to be used in formatting the message</param> </member> <member name="M:NUnit.Framework.Assert.Greater(System.Decimal,System.Decimal)"> <summary> Verifies that the first value is greater than the second value. If it is not, then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="arg1">The first value, expected to be greater</param> <param name="arg2">The second value, expected to be less</param> </member> <member name="M:NUnit.Framework.Assert.Greater(System.Double,System.Double,System.String,System.Object[])"> <summary> Verifies that the first value is greater than the second value. 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If it is not, then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="arg1">The first value, expected to be greater</param> <param name="arg2">The second value, expected to be less</param> <param name="message">The message to display in case of failure</param> <param name="args">Array of objects to be used in formatting the message</param> </member> <member name="M:NUnit.Framework.Assert.Greater(System.Single,System.Single)"> <summary> Verifies that the first value is greater than the second value. If it is not, then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="arg1">The first value, expected to be greater</param> <param name="arg2">The second value, expected to be less</param> </member> <member name="M:NUnit.Framework.Assert.Greater(System.IComparable,System.IComparable,System.String,System.Object[])"> <summary> Verifies that the first value is greater than the second value. If it is not, then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="arg1">The first value, expected to be greater</param> <param name="arg2">The second value, expected to be less</param> <param name="message">The message to display in case of failure</param> <param name="args">Array of objects to be used in formatting the message</param> </member> <member name="M:NUnit.Framework.Assert.Greater(System.IComparable,System.IComparable)"> <summary> Verifies that the first value is greater than the second value. If it is not, then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="arg1">The first value, expected to be greater</param> <param name="arg2">The second value, expected to be less</param> </member> <member name="M:NUnit.Framework.Assert.Less(System.Int32,System.Int32,System.String,System.Object[])"> <summary> Verifies that the first value is less than the second value. If it is not, then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="arg1">The first value, expected to be less</param> <param name="arg2">The second value, expected to be greater</param> <param name="message">The message to display in case of failure</param> <param name="args">Array of objects to be used in formatting the message</param> </member> <member name="M:NUnit.Framework.Assert.Less(System.Int32,System.Int32)"> <summary> Verifies that the first value is less than the second value. If it is not, then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="arg1">The first value, expected to be less</param> <param name="arg2">The second value, expected to be greater</param> </member> <member name="M:NUnit.Framework.Assert.Less(System.UInt32,System.UInt32,System.String,System.Object[])"> <summary> Verifies that the first value is less than the second value. If it is not, then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="arg1">The first value, expected to be less</param> <param name="arg2">The second value, expected to be greater</param> <param name="message">The message to display in case of failure</param> <param name="args">Array of objects to be used in formatting the message</param> </member> <member name="M:NUnit.Framework.Assert.Less(System.UInt32,System.UInt32)"> <summary> Verifies that the first value is less than the second value. If it is not, then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="arg1">The first value, expected to be less</param> <param name="arg2">The second value, expected to be greater</param> </member> <member name="M:NUnit.Framework.Assert.Less(System.Int64,System.Int64,System.String,System.Object[])"> <summary> Verifies that the first value is less than the second value. If it is not, then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="arg1">The first value, expected to be less</param> <param name="arg2">The second value, expected to be greater</param> <param name="message">The message to display in case of failure</param> <param name="args">Array of objects to be used in formatting the message</param> </member> <member name="M:NUnit.Framework.Assert.Less(System.Int64,System.Int64)"> <summary> Verifies that the first value is less than the second value. If it is not, then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="arg1">The first value, expected to be less</param> <param name="arg2">The second value, expected to be greater</param> </member> <member name="M:NUnit.Framework.Assert.Less(System.UInt64,System.UInt64,System.String,System.Object[])"> <summary> Verifies that the first value is less than the second value. If it is not, then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="arg1">The first value, expected to be less</param> <param name="arg2">The second value, expected to be greater</param> <param name="message">The message to display in case of failure</param> <param name="args">Array of objects to be used in formatting the message</param> </member> <member name="M:NUnit.Framework.Assert.Less(System.UInt64,System.UInt64)"> <summary> Verifies that the first value is less than the second value. If it is not, then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="arg1">The first value, expected to be less</param> <param name="arg2">The second value, expected to be greater</param> </member> <member name="M:NUnit.Framework.Assert.Less(System.Decimal,System.Decimal,System.String,System.Object[])"> <summary> Verifies that the first value is less than the second value. If it is not, then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="arg1">The first value, expected to be less</param> <param name="arg2">The second value, expected to be greater</param> <param name="message">The message to display in case of failure</param> <param name="args">Array of objects to be used in formatting the message</param> </member> <member name="M:NUnit.Framework.Assert.Less(System.Decimal,System.Decimal)"> <summary> Verifies that the first value is less than the second value. If it is not, then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="arg1">The first value, expected to be less</param> <param name="arg2">The second value, expected to be greater</param> </member> <member name="M:NUnit.Framework.Assert.Less(System.Double,System.Double,System.String,System.Object[])"> <summary> Verifies that the first value is less than the second value. If it is not, then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="arg1">The first value, expected to be less</param> <param name="arg2">The second value, expected to be greater</param> <param name="message">The message to display in case of failure</param> <param name="args">Array of objects to be used in formatting the message</param> </member> <member name="M:NUnit.Framework.Assert.Less(System.Double,System.Double)"> <summary> Verifies that the first value is less than the second value. If it is not, then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="arg1">The first value, expected to be less</param> <param name="arg2">The second value, expected to be greater</param> </member> <member name="M:NUnit.Framework.Assert.Less(System.Single,System.Single,System.String,System.Object[])"> <summary> Verifies that the first value is less than the second value. If it is not, then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="arg1">The first value, expected to be less</param> <param name="arg2">The second value, expected to be greater</param> <param name="message">The message to display in case of failure</param> <param name="args">Array of objects to be used in formatting the message</param> </member> <member name="M:NUnit.Framework.Assert.Less(System.Single,System.Single)"> <summary> Verifies that the first value is less than the second value. If it is not, then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="arg1">The first value, expected to be less</param> <param name="arg2">The second value, expected to be greater</param> </member> <member name="M:NUnit.Framework.Assert.Less(System.IComparable,System.IComparable,System.String,System.Object[])"> <summary> Verifies that the first value is less than the second value. If it is not, then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="arg1">The first value, expected to be less</param> <param name="arg2">The second value, expected to be greater</param> <param name="message">The message to display in case of failure</param> <param name="args">Array of objects to be used in formatting the message</param> </member> <member name="M:NUnit.Framework.Assert.Less(System.IComparable,System.IComparable)"> <summary> Verifies that the first value is less than the second value. If it is not, then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="arg1">The first value, expected to be less</param> <param name="arg2">The second value, expected to be greater</param> </member> <member name="M:NUnit.Framework.Assert.GreaterOrEqual(System.Int32,System.Int32,System.String,System.Object[])"> <summary> Verifies that the first value is greater than or equal to the second value. If it is not, then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="arg1">The first value, expected to be greater</param> <param name="arg2">The second value, expected to be less</param> <param name="message">The message to display in case of failure</param> <param name="args">Array of objects to be used in formatting the message</param> </member> <member name="M:NUnit.Framework.Assert.GreaterOrEqual(System.Int32,System.Int32)"> <summary> Verifies that the first value is greater than or equal to the second value. If it is not, then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="arg1">The first value, expected to be greater</param> <param name="arg2">The second value, expected to be less</param> </member> <member name="M:NUnit.Framework.Assert.GreaterOrEqual(System.UInt32,System.UInt32,System.String,System.Object[])"> <summary> Verifies that the first value is greater than or equal to the second value. If it is not, then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="arg1">The first value, expected to be greater</param> <param name="arg2">The second value, expected to be less</param> <param name="message">The message to display in case of failure</param> <param name="args">Array of objects to be used in formatting the message</param> </member> <member name="M:NUnit.Framework.Assert.GreaterOrEqual(System.UInt32,System.UInt32)"> <summary> Verifies that the first value is greater than or equal to the second value. If it is not, then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="arg1">The first value, expected to be greater</param> <param name="arg2">The second value, expected to be less</param> </member> <member name="M:NUnit.Framework.Assert.GreaterOrEqual(System.Int64,System.Int64,System.String,System.Object[])"> <summary> Verifies that the first value is greater than or equal to the second value. If it is not, then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="arg1">The first value, expected to be greater</param> <param name="arg2">The second value, expected to be less</param> <param name="message">The message to display in case of failure</param> <param name="args">Array of objects to be used in formatting the message</param> </member> <member name="M:NUnit.Framework.Assert.GreaterOrEqual(System.Int64,System.Int64)"> <summary> Verifies that the first value is greater than or equal to the second value. If it is not, then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="arg1">The first value, expected to be greater</param> <param name="arg2">The second value, expected to be less</param> </member> <member