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net47.verified.txt
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net47.verified.txt
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[assembly: System.Reflection.AssemblyMetadata("RepositoryUrl", "https://github.com/fluentassertions/fluentassertions")]
[assembly: System.Runtime.CompilerServices.InternalsVisibleTo(@"Benchmarks, PublicKey=00240000048000009400000006020000002400005253413100040000010001002d25ff515c85b13ba08f61d466cff5d80a7f28ba197bbf8796085213e7a3406f970d2a4874932fed35db546e89af2da88c194bf1b7f7ac70de7988c78406f7629c547283061282a825616eb7eb48a9514a7570942936020a9bb37dca9ff60b778309900851575614491c6d25018fadb75828f4c7a17bf2d7dc86e7b6eafc5d8f")]
[assembly: System.Runtime.CompilerServices.InternalsVisibleTo(@"FluentAssertions.Equivalency.Specs, PublicKey=00240000048000009400000006020000002400005253413100040000010001002d25ff515c85b13ba08f61d466cff5d80a7f28ba197bbf8796085213e7a3406f970d2a4874932fed35db546e89af2da88c194bf1b7f7ac70de7988c78406f7629c547283061282a825616eb7eb48a9514a7570942936020a9bb37dca9ff60b778309900851575614491c6d25018fadb75828f4c7a17bf2d7dc86e7b6eafc5d8f")]
[assembly: System.Runtime.CompilerServices.InternalsVisibleTo(@"FluentAssertions.Specs, PublicKey=00240000048000009400000006020000002400005253413100040000010001002d25ff515c85b13ba08f61d466cff5d80a7f28ba197bbf8796085213e7a3406f970d2a4874932fed35db546e89af2da88c194bf1b7f7ac70de7988c78406f7629c547283061282a825616eb7eb48a9514a7570942936020a9bb37dca9ff60b778309900851575614491c6d25018fadb75828f4c7a17bf2d7dc86e7b6eafc5d8f")]
[assembly: System.Runtime.Versioning.TargetFramework(".NETFramework,Version=v4.7", FrameworkDisplayName=".NET Framework 4.7")]
namespace FluentAssertions
{
public class AggregateExceptionExtractor : FluentAssertions.Specialized.IExtractExceptions
{
public AggregateExceptionExtractor() { }
public System.Collections.Generic.IEnumerable<T> OfType<T>(System.Exception actualException)
where T : System.Exception { }
}
public class AndConstraint<T>
{
public AndConstraint(T parentConstraint) { }
public T And { get; }
}
public class AndWhichConstraint<TParentConstraint, TMatchedElement> : FluentAssertions.AndConstraint<TParentConstraint>
{
public AndWhichConstraint(TParentConstraint parentConstraint, System.Collections.Generic.IEnumerable<TMatchedElement> matchedConstraint) { }
public AndWhichConstraint(TParentConstraint parentConstraint, TMatchedElement matchedConstraint) { }
public TMatchedElement Subject { get; }
public TMatchedElement Which { get; }
}
public static class AssertionExtensions
{
public static TTo As<TTo>(this object subject) { }
public static System.Func<System.Threading.Tasks.Task> Awaiting<T>(this T subject, System.Func<T, System.Threading.Tasks.Task> action) { }
public static System.Func<System.Threading.Tasks.Task> Awaiting<T>(this T subject, System.Func<T, System.Threading.Tasks.ValueTask> action) { }
public static System.Func<System.Threading.Tasks.Task<TResult>> Awaiting<T, TResult>(this T subject, System.Func<T, System.Threading.Tasks.Task<TResult>> action) { }
public static System.Func<System.Threading.Tasks.Task<TResult>> Awaiting<T, TResult>(this T subject, System.Func<T, System.Threading.Tasks.ValueTask<TResult>> action) { }
public static System.Action Enumerating(this System.Func<System.Collections.IEnumerable> enumerable) { }
public static System.Action Enumerating<T>(this System.Func<System.Collections.Generic.IEnumerable<T>> enumerable) { }
public static System.Action Enumerating<T, TResult>(this T subject, System.Func<T, System.Collections.Generic.IEnumerable<TResult>> enumerable) { }
public static FluentAssertions.Specialized.ExecutionTime ExecutionTime(this System.Func<System.Threading.Tasks.Task> action) { }
public static FluentAssertions.Specialized.ExecutionTime ExecutionTime(this System.Action action, FluentAssertions.Common.StartTimer createTimer = null) { }
public static FluentAssertions.Specialized.MemberExecutionTime<T> ExecutionTimeOf<T>(this T subject, System.Linq.Expressions.Expression<System.Action<T>> action, FluentAssertions.Common.StartTimer createTimer = null) { }
public static System.Action Invoking<T>(this T subject, System.Action<T> action) { }
public static System.Func<TResult> Invoking<T, TResult>(this T subject, System.Func<T, TResult> action) { }
public static FluentAssertions.Events.IMonitor<T> Monitor<T>(this T eventSource, System.Func<System.DateTime> utcNow = null) { }
public static FluentAssertions.Specialized.ExecutionTimeAssertions Should(this FluentAssertions.Specialized.ExecutionTime executionTime) { }
[System.Obsolete("You are asserting the \'AndConstraint\' itself. Remove the \'Should()\' method direct" +
"ly following \'And\'", true)]
public static void Should(this FluentAssertions.Specialized.ExecutionTimeAssertions _) { }
public static FluentAssertions.Types.MethodInfoSelectorAssertions Should(this FluentAssertions.Types.MethodInfoSelector methodSelector) { }
[System.Obsolete("You are asserting the \'AndConstraint\' itself. Remove the \'Should()\' method direct" +
"ly following \'And\'", true)]
public static void Should(this FluentAssertions.Types.MethodInfoSelectorAssertions _) { }
public static FluentAssertions.Types.PropertyInfoSelectorAssertions Should(this FluentAssertions.Types.PropertyInfoSelector propertyInfoSelector) { }
[System.Obsolete("You are asserting the \'AndConstraint\' itself. Remove the \'Should()\' method direct" +
"ly following \'And\'", true)]
public static void Should(this FluentAssertions.Types.PropertyInfoSelectorAssertions _) { }
public static FluentAssertions.Types.TypeSelectorAssertions Should(this FluentAssertions.Types.TypeSelector typeSelector) { }
[System.Obsolete("You are asserting the \'AndConstraint\' itself. Remove the \'Should()\' method direct" +
"ly following \'And\'", true)]
public static void Should(this FluentAssertions.Types.TypeSelectorAssertions _) { }
public static FluentAssertions.Specialized.ActionAssertions Should(this System.Action action) { }
public static FluentAssertions.Collections.StringCollectionAssertions Should(this System.Collections.Generic.IEnumerable<string> @this) { }
public static FluentAssertions.Data.DataColumnAssertions Should(this System.Data.DataColumn actualValue) { }
public static FluentAssertions.Primitives.DateTimeAssertions Should(this System.DateTime actualValue) { }
public static FluentAssertions.Primitives.NullableDateTimeAssertions Should(this System.DateTime? actualValue) { }
public static FluentAssertions.Primitives.DateTimeOffsetAssertions Should(this System.DateTimeOffset actualValue) { }
public static FluentAssertions.Primitives.NullableDateTimeOffsetAssertions Should(this System.DateTimeOffset? actualValue) { }
public static FluentAssertions.Specialized.NonGenericAsyncFunctionAssertions Should(this System.Func<System.Threading.Tasks.Task> action) { }
public static FluentAssertions.Primitives.GuidAssertions Should(this System.Guid actualValue) { }
public static FluentAssertions.Primitives.NullableGuidAssertions Should(this System.Guid? actualValue) { }
public static FluentAssertions.Streams.BufferedStreamAssertions Should(this System.IO.BufferedStream actualValue) { }
public static FluentAssertions.Streams.StreamAssertions Should(this System.IO.Stream actualValue) { }
public static FluentAssertions.Primitives.HttpResponseMessageAssertions Should(this System.Net.Http.HttpResponseMessage actualValue) { }
public static FluentAssertions.Reflection.AssemblyAssertions Should(this System.Reflection.Assembly assembly) { }
public static FluentAssertions.Types.ConstructorInfoAssertions Should(this System.Reflection.ConstructorInfo constructorInfo) { }
public static FluentAssertions.Types.MethodInfoAssertions Should(this System.Reflection.MethodInfo methodInfo) { }
public static FluentAssertions.Types.PropertyInfoAssertions Should(this System.Reflection.PropertyInfo propertyInfo) { }
public static FluentAssertions.Primitives.SimpleTimeSpanAssertions Should(this System.TimeSpan actualValue) { }
public static FluentAssertions.Primitives.NullableSimpleTimeSpanAssertions Should(this System.TimeSpan? actualValue) { }
public static FluentAssertions.Types.TypeAssertions Should(this System.Type subject) { }
public static FluentAssertions.Xml.XAttributeAssertions Should(this System.Xml.Linq.XAttribute actualValue) { }
public static FluentAssertions.Xml.XDocumentAssertions Should(this System.Xml.Linq.XDocument actualValue) { }
public static FluentAssertions.Xml.XElementAssertions Should(this System.Xml.Linq.XElement actualValue) { }
public static FluentAssertions.Primitives.BooleanAssertions Should(this bool actualValue) { }
public static FluentAssertions.Primitives.NullableBooleanAssertions Should(this bool? actualValue) { }
public static FluentAssertions.Numeric.NumericAssertions<byte> Should(this byte actualValue) { }
public static FluentAssertions.Numeric.NullableNumericAssertions<byte> Should(this byte? actualValue) { }
public static FluentAssertions.Numeric.NumericAssertions<decimal> Should(this decimal actualValue) { }
public static FluentAssertions.Numeric.NullableNumericAssertions<decimal> Should(this decimal? actualValue) { }
public static FluentAssertions.Numeric.NumericAssertions<double> Should(this double actualValue) { }
public static FluentAssertions.Numeric.NullableNumericAssertions<double> Should(this double? actualValue) { }
public static FluentAssertions.Numeric.NumericAssertions<float> Should(this float actualValue) { }
public static FluentAssertions.Numeric.NullableNumericAssertions<float> Should(this float? actualValue) { }
public static FluentAssertions.Numeric.NumericAssertions<int> Should(this int actualValue) { }
public static FluentAssertions.Numeric.NullableNumericAssertions<int> Should(this int? actualValue) { }
public static FluentAssertions.Numeric.NumericAssertions<long> Should(this long actualValue) { }