name="M:NUnit.Framework.Assert.GreaterOrEqual(System.UInt64,System.UInt64,System.String,System.Object[])"> <summary> Verifies that the first value is greater than or equal to the second value. If it is not, then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="arg1">The first value, expected to be greater</param> <param name="arg2">The second value, expected to be less</param> <param name="message">The message to display in case of failure</param> <param name="args">Array of objects to be used in formatting the message</param> </member> <member name="M:NUnit.Framework.Assert.GreaterOrEqual(System.UInt64,System.UInt64)"> <summary> Verifies that the first value is greater than or equal to the second value. If it is not, then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="arg1">The first value, expected to be greater</param> <param name="arg2">The second value, expected to be less</param> </member> <member name="M:NUnit.Framework.Assert.GreaterOrEqual(System.Decimal,System.Decimal,System.String,System.Object[])"> <summary> Verifies that the first value is greater than or equal to the second value. If it is not, then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="arg1">The first value, expected to be greater</param> <param name="arg2">The second value, expected to be less</param> <param name="message">The message to display in case of failure</param> <param name="args">Array of objects to be used in formatting the message</param> </member> <member name="M:NUnit.Framework.Assert.GreaterOrEqual(System.Decimal,System.Decimal)"> <summary> Verifies that the first value is greater than or equal to the second value. If it is not, then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="arg1">The first value, expected to be greater</param> <param name="arg2">The second value, expected to be less</param> </member> <member name="M:NUnit.Framework.Assert.GreaterOrEqual(System.Double,System.Double,System.String,System.Object[])"> <summary> Verifies that the first value is greater than or equal to the second value. If it is not, then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="arg1">The first value, expected to be greater</param> <param name="arg2">The second value, expected to be less</param> <param name="message">The message to display in case of failure</param> <param name="args">Array of objects to be used in formatting the message</param> </member> <member name="M:NUnit.Framework.Assert.GreaterOrEqual(System.Double,System.Double)"> <summary> Verifies that the first value is greater than or equal to the second value. If it is not, then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="arg1">The first value, expected to be greater</param> <param name="arg2">The second value, expected to be less</param> </member> <member name="M:NUnit.Framework.Assert.GreaterOrEqual(System.Single,System.Single,System.String,System.Object[])"> <summary> Verifies that the first value is greater than or equal to the second value. If it is not, then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="arg1">The first value, expected to be greater</param> <param name="arg2">The second value, expected to be less</param> <param name="message">The message to display in case of failure</param> <param name="args">Array of objects to be used in formatting the message</param> </member> <member name="M:NUnit.Framework.Assert.GreaterOrEqual(System.Single,System.Single)"> <summary> Verifies that the first value is greater than or equal to the second value. If it is not, then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="arg1">The first value, expected to be greater</param> <param name="arg2">The second value, expected to be less</param> </member> <member name="M:NUnit.Framework.Assert.GreaterOrEqual(System.IComparable,System.IComparable,System.String,System.Object[])"> <summary> Verifies that the first value is greater than or equal to the second value. If it is not, then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="arg1">The first value, expected to be greater</param> <param name="arg2">The second value, expected to be less</param> <param name="message">The message to display in case of failure</param> <param name="args">Array of objects to be used in formatting the message</param> </member> <member name="M:NUnit.Framework.Assert.GreaterOrEqual(System.IComparable,System.IComparable)"> <summary> Verifies that the first value is greater than or equal to the second value. If it is not, then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="arg1">The first value, expected to be greater</param> <param name="arg2">The second value, expected to be less</param> </member> <member name="M:NUnit.Framework.Assert.LessOrEqual(System.Int32,System.Int32,System.String,System.Object[])"> <summary> Verifies that the first value is less than or equal to the second value. If it is not, then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="arg1">The first value, expected to be less</param> <param name="arg2">The second value, expected to be greater</param> <param name="message">The message to display in case of failure</param> <param name="args">Array of objects to be used in formatting the message</param> </member> <member name="M:NUnit.Framework.Assert.LessOrEqual(System.Int32,System.Int32)"> <summary> Verifies that the first value is less than or equal to the second value. If it is not, then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="arg1">The first value, expected to be less</param> <param name="arg2">The second value, expected to be greater</param> </member> <member name="M:NUnit.Framework.Assert.LessOrEqual(System.UInt32,System.UInt32,System.String,System.Object[])"> <summary> Verifies that the first value is less than or equal to the second value. If it is not, then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="arg1">The first value, expected to be less</param> <param name="arg2">The second value, expected to be greater</param> <param name="message">The message to display in case of failure</param> <param name="args">Array of objects to be used in formatting the message</param> </member> <member name="M:NUnit.Framework.Assert.LessOrEqual(System.UInt32,System.UInt32)"> <summary> Verifies that the first value is less than or equal to the second value. If it is not, then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="arg1">The first value, expected to be less</param> <param name="arg2">The second value, expected to be greater</param> </member> <member name="M:NUnit.Framework.Assert.LessOrEqual(System.Int64,System.Int64,System.String,System.Object[])"> <summary> Verifies that the first value is less than or equal to the second value. If it is not, then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="arg1">The first value, expected to be less</param> <param name="arg2">The second value, expected to be greater</param> <param name="message">The message to display in case of failure</param> <param name="args">Array of objects to be used in formatting the message</param> </member> <member name="M:NUnit.Framework.Assert.LessOrEqual(System.Int64,System.Int64)"> <summary> Verifies that the first value is less than or equal to the second value. If it is not, then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="arg1">The first value, expected to be less</param> <param name="arg2">The second value, expected to be greater</param> </member> <member name="M:NUnit.Framework.Assert.LessOrEqual(System.UInt64,System.UInt64,System.String,System.Object[])"> <summary> Verifies that the first value is less than or equal to the second value. If it is not, then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="arg1">The first value, expected to be less</param> <param name="arg2">The second value, expected to be greater</param> <param name="message">The message to display in case of failure</param> <param name="args">Array of objects to be used in formatting the message</param> </member> <member name="M:NUnit.Framework.Assert.LessOrEqual(System.UInt64,System.UInt64)"> <summary> Verifies that the first value is less than or equal to the second value. If it is not, then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="arg1">The first value, expected to be less</param> <param name="arg2">The second value, expected to be greater</param> </member> <member name="M:NUnit.Framework.Assert.LessOrEqual(System.Decimal,System.Decimal,System.String,System.Object[])"> <summary> Verifies that the first value is less than or equal to the second value. If it is not, then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="arg1">The first value, expected to be less</param> <param name="arg2">The second value, expected to be greater</param> <param name="message">The message to display in case of failure</param> <param name="args">Array of objects to be used in formatting the message</param> </member> <member name="M:NUnit.Framework.Assert.LessOrEqual(System.Decimal,System.Decimal)"> <summary> Verifies that the first value is less than or equal to the second value. If it is not, then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="arg1">The first value, expected to be less</param> <param name="arg2">The second value, expected to be greater</param> </member> <member name="M:NUnit.Framework.Assert.LessOrEqual(System.Double,System.Double,System.String,System.Object[])"> <summary> Verifies that the first value is less than or equal to the second value. If it is not, then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="arg1">The first value, expected to be less</param> <param name="arg2">The second value, expected to be greater</param> <param name="message">The message to display in case of failure</param> <param name="args">Array of objects to be used in formatting the message</param> </member> <member name="M:NUnit.Framework.Assert.LessOrEqual(System.Double,System.Double)"> <summary> Verifies that the first value is less than or equal to the second value. If it is not, then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="arg1">The first value, expected to be less</param> <param name="arg2">The second value, expected to be greater</param> </member> <member name="M:NUnit.Framework.Assert.LessOrEqual(System.Single,System.Single,System.String,System.Object[])"> <summary> Verifies that the first value is less than or equal to the second value. If it is not, then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="arg1">The first value, expected to be less</param> <param name="arg2">The second value, expected to be greater</param> <param name="message">The message to display in case of failure</param> <param name="args">Array of objects to be used in formatting the message</param> </member> <member name="M:NUnit.Framework.Assert.LessOrEqual(System.Single,System.Single)"> <summary> Verifies that the first value is less than or equal to the second value. If it is not, then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="arg1">The first value, expected to be less</param> <param name="arg2">The second value, expected to be greater</param> </member> <member name="M:NUnit.Framework.Assert.LessOrEqual(System.IComparable,System.IComparable,System.String,System.Object[])"> <summary> Verifies that the first value is less than or equal to the second value. If it is not, then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="arg1">The first value, expected to be less</param> <param name="arg2">The second value, expected to be greater</param> <param name="message">The message to display in case of failure</param> <param name="args">Array of objects to be used in formatting the message</param> </member> <member name="M:NUnit.Framework.Assert.LessOrEqual(System.IComparable,System.IComparable)"> <summary> Verifies that the first value is less than or equal to the second value. If it is not, then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="arg1">The first value, expected to be less</param> <param name="arg2">The second value, expected to be greater</param> </member> <member name="M:NUnit.Framework.Assert.True(System.Nullable{System.Boolean},System.String,System.Object[])"> <summary> Asserts that a condition is true. If the condition is false the method throws an <see cref="T:NUnit.Framework.AssertionException"/>. </summary> <param name="condition">The evaluated condition</param> <param name="message">The message to display in case of failure</param> <param name="args">Array of objects to be used in formatting the message</param> </member> <member name="M:NUnit.Framework.Assert.True(System.Boolean,System.String,System.Object[])"> <summary> Asserts that a condition is true. If the condition is false the method throws an <see cref="T:NUnit.Framework.AssertionException"/>. </summary> <param name="condition">The evaluated condition</param> <param name="message">The message to display in case of failure</param> <param name="args">Array of objects to be used in formatting the message</param> </member> <member name="M:NUnit.Framework.Assert.True(System.Nullable{System.Boolean})"> <summary> Asserts that a condition is true. If the condition is false the method throws an <see cref="T:NUnit.Framework.AssertionException"/>. </summary> <param name="condition">The evaluated condition</param> </member> <member name="M:NUnit.Framework.Assert.True(System.Boolean)"> <summary> Asserts that a condition is true. If the condition is false the method throws an <see cref="T:NUnit.Framework.AssertionException"/>. </summary> <param name="condition">The evaluated condition</param> </member> <member name="M:NUnit.Framework.Assert.IsTrue(System.Nullable{System.Boolean},System.String,System.Object[])"> <summary> Asserts that a condition is true. If the condition is false the method throws an <see cref="T:NUnit.Framework.AssertionException"/>. </summary> <param name="condition">The evaluated condition</param> <param name="message">The message to display in case of failure</param> <param name="args">Array of objects to be used in formatting the message</param> </member> <member name="M:NUnit.Framework.Assert.IsTrue(System.Boolean,System.String,System.Object[])"> <summary> Asserts that a condition is true. If the condition is false the method throws an <see cref="T:NUnit.Framework.AssertionException"/>. </summary> <param name="condition">The evaluated condition</param> <param name="message">The message to display in case of failure</param> <param name="args">Array of objects to be used in formatting the message</param> </member> <member name="M:NUnit.Framework.Assert.IsTrue(System.Nullable{System.Boolean})"> <summary> Asserts that a condition is true. If the condition is false the method throws an <see cref="T:NUnit.Framework.AssertionException"/>. </summary> <param name="condition">The evaluated condition</param> </member> <member name="M:NUnit.Framework.Assert.IsTrue(System.Boolean)"> <summary> Asserts that a condition is true. If the condition is false the method throws an <see cref="T:NUnit.Framework.AssertionException"/>. </summary> <param name="condition">The evaluated condition</param> </member> <member name="M:NUnit.Framework.Assert.False(System.Nullable{System.Boolean},System.String,System.Object[])"> <summary> Asserts that a condition is false. If the condition is true the method throws an <see cref="T:NUnit.Framework.AssertionException"/>. </summary> <param name="condition">The evaluated condition</param> <param name="message">The message to display in case of failure</param> <param name="args">Array of objects to be used in formatting the message</param> </member> <member name="M:NUnit.Framework.Assert.False(System.Boolean,System.String,System.Object[])"> <summary> Asserts that a condition is false. If the condition is true the method throws an <see cref="T:NUnit.Framework.AssertionException"/>. </summary> <param name="condition">The evaluated condition</param> <param name="message">The message to display in case of failure</param> <param name="args">Array of objects to be used in formatting the message</param> </member> <member name="M:NUnit.Framework.Assert.False(System.Nullable{System.Boolean})"> <summary> Asserts that a condition is false. If the condition is true the method throws an <see cref="T:NUnit.Framework.AssertionException"/>. </summary> <param name="condition">The evaluated condition</param> </member> <member name="M:NUnit.Framework.Assert.False(System.Boolean)"> <summary> Asserts that a condition is false. If the condition is true the method throws an <see cref="T:NUnit.Framework.AssertionException"/>. </summary> <param name="condition">The evaluated condition</param> </member> <member name="M:NUnit.Framework.Assert.IsFalse(System.Nullable{System.Boolean},System.String,System.Object[])"> <summary> Asserts that a condition is false. If the condition is true the method throws an <see cref="T:NUnit.Framework.AssertionException"/>. </summary> <param name="condition">The evaluated condition</param> <param name="message">The message to display in case of failure</param> <param name="args">Array of objects to be used in formatting the message</param> </member> <member name="M:NUnit.Framework.Assert.IsFalse(System.Boolean,System.String,System.Object[])"> <summary> Asserts that a condition is false. If the condition is true the method throws an <see cref="T:NUnit.Framework.AssertionException"/>. </summary> <param name="condition">The evaluated condition</param> <param name="message">The message to display in case of failure</param> <param name="args">Array of objects to be used in formatting the message</param> </member> <member name="M:NUnit.Framework.Assert.IsFalse(System.Nullable{System.Boolean})"> <summary> Asserts that a condition is false. If the condition is true the method throws an <see cref="T:NUnit.Framework.AssertionException"/>. </summary> <param name="condition">The evaluated condition</param> </member> <member name="M:NUnit.Framework.Assert.IsFalse(System.Boolean)"> <summary> Asserts that a condition is false. If the condition is true the method throws an <see cref="T:NUnit.Framework.AssertionException"/>. </summary> <param name="condition">The evaluated condition</param> </member> <member name="M:NUnit.Framework.Assert.NotNull(System.Object,System.String,System.Object[])"> <summary> Verifies that the object that is passed in is not equal to <code>null</code> If the object is <code>null</code> then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="anObject">The object that is to be tested</param> <param name="message">The message to display in case of failure</param> <param name="args">Array of objects to be used in formatting the message</param> </member> <member name="M:NUnit.Framework.Assert.NotNull(System.Object)"> <summary> Verifies that the object that is passed in is not equal to <code>null</code> If the object is <code>null</code> then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="anObject">The object that is to be tested</param> </member> <member name="M:NUnit.Framework.Assert.IsNotNull(System.Object,System.String,System.Object[])"> <summary> Verifies that the object that is passed in is not equal to <code>null</code> If the object is <code>null</code> then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="anObject">The object that is to be tested</param> <param name="message">The message to display in case of failure</param> <param name="args">Array of objects to be used in formatting the message</param> </member> <member name="M:NUnit.Framework.Assert.IsNotNull(System.Object)"> <summary> Verifies that the object that is passed in is not equal to <code>null</code> If the object is <code>null</code> then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="anObject">The object that is to be tested</param> </member> <member name="M:NUnit.Framework.Assert.Null(System.Object,System.String,System.Object[])"> <summary> Verifies that the object that is passed in is equal to <code>null</code> If the object is not <code>null</code> then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="anObject">The object that is to be tested</param> <param name="message">The message to display in case of failure</param> <param name="args">Array of objects to be used in formatting the message</param> </member> <member name="M:NUnit.Framework.Assert.Null(System.Object)"> <summary> Verifies that the object that is passed in is equal to <code>null</code> If the object is not <code>null</code> then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="anObject">The object that is to be tested</param> </member> <member name="M:NUnit.Framework.Assert.IsNull(System.Object,System.String,System.Object[])"> <summary> Verifies that the object that is passed in is equal to <code>null</code> If the object is not <code>null</code> then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="anObject">The object that is to be tested</param> <param name="message">The message to display in case of failure</param> <param name="args">Array of objects to be used in formatting the message</param> </member> <member name="M:NUnit.Framework.Assert.IsNull(System.Object)"> <summary> Verifies that the object that is passed in is equal to <code>null</code> If the object is not <code>null</code> then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="anObject">The object that is to be tested</param> </member> <member name="M:NUnit.Framework.Assert.IsNaN(System.Double,System.String,System.Object[])"> <summary> Verifies that the double that is passed in is an <code>NaN</code> value. If the object is not <code>NaN</code> then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="aDouble">The value that is to be tested</param> <param name="message">The message to display in case of failure</param> <param name="args">Array of objects to be used in formatting the message</param> </member> <member name="M:NUnit.Framework.Assert.IsNaN(System.Double)"> <summary> Verifies that the double that is passed in is an <code>NaN</code> value. If the object is not <code>NaN</code> then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="aDouble">The value that is to be tested</param> </member> <member name="M:NUnit.Framework.Assert.IsNaN(System.Nullable{System.Double},System.String,System.Object[])"> <summary> Verifies that the double that is passed in is an <code>NaN</code> value. If the object is not <code>NaN</code> then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="aDouble">The value that is to be tested</param> <param name="message">The message to display in case of failure</param> <param name="args">Array of objects to be used in formatting the message</param> </member> <member name="M:NUnit.Framework.Assert.IsNaN(System.Nullable{System.Double})"> <summary> Verifies that the double that is passed in is an <code>NaN</code> value. If the object is not <code>NaN</code> then an <see cref="T:NUnit.Framework.AssertionException"/> is thrown. </summary> <param name="aDouble">The value that is to be tested</param> </member> <member name="M:NUnit.Framework.Assert.IsEmpty(System.String,System.String,System.Object[])"> <summary> Assert that a string is empty - that is equal to string.Empty </summary> <param name="aString">The string to be tested</param> <param name="message">The message to display in case of failure</param> <param name="args">Array of objects to be used in formatting the message</param> </member> <member name="M:NUnit.Framework.Assert.IsEmpty(System.String)"> <summary> Assert that a string is empty - that is equal to string.Empty </summary> <param name="aString">The string to be tested</param> </member> <member name="M:NUnit.Framework.Assert.IsEmpty(System.Collections.IEnumerable,System.String,System.Object[])"> <summary> Assert that an array, list or other collection is empty </summary> <param name="collection">An array, list or other collection implementing ICollection</param> <param name="message">The message to display in case of failure</param> <param name="args">Array of objects to be used in formatting the message</param> </member> <member name="M:NUnit.Framework.Assert.IsEmpty(System.Collections.IEnumerable)"> <summary> Assert that an array, list or other collection is empty </summary> <param name="collection">An array, list or other collection implementing ICollection</param> </member> <member name="M:NUnit.Framework.Assert.IsNotEmpty(System.String,System.String,System.Object[])"> <summary> Assert that a string is not empty - that is not equal to string.Empty </summary> <param name="aString">The string to be tested</param> <param name="message">The message to display in case of failure</param> <param name="args">Array of objects to be used in formatting the message</param> </member> <member name="M:NUnit.Framework.Assert.IsNotEmpty(System.String)"> <summary> Assert that a string is not empty - that is not equal to string.Empty </summary> <param name="aString">The string to be tested</param> </member> <member name="M:NUnit.Framework.Assert.IsNotEmpty(System.Collections.IEnumerable,System.String,System.Object[])"> <summary> Assert that an array, list or other collection is not empty </summary> <param name="collection">An array, list or other collection implementing ICollection</param> <param name="message">The message to display in case of failure</param> <param name="args">Array of objects to be used in formatting the message</param> </member> <member name="M:NUnit.Framework.Assert.IsNotEmpty(System.Collections.IEnumerable)"> <summary> Assert that an array, list or other collection is not empty </summary> <param name="collection">An array, list or other collection implementing ICollection</param> </member> <member name="M:NUnit.Framework.Assert.