public static FluentAssertions.Numeric.NullableNumericAssertions<long> Should(this long? actualValue) { }
public static FluentAssertions.Primitives.ObjectAssertions Should(this object actualValue) { }
public static FluentAssertions.Numeric.NumericAssertions<sbyte> Should(this sbyte actualValue) { }
public static FluentAssertions.Numeric.NullableNumericAssertions<sbyte> Should(this sbyte? actualValue) { }
public static FluentAssertions.Numeric.NumericAssertions<short> Should(this short actualValue) { }
public static FluentAssertions.Numeric.NullableNumericAssertions<short> Should(this short? actualValue) { }
public static FluentAssertions.Primitives.StringAssertions Should(this string actualValue) { }
public static FluentAssertions.Numeric.NumericAssertions<uint> Should(this uint actualValue) { }
public static FluentAssertions.Numeric.NullableNumericAssertions<uint> Should(this uint? actualValue) { }
public static FluentAssertions.Numeric.NumericAssertions<ulong> Should(this ulong actualValue) { }
public static FluentAssertions.Numeric.NullableNumericAssertions<ulong> Should(this ulong? actualValue) { }
public static FluentAssertions.Numeric.NumericAssertions<ushort> Should(this ushort actualValue) { }
public static FluentAssertions.Numeric.NullableNumericAssertions<ushort> Should(this ushort? actualValue) { }
[System.Obsolete("You are asserting the \'AndConstraint\' itself. Remove the \'Should()\' method direct" +
"ly following \'And\'", true)]
public static void Should<TAssertions>(this FluentAssertions.Primitives.BooleanAssertions<TAssertions> _)
where TAssertions : FluentAssertions.Primitives.BooleanAssertions<TAssertions> { }
[System.Obsolete("You are asserting the \'AndConstraint\' itself. Remove the \'Should()\' method direct" +
"ly following \'And\'", true)]
public static void Should<TAssertions>(this FluentAssertions.Primitives.DateTimeAssertions<TAssertions> _)
where TAssertions : FluentAssertions.Primitives.DateTimeAssertions<TAssertions> { }
[System.Obsolete("You are asserting the \'AndConstraint\' itself. Remove the \'Should()\' method direct" +
"ly following \'And\'", true)]
public static void Should<TAssertions>(this FluentAssertions.Primitives.DateTimeOffsetAssertions<TAssertions> _)
where TAssertions : FluentAssertions.Primitives.DateTimeOffsetAssertions<TAssertions> { }
[System.Obsolete("You are asserting the \'AndConstraint\' itself. Remove the \'Should()\' method direct" +
"ly following \'And\'", true)]
public static void Should<TAssertions>(this FluentAssertions.Primitives.GuidAssertions<TAssertions> _)
where TAssertions : FluentAssertions.Primitives.GuidAssertions<TAssertions> { }
[System.Obsolete("You are asserting the \'AndConstraint\' itself. Remove the \'Should()\' method direct" +
"ly following \'And\'", true)]
public static void Should<TAssertions>(this FluentAssertions.Primitives.SimpleTimeSpanAssertions<TAssertions> _)
where TAssertions : FluentAssertions.Primitives.SimpleTimeSpanAssertions<TAssertions> { }
[System.Obsolete("You are asserting the \'AndConstraint\' itself. Remove the \'Should()\' method direct" +
"ly following \'And\'", true)]
public static void Should<TSubject>(this FluentAssertions.Specialized.TaskCompletionSourceAssertions<TSubject> _) { }
public static FluentAssertions.Collections.GenericCollectionAssertions<T> Should<T>(this System.Collections.Generic.IEnumerable<T> actualValue) { }
public static FluentAssertions.Specialized.GenericAsyncFunctionAssertions<T> Should<T>(this System.Func<System.Threading.Tasks.Task<T>> action) { }
public static FluentAssertions.Specialized.FunctionAssertions<T> Should<T>(this System.Func<T> func) { }
public static FluentAssertions.Numeric.ComparableTypeAssertions<T> Should<T>(this System.IComparable<T> comparableValue) { }
public static FluentAssertions.Specialized.TaskCompletionSourceAssertions<T> Should<T>(this System.Threading.Tasks.TaskCompletionSource<T> tcs) { }
[System.Obsolete("You are asserting the \'AndConstraint\' itself. Remove the \'Should()\' method direct" +
"ly following \'And\'", true)]
public static void Should<TSubject, TAssertions>(this FluentAssertions.Numeric.NumericAssertions<TSubject, TAssertions> _)
where TSubject : struct, System.IComparable<TSubject>
where TAssertions : FluentAssertions.Numeric.NumericAssertions<TSubject, TAssertions> { }
[System.Obsolete("You are asserting the \'AndConstraint\' itself. Remove the \'Should()\' method direct" +
"ly following \'And\'", true)]
public static void Should<TEnum, TAssertions>(this FluentAssertions.Primitives.EnumAssertions<TEnum, TAssertions> _)
where TEnum : struct, System.Enum
where TAssertions : FluentAssertions.Primitives.EnumAssertions<TEnum, TAssertions> { }
[System.Obsolete("You are asserting the \'AndConstraint\' itself. Remove the \'Should()\' method direct" +
"ly following \'And\'", true)]
public static void Should<TSubject, TAssertions>(this FluentAssertions.Primitives.ReferenceTypeAssertions<TSubject, TAssertions> _)
where TAssertions : FluentAssertions.Primitives.ReferenceTypeAssertions<TSubject, TAssertions> { }
public static FluentAssertions.Collections.GenericDictionaryAssertions<System.Collections.Generic.IDictionary<TKey, TValue>, TKey, TValue> Should<TKey, TValue>(this System.Collections.Generic.IDictionary<TKey, TValue> actualValue) { }
public static FluentAssertions.Collections.GenericDictionaryAssertions<System.Collections.Generic.IEnumerable<System.Collections.Generic.KeyValuePair<TKey, TValue>>, TKey, TValue> Should<TKey, TValue>(this System.Collections.Generic.IEnumerable<System.Collections.Generic.KeyValuePair<TKey, TValue>> actualValue) { }
public static FluentAssertions.Collections.GenericDictionaryAssertions<TCollection, TKey, TValue> Should<TCollection, TKey, TValue>(this TCollection actualValue)
where TCollection : System.Collections.Generic.IEnumerable<System.Collections.Generic.KeyValuePair<TKey, TValue>> { }
}
public static class AssertionOptions
{
public static FluentAssertions.EquivalencyPlan EquivalencyPlan { get; }
public static FluentAssertions.Formatting.FormattingOptions FormattingOptions { get; }
public static void AssertEquivalencyUsing(System.Func<FluentAssertions.Equivalency.EquivalencyAssertionOptions, FluentAssertions.Equivalency.EquivalencyAssertionOptions> defaultsConfigurer) { }
public static FluentAssertions.Equivalency.EquivalencyAssertionOptions<T> CloneDefaults<T>() { }
}
public static class AsyncAssertionsExtensions
{
public static System.Threading.Tasks.Task<FluentAssertions.AndWhichConstraint<FluentAssertions.Specialized.GenericAsyncFunctionAssertions<T>, T>> WithResult<T>(this System.Threading.Tasks.Task<FluentAssertions.AndWhichConstraint<FluentAssertions.Specialized.GenericAsyncFunctionAssertions<T>, T>> task, T expected, string because = "", params object[] becauseArgs) { }
public static System.Threading.Tasks.Task<FluentAssertions.AndWhichConstraint<FluentAssertions.Specialized.TaskCompletionSourceAssertions<T>, T>> WithResult<T>(this System.Threading.Tasks.Task<FluentAssertions.AndWhichConstraint<FluentAssertions.Specialized.TaskCompletionSourceAssertions<T>, T>> task, T expected, string because = "", params object[] becauseArgs) { }
}
public static class AtLeast
{
public static FluentAssertions.OccurrenceConstraint Once() { }
public static FluentAssertions.OccurrenceConstraint Thrice() { }
public static FluentAssertions.OccurrenceConstraint Times(int expected) { }
public static FluentAssertions.OccurrenceConstraint Twice() { }
}
public static class AtMost
{
public static FluentAssertions.OccurrenceConstraint Once() { }
public static FluentAssertions.OccurrenceConstraint Thrice() { }
public static FluentAssertions.OccurrenceConstraint Times(int expected) { }
public static FluentAssertions.OccurrenceConstraint Twice() { }
}
public static class CallerIdentifier
{
public static System.Action<string> Logger { get; set; }
public static string DetermineCallerIdentity() { }
}
[System.AttributeUsage(System.AttributeTargets.Method, AllowMultiple=false)]
public class CustomAssertionAttribute : System.Attribute
{
public CustomAssertionAttribute() { }
}
public static class DataRowAssertionExtensions
{
public static FluentAssertions.Data.DataRowAssertions<TDataRow> Should<TDataRow>(this TDataRow actualValue)
where TDataRow : System.Data.DataRow { }
}
public static class DataSetAssertionExtensions
{
public static FluentAssertions.Data.DataSetAssertions<TDataSet> Should<TDataSet>(this TDataSet actualValue)
where TDataSet : System.Data.DataSet { }
}
public static class DataTableAssertionExtensions
{
public static FluentAssertions.Data.DataTableAssertions<TDataTable> Should<TDataTable>(this TDataTable actualValue)
where TDataTable : System.Data.DataTable { }
}
public static class EnumAssertionsExtensions
{
public static FluentAssertions.Primitives.EnumAssertions<TEnum> Should<TEnum>(this TEnum @enum)
where TEnum : struct, System.Enum { }
public static FluentAssertions.Primitives.NullableEnumAssertions<TEnum> Should<TEnum>(this TEnum? @enum)
where TEnum : struct, System.Enum { }
}
public class EquivalencyPlan : System.Collections.Generic.IEnumerable<FluentAssertions.Equivalency.IEquivalencyStep>, System.Collections.IEnumerable
{
public EquivalencyPlan() { }
public void Add<TStep>()
where TStep : FluentAssertions.Equivalency.IEquivalencyStep, new () { }
public void AddAfter<TPredecessor, TStep>()
where TStep : FluentAssertions.Equivalency.IEquivalencyStep, new () { }
public void Clear() { }
public System.Collections.Generic.IEnumerator<FluentAssertions.Equivalency.IEquivalencyStep> GetEnumerator() { }
public void Insert<TStep>()
where TStep : FluentAssertions.Equivalency.IEquivalencyStep, new () { }
public void InsertBefore<TSuccessor, TStep>()
where TStep : FluentAssertions.Equivalency.IEquivalencyStep, new () { }
public void Remove<TStep>()