#ctor"> <summary> We don't actually want any instances of this object, but some people like to inherit from it to add other static methods. Hence, the protected constructor disallows any instances of this object. </summary> </member> <member name="M:NUnit.Framework.Assert.Equals(System.Object,System.Object)"> <summary> The Equals method throws an AssertionException. This is done to make sure there is no mistake by calling this function. </summary> <param name="a"></param> <param name="b"></param> </member> <member name="M:NUnit.Framework.Assert.ReferenceEquals(System.Object,System.Object)"> <summary> override the default ReferenceEquals to throw an AssertionException. This implementation makes sure there is no mistake in calling this function as part of Assert. </summary> <param name="a"></param> <param name="b"></param> </member> <member name="M:NUnit.Framework.Assert.Pass(System.String,System.Object[])"> <summary> Throws a <see cref="T:NUnit.Framework.SuccessException"/> with the message and arguments that are passed in. This allows a test to be cut short, with a result of success returned to NUnit. </summary> <param name="message">The message to initialize the <see cref="T:NUnit.Framework.AssertionException"/> with.</param> <param name="args">Arguments to be used in formatting the message</param> </member> <member name="M:NUnit.Framework.Assert.Pass(System.String)"> <summary> Throws a <see cref="T:NUnit.Framework.SuccessException"/> with the message and arguments that are passed in. This allows a test to be cut short, with a result of success returned to NUnit. </summary> <param name="message">The message to initialize the <see cref="T:NUnit.Framework.AssertionException"/> with.</param> </member> <member name="M:NUnit.Framework.Assert.Pass"> <summary> Throws a <see cref="T:NUnit.Framework.SuccessException"/> with the message and arguments that are passed in. This allows a test to be cut short, with a result of success returned to NUnit. </summary> </member> <member name="M:NUnit.Framework.Assert.Fail(System.String,System.Object[])"> <summary> Throws an <see cref="T:NUnit.Framework.AssertionException"/> with the message and arguments that are passed in. This is used by the other Assert functions. </summary> <param name="message">The message to initialize the <see cref="T:NUnit.Framework.AssertionException"/> with.</param> <param name="args">Arguments to be used in formatting the message</param> </member> <member name="M:NUnit.Framework.Assert.Fail(System.String)"> <summary> Throws an <see cref="T:NUnit.Framework.AssertionException"/> with the message that is passed in. 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in certain mock object frameworks. </summary> </member> <member name="M:NUnit.Framework.AssertionHelper.Expect(System.Boolean,System.String,System.Object[])"> <summary> Asserts that a condition is true. If the condition is false the method throws an <see cref="T:NUnit.Framework.AssertionException"/>. Works Identically to <see cref="M:NUnit.Framework.Assert.That(System.Boolean,System.String,System.Object[])"/>. </summary> <param name="condition">The evaluated condition</param> <param name="message">The message to display if the condition is false</param> <param name="args">Arguments to be used in formatting the message</param> </member> <member name="M:NUnit.Framework.AssertionHelper.Expect(System.Boolean)"> <summary> Asserts that a condition is true. If the condition is false the method throws an <see cref="T:NUnit.Framework.AssertionException"/>. Works Identically to <see cref="M:NUnit.Framework.Assert.That(System.Boolean)"/>. </summary> <param name="condition">The evaluated condition</param> </member> <member name="M:NUnit.Framework.AssertionHelper.Expect``1(NUnit.Framework.Constraints.ActualValueDelegate{``0},NUnit.Framework.Constraints.IResolveConstraint)"> <summary> Apply a constraint to an actual value, succeeding if the constraint is satisfied and throwing an assertion exception on failure. </summary> <param name="expr">A Constraint expression to be applied</param> <param name="del">An ActualValueDelegate returning the value to be tested</param> </member> <member name="M:NUnit.Framework.AssertionHelper.Expect``1(NUnit.Framework.Constraints.ActualValueDelegate{``0},NUnit.Framework.Constraints.IResolveConstraint,System.String,System.Object[])"> <summary> Apply a constraint to an actual value, succeeding if the constraint is satisfied and throwing an assertion exception on failure. </summary> <param name="del">An ActualValueDelegate returning the value to be tested</param> <param name="expr">A Constraint expression to be applied</param> <param name="message">The message that will be displayed on failure</param> <param name="args">Arguments to be used in formatting the message</param> </member> <member name="M:NUnit.Framework.AssertionHelper.Expect(NUnit.Framework.TestDelegate,NUnit.Framework.Constraints.IResolveConstraint)"> <summary> Asserts that the code represented by a delegate throws an exception that satisfies the constraint provided. </summary> <param name="code">A TestDelegate to be executed</param> <param name="constraint">A ThrowsConstraint used in the test</param> </member> <member name="M:NUnit.Framework.AssertionHelper.Expect``1(``0,NUnit.Framework.Constraints.IResolveConstraint)"> <summary> Apply a constraint to an actual value, succeeding if the constraint is satisfied and throwing an assertion exception on failure. </summary> <param name="expression">A Constraint to be applied</param> <param name="actual">The actual value to test</param> </member> <member name="M:NUnit.Framework.AssertionHelper.Expect``1(``0,NUnit.Framework.Constraints.IResolveConstraint,System.String,System.Object[])"> <summary> Apply a constraint to an actual value, succeeding if the constraint is satisfied and throwing an assertion exception on failure. </summary> <param name="expression">A Constraint expression to be applied</param> <param name="actual">The actual value to test</param> <param name="message">The message that will be displayed on failure</param> <param name="args">Arguments to be used in formatting the message</param> </member> <member name="M:NUnit.Framework.AssertionHelper.Map(System.Collections.ICollection)"> <summary> Returns a ListMapper based on a collection. </summary> <param name="original">The original collection</param> <returns></returns> </member> <member name="T:NUnit.Framework.Assume"> <summary> Provides static methods to express the assumptions that must be met for a test to give a meaningful result. If an assumption is not met, the test should produce an inconclusive result. </summary> </member> <member name="M:NUnit.Framework.Assume.Equals(System.Object,System.Object)"> <summary> The Equals method throws an AssertionException. This is done to make sure there is no mistake by calling this function. </summary> <param name="a"></param> <param name="b"></param> </member> <member name="M:NUnit.Framework.Assume.ReferenceEquals(System.Object,System.Object)"> <summary> override the default ReferenceEquals to throw an AssertionException. This implementation makes sure there is no mistake in calling this function as part of Assert. </summary> <param name="a"></param> <param name="b"></param> </member> <member name="M:NUnit.Framework.Assume.That``1(NUnit.Framework.Constraints.ActualValueDelegate{``0},NUnit.Framework.Constraints.IResolveConstraint)"> <summary> Apply a constraint to an actual value, succeeding if the constraint is satisfied and throwing an InconclusiveException on failure. </summary> <param name="expr">A Constraint expression to be applied</param> <param name="del">An ActualValueDelegate returning the value to be tested</param> </member> <member name="M:NUnit.Framework.Assume.That``1(NUnit.Framework.Constraints.ActualValueDelegate{``0},NUnit.Framework.Constraints.IResolveConstraint,System.String,System.Object[])"> <summary> Apply a constraint to an actual value, succeeding if the constraint is satisfied and throwing an InconclusiveException on failure. </summary> <param name="del">An ActualValueDelegate returning the value to be tested</param> <param name="expr">A Constraint expression to be applied</param> <param name="message">The message that will be displayed on failure</param> <param name="args">Arguments to be used in formatting the message</param> </member> <member name="M:NUnit.Framework.Assume.That(System.Boolean,System.String,System.Object[])"> <summary> Asserts that a condition is true. If the condition is false the method throws an <see cref="T:NUnit.Framework.InconclusiveException"/>. </summary> <param name="condition">The evaluated condition</param> <param name="message">The message to display if the condition is false</param> <param name="args">Arguments to be used in formatting the message</param> </member> <member name="M:NUnit.Framework.Assume.That(System.Boolean)"> <summary> Asserts that a condition is true. If the condition is false the method throws an <see cref="T:NUnit.Framework.InconclusiveException"/>. </summary> <param name="condition">The evaluated condition</param> </member> <member name="M:NUnit.Framework.Assume.That(System.Func{System.Boolean},System.String,System.Object[])"> <summary> Asserts that a condition is true. If the condition is false the method throws an <see cref="T:NUnit.Framework.InconclusiveException"/>. </summary> <param name="condition">A lambda that returns a Boolean</param> <param name="message">The message to display if the condition is false</param> <param name="args">Arguments to be used in formatting the message</param> </member> <member name="M:NUnit.Framework.Assume.That(System.Func{System.Boolean})"> <summary> Asserts that a condition is true. If the condition is false the method throws an <see cref="T:NUnit.Framework.InconclusiveException"/>. </summary> <param name="condition">A lambda that returns a Boolean</param> </member> <member name="M:NUnit.Framework.Assume.That(NUnit.Framework.TestDelegate,NUnit.Framework.Constraints.IResolveConstraint)"> <summary> Asserts that the code represented by a delegate throws an exception that satisfies the constraint provided. </summary> <param name="code">A TestDelegate to be executed</param> <param name="constraint">A ThrowsConstraint used in the test</param> </member> <member name="M:NUnit.Framework.Assume.That``1(``0,NUnit.Framework.Constraints.IResolveConstraint)"> <summary> Apply a constraint to an actual value, succeeding if the constraint is satisfied and throwing an InconclusiveException on failure. </summary> <param name="expression">A Constraint to be applied</param> <param name="actual">The actual value to test</param> </member> <member name="M:NUnit.Framework.Assume.That``1(``0,NUnit.Framework.Constraints.IResolveConstraint,System.String,System.Object[])"> <summary> Apply a constraint to an actual value, succeeding if the constraint is satisfied and throwing an InconclusiveException on failure. </summary> <param name="expression">A Constraint expression to be applied</param> <param name="actual">The actual value to test</param> <param name="message">The message that will be displayed on failure</param> <param name="args">Arguments to be used in formatting the message</param> </member> <member name="T:NUnit.Framework.AuthorAttribute"> <summary> Provides the Author of a test or test fixture. </summary> </member> <member name="M:NUnit.Framework.AuthorAttribute.#ctor(System.String)"> <summary> Initializes a new instance of the <see cref="T:NUnit.Framework.AuthorAttribute"/> class. </summary> <param name="name">The name of the author.</param> </member> <member name="M:NUnit.Framework.AuthorAttribute.#ctor(System.String,System.String)"> <summary> Initializes a new instance of the <see cref="T:NUnit.Framework.AuthorAttribute"/> class. </summary> <param name="name">The name of the author.</param> <param name="email">The email address of the author.</param> </member> <member name="T:NUnit.Framework.CategoryAttribute"> <summary> Attribute used to apply a category to a test </summary> </member> <member name="F:NUnit.Framework.CategoryAttribute.categoryName"> <summary> The name of the category </summary> </member> <member name="M:NUnit.Framework.CategoryAttribute.#ctor(System.String)"> <summary> Construct attribute for a given category based on a name. The name may not contain the characters ',', '+', '-' or '!'. However, this is not checked in the constructor since it would cause an error to arise at as the test was loaded without giving a clear indication of where the problem is located. The error is handled in NUnitFramework.cs by marking the test as not runnable. </summary> <param name="name">The name of the category</param> </member> <member name="M:NUnit.Framework.CategoryAttribute.#ctor"> <summary> Protected constructor uses the Type name as the name of the category. </summary> </member> <member name="P:NUnit.Framework.CategoryAttribute.Name"> <summary> The name of the category </summary> </member> <member name="M:NUnit.Framework.CategoryAttribute.ApplyToTest(NUnit.Framework.Internal.Test)"> <summary> Modifies a test by adding a category to it. </summary> <param name="test">The test to modify</param> </member> <member name="T:NUnit.Framework.CombinatorialAttribute"> <summary> Marks a test to use a combinatorial join of any argument data provided. Since this is the default, the attribute is optional. </summary> </member> <member name="M:NUnit.Framework.CombinatorialAttribute.#ctor"> <summary> Default constructor </summary> </member> <member name="T:NUnit.Framework.CombiningStrategyAttribute"> <summary> Marks a test to use a particular CombiningStrategy to join any parameter data provided. Since this is the default, the attribute is optional. </summary> </member> <member name="M:NUnit.Framework.CombiningStrategyAttribute.#ctor(NUnit.Framework.Interfaces.ICombiningStrategy,NUnit.Framework.Interfaces.IParameterDataProvider)"> <summary> Construct a CombiningStrategyAttribute incorporating an ICombiningStrategy and an IParamterDataProvider. </summary> <param name="strategy">Combining strategy to be used in combining data</param> <param name="provider">An IParameterDataProvider to supply data</param> </member> <member name="M:NUnit.Framework.CombiningStrategyAttribute.#ctor(System.Object,System.Object)"> <summary> Construct a CombiningStrategyAttribute incorporating an object that implements ICombiningStrategy and an IParameterDataProvider. This constructor is provided for CLS compliance. </summary> <param name="strategy">Combining strategy to be used in combining data</param> <param name="provider">An IParameterDataProvider to supply data</param> </member> <member name="M:NUnit.Framework.CombiningStrategyAttribute.BuildFrom(NUnit.Framework.Interfaces.IMethodInfo,NUnit.Framework.Internal.Test)"> <summary> Construct one or more TestMethods from a given MethodInfo, using available parameter data. </summary> <param name="method">The MethodInfo for which tests are to be constructed.</param> <param name="suite">The suite to which the tests will be added.</param> <returns>One or more TestMethods</returns> </member> <member name="M:NUnit.Framework.CombiningStrategyAttribute.ApplyToTest(NUnit.Framework.Internal.Test)"> <summary> Modify the test by adding the name of the combining strategy to the properties. </summary> <param name="test">The test to modify</param> </member> <member name="T:NUnit.Framework.CultureAttribute"> <summary> CultureAttribute is used to mark a test fixture or an individual method as applying to a particular Culture only. </summary> </member> <member name="M:NUnit.Framework.CultureAttribute.#ctor"> <summary> Constructor with no cultures specified, for use with named property syntax. </summary> </member> <member name="M:NUnit.Framework.CultureAttribute.#ctor(System.String)"> <summary> Constructor taking one or more cultures </summary> <param name="cultures">Comma-deliminted list of cultures</param> </member> <member name="M:NUnit.Framework.CultureAttribute.ApplyToTest(NUnit.Framework.Internal.Test)"> <summary> Causes a test to be skipped if this CultureAttribute is not satisfied. </summary> <param name="test">The test to modify</param> </member> <member name="M:NUnit.Framework.CultureAttribute.IsCultureSupported"> <summary> Tests to determine if the current culture is supported based on the properties of this attribute. </summary> <returns>True, if the current culture is supported</returns> </member> <member name="M:NUnit.Framework.CultureAttribute.IsCultureSupported(System.String)"> <summary> Test to determine if the a particular culture or comma- delimited set of cultures is in use. </summary> <param name="culture">Name of the culture or comma-separated list of culture ids</param> <returns>True if the culture is in use on the system</returns> </member> <member name="M:NUnit.Framework.CultureAttribute.IsCultureSupported(System.String[])"> <summary> Test to determine if one of a collection of cultures is being used currently. </summary> <param name="cultures"></param> <returns></returns> </member> <member name="T:NUnit.Framework.DataAttribute"> <summary> The abstract base class for all data-providing attributes defined by NUnit. Used to select all data sources for a method, class or parameter. </summary> </member> <member name="M:NUnit.Framework.DataAttribute.#ctor"> <summary> Default constructor </summary> </member> <member name="T:NUnit.Framework.DatapointAttribute"> <summary> Used to mark a field for use as a datapoint when executing a theory within the same fixture that requires an argument of the field's Type. </summary> </member> <member name="T:NUnit.Framework.DatapointsAttribute"> <summary> Used to mark a field, property or method providing a set of datapoints to be used in executing any theories within the same fixture that require an argument of the Type provided. The data source may provide an array of the required Type or an <see cref="T:System.Collections.Generic.IEnumerable`1"/>. Synonymous with DatapointSourceAttribute. </summary> </member> <member name="T:NUnit.Framework.DatapointSourceAttribute"> <summary> Used to mark a field, property or method providing a set of datapoints to be used in executing any theories within the same fixture that require an argument of the Type provided. The data source may provide an array of the required Type or an <see cref="T:System.Collections.Generic.IEnumerable`1"/>. Synonymous with DatapointsAttribute. </summary> </member> <member name="T:NUnit.Framework.DescriptionAttribute"> <summary> Attribute used to provide descriptive text about a test case or fixture. </summary> </member> <member name="M:NUnit.Framework.DescriptionAttribute.#ctor(System.String)"> <summary> Construct a description Attribute </summary> <param name="description">The text of the description</param> </member> <member name="T:NUnit.Framework.ExplicitAttribute"> <summary> ExplicitAttribute marks a test or test fixture so that it will only be run if explicitly executed from the gui or command line or if it is included by use of a filter. The test will not be run simply because an enclosing suite is run. </summary> </member> <member name="M:NUnit.Framework.ExplicitAttribute.#ctor"> <summary> Default constructor </summary> </member> <member name="M:NUnit.Framework.ExplicitAttribute.#ctor(System.String)"> <summary> Constructor with a reason </summary> <param name="reason">The reason test is marked explicit</param> </member> <member name="M:NUnit.Framework.ExplicitAttribute.ApplyToTest(NUnit.Framework.Internal.Test)"> <summary> Modifies a test by marking it as explicit. </summary> <param name="test">The test to modify</param> </member> <member name="T:NUnit.Framework.IgnoreAttribute"> <summary> Attribute used to mark a test that is to be ignored. Ignored tests result in a warning message when the tests are run. </summary> </member> <member name="M:NUnit.Framework.IgnoreAttribute.#ctor(System.String)"> <summary> Constructs the attribute giving a reason for ignoring the test </summary> <param name="reason">The reason for ignoring the test</param> </member> <member name="P:NUnit.Framework.IgnoreAttribute.Until"> <summary> The date in the future to stop ignoring the test as a string in UTC time. For example for a date and time, "2014-12-25 08:10:00Z" or for just a date, "2014-12-25". If just a date is given, the Ignore will expire at midnight UTC. </summary> <remarks> Once the ignore until date has passed, the test will be marked as runnable. 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Multiple items may be given, separated by a comma. </summary> </member> <member name="P:NUnit.Framework.IncludeExcludeAttribute.Exclude"> <summary> Name of the item to be excluded. Multiple items may be given, separated by a comma. </summary> </member> <member name="P:NUnit.Framework.IncludeExcludeAttribute.Reason"> <summary> The reason for including or excluding the test </summary> </member> <member name="T:NUnit.Framework.LevelOfParallelismAttribute"> <summary> LevelOfParallelismAttribute is used to set the number of worker threads that may be allocated by the framework for running tests. </summary> </member> <member name="M:NUnit.Framework.LevelOfParallelismAttribute.#ctor(System.Int32)"> <summary> Construct a LevelOfParallelismAttribute. </summary> <param name="level">The number of worker threads to be created by the framework.</param> </member> <member name="T:NUnit.Framework.MaxTimeAttribute"> <summary> Summary description for MaxTimeAttribute. </summary> </member> <member name="M:NUnit.Framework.MaxTimeAttribute.#ctor(System.Int32)"> <summary> Construct a MaxTimeAttribute, given a time in milliseconds. </summary> <param name="milliseconds">The maximum elapsed time in milliseconds</param> </member> <member name="T:NUnit.Framework.NUnitAttribute"> <summary> The abstract base class for all custom attributes defined by NUnit. </summary> </member> <member name="M:NUnit.Framework.NUnitAttribute.#ctor"> <summary> Default constructor </summary> </member> <member name="T:NUnit.Framework.OneTimeSetUpAttribute"> <summary> Attribute used to identify a method that is called once to perform setup before any child tests are run. </summary> </member> <member name="T:NUnit.Framework.OneTimeTearDownAttribute"> <summary> Attribute used to identify a method that is called once after all the child tests have run. The method is guaranteed to be called, even if an exception is thrown. </summary> </member> <member name="T:NUnit.Framework.PairwiseAttribute"> <summary> Marks a test to use a pairwise join of any argument data provided. Arguments will be combined in such a way that all possible pairs of arguments are used. </summary> </member> <member name="M:NUnit.Framework.PairwiseAttribute.#ctor"> <summary> Default constructor </summary> </member> <member name="T:NUnit.Framework.ParallelizableAttribute"> <summary> ParallelizableAttribute is used to mark tests that may be run in parallel. </summary> </member> <member name="M:NUnit.Framework.ParallelizableAttribute.#ctor"> <summary> Construct a ParallelizableAttribute using default ParallelScope.Self. </summary> </member> <member name="M:NUnit.Framework.ParallelizableAttribute.#ctor(NUnit.Framework.ParallelScope)"> <summary> Construct a ParallelizableAttribute with a specified scope. </summary> <param name="scope">The ParallelScope associated with this attribute.</param> </member> <member name="M:NUnit.Framework.ParallelizableAttribute.ApplyToContext(NUnit.Framework.Internal.TestExecutionContext)"> <summary> Modify the context to be used for child tests </summary> <param name="context">The current TestExecutionContext</param> </member> <member name="T:NUnit.Framework.ParallelScope"> <summary> The ParallelScope enumeration permits specifying the degree to which a test and its descendants may be run in parallel. </summary> </member> <member name="F:NUnit.Framework.ParallelScope.None"> <summary> No Parallelism is permitted </summary> </member> <member name="F:NUnit.Framework.ParallelScope.Self"> <summary> The test itself may be run in parallel with others at the same level </summary> </member> <member name="F:NUnit.Framework.ParallelScope.Children"> <summary> Descendants of the test may be run in parallel with one another </summary> </member> <member name="F:NUnit.Framework.ParallelScope.Fixtures"> <summary> Descendants of the test down to the level of TestFixtures may be run in parallel </summary> </member> <member name="T:NUnit.Framework.PropertyAttribute"> <summary> PropertyAttribute is used to attach information to a test as a name/value pair.. </summary> </member> <member name="M:NUnit.Framework.PropertyAttribute.#ctor(System.String,System.String)"> <summary> Construct a PropertyAttribute with a name and string value </summary> <param name="propertyName">The name of the property</param> <param name="propertyValue">The property value</param> </member> <member name="M:NUnit.Framework.PropertyAttribute.#ctor(System.String,System.Int32)"> <summary> Construct a PropertyAttribute with a name and int value </summary> <param name="propertyName">The name of the property</param> <param name="propertyValue">The property value</param> </member> <member name="M:NUnit.Framework.PropertyAttribute.#ctor(System.String,System.Double)"> <summary> Construct a PropertyAttribute with a name and double value </summary> <param name="propertyName">The name of the property</param> <param name="propertyValue">The property value</param> </member> <member name="M:NUnit.Framework.PropertyAttribute.#ctor"> <summary> Constructor for derived classes that set the property dictionary directly. </summary> </member> <member name="M:NUnit.Framework.PropertyAttribute.#ctor(System.Object)"> <summary> Constructor for use by derived classes that use the name of the type as the property name. 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name="step"></param> </member> <member name="M:NUnit.Framework.RangeAttribute.#ctor(System.Double,System.Double,System.Double)"> <summary> Construct a range of doubles </summary> <param name="from"></param> <param name="to"></param> <param name="step"></param> </member> <member name="M:NUnit.Framework.RangeAttribute.#ctor(System.Single,System.Single,System.Single)"> <summary> Construct a range of floats </summary> <param name="from"></param> <param name="to"></param> <param name="step"></param> </member> <member name="T:NUnit.Framework.RepeatAttribute"> <summary> RepeatAttribute may be applied to test case in order to run it multiple times. </summary> </member> <member name="M:NUnit.Framework.RepeatAttribute.#ctor(System.Int32)"> <summary> Construct a RepeatAttribute </summary> <param name="count">The number of times to run the test</param> </member> <member name="M:NUnit.Framework.RepeatAttribute.Wrap(NUnit.Framework.Internal.Commands.TestCommand)"> <summary> Wrap a command and return 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name="T:NUnit.Framework.RetryAttribute"> <summary> RepeatAttribute may be applied to test case in order to run it multiple times. </summary> </member> <member name="M:NUnit.Framework.RetryAttribute.#ctor(System.Int32)"> <summary> Construct a RepeatAttribute </summary> <param name="count">The number of times to run the test</param> </member> <member name="M:NUnit.Framework.RetryAttribute.Wrap(NUnit.Framework.Internal.Commands.TestCommand)"> <summary> Wrap a command and return the result. </summary> <param name="command">The command to be wrapped</param> <returns>The wrapped command</returns> </member> <member name="T:NUnit.Framework.RetryAttribute.RetryCommand"> <summary> The test command for the RetryAttribute </summary> </member> <member name="M:NUnit.Framework.RetryAttribute.RetryCommand.#ctor(NUnit.Framework.Internal.Commands.TestCommand,System.Int32)"> <summary> Initializes a new instance of the <see cref="T:NUnit.Framework.RetryAttribute.RetryCommand"/> class. </summary> <param name="innerCommand">The inner command.</param> <param name="retryCount">The number of repetitions</param> </member> <member name="M:NUnit.Framework.RetryAttribute.RetryCommand.Execute(NUnit.Framework.Internal.TestExecutionContext)"> <summary> Runs the test, saving a TestResult in the supplied TestExecutionContext. </summary> <param name="context">The context in which the test should run.</param> <returns>A TestResult</returns> </member> <member name="T:NUnit.Framework.SequentialAttribute"> <summary> Marks a test to use a Sequential join of any argument data provided. Arguments will be combined into test cases, taking the next value of each argument until all are used. </summary> </member> <member name="M:NUnit.Framework.SequentialAttribute.#ctor"> <summary> Default constructor </summary> </member> <member name="T:NUnit.Framework.SetUpAttribute"> <summary> Attribute used to mark a class that contains one-time SetUp and/or TearDown methods that apply to all the tests in a namespace or an assembly. </summary> </member> <member name="T:NUnit.Framework.PreTestAttribute"> <summary> Attribute used to mark a class that contains one-time SetUp and/or TearDown methods that apply to all the tests in a namespace or an assembly. </summary> </member> <member name="T:NUnit.Framework.PostTestAttribute"> <summary> Attribute used to mark a class that contains one-time SetUp and/or TearDown methods that apply to all the tests in a namespace or an assembly. </summary> </member> <member name="T:NUnit.Framework.SetUpFixtureAttribute"> <summary> SetUpFixtureAttribute is used to identify a SetUpFixture </summary> </member> <member name="M:NUnit.Framework.SetUpFixtureAttribute.BuildFrom(NUnit.Framework.Interfaces.ITypeInfo)"> <summary> Build a SetUpFixture from type provided. Normally called for a Type on which the attribute has been placed. </summary> <param name="typeInfo">The type info of the fixture to be used.</param> <returns>A SetUpFixture object as a TestSuite.</returns> </member> <member name="T:NUnit.Framework.TearDownAttribute"> <summary> Attribute used to identify a method that is called immediately after each test is run. The method is guaranteed to be called, even if an exception is thrown. </summary> </member> <member name="T:NUnit.Framework.TestActionAttribute"> <summary> Provide actions to execute before and after tests. </summary> </member> <member name="M:NUnit.Framework.TestActionAttribute.BeforeTest(NUnit.Framework.Interfaces.ITest)"> <summary> Executed before each test is run </summary> <param name="test">The test that is going to be run.</param> </member> <member name="M:NUnit.Framework.TestActionAttribute.AfterTest(NUnit.Framework.Interfaces.ITest)"> <summary> Executed after each test is run </summary> <param name="test">The test that has just been run.</param> </member> <member name="P:NUnit.Framework.TestActionAttribute.Targets"> <summary> Provides the target for the action attribute </summary> </member> <member name="T:NUnit.Framework.TestAttribute"> <summary> Adding this attribute to a method within a <seealso cref="T:NUnit.Framework.TestFixtureAttribute"/> class makes the method callable from the NUnit test runner. 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This class cannot be inherited. </summary> <example> [TestFixture] public class Fixture { [Test] public void MethodToTest() {} [Test(Description = "more detailed description")] public void TestDescriptionMethod() {} } </example> </member> <member name="P:NUnit.Framework.TestAttribute.Description"> <summary> Descriptive text for this test </summary> </member> <member name="P:NUnit.Framework.TestAttribute.Author"> <summary> The author of this test </summary> </member> <member name="P:NUnit.Framework.TestAttribute.TestOf"> <summary> The type that this test is testing </summary> </member> <member name="M:NUnit.Framework.TestAttribute.ApplyToTest(NUnit.Framework.Internal.Test)"> <summary> Modifies a test by adding a description, if not already set. </summary> <param name="test">The test to modify</param> </member> <member name="P:NUnit.Framework.TestAttribute.ExpectedResult"> <summary> Gets or sets the expected result. </summary> <value>The result.</value> </member> <member name="P:NUnit.Framework.TestAttribute.HasExpectedResult"> <summary> Returns true if an expected result has been set </summary> </member> <member name="M:NUnit.Framework.TestAttribute.BuildFrom(NUnit.Framework.Interfaces.IMethodInfo,NUnit.Framework.Internal.Test)"> <summary> Construct a TestMethod from a given method. </summary> <param name="method">The method for which a test is to be constructed.</param> <param name="suite">The suite to which the test will be added.</param> <returns>A TestMethod</returns> </member> <member name="T:NUnit.Framework.TestCaseAttribute"> <summary> TestCaseAttribute is used to mark parameterized test cases and provide them with their arguments. </summary> </member> <member name="M:NUnit.Framework.TestCaseAttribute.#ctor(System.Object[])"> <summary> Construct a TestCaseAttribute with a list of arguments. This constructor is not CLS-Compliant </summary> <param name="arguments"></param> </member> <member name="M:NUnit.Framework.TestCaseAttribute.#ctor(System.Object)"> <summary> Construct a TestCaseAttribute with a single argument </summary> <param name="arg"></param> </member> <member name="M:NUnit.Framework.TestCaseAttribute.#ctor(System.Object,System.Object)"> <summary> Construct a TestCaseAttribute with a two arguments </summary> <param name="arg1"></param> <param name="arg2"></param> </member> <member name="M:NUnit.Framework.TestCaseAttribute.#ctor(System.Object,System.Object,System.Object)"> <summary> Construct a TestCaseAttribute with a three arguments </summary> <param name="arg1"></param> <param name="arg2"></param> <param name="arg3"></param> </member> <member name="P:NUnit.Framework.TestCaseAttribute.TestName"> <summary> Gets or sets the name of the test. </summary> <value>The name of the test.</value> </member> <member name="P:NUnit.Framework.TestCaseAttribute.RunState"> <summary> Gets or sets the RunState of this test case. </summary> </member> <member name="P:NUnit.Framework.TestCaseAttribute.Arguments"> <summary> Gets the list of arguments to a test case </summary> </member> <member name="P:NUnit.Framework.TestCaseAttribute.Properties"> <summary> Gets the properties of the test case </summary> </member> <member name="P:NUnit.Framework.TestCaseAttribute.ExpectedResult"> <summary> Gets or sets the expected result. </summary> <value>The result.</value> </member> <member name="P:NUnit.Framework.TestCaseAttribute.HasExpectedResult"> <summary> Returns true if the expected result has been set </summary> </member> <member name="P:NUnit.Framework.TestCaseAttribute.Description"> <summary> Gets or sets the description. </summary> <value>The description.</value> </member> <member name="P:NUnit.Framework.TestCaseAttribute.Author"> <summary> The author of this test </summary> </member> <member name="P:NUnit.Framework.TestCaseAttribute.TestOf"> <summary> The type that this test is testing </summary> </member> <member name="P:NUnit.Framework.TestCaseAttribute.Ignore"> <summary> Gets or sets the reason for ignoring the test </summary> </member> <member name="P:NUnit.Framework.TestCaseAttribute.Explicit"> <summary> Gets or sets a value indicating whether this <see cref="T:NUnit.Framework.TestCaseAttribute"/> is explicit. </summary> <value> <c>true</c> if explicit; otherwise, <c>false</c>. </value> </member> <member name="P:NUnit.Framework.TestCaseAttribute.Reason"> <summary> Gets or sets the reason for not running the test. </summary> <value>The reason.</value> </member> <member name="P:NUnit.Framework.TestCaseAttribute.IgnoreReason"> <summary> Gets or sets the ignore reason. When set to a non-null non-empty value, the test is marked as ignored. </summary> <value>The ignore reason.</value> </member> <member name="P:NUnit.Framework.TestCaseAttribute.Category"> <summary> Gets and sets the category for this test case. May be a comma-separated list of categories. </summary> </member> <member name="M:NUnit.Framework.TestCaseAttribute.PerformSpecialConversions(System.Object[],NUnit.Framework.Interfaces.IParameterInfo[])"> <summary> Performs several special conversions allowed by NUnit in order to permit arguments with types that cannot be used in the constructor of an Attribute such as TestCaseAttribute or to simplify their use. </summary> <param name="arglist">The arguments to be converted</param> <param name="parameters">The ParameterInfo array for the method</param> </member> <member name="M:NUnit.Framework.TestCaseAttribute.BuildFrom(NUnit.Framework.Interfaces.IMethodInfo,NUnit.Framework.Internal.Test)"> <summary> Construct one or more TestMethods from a given MethodInfo, using available parameter data. </summary> <param name="method">The MethodInfo for which tests are to be constructed.</param> <param name="suite">The suite to which the tests will be added.</param> <returns>One or more TestMethods</returns> </member> <member name="T:NUnit.Framework.TestCaseSourceAttribute"> <summary> TestCaseSourceAttribute indicates the source to be used to provide test cases for a test method. </summary> </member> <member name="M:NUnit.Framework.TestCaseSourceAttribute.#ctor(System.String)"> <summary> Construct with the name of the method, property or field that will provide data </summary> <param name="sourceName">The name of a static method, property or field that will provide data.</param> </member> <member name="M:NUnit.Framework.TestCaseSourceAttribute.#ctor(System.Type,System.String)"> <summary> Construct with a Type and name </summary> <param name="sourceType">The Type that will provide data</param> <param name="sourceName">The name of a static method, property or field that will provide data.</param> </member> <member name="M:NUnit.Framework.TestCaseSourceAttribute.#ctor(System.Type)"> <summary> Construct with a Type </summary> <param name="sourceType">The type that will provide data</param> </member> <member name="P:NUnit.Framework.TestCaseSourceAttribute.SourceName"> <summary> The name of a the method, property or fiend to be used as a source </summary> </member> <member name="P:NUnit.Framework.TestCaseSourceAttribute.SourceType"> <summary> A Type to be used as a source </summary> </member> <member name="P:NUnit.Framework.TestCaseSourceAttribute.Category"> <summary> Gets or sets the category associated with every fixture created from this attribute. 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This is done to make sure there is no mistake by calling this function. </summary> <param name="a"></param> <param name="b"></param> </member> <member name="M:NUnit.Framework.CollectionAssert.ReferenceEquals(System.Object,System.Object)"> <summary> override the default ReferenceEquals to throw an AssertionException. 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name="P:NUnit.Framework.Constraints.EmptyCollectionConstraint.Description"> <summary> The Description of what this constraint tests, for use in messages and in the ConstraintResult. </summary> </member> <member name="M:NUnit.Framework.Constraints.EmptyCollectionConstraint.Matches(System.Collections.IEnumerable)"> <summary> Check that the collection is empty </summary> <param name="collection"></param> <returns></returns> </member> <member name="T:NUnit.Framework.Constraints.EmptyConstraint"> <summary> EmptyConstraint tests a whether a string or collection is empty, postponing the decision about which test is applied until the type of the actual argument is known. </summary> </member> <member name="P:NUnit.Framework.Constraints.EmptyConstraint.Description"> <summary> The Description of what this constraint tests, for use in messages and in the ConstraintResult. </summary> </member> <member name="M:NUnit.Framework.Constraints.EmptyConstraint.ApplyTo``1(``0)"> <summary> Test whether the 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a new AttributeConstraint checking for the presence of a particular attribute on an object. </summary> </member> <member name="M:NUnit.Framework.Has.Attribute``1"> <summary> Returns a new AttributeConstraint checking for the presence of a particular attribute on an object. </summary> </member> <member name="M:NUnit.Framework.Has.Member(System.Object)"> <summary> Returns a new CollectionContainsConstraint checking for the presence of a particular object in the collection. </summary> </member> <member name="T:NUnit.Framework.Interfaces.IApplyToContext"> <summary> The IApplyToContext interface is implemented by attributes that want to make changes to the execution context before a test is run. </summary> </member> <member name="M:NUnit.Framework.Interfaces.IApplyToContext.ApplyToContext(NUnit.Framework.Internal.TestExecutionContext)"> <summary> Apply changes to the execution context </summary> <param name="context">The execution context</param> </member> <member name="T:NUnit.Framework.Interfaces.IApplyToTest"> <summary> The IApplyToTest interface is implemented by self-applying attributes that modify the state of a test in some way. </summary> </member> <member name="M:NUnit.Framework.Interfaces.IApplyToTest.ApplyToTest(NUnit.Framework.Internal.Test)"> <summary> Modifies a test as defined for the specific attribute. </summary> <param name="test">The test to modify</param> </member> <member name="T:NUnit.Framework.Interfaces.ICombiningStrategy"> <summary> CombiningStrategy is the abstract base for classes that know how to combine values provided for individual test parameters to create a set of test cases. </summary> </member> <member name="M:NUnit.Framework.Interfaces.ICombiningStrategy.GetTestCases(System.Collections.IEnumerable[])"> <summary> Gets the test cases generated by the CombiningStrategy. </summary> <returns>The test cases.</returns> </member> <member name="T:NUnit.Framework.Interfaces.ICommandWrapper"> <summary> ICommandWrapper is implemented by attributes and other objects able to wrap a TestCommand with another command. </summary> <remarks> Attributes or other objects should implement one of the derived interfaces, rather than this one, since they indicate in which part of the command chain the wrapper should be applied. </remarks> </member> <member name="M:NUnit.Framework.Interfaces.ICommandWrapper.Wrap(NUnit.Framework.Internal.Commands.TestCommand)"> <summary> Wrap a command and return the result. </summary> <param name="command">The command to be wrapped</param> <returns>The wrapped command</returns> </member> <member name="T:NUnit.Framework.Interfaces.IWrapTestMethod"> <summary> Objects implementing this interface are used to wrap the TestMethodCommand itself. They apply after SetUp has been run and before TearDown. </summary> </member> <member name="T:NUnit.Framework.Interfaces.IWrapSetUpTearDown"> <summary> Objects implementing this interface are used to wrap the entire test, including SetUp and TearDown. </summary> </member> <member name="T:NUnit.Framework.Interfaces.IDisposableFixture"> <summary> Any ITest that implements this interface is at a level that the implementing class should be disposed at the end of the test run </summary> </member> <member name="T:NUnit.Framework.Interfaces.IFixtureBuilder"> <summary> The IFixtureBuilder interface is exposed by a class that knows how to build a TestFixture from one or more Types. In general, it is exposed by an attribute, but may be implemented in a helper class used by the attribute in some cases. </summary> </member> <member name="M:NUnit.Framework.Interfaces.IFixtureBuilder.BuildFrom(NUnit.Framework.Interfaces.ITypeInfo)"> <summary> Build one or more TestFixtures from type provided. 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Marker interfaces are not usually considered a good practice, but we use it here to avoid cluttering the attribute hierarchy with classes that don't contain any extra implementation. </summary> </member> <member name="T:NUnit.Framework.Interfaces.IMethodInfo"> <summary> The IMethodInfo class is used to encapsulate information about a method in a platform-independent manner. </summary> </member> <member name="P:NUnit.Framework.Interfaces.IMethodInfo.TypeInfo"> <summary> Gets the Type from which this method was reflected. </summary> </member> <member name="P:NUnit.Framework.Interfaces.IMethodInfo.MethodInfo"> <summary> Gets the MethodInfo for this method. </summary> </member> <member name="P:NUnit.Framework.Interfaces.IMethodInfo.Name"> <summary> Gets the name of the method. </summary> </member> <member name="P:NUnit.Framework.Interfaces.IMethodInfo.IsAbstract"> <summary> Gets a value indicating whether the method is abstract. </summary> </member> <member name="P:NUnit.Framework.Interfaces.IMethodInfo.IsPublic"> <summary> Gets a value indicating whether the method is public. </summary> </member> <member name="P:NUnit.Framework.Interfaces.IMethodInfo.ContainsGenericParameters"> <summary> Gets a value indicating whether the method contains unassigned generic type parameters. </summary> </member> <member name="P:NUnit.Framework.Interfaces.IMethodInfo.IsGenericMethod"> <summary> Gets a value indicating whether the method is a generic method. </summary> </member> <member name="P:NUnit.Framework.Interfaces.IMethodInfo.IsGenericMethodDefinition"> <summary> Gets a value indicating whether the MethodInfo represents the definition of a generic method. </summary> </member> <member name="P:NUnit.Framework.Interfaces.IMethodInfo.ReturnType"> <summary> Gets the return Type of the method. </summary> </member> <member name="M:NUnit.Framework.Interfaces.IMethodInfo.GetParameters"> <summary> Gets the parameters of the method. </summary> <returns></returns> </member> <member name="M:NUnit.Framework.Interfaces.IMethodInfo.GetGenericArguments"> <summary> Returns the Type arguments of a generic method or the Type parameters of a generic method definition. </summary> </member> <member name="M:NUnit.Framework.Interfaces.IMethodInfo.MakeGenericMethod(System.Type[])"> <summary> Replaces the type parameters of the method with the array of types provided and returns a new IMethodInfo. </summary> <param name="typeArguments">The type arguments to be used</param> <returns>A new IMethodInfo with the type arguments replaced</returns> </member> <member name="M:NUnit.Framework.Interfaces.IMethodInfo.Invoke(System.Object,System.Object[])"> <summary> Invokes the method, converting any TargetInvocationException to an NUnitException. </summary> <param name="fixture">The object on which to invoke the method</param> <param name="args">The argument list for the method</param> <returns>The return value from the invoked method</returns> </member> <member name="T:NUnit.Framework.Interfaces.IParameterDataProvider"> <summary> The IDataPointProvider interface is used by extensions that provide data for a single test parameter. </summary> </member> <member name="M:NUnit.Framework.Interfaces.IParameterDataProvider.HasDataFor(NUnit.Framework.Interfaces.IParameterInfo)"> <summary> Determine whether any data is available for a parameter. </summary> <param name="parameter">An IParameterInfo representing one argument to a parameterized test</param> <returns>True if any data is available, otherwise false.</returns> </member> <member name="M:NUnit.Framework.Interfaces.IParameterDataProvider.GetDataFor(NUnit.Framework.Interfaces.IParameterInfo)"> <summary> Return an IEnumerable providing data for use with the supplied parameter. </summary> <param name="parameter">An IParameterInfo representing one argument to a parameterized test</param> <returns>An IEnumerable providing the required data</returns> </member> <member name="T:NUnit.Framework.Interfaces.IParameterDataSource"> <summary> The IParameterDataSource interface is implemented by types that can provide data for a test method parameter. </summary> </member> <member name="M:NUnit.Framework.Interfaces.IParameterDataSource.GetData(NUnit.Framework.Interfaces.IParameterInfo)"> <summary> Gets an enumeration of data items for use as arguments for a test method parameter. </summary> <param name="parameter">The parameter for which data is needed</param> <returns>An enumeration containing individual data items</returns> </member> <member name="T:NUnit.Framework.Interfaces.IParameterInfo"> <summary> The IParameterInfo interface is an abstraction of a .NET parameter. </summary> </member> <member name="P:NUnit.Framework.Interfaces.IParameterInfo.IsOptional"> <summary> Gets a value indicating whether the parameter is optional </summary> </member> <member name="P:NUnit.Framework.Interfaces.IParameterInfo.Method"> <summary> Gets an IMethodInfo representing the method for which this is a parameter </summary> </member> <member name="P:NUnit.Framework.Interfaces.IParameterInfo.ParameterInfo"> <summary> Gets the underlying .NET ParameterInfo </summary> </member> <member name="P:NUnit.Framework.Interfaces.IParameterInfo.ParameterType"> <summary> Gets the Type of the parameter </summary> </member> <member name="T:NUnit.Framework.Interfaces.IPropertyBag"> <summary> A PropertyBag represents a collection of name/value pairs that allows duplicate entries with the same key. Methods are provided for adding a new pair as well as for setting a key to a single value. All keys are strings but _values may be of any type. Null _values are not permitted, since a null entry represents the absence of the key. The entries in a PropertyBag are of two kinds: those that take a single value and those that take multiple _values. However, the PropertyBag has no knowledge of which entries fall into each category and the distinction is entirely up to the code using the PropertyBag. When working with multi-valued properties, client code should use the Add method to add name/value pairs and indexing to retrieve a list of all _values for a given key. For example: bag.Add("Tag", "one"); bag.Add("Tag", "two"); Assert.That(bag["Tag"], Is.EqualTo(new string[] { "one", "two" })); When working with single-valued propeties, client code should use the Set method to set the value and Get to retrieve the value. The GetSetting methods may also be used to retrieve the value in a type-safe manner while also providing default. For example: bag.Set("Priority", "low"); bag.Set("Priority", "high"); // replaces value Assert.That(bag.Get("Priority"), Is.EqualTo("high")); Assert.That(bag.GetSetting("Priority", "low"), Is.EqualTo("high")); </summary> </member> <member name="M:NUnit.Framework.Interfaces.IPropertyBag.Add(System.String,System.Object)"> <summary> Adds a key/value pair to the property bag </summary> <param name="key">The key</param> <param name="value">The value</param> </member> <member name="M:NUnit.Framework.Interfaces.IPropertyBag.Set(System.String,System.Object)"> <summary> Sets the value for a key, removing any other _values that are already in the property set. </summary> <param name="key"></param> <param name="value"></param> </member> <member name="M:NUnit.Framework.Interfaces.IPropertyBag.Get(System.String)"> <summary> Gets a single value for a key, using the first one if multiple _values are present and returning null if the value is not found. </summary> </member> <member name="M:NUnit.Framework.Interfaces.IPropertyBag.ContainsKey(System.String)"> <summary> Gets a flag indicating whether the specified key has any entries in the property set. </summary> <param name="key">The key to be checked</param> <returns>True if their are _values present, otherwise false</returns> </member> <member name="P:NUnit.Framework.Interfaces.IPropertyBag.Item(System.String)"> <summary> Gets or sets the list of _values for a particular key </summary> <param name="key">The key for which the _values are to be retrieved or set</param> </member> <member name="P:NUnit.Framework.Interfaces.IPropertyBag.Keys"> <summary> Gets a collection containing all the keys in the property set </summary> </member> <member name="T:NUnit.Framework.Interfaces.IReflectionInfo"> <summary> The IReflectionInfo interface is implemented by NUnit wrapper objects that perform reflection. </summary> </member> <member name="M:NUnit.Framework.Interfaces.IReflectionInfo.GetCustomAttributes``1(System.Boolean)"> <summary> Returns an array of custom attributes of the specified type applied to this object </summary> </member> <member name="M:NUnit.Framework.Interfaces.IReflectionInfo.IsDefined``1(System.Boolean)"> <summary> Returns a value indicating whether an attribute of the specified type is defined on this object. </summary> </member> <member name="T:NUnit.Framework.Interfaces.ISimpleTestBuilder"> <summary> The ISimpleTestBuilder interface is exposed by a class that knows how to build a single TestMethod from a suitable MethodInfo Types. In general, it is exposed by an attribute, but may be implemented in a helper class used by the attribute in some cases. </summary> </member> <member name="M:NUnit.Framework.Interfaces.ISimpleTestBuilder.BuildFrom(NUnit.Framework.Interfaces.IMethodInfo,NUnit.Framework.Internal.Test)"> <summary> Build a TestMethod from the provided MethodInfo. </summary> <param name="method">The method to be used as a test</param> <param name="suite">The TestSuite to which the method will be added</param> <returns>A TestMethod object</returns> </member> <member name="T:NUnit.Framework.Interfaces.ISuiteBuilder"> <summary> The ISuiteBuilder interface is exposed by a class that knows how to build a suite from one or more Types. </summary> </member> <member name="M:NUnit.Framework.Interfaces.ISuiteBuilder.CanBuildFrom(NUnit.Framework.Interfaces.ITypeInfo)"> <summary> Examine the type and determine if it is suitable for this builder to use in building a TestSuite. 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Returns null if the test is not implemented as a method. </summary> </member> <member name="P:NUnit.Framework.Interfaces.ITest.TypeInfo"> <summary> Gets the Type of the test fixture, if applicable, or null if no fixture type is associated with this test. </summary> </member> <member name="P:NUnit.Framework.Interfaces.ITest.Method"> <summary> Gets an IMethod for the method implementing this test. 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In general, it is exposed by an attribute, which has additional information available to provide the necessary test parameters to distinguish the test cases built. </summary> </member> <member name="M:NUnit.Framework.Interfaces.ITestBuilder.BuildFrom(NUnit.Framework.Interfaces.IMethodInfo,NUnit.Framework.Internal.Test)"> <summary> Build one or more TestMethods from the provided MethodInfo. </summary> <param name="method">The method to be used as a test</param> <param name="suite">The TestSuite to which the method will be added</param> <returns>A TestMethod object</returns> </member> <member name="T:NUnit.Framework.Interfaces.ITestCaseBuilder"> <summary> The ITestCaseBuilder interface is exposed by a class that knows how to build a test case from certain methods. </summary> <remarks> This interface is not the same as the ITestCaseBuilder interface in NUnit 2.x. We have reused the name because the two products don't interoperate at all. </remarks> </member> <member name="M:NUnit.Framework.Interfaces.ITestCaseBuilder.CanBuildFrom(NUnit.Framework.Interfaces.IMethodInfo,NUnit.Framework.Internal.Test)"> <summary> Examine the method and determine if it is suitable for this builder to use in building a TestCase to be included in the suite being populated. Note that returning false will cause the method to be ignored in loading the tests. 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It's an error to specify this and also set AutoBinPath to true. </summary> </member> <member name="F:NUnit.Common.PackageSettings.MaxAgents"> <summary> The maximum number of test agents permitted to run simultneously. Ignored if the ProcessModel is not set or defaulted to Multiple. </summary> </member> <member name="F:NUnit.Common.PackageSettings.ProcessModel"> <summary> Indicates how to allocate assemblies to processes. Values are: "Default", "Single", "Separate", "Multiple". Default is "Multiple" for more than one assembly, "Separate" for a single assembly. </summary> </member> <member name="F:NUnit.Common.PackageSettings.RuntimeFramework"> <summary> Indicates the desired runtime to use for the tests. Values are strings like "net-4.5", "mono-4.0", etc. Default is to use the target framework for which an assembly was built. </summary> </member> <member name="F:NUnit.Common.PackageSettings.RunAsX86"> <summary> Bool flag indicating that the test should be run in a 32-bit process on a 64-bit system. By default, NUNit runs in a 64-bit process on a 64-bit system. Ignored if set on a 32-bit system. </summary> </member> <member name="F:NUnit.Common.PackageSettings.DisposeRunners"> <summary> Indicates that test runners should be disposed after the tests are executed </summary> </member> <member name="F:NUnit.Common.PackageSettings.ShadowCopyFiles"> <summary> Bool flag indicating that the test assemblies should be shadow copied. Defaults to false. </summary> </member> <member name="F:NUnit.Common.PackageSettings.DefaultTimeout"> <summary> Integer value in milliseconds for the default timeout value for test cases. If not specified, there is no timeout except as specified by attributes on the tests themselves. </summary> </member> <member name="F:NUnit.Common.PackageSettings.InternalTraceWriter"> <summary> A TextWriter to which the internal trace will be sent. </summary> </member> <member name="F:NUnit.Common.PackageSettings.LOAD"> <summary> A list of tests to be loaded. </summary> </member> <member name="F:NUnit.Common.PackageSettings.NumberOfTestWorkers"> <summary> The number of test threads to run for the assembly. If set to 1, a single queue is used. If set to 0, tests are executed directly, without queuing. </summary> </member> <member name="F:NUnit.Common.PackageSettings.RandomSeed"> <summary> The random seed to be used for this assembly. If specified as the value reported from a prior run, the framework should generate identical random values for tests as were used for that run, provided that no change has been made to the test assembly. Default is a random value itself. </summary> </member> <member name="F:NUnit.Common.PackageSettings.StopOnError"> <summary> If true, execution stops after the first error or failure. </summary> </member> <member name="F:NUnit.Common.PackageSettings.SynchronousEvents"> <summary> If true, use of the event queue is suppressed and test events are synchronous. </summary> </member> <member name="T:System.Web.UI.ICallbackEventHandler"> <summary> A shim of the .NET interface for platforms that do not support it. Used to indicate that a control can be the target of a callback event on the server. </summary> </member> <member name="M:System.Web.UI.ICallbackEventHandler.RaiseCallbackEvent(System.String)"> <summary> Processes a callback event that targets a control. </summary> <param name="report"></param> </member> <member name="M:System.Web.UI.ICallbackEventHandler.GetCallbackResult"> <summary> Returns the results of a callback event that targets a control. </summary> <returns></returns> </member> <member name="T:System.SerializableAttribute"> <summary> A shim of the .NET attribute for platforms that do not support it. </summary> </member> </members> </doc>