where TStep : FluentAssertions.Equivalency.IEquivalencyStep { }
public void Reset() { }
}
public static class EventRaisingExtensions
{
public static FluentAssertions.Events.IEventRecording WithArgs<T>(this FluentAssertions.Events.IEventRecording eventRecording, System.Linq.Expressions.Expression<System.Func<T, bool>> predicate) { }
public static FluentAssertions.Events.IEventRecording WithArgs<T>(this FluentAssertions.Events.IEventRecording eventRecording, params System.Linq.Expressions.Expression<System.Func<T, bool>>[] predicates) { }
public static FluentAssertions.Events.IEventRecording WithSender(this FluentAssertions.Events.IEventRecording eventRecording, object expectedSender) { }
}
public static class Exactly
{
public static FluentAssertions.OccurrenceConstraint Once() { }
public static FluentAssertions.OccurrenceConstraint Thrice() { }
public static FluentAssertions.OccurrenceConstraint Times(int expected) { }
public static FluentAssertions.OccurrenceConstraint Twice() { }
}
public static class ExceptionAssertionsExtensions
{
public static System.Threading.Tasks.Task<FluentAssertions.Specialized.ExceptionAssertions<TException>> Where<TException>(this System.Threading.Tasks.Task<FluentAssertions.Specialized.ExceptionAssertions<TException>> task, System.Linq.Expressions.Expression<System.Func<TException, bool>> exceptionExpression, string because = "", params object[] becauseArgs)
where TException : System.Exception { }
public static System.Threading.Tasks.Task<FluentAssertions.Specialized.ExceptionAssertions<System.Exception>> WithInnerException<TException>(this System.Threading.Tasks.Task<FluentAssertions.Specialized.ExceptionAssertions<TException>> task, System.Type innerException, string because = "", params object[] becauseArgs)
where TException : System.Exception { }
public static System.Threading.Tasks.Task<FluentAssertions.Specialized.ExceptionAssertions<TInnerException>> WithInnerException<TException, TInnerException>(this System.Threading.Tasks.Task<FluentAssertions.Specialized.ExceptionAssertions<TException>> task, string because = "", params object[] becauseArgs)
where TException : System.Exception
where TInnerException : System.Exception { }
public static System.Threading.Tasks.Task<FluentAssertions.Specialized.ExceptionAssertions<System.Exception>> WithInnerExceptionExactly<TException>(this System.Threading.Tasks.Task<FluentAssertions.Specialized.ExceptionAssertions<TException>> task, System.Type innerException, string because = "", params object[] becauseArgs)
where TException : System.Exception { }
public static System.Threading.Tasks.Task<FluentAssertions.Specialized.ExceptionAssertions<TInnerException>> WithInnerExceptionExactly<TException, TInnerException>(this System.Threading.Tasks.Task<FluentAssertions.Specialized.ExceptionAssertions<TException>> task, string because = "", params object[] becauseArgs)
where TException : System.Exception
where TInnerException : System.Exception { }
public static System.Threading.Tasks.Task<FluentAssertions.Specialized.ExceptionAssertions<TException>> WithMessage<TException>(this System.Threading.Tasks.Task<FluentAssertions.Specialized.ExceptionAssertions<TException>> task, string expectedWildcardPattern, string because = "", params object[] becauseArgs)
where TException : System.Exception { }
public static FluentAssertions.Specialized.ExceptionAssertions<TException> WithParameterName<TException>(this FluentAssertions.Specialized.ExceptionAssertions<TException> parent, string paramName, string because = "", params object[] becauseArgs)
where TException : System.ArgumentException { }
public static System.Threading.Tasks.Task<FluentAssertions.Specialized.ExceptionAssertions<TException>> WithParameterName<TException>(this System.Threading.Tasks.Task<FluentAssertions.Specialized.ExceptionAssertions<TException>> task, string paramName, string because = "", params object[] becauseArgs)
where TException : System.ArgumentException { }
}
public static class FluentActions
{
public static System.Func<System.Threading.Tasks.Task> Awaiting(System.Func<System.Threading.Tasks.Task> action) { }
public static System.Func<System.Threading.Tasks.Task<T>> Awaiting<T>(System.Func<System.Threading.Tasks.Task<T>> func) { }
public static System.Action Enumerating(System.Func<System.Collections.IEnumerable> enumerable) { }
public static System.Action Enumerating<T>(System.Func<System.Collections.Generic.IEnumerable<T>> enumerable) { }
public static System.Action Invoking(System.Action action) { }
public static System.Func<T> Invoking<T>(System.Func<T> func) { }
}
public static class LessThan
{
public static FluentAssertions.OccurrenceConstraint Thrice() { }
public static FluentAssertions.OccurrenceConstraint Times(int expected) { }
public static FluentAssertions.OccurrenceConstraint Twice() { }
}
public static class MoreThan
{
public static FluentAssertions.OccurrenceConstraint Once() { }
public static FluentAssertions.OccurrenceConstraint Thrice() { }
public static FluentAssertions.OccurrenceConstraint Times(int expected) { }
public static FluentAssertions.OccurrenceConstraint Twice() { }
}
public static class NumericAssertionsExtensions
{
public static FluentAssertions.AndConstraint<FluentAssertions.Numeric.NullableNumericAssertions<decimal>> BeApproximately(this FluentAssertions.Numeric.NullableNumericAssertions<decimal> parent, decimal expectedValue, decimal precision, string because = "", params object[] becauseArgs) { }
public static FluentAssertions.AndConstraint<FluentAssertions.Numeric.NullableNumericAssertions<decimal>> BeApproximately(this FluentAssertions.Numeric.NullableNumericAssertions<decimal> parent, decimal? expectedValue, decimal precision, string because = "", params object[] becauseArgs) { }
public static FluentAssertions.AndConstraint<FluentAssertions.Numeric.NullableNumericAssertions<double>> BeApproximately(this FluentAssertions.Numeric.NullableNumericAssertions<double> parent, double expectedValue, double precision, string because = "", params object[] becauseArgs) { }
public static FluentAssertions.AndConstraint<FluentAssertions.Numeric.NullableNumericAssertions<double>> BeApproximately(this FluentAssertions.Numeric.NullableNumericAssertions<double> parent, double? expectedValue, double precision, string because = "", params object[] becauseArgs) { }
public static FluentAssertions.AndConstraint<FluentAssertions.Numeric.NullableNumericAssertions<float>> BeApproximately(this FluentAssertions.Numeric.NullableNumericAssertions<float> parent, float expectedValue, float precision, string because = "", params object[] becauseArgs) { }
public static FluentAssertions.AndConstraint<FluentAssertions.Numeric.NullableNumericAssertions<float>> BeApproximately(this FluentAssertions.Numeric.NullableNumericAssertions<float> parent, float? expectedValue, float precision, string because = "", params object[] becauseArgs) { }
public static FluentAssertions.AndConstraint<FluentAssertions.Numeric.NumericAssertions<decimal>> BeApproximately(this FluentAssertions.Numeric.NumericAssertions<decimal> parent, decimal expectedValue, decimal precision, string because = "", params object[] becauseArgs) { }
public static FluentAssertions.AndConstraint<FluentAssertions.Numeric.NumericAssertions<double>> BeApproximately(this FluentAssertions.Numeric.NumericAssertions<double> parent, double expectedValue, double precision, string because = "", params object[] becauseArgs) { }
public static FluentAssertions.AndConstraint<FluentAssertions.Numeric.NumericAssertions<float>> BeApproximately(this FluentAssertions.Numeric.NumericAssertions<float> parent, float expectedValue, float precision, string because = "", params object[] becauseArgs) { }
public static FluentAssertions.AndConstraint<FluentAssertions.Numeric.NumericAssertions<byte>> BeCloseTo(this FluentAssertions.Numeric.NumericAssertions<byte> parent, byte nearbyValue, byte delta, string because = "", params object[] becauseArgs) { }
public static FluentAssertions.AndConstraint<FluentAssertions.Numeric.NumericAssertions<short>> BeCloseTo(this FluentAssertions.Numeric.NumericAssertions<short> parent, short nearbyValue, ushort delta, string because = "", params object[] becauseArgs) { }
public static FluentAssertions.AndConstraint<FluentAssertions.Numeric.NumericAssertions<int>> BeCloseTo(this FluentAssertions.Numeric.NumericAssertions<int> parent, int nearbyValue, uint delta, string because = "", params object[] becauseArgs) { }
public static FluentAssertions.AndConstraint<FluentAssertions.Numeric.NumericAssertions<long>> BeCloseTo(this FluentAssertions.Numeric.NumericAssertions<long> parent, long nearbyValue, ulong delta, string because = "", params object[] becauseArgs) { }
public static FluentAssertions.AndConstraint<FluentAssertions.Numeric.NumericAssertions<sbyte>> BeCloseTo(this FluentAssertions.Numeric.NumericAssertions<sbyte> parent, sbyte nearbyValue, byte delta, string because = "", params object[] becauseArgs) { }
public static FluentAssertions.AndConstraint<FluentAssertions.Numeric.NumericAssertions<ushort>> BeCloseTo(this FluentAssertions.Numeric.NumericAssertions<ushort> parent, ushort nearbyValue, ushort delta, string because = "", params object[] becauseArgs) { }
public static FluentAssertions.AndConstraint<FluentAssertions.Numeric.NumericAssertions<uint>> BeCloseTo(this FluentAssertions.Numeric.NumericAssertions<uint> parent, uint nearbyValue, uint delta, string because = "", params object[] becauseArgs) { }
public static FluentAssertions.AndConstraint<FluentAssertions.Numeric.NumericAssertions<ulong>> BeCloseTo(this FluentAssertions.Numeric.NumericAssertions<ulong> parent, ulong nearbyValue, ulong delta, string because = "", params object[] becauseArgs) { }
public static FluentAssertions.AndConstraint<FluentAssertions.Numeric.NullableNumericAssertions<decimal>> NotBeApproximately(this FluentAssertions.Numeric.NullableNumericAssertions<decimal> parent, decimal unexpectedValue, decimal precision, string because = "", params object[] becauseArgs) { }
public static FluentAssertions.AndConstraint<FluentAssertions.Numeric.NullableNumericAssertions<decimal>> NotBeApproximately(this FluentAssertions.Numeric.NullableNumericAssertions<decimal> parent, decimal? unexpectedValue, decimal precision, string because = "", params object[] becauseArgs) { }
public static FluentAssertions.AndConstraint<FluentAssertions.Numeric.NullableNumericAssertions<double>> NotBeApproximately(this FluentAssertions.Numeric.NullableNumericAssertions<double> parent, double unexpectedValue, double precision, string because = "", params object[] becauseArgs) { }
public static FluentAssertions.AndConstraint<FluentAssertions.Numeric.NullableNumericAssertions<double>> NotBeApproximately(this FluentAssertions.Numeric.NullableNumericAssertions<double> parent, double? unexpectedValue, double precision, string because = "", params object[] becauseArgs) { }
public static FluentAssertions.AndConstraint<FluentAssertions.Numeric.NullableNumericAssertions<float>> NotBeApproximately(this FluentAssertions.Numeric.NullableNumericAssertions<float> parent, float unexpectedValue, float precision, string because = "", params object[] becauseArgs) { }
public static FluentAssertions.AndConstraint<FluentAssertions.Numeric.NullableNumericAssertions<float>> NotBeApproximately(this FluentAssertions.Numeric.NullableNumericAssertions<float> parent, float? unexpectedValue, float precision, string because = "", params object[] becauseArgs) { }
public static FluentAssertions.AndConstraint<FluentAssertions.Numeric.NumericAssertions<decimal>> NotBeApproximately(this FluentAssertions.Numeric.NumericAssertions<decimal> parent, decimal unexpectedValue, decimal precision, string because = "", params object[] becauseArgs) { }
public static FluentAssertions.AndConstraint<FluentAssertions.Numeric.NumericAssertions<double>> NotBeApproximately(this FluentAssertions.Numeric.NumericAssertions<double> parent, double unexpectedValue, double precision, string because = "", params object[] becauseArgs) { }
public static FluentAssertions.AndConstraint<FluentAssertions.Numeric.NumericAssertions<float>> NotBeApproximately(this FluentAssertions.Numeric.NumericAssertions<float> parent, float unexpectedValue, float precision, string because = "", params object[] becauseArgs) { }
public static FluentAssertions.AndConstraint<FluentAssertions.Numeric.NumericAssertions<byte>> NotBeCloseTo(this FluentAssertions.Numeric.NumericAssertions<byte> parent, byte distantValue, byte delta, string because = "", params object[] becauseArgs) { }
public static FluentAssertions.AndConstraint<FluentAssertions.Numeric.NumericAssertions<short>> NotBeCloseTo(this FluentAssertions.Numeric.NumericAssertions<short> parent, short distantValue, ushort delta, string because = "", params object[] becauseArgs) { }
public static FluentAssertions.AndConstraint<FluentAssertions.Numeric.NumericAssertions<int>> NotBeCloseTo(this FluentAssertions.Numeric.NumericAssertions<int> parent, int distantValue, uint delta, string because = "", params object[] becauseArgs) { }
public static FluentAssertions.AndConstraint<FluentAssertions.Numeric.NumericAssertions<long>> NotBeCloseTo(this FluentAssertions.Numeric.NumericAssertions<long> parent, long distantValue, ulong delta, string because = "", params object[] becauseArgs) { }
public static FluentAssertions.AndConstraint<FluentAssertions.Numeric.NumericAssertions<sbyte>> NotBeCloseTo(this FluentAssertions.Numeric.NumericAssertions<sbyte> parent, sbyte distantValue, byte delta, string because = "", params object[] becauseArgs) { }
public static FluentAssertions.AndConstraint<FluentAssertions.Numeric.NumericAssertions<ushort>> NotBeCloseTo(this FluentAssertions.Numeric.NumericAssertions<ushort> parent, ushort distantValue, ushort delta, string because = "", params object[] becauseArgs) { }
public static FluentAssertions.AndConstraint<FluentAssertions.Numeric.NumericAssertions<uint>> NotBeCloseTo(this FluentAssertions.Numeric.NumericAssertions<uint> parent, uint distantValue, uint delta, string because = "", params object[] becauseArgs) { }
public static FluentAssertions.AndConstraint<FluentAssertions.Numeric.NumericAssertions<ulong>> NotBeCloseTo(this FluentAssertions.Numeric.NumericAssertions<ulong> parent, ulong distantValue, ulong delta, string because = "", params object[] becauseArgs) { }
}
public static class ObjectAssertionsExtensions
{
public static FluentAssertions.AndConstraint<FluentAssertions.Primitives.ObjectAssertions> BeBinarySerializable(this FluentAssertions.Primitives.ObjectAssertions assertions, string because = "", params object[] becauseArgs) { }
public static FluentAssertions.AndConstraint<FluentAssertions.Primitives.ObjectAssertions> BeBinarySerializable<T>(this FluentAssertions.Primitives.ObjectAssertions assertions, System.Func<FluentAssertions.Equivalency.EquivalencyAssertionOptions<T>, FluentAssertions.Equivalency.EquivalencyAssertionOptions<T>> options, string because = "", params object[] becauseArgs) { }
public static FluentAssertions.AndConstraint<FluentAssertions.Primitives.ObjectAssertions> BeDataContractSerializable(this FluentAssertions.Primitives.ObjectAssertions assertions, string because = "", params object[] becauseArgs) { }
public static FluentAssertions.AndConstraint<FluentAssertions.Primitives.ObjectAssertions> BeDataContractSerializable<T>(this FluentAssertions.Primitives.ObjectAssertions assertions, System.Func<FluentAssertions.Equivalency.EquivalencyAssertionOptions<T>, FluentAssertions.Equivalency.EquivalencyAssertionOptions<T>> options, string because = "", params object[] becauseArgs) { }
public static FluentAssertions.AndConstraint<FluentAssertions.Primitives.ObjectAssertions> BeXmlSerializable(this FluentAssertions.Primitives.ObjectAssertions assertions, string because = "", params object[] becauseArgs) { }
}
public abstract class OccurrenceConstraint
{
protected OccurrenceConstraint(int expectedCount) { }
}
public static class TypeEnumerableExtensions
{
public static System.Collections.Generic.IEnumerable<System.Type> ThatAreClasses(this System.Collections.Generic.IEnumerable<System.Type> types) { }
public static System.Collections.Generic.IEnumerable<System.Type> ThatAreDecoratedWith<TAttribute>(this System.Collections.Generic.IEnumerable<System.Type> types)
where TAttribute : System.Attribute { }
public static System.Collections.Generic.IEnumerable<System.Type> ThatAreDecoratedWithOrInherit<TAttribute>(this System.Collections.Generic.IEnumerable<System.Type> types)
where TAttribute : System.Attribute { }
public static System.Collections.Generic.IEnumerable<System.Type> ThatAreInNamespace(this System.Collections.Generic.IEnumerable<System.Type> types, string @namespace) { }
public static System.Collections.Generic.IEnumerable<System.Type> ThatAreNotClasses(this System.Collections.Generic.IEnumerable<System.Type> types) { }
public static System.Collections.Generic.IEnumerable<System.Type> ThatAreNotDecoratedWith<TAttribute>(this System.Collections.Generic.IEnumerable<System.Type> types)
where TAttribute : System.Attribute { }
public static System.Collections.Generic.IEnumerable<System.Type> ThatAreNotDecoratedWithOrInherit<TAttribute>(this System.Collections.Generic.IEnumerable<System.Type> types)
where TAttribute : System.Attribute { }
public static System.Collections.Generic.IEnumerable<System.Type> ThatAreNotStatic(this System.Collections.Generic.IEnumerable<System.Type> types) { }
public static System.Collections.Generic.IEnumerable<System.Type> ThatAreStatic(this System.Collections.Generic.IEnumerable<System.Type> types) { }
public static System.Collections.Generic.IEnumerable<System.Type> ThatAreUnderNamespace(this System.Collections.Generic.IEnumerable<System.Type> types, string @namespace) { }
public static System.Collections.Generic.IEnumerable<System.Type> ThatDeriveFrom<T>(this System.Collections.Generic.IEnumerable<System.Type> types) { }
public static System.Collections.Generic.IEnumerable<System.Type> ThatImplement<T>(this System.Collections.Generic.IEnumerable<System.Type> types) { }
public static System.Collections.Generic.IEnumerable<System.Type> ThatSatisfy(this System.Collections.Generic.IEnumerable<System.Type> types, System.Func<System.Type, bool> predicate) { }
public static System.Collections.Generic.IEnumerable<System.Type> UnwrapEnumerableTypes(this System.Collections.Generic.IEnumerable<System.Type> types) { }
public static System.Collections.Generic.IEnumerable<System.Type> UnwrapTaskTypes(this System.Collections.Generic.IEnumerable<System.Type> types) { }
}
public static class TypeExtensions
{
public static FluentAssertions.Types.MethodInfoSelector Methods(this FluentAssertions.Types.TypeSelector typeSelector) { }
public static FluentAssertions.Types.MethodInfoSelector Methods(this System.Type type) { }
public static FluentAssertions.Types.PropertyInfoSelector Properties(this FluentAssertions.Types.TypeSelector typeSelector) { }
public static FluentAssertions.Types.PropertyInfoSelector Properties(this System.Type type) { }
public static FluentAssertions.Types.TypeSelector Types(this System.Collections.Generic.IEnumerable<System.Type> types) { }
public static FluentAssertions.Types.TypeSelector Types(this System.Reflection.Assembly assembly) { }
public static FluentAssertions.Types.TypeSelector Types(this System.Type type) { }
}
public static class XmlAssertionExtensions
{
public static FluentAssertions.Xml.XmlElementAssertions Should(this System.Xml.XmlElement actualValue) { }
public static FluentAssertions.Xml.XmlNodeAssertions Should(this System.Xml.XmlNode actualValue) { }
}
}
namespace FluentAssertions.Collections
{
public class GenericCollectionAssertions<T> : FluentAssertions.Collections.GenericCollectionAssertions<System.Collections.Generic.IEnumerable<T>, T, FluentAssertions.Collections.GenericCollectionAssertions<T>>
{
public GenericCollectionAssertions(System.Collections.Generic.IEnumerable<T> actualValue) { }
}
public class GenericCollectionAssertions<TCollection, T> : FluentAssertions.Collections.GenericCollectionAssertions<TCollection, T, FluentAssertions.Collections.GenericCollectionAssertions<TCollection, T>>
where TCollection : System.Collections.Generic.IEnumerable<T>
{
public GenericCollectionAssertions(TCollection actualValue) { }
}
public class GenericCollectionAssertions<TCollection, T, TAssertions> : FluentAssertions.Primitives.ReferenceTypeAssertions<TCollection, TAssertions>
where TCollection : System.Collections.Generic.IEnumerable<T>
where TAssertions : FluentAssertions.Collections.GenericCollectionAssertions<TCollection, T, TAssertions>
{
public GenericCollectionAssertions(TCollection actualValue) { }
protected override string Identifier { get; }
public FluentAssertions.AndConstraint<TAssertions> AllBeAssignableTo(System.Type expectedType, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndWhichConstraint<TAssertions, System.Collections.Generic.IEnumerable<TExpectation>> AllBeAssignableTo<TExpectation>(string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> AllBeEquivalentTo<TExpectation>(TExpectation expectation, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> AllBeEquivalentTo<TExpectation>(TExpectation expectation, System.Func<FluentAssertions.Equivalency.EquivalencyAssertionOptions<TExpectation>, FluentAssertions.Equivalency.EquivalencyAssertionOptions<TExpectation>> config, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> AllBeOfType(System.Type expectedType, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndWhichConstraint<TAssertions, System.Collections.Generic.IEnumerable<TExpectation>> AllBeOfType<TExpectation>(string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> AllSatisfy(System.Action<T> expected, string because = "", params object[] becauseArgs) { }
protected void AssertCollectionEndsWith<TActual, TExpectation>(System.Collections.Generic.IEnumerable<TActual> actual, System.Collections.Generic.ICollection<TExpectation> expected, System.Func<TActual, TExpectation, bool> equalityComparison, string because = "", params object[] becauseArgs) { }
protected void AssertCollectionStartsWith<TActual, TExpectation>(System.Collections.Generic.IEnumerable<TActual> actualItems, System.Collections.Generic.ICollection<TExpectation> expected, System.Func<TActual, TExpectation, bool> equalityComparison, string because = "", params object[] becauseArgs) { }
protected void AssertSubjectEquality<TExpectation>(System.Collections.Generic.IEnumerable<TExpectation> expectation, System.Func<T, TExpectation, bool> equalityComparison, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> BeEmpty(string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> BeEquivalentTo<TExpectation>(System.Collections.Generic.IEnumerable<TExpectation> expectation, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> BeEquivalentTo<TExpectation>(System.Collections.Generic.IEnumerable<TExpectation> expectation, System.Func<FluentAssertions.Equivalency.EquivalencyAssertionOptions<TExpectation>, FluentAssertions.Equivalency.EquivalencyAssertionOptions<TExpectation>> config, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<FluentAssertions.Collections.SubsequentOrderingAssertions<T>> BeInAscendingOrder(string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<FluentAssertions.Collections.SubsequentOrderingAssertions<T>> BeInAscendingOrder(System.Collections.Generic.IComparer<T> comparer, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<FluentAssertions.Collections.SubsequentOrderingAssertions<T>> BeInAscendingOrder(System.Func<T, T, int> comparison, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<FluentAssertions.Collections.SubsequentOrderingAssertions<T>> BeInAscendingOrder<TSelector>(System.Linq.Expressions.Expression<System.Func<T, TSelector>> propertyExpression, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<FluentAssertions.Collections.SubsequentOrderingAssertions<T>> BeInAscendingOrder<TSelector>(System.Linq.Expressions.Expression<System.Func<T, TSelector>> propertyExpression, System.Collections.Generic.IComparer<TSelector> comparer, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<FluentAssertions.Collections.SubsequentOrderingAssertions<T>> BeInDescendingOrder(string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<FluentAssertions.Collections.SubsequentOrderingAssertions<T>> BeInDescendingOrder(System.Collections.Generic.IComparer<T> comparer, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<FluentAssertions.Collections.SubsequentOrderingAssertions<T>> BeInDescendingOrder(System.Func<T, T, int> comparison, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<FluentAssertions.Collections.SubsequentOrderingAssertions<T>> BeInDescendingOrder<TSelector>(System.Linq.Expressions.Expression<System.Func<T, TSelector>> propertyExpression, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<FluentAssertions.Collections.SubsequentOrderingAssertions<T>> BeInDescendingOrder<TSelector>(System.Linq.Expressions.Expression<System.Func<T, TSelector>> propertyExpression, System.Collections.Generic.IComparer<TSelector> comparer, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> BeNullOrEmpty(string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> BeSubsetOf(System.Collections.Generic.IEnumerable<T> expectedSuperset, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> Contain(System.Collections.Generic.IEnumerable<T> expected, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndWhichConstraint<TAssertions, T> Contain(System.Linq.Expressions.Expression<System.Func<T, bool>> predicate, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndWhichConstraint<TAssertions, T> Contain(T expected, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndWhichConstraint<TAssertions, T> ContainEquivalentOf<TExpectation>(TExpectation expectation, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndWhichConstraint<TAssertions, T> ContainEquivalentOf<TExpectation>(TExpectation expectation, System.Func<FluentAssertions.Equivalency.EquivalencyAssertionOptions<TExpectation>, FluentAssertions.Equivalency.EquivalencyAssertionOptions<TExpectation>> config, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> ContainInOrder(params T[] expected) { }
public FluentAssertions.AndConstraint<TAssertions> ContainInOrder(System.Collections.Generic.IEnumerable<T> expected, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> ContainItemsAssignableTo<TExpectation>(string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndWhichConstraint<TAssertions, T> ContainSingle(string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndWhichConstraint<TAssertions, T> ContainSingle(System.Linq.Expressions.Expression<System.Func<T, bool>> predicate, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> EndWith(System.Collections.Generic.IEnumerable<T> expectation, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> EndWith(T element, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> EndWith<TExpectation>(System.Collections.Generic.IEnumerable<TExpectation> expectation, System.Func<T, TExpectation, bool> equalityComparison, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> Equal(params T[] elements) { }
public FluentAssertions.AndConstraint<TAssertions> Equal(System.Collections.Generic.IEnumerable<T> expected, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> Equal<TExpectation>(System.Collections.Generic.IEnumerable<TExpectation> expectation, System.Func<T, TExpectation, bool> equalityComparison, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> HaveCount(int expected, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> HaveCount(System.Linq.Expressions.Expression<System.Func<int, bool>> countPredicate, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> HaveCountGreaterOrEqualTo(int expected, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> HaveCountGreaterThan(int expected, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> HaveCountGreaterThanOrEqualTo(int expected, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> HaveCountLessOrEqualTo(int expected, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> HaveCountLessThan(int expected, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> HaveCountLessThanOrEqualTo(int expected, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndWhichConstraint<TAssertions, T> HaveElementAt(int index, T element, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> HaveElementPreceding(T successor, T expectation, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> HaveElementSucceeding(T predecessor, T expectation, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> HaveSameCount<TExpectation>(System.Collections.Generic.IEnumerable<TExpectation> otherCollection, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> IntersectWith(System.Collections.Generic.IEnumerable<T> otherCollection, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> NotBeEmpty(string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> NotBeEquivalentTo<TExpectation>(System.Collections.Generic.IEnumerable<TExpectation> unexpected, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> NotBeEquivalentTo<TExpectation>(System.Collections.Generic.IEnumerable<TExpectation> unexpected, System.Func<FluentAssertions.Equivalency.EquivalencyAssertionOptions<TExpectation>, FluentAssertions.Equivalency.EquivalencyAssertionOptions<TExpectation>> config, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> NotBeInAscendingOrder(string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> NotBeInAscendingOrder(System.Collections.Generic.IComparer<T> comparer, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> NotBeInAscendingOrder(System.Func<T, T, int> comparison, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> NotBeInAscendingOrder<TSelector>(System.Linq.Expressions.Expression<System.Func<T, TSelector>> propertyExpression, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> NotBeInAscendingOrder<TSelector>(System.Linq.Expressions.Expression<System.Func<T, TSelector>> propertyExpression, System.Collections.Generic.IComparer<TSelector> comparer, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> NotBeInDescendingOrder(string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> NotBeInDescendingOrder(System.Collections.Generic.IComparer<T> comparer, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> NotBeInDescendingOrder(System.Func<T, T, int> comparison, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> NotBeInDescendingOrder<TSelector>(System.Linq.Expressions.Expression<System.Func<T, TSelector>> propertyExpression, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> NotBeInDescendingOrder<TSelector>(System.Linq.Expressions.Expression<System.Func<T, TSelector>> propertyExpression, System.Collections.Generic.IComparer<TSelector> comparer, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> NotBeNullOrEmpty(string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> NotBeSubsetOf(System.Collections.Generic.IEnumerable<T> unexpectedSuperset, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> NotContain(System.Collections.Generic.IEnumerable<T> unexpected, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> NotContain(System.Linq.Expressions.Expression<System.Func<T, bool>> predicate, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndWhichConstraint<TAssertions, T> NotContain(T unexpected, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> NotContainEquivalentOf<TExpectation>(TExpectation unexpected, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> NotContainEquivalentOf<TExpectation>(TExpectation unexpected, System.Func<FluentAssertions.Equivalency.EquivalencyAssertionOptions<TExpectation>, FluentAssertions.Equivalency.EquivalencyAssertionOptions<TExpectation>> config, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> NotContainInOrder(params T[] unexpected) { }
public FluentAssertions.AndConstraint<TAssertions> NotContainInOrder(System.Collections.Generic.IEnumerable<T> unexpected, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> NotContainNulls(string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> NotContainNulls<TKey>(System.Linq.Expressions.Expression<System.Func<T, TKey>> predicate, string because = "", params object[] becauseArgs)
where TKey : class { }
public FluentAssertions.AndConstraint<TAssertions> NotEqual(System.Collections.Generic.IEnumerable<T> unexpected, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> NotHaveCount(int unexpected, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> NotHaveSameCount<TExpectation>(System.Collections.Generic.IEnumerable<TExpectation> otherCollection, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> NotIntersectWith(System.Collections.Generic.IEnumerable<T> otherCollection, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> OnlyContain(System.Linq.Expressions.Expression<System.Func<T, bool>> predicate, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> OnlyHaveUniqueItems(string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> OnlyHaveUniqueItems<TKey>(System.Linq.Expressions.Expression<System.Func<T, TKey>> predicate, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> Satisfy(params System.Linq.Expressions.Expression<System.Func<T, bool>>[] predicates) { }
public FluentAssertions.AndConstraint<TAssertions> Satisfy(System.Collections.Generic.IEnumerable<System.Linq.Expressions.Expression<System.Func<T, bool>>> predicates, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> SatisfyRespectively(params System.Action<T>[] elementInspectors) { }
public FluentAssertions.AndConstraint<TAssertions> SatisfyRespectively(System.Collections.Generic.IEnumerable<System.Action<T>> expected, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> StartWith(System.Collections.Generic.IEnumerable<T> expectation, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> StartWith(T element, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> StartWith<TExpectation>(System.Collections.Generic.IEnumerable<TExpectation> expectation, System.Func<T, TExpectation, bool> equalityComparison, string because = "", params object[] becauseArgs) { }
protected static System.Collections.Generic.IEnumerable<TExpectation> RepeatAsManyAs<TExpectation>(TExpectation value, System.Collections.Generic.IEnumerable<T> enumerable) { }
}
public class GenericDictionaryAssertions<TCollection, TKey, TValue> : FluentAssertions.Collections.GenericDictionaryAssertions<TCollection, TKey, TValue, FluentAssertions.Collections.GenericDictionaryAssertions<TCollection, TKey, TValue>>
where TCollection : System.Collections.Generic.IEnumerable<System.Collections.Generic.KeyValuePair<TKey, TValue>>
{
public GenericDictionaryAssertions(TCollection keyValuePairs) { }
}
public class GenericDictionaryAssertions<TCollection, TKey, TValue, TAssertions> : FluentAssertions.Collections.GenericCollectionAssertions<TCollection, System.Collections.Generic.KeyValuePair<TKey, TValue>, TAssertions>
where TCollection : System.Collections.Generic.IEnumerable<System.Collections.Generic.KeyValuePair<TKey, TValue>>
where TAssertions : FluentAssertions.Collections.GenericDictionaryAssertions<TCollection, TKey, TValue, TAssertions>
{
public GenericDictionaryAssertions(TCollection keyValuePairs) { }
protected override string Identifier { get; }
public FluentAssertions.AndConstraint<TAssertions> BeEquivalentTo<TExpectation>(TExpectation expectation, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> BeEquivalentTo<TExpectation>(TExpectation expectation, System.Func<FluentAssertions.Equivalency.EquivalencyAssertionOptions<TExpectation>, FluentAssertions.Equivalency.EquivalencyAssertionOptions<TExpectation>> config, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> Contain(params System.Collections.Generic.KeyValuePair<TKey, TValue>[] expected) { }
public FluentAssertions.AndConstraint<TAssertions> Contain(System.Collections.Generic.IEnumerable<System.Collections.Generic.KeyValuePair<TKey, TValue>> expected, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> Contain(System.Collections.Generic.KeyValuePair<TKey, TValue> expected, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> Contain(TKey key, TValue value, string because = "", params object[] becauseArgs) { }
public FluentAssertions.Collections.WhoseValueConstraint<TCollection, TKey, TValue, TAssertions> ContainKey(TKey expected, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> ContainKeys(params TKey[] expected) { }
public FluentAssertions.AndConstraint<TAssertions> ContainKeys(System.Collections.Generic.IEnumerable<TKey> expected, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndWhichConstraint<TAssertions, TValue> ContainValue(TValue expected, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> ContainValues(params TValue[] expected) { }
public FluentAssertions.AndConstraint<TAssertions> ContainValues(System.Collections.Generic.IEnumerable<TValue> expected, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> Equal<T>(T expected, string because = "", params object[] becauseArgs)
where T : System.Collections.Generic.IEnumerable<System.Collections.Generic.KeyValuePair<TKey, TValue>> { }
public FluentAssertions.AndConstraint<TAssertions> NotContain(params System.Collections.Generic.KeyValuePair<TKey, TValue>[] items) { }
public FluentAssertions.AndConstraint<TAssertions> NotContain(System.Collections.Generic.IEnumerable<System.Collections.Generic.KeyValuePair<TKey, TValue>> items, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> NotContain(System.Collections.Generic.KeyValuePair<TKey, TValue> item, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> NotContain(TKey key, TValue value, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> NotContainKey(TKey unexpected, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> NotContainKeys(params TKey[] unexpected) { }
public FluentAssertions.AndConstraint<TAssertions> NotContainKeys(System.Collections.Generic.IEnumerable<TKey> unexpected, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> NotContainValue(TValue unexpected, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> NotContainValues(params TValue[] unexpected) { }
public FluentAssertions.AndConstraint<TAssertions> NotContainValues(System.Collections.Generic.IEnumerable<TValue> unexpected, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> NotEqual<T>(T unexpected, string because = "", params object[] becauseArgs)
where T : System.Collections.Generic.IEnumerable<System.Collections.Generic.KeyValuePair<TKey, TValue>> { }
}
public class StringCollectionAssertions : FluentAssertions.Collections.StringCollectionAssertions<System.Collections.Generic.IEnumerable<string>>
{
public StringCollectionAssertions(System.Collections.Generic.IEnumerable<string> actualValue) { }
}
public class StringCollectionAssertions<TCollection> : FluentAssertions.Collections.StringCollectionAssertions<TCollection, FluentAssertions.Collections.StringCollectionAssertions<TCollection>>
where TCollection : System.Collections.Generic.IEnumerable<string>
{
public StringCollectionAssertions(TCollection actualValue) { }
}
public class StringCollectionAssertions<TCollection, TAssertions> : FluentAssertions.Collections.GenericCollectionAssertions<TCollection, string, TAssertions>
where TCollection : System.Collections.Generic.IEnumerable<string>
where TAssertions : FluentAssertions.Collections.StringCollectionAssertions<TCollection, TAssertions>
{
public StringCollectionAssertions(TCollection actualValue) { }
public FluentAssertions.AndConstraint<TAssertions> AllBe(string expectation, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> AllBe(string expectation, System.Func<FluentAssertions.Equivalency.EquivalencyAssertionOptions<string>, FluentAssertions.Equivalency.EquivalencyAssertionOptions<string>> config, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> BeEquivalentTo(params string[] expectation) { }
public FluentAssertions.AndConstraint<TAssertions> BeEquivalentTo(System.Collections.Generic.IEnumerable<string> expectation, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> BeEquivalentTo(System.Collections.Generic.IEnumerable<string> expectation, System.Func<FluentAssertions.Equivalency.EquivalencyAssertionOptions<string>, FluentAssertions.Equivalency.EquivalencyAssertionOptions<string>> config, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndWhichConstraint<TAssertions, string> ContainMatch(string wildcardPattern, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<TAssertions> Equal(System.Collections.Generic.IEnumerable<string> expected) { }
public FluentAssertions.AndConstraint<TAssertions> Equal(params string[] expected) { }
public FluentAssertions.AndConstraint<TAssertions> NotContainMatch(string wildcardPattern, string because = "", params object[] becauseArgs) { }
}
public class SubsequentOrderingAssertions<T> : FluentAssertions.Collections.SubsequentOrderingGenericCollectionAssertions<System.Collections.Generic.IEnumerable<T>, T, FluentAssertions.Collections.SubsequentOrderingAssertions<T>>
{
public SubsequentOrderingAssertions(System.Collections.Generic.IEnumerable<T> actualValue, System.Linq.IOrderedEnumerable<T> previousOrderedEnumerable) { }
}
public class SubsequentOrderingGenericCollectionAssertions<TCollection, T> : FluentAssertions.Collections.SubsequentOrderingGenericCollectionAssertions<TCollection, T, FluentAssertions.Collections.SubsequentOrderingGenericCollectionAssertions<TCollection, T>>
where TCollection : System.Collections.Generic.IEnumerable<T>
{
public SubsequentOrderingGenericCollectionAssertions(TCollection actualValue, System.Linq.IOrderedEnumerable<T> previousOrderedEnumerable) { }
}
public class SubsequentOrderingGenericCollectionAssertions<TCollection, T, TAssertions> : FluentAssertions.Collections.GenericCollectionAssertions<TCollection, T, TAssertions>
where TCollection : System.Collections.Generic.IEnumerable<T>
where TAssertions : FluentAssertions.Collections.SubsequentOrderingGenericCollectionAssertions<TCollection, T, TAssertions>
{
public SubsequentOrderingGenericCollectionAssertions(TCollection actualValue, System.Linq.IOrderedEnumerable<T> previousOrderedEnumerable) { }
public FluentAssertions.AndConstraint<FluentAssertions.Collections.SubsequentOrderingAssertions<T>> ThenBeInAscendingOrder<TSelector>(System.Linq.Expressions.Expression<System.Func<T, TSelector>> propertyExpression, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<FluentAssertions.Collections.SubsequentOrderingAssertions<T>> ThenBeInAscendingOrder<TSelector>(System.Linq.Expressions.Expression<System.Func<T, TSelector>> propertyExpression, System.Collections.Generic.IComparer<TSelector> comparer, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<FluentAssertions.Collections.SubsequentOrderingAssertions<T>> ThenBeInDescendingOrder<TSelector>(System.Linq.Expressions.Expression<System.Func<T, TSelector>> propertyExpression, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<FluentAssertions.Collections.SubsequentOrderingAssertions<T>> ThenBeInDescendingOrder<TSelector>(System.Linq.Expressions.Expression<System.Func<T, TSelector>> propertyExpression, System.Collections.Generic.IComparer<TSelector> comparer, string because = "", params object[] becauseArgs) { }
}
public class WhoseValueConstraint<TCollection, TKey, TValue, TAssertions> : FluentAssertions.AndConstraint<TAssertions>
where TCollection : System.Collections.Generic.IEnumerable<System.Collections.Generic.KeyValuePair<TKey, TValue>>
where TAssertions : FluentAssertions.Collections.GenericDictionaryAssertions<TCollection, TKey, TValue, TAssertions>
{
public WhoseValueConstraint(TAssertions parentConstraint, TValue value) { }
public TValue WhoseValue { get; }
}
}
namespace FluentAssertions.Common
{
public enum CSharpAccessModifier
{
Public = 0,
Private = 1,
Protected = 2,
Internal = 3,
ProtectedInternal = 4,
InvalidForCSharp = 5,
PrivateProtected = 6,
}
public class Configuration
{
public Configuration(FluentAssertions.Common.IConfigurationStore store) { }
public string TestFrameworkName { get; set; }
public string ValueFormatterAssembly { get; set; }
public FluentAssertions.Common.ValueFormatterDetectionMode ValueFormatterDetectionMode { get; set; }
public static FluentAssertions.Common.Configuration Current { get; }
}
public static class DateTimeExtensions
{
public static System.DateTimeOffset ToDateTimeOffset(this System.DateTime dateTime) { }
public static System.DateTimeOffset ToDateTimeOffset(this System.DateTime dateTime, System.TimeSpan offset) { }
}
public interface IClock
{
void Delay(System.TimeSpan timeToDelay);
System.Threading.Tasks.Task DelayAsync(System.TimeSpan delay, System.Threading.CancellationToken cancellationToken);
FluentAssertions.Common.ITimer StartTimer();
}
public interface IConfigurationStore
{
string GetSetting(string name);
}
public interface IReflector
{
System.Collections.Generic.IEnumerable<System.Type> GetAllTypesFromAppDomain(System.Func<System.Reflection.Assembly, bool> predicate);
}
public interface ITimer : System.IDisposable
{
System.TimeSpan Elapsed { get; }
}
public static class Services
{
public static FluentAssertions.Common.Configuration Configuration { get; }
public static FluentAssertions.Common.IConfigurationStore ConfigurationStore { get; set; }
public static FluentAssertions.Common.IReflector Reflector { get; set; }
public static System.Action<string> ThrowException { get; set; }
public static void ResetToDefaults() { }
}
public delegate FluentAssertions.Common.ITimer StartTimer();
public enum ValueFormatterDetectionMode
{
Disabled = 0,
Specific = 1,
Scan = 2,
}
}
namespace FluentAssertions.Data
{
public class DataColumnAssertions : FluentAssertions.Primitives.ReferenceTypeAssertions<System.Data.DataColumn, FluentAssertions.Data.DataColumnAssertions>
{
public DataColumnAssertions(System.Data.DataColumn dataColumn) { }
protected override string Identifier { get; }
public FluentAssertions.AndConstraint<FluentAssertions.Data.DataColumnAssertions> BeEquivalentTo(System.Data.DataColumn expectation, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<FluentAssertions.Data.DataColumnAssertions> BeEquivalentTo(System.Data.DataColumn expectation, System.Func<FluentAssertions.Data.IDataEquivalencyAssertionOptions<System.Data.DataColumn>, FluentAssertions.Data.IDataEquivalencyAssertionOptions<System.Data.DataColumn>> config, string because = "", params object[] becauseArgs) { }
}
public class DataRowAssertions<TDataRow> : FluentAssertions.Primitives.ReferenceTypeAssertions<TDataRow, FluentAssertions.Data.DataRowAssertions<TDataRow>>
where TDataRow : System.Data.DataRow
{
public DataRowAssertions(TDataRow dataRow) { }
protected override string Identifier { get; }
public FluentAssertions.AndConstraint<FluentAssertions.Data.DataRowAssertions<TDataRow>> BeEquivalentTo(System.Data.DataRow expectation, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<FluentAssertions.Data.DataRowAssertions<TDataRow>> BeEquivalentTo(System.Data.DataRow expectation, System.Func<FluentAssertions.Data.IDataEquivalencyAssertionOptions<System.Data.DataRow>, FluentAssertions.Data.IDataEquivalencyAssertionOptions<System.Data.DataRow>> config, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndWhichConstraint<FluentAssertions.Data.DataRowAssertions<TDataRow>, System.Data.DataColumn> HaveColumn(string expectedColumnName, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<FluentAssertions.Data.DataRowAssertions<TDataRow>> HaveColumns(params string[] expectedColumnNames) { }
public FluentAssertions.AndConstraint<FluentAssertions.Data.DataRowAssertions<TDataRow>> HaveColumns(System.Collections.Generic.IEnumerable<string> expectedColumnNames, string because = "", params object[] becauseArgs) { }
}
public class DataSetAssertions<TDataSet> : FluentAssertions.Primitives.ReferenceTypeAssertions<System.Data.DataSet, FluentAssertions.Data.DataSetAssertions<TDataSet>>
where TDataSet : System.Data.DataSet
{
public DataSetAssertions(TDataSet dataSet) { }
protected override string Identifier { get; }
public FluentAssertions.AndConstraint<FluentAssertions.Data.DataSetAssertions<TDataSet>> BeEquivalentTo(System.Data.DataSet expectation, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<FluentAssertions.Data.DataSetAssertions<TDataSet>> BeEquivalentTo(System.Data.DataSet expectation, System.Func<FluentAssertions.Data.IDataEquivalencyAssertionOptions<System.Data.DataSet>, FluentAssertions.Data.IDataEquivalencyAssertionOptions<System.Data.DataSet>> config, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndWhichConstraint<FluentAssertions.Data.DataSetAssertions<TDataSet>, System.Data.DataTable> HaveTable(string expectedTableName, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<FluentAssertions.Data.DataSetAssertions<TDataSet>> HaveTableCount(int expected, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<FluentAssertions.Data.DataSetAssertions<TDataSet>> HaveTables(params string[] expectedTableNames) { }
public FluentAssertions.AndConstraint<FluentAssertions.Data.DataSetAssertions<TDataSet>> HaveTables(System.Collections.Generic.IEnumerable<string> expectedTableNames, string because = "", params object[] becauseArgs) { }
}
public class DataTableAssertions<TDataTable> : FluentAssertions.Primitives.ReferenceTypeAssertions<System.Data.DataTable, FluentAssertions.Data.DataTableAssertions<TDataTable>>
where TDataTable : System.Data.DataTable
{
public DataTableAssertions(TDataTable dataTable) { }
protected override string Identifier { get; }
public FluentAssertions.AndConstraint<FluentAssertions.Data.DataTableAssertions<TDataTable>> BeEquivalentTo(System.Data.DataTable expectation, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<FluentAssertions.Data.DataTableAssertions<TDataTable>> BeEquivalentTo(System.Data.DataTable expectation, System.Func<FluentAssertions.Data.IDataEquivalencyAssertionOptions<System.Data.DataTable>, FluentAssertions.Data.IDataEquivalencyAssertionOptions<System.Data.DataTable>> config, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndWhichConstraint<FluentAssertions.Data.DataTableAssertions<TDataTable>, System.Data.DataColumn> HaveColumn(string expectedColumnName, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<FluentAssertions.Data.DataTableAssertions<TDataTable>> HaveColumns(params string[] expectedColumnNames) { }
public FluentAssertions.AndConstraint<FluentAssertions.Data.DataTableAssertions<TDataTable>> HaveColumns(System.Collections.Generic.IEnumerable<string> expectedColumnNames, string because = "", params object[] becauseArgs) { }
public FluentAssertions.AndConstraint<FluentAssertions.Data.DataTableAssertions<TDataTable>> HaveRowCount(int expected, string because = "", params object[] becauseArgs) { }
}
public interface IDataEquivalencyAssertionOptions<T> : FluentAssertions.Equivalency.IEquivalencyAssertionOptions
{
FluentAssertions.Data.IDataEquivalencyAssertionOptions<T> AllowingMismatchedTypes();
FluentAssertions.Data.IDataEquivalencyAssertionOptions<T> Excluding(System.Linq.Expressions.Expression<System.Func<FluentAssertions.Equivalency.IMemberInfo, bool>> predicate);
FluentAssertions.Data.IDataEquivalencyAssertionOptions<T> Excluding(System.Linq.Expressions.Expression<System.Func<T, object>> expression);
FluentAssertions.Data.IDataEquivalencyAssertionOptions<T> ExcludingColumn(System.Data.DataColumn column);
FluentAssertions.Data.IDataEquivalencyAssertionOptions<T> ExcludingColumn(string tableName, string columnName);
FluentAssertions.Data.IDataEquivalencyAssertionOptions<T> ExcludingColumnInAllTables(string columnName);
FluentAssertions.Data.IDataEquivalencyAssertionOptions<T> ExcludingColumns(System.Collections.Generic.IEnumerable<System.Data.DataColumn> columns);
FluentAssertions.Data.IDataEquivalencyAssertionOptions<T> ExcludingColumns(params System.Data.DataColumn[] columns);
FluentAssertions.Data.IDataEquivalencyAssertionOptions<T> ExcludingColumns(string tableName, System.Collections.Generic.IEnumerable<string> columnNames);
FluentAssertions.Data.IDataEquivalencyAssertionOptions<T> ExcludingColumns(string tableName, params string[] columnNames);
FluentAssertions.Data.IDataEquivalencyAssertionOptions<T> ExcludingColumnsInAllTables(System.Collections.Generic.IEnumerable<string> columnNames);
FluentAssertions.Data.IDataEquivalencyAssertionOptions<T> ExcludingColumnsInAllTables(params string[] columnNames);
FluentAssertions.Data.IDataEquivalencyAssertionOptions<T> ExcludingOriginalData();
FluentAssertions.Data.IDataEquivalencyAssertionOptions<T> ExcludingRelated(System.Linq.Expressions.Expression<System.Func<System.Data.Constraint, object>> expression);
FluentAssertions.Data.IDataEquivalencyAssertionOptions<T> ExcludingRelated(System.Linq.Expressions.Expression<System.Func<System.Data.DataColumn, object>> expression);
FluentAssertions.Data.IDataEquivalencyAssertionOptions<T> ExcludingRelated(System.Linq.Expressions.Expression<System.Func<System.Data.DataRelation, object>> expression);
FluentAssertions.Data.IDataEquivalencyAssertionOptions<T> ExcludingRelated(System.Linq.Expressions.Expression<System.Func<System.Data.DataRow, object>> expression);
FluentAssertions.Data.IDataEquivalencyAssertionOptions<T> ExcludingRelated(System.Linq.Expressions.Expression<System.Func<System.Data.DataTable, object>> expression);
FluentAssertions.Data.IDataEquivalencyAssertionOptions<T> ExcludingRelated(System.Linq.Expressions.Expression<System.Func<System.Data.ForeignKeyConstraint, object>> expression);
FluentAssertions.Data.IDataEquivalencyAssertionOptions<T> ExcludingRelated(System.Linq.Expressions.Expression<System.Func<System.Data.UniqueConstraint, object>> expression);
FluentAssertions.Data.IDataEquivalencyAssertionOptions<T> ExcludingTable(string tableName);
FluentAssertions.Data.IDataEquivalencyAssertionOptions<T> ExcludingTables(System.Collections.Generic.IEnumerable<string> tableNames);
FluentAssertions.Data.IDataEquivalencyAssertionOptions<T> ExcludingTables(params string[] tableNames);
FluentAssertions.Data.IDataEquivalencyAssertionOptions<T> IgnoringUnmatchedColumns();
FluentAssertions.Data.IDataEquivalencyAssertionOptions<T> UsingRowMatchMode(FluentAssertions.Data.RowMatchMode rowMatchMode);
}
public enum RowMatchMode
{
Index = 0,
PrimaryKey = 1,
}
}
namespace FluentAssertions.Equivalency
{
public class Comparands
{
public Comparands() { }
public Comparands(object subject, object expectation, System.Type compileTimeType) { }
public System.Type CompileTimeType { get; set; }
public object Expectation { get; set; }
public System.Type RuntimeType { get; }
public object Subject { get; set; }
public System.Type GetExpectedType(FluentAssertions.Equivalency.IEquivalencyAssertionOptions options) { }
public override string ToString() { }
}
public class ConversionSelector
{
public ConversionSelector() { }
public FluentAssertions.Equivalency.ConversionSelector Clone() { }
public void Exclude(System.Linq.Expressions.Expression<System.Func<FluentAssertions.Equivalency.IObjectInfo, bool>> predicate) { }
public void Include(System.Linq.Expressions.Expression<System.Func<FluentAssertions.Equivalency.IObjectInfo, bool>> predicate) { }
public void IncludeAll() { }
public bool RequiresConversion(FluentAssertions.Equivalency.Comparands comparands, FluentAssertions.Equivalency.INode currentNode) { }
public override string ToString() { }
}
public enum CyclicReferenceHandling
{
Ignore = 0,
ThrowException = 1,
}
public enum EnumEquivalencyHandling
{
ByValue = 0,
ByName = 1,
}
public enum EqualityStrategy
{
Equals = 0,
Members = 1,
ForceEquals = 2,
ForceMembers = 3,
}
public class EquivalencyAssertionOptions : FluentAssertions.Equivalency.SelfReferenceEquivalencyAssertionOptions<FluentAssertions.Equivalency.EquivalencyAssertionOptions>
{
public EquivalencyAssertionOptions() { }
}
public class EquivalencyAssertionOptions<TExpectation> : FluentAssertions.Equivalency.SelfReferenceEquivalencyAssertionOptions<FluentAssertions.Equivalency.EquivalencyAssertionOptions<TExpectation>>
{
public EquivalencyAssertionOptions() { }
public EquivalencyAssertionOptions(FluentAssertions.Equivalency.IEquivalencyAssertionOptions defaults) { }
public FluentAssertions.Equivalency.EquivalencyAssertionOptions<System.Collections.Generic.IEnumerable<TExpectation>> AsCollection() { }
public FluentAssertions.Equivalency.EquivalencyAssertionOptions<TExpectation> Excluding(System.Linq.Expressions.Expression<System.Func<TExpectation, object>> expression) { }
public FluentAssertions.Equivalency.EquivalencyAssertionOptions<TExpectation> Including(System.Linq.Expressions.Expression<System.Func<TExpectation, object>> expression) { }
public FluentAssertions.Equivalency.EquivalencyAssertionOptions<TExpectation> WithMapping(string expectationMemberPath, string subjectMemberPath) { }
public FluentAssertions.Equivalency.EquivalencyAssertionOptions<TExpectation> WithMapping<TSubject>(System.Linq.Expressions.Expression<System.Func<TExpectation, object>> expectationMemberPath, System.Linq.Expressions.Expression<System.Func<TSubject, object>> subjectMemberPath) { }
public FluentAssertions.Equivalency.EquivalencyAssertionOptions<TExpectation> WithMapping<TNestedExpectation, TNestedSubject>(System.Linq.Expressions.Expression<System.Func<TNestedExpectation, object>> expectationMember, System.Linq.Expressions.Expression<System.Func<TNestedSubject, object>> subjectMember) { }
public FluentAssertions.Equivalency.EquivalencyAssertionOptions<TExpectation> WithMapping<TNestedExpectation, TNestedSubject>(string expectationMemberName, string subjectMemberName) { }
public FluentAssertions.Equivalency.EquivalencyAssertionOptions<TExpectation> WithStrictOrderingFor(System.Linq.Expressions.Expression<System.Func<TExpectation, object>> expression) { }
}
public enum EquivalencyResult
{
ContinueWithNext = 0,
AssertionCompleted = 1,
}
public abstract class EquivalencyStep<T> : FluentAssertions.Equivalency.IEquivalencyStep
{
protected EquivalencyStep() { }
public FluentAssertions.Equivalency.EquivalencyResult Handle(FluentAssertions.Equivalency.Comparands comparands, FluentAssertions.Equivalency.IEquivalencyValidationContext context, FluentAssertions.Equivalency.IEquivalencyValidator nestedValidator) { }
protected abstract FluentAssertions.Equivalency.EquivalencyResult OnHandle(FluentAssertions.Equivalency.Comparands comparands, FluentAssertions.Equivalency.IEquivalencyValidationContext context, FluentAssertions.Equivalency.IEquivalencyValidator nestedValidator);
}
public class EquivalencyValidationContext : FluentAssertions.Equivalency.IEquivalencyValidationContext
{
public EquivalencyValidationContext(FluentAssertions.Equivalency.INode root, FluentAssertions.Equivalency.IEquivalencyAssertionOptions options) { }
public FluentAssertions.Equivalency.INode CurrentNode { get; }
public FluentAssertions.Equivalency.IEquivalencyAssertionOptions Options { get; }
public FluentAssertions.Execution.Reason Reason { get; set; }
public FluentAssertions.Equivalency.Tracing.ITraceWriter TraceWriter { get; set; }
public FluentAssertions.Equivalency.Tracing.Tracer Tracer { get; }
public FluentAssertions.Equivalency.IEquivalencyValidationContext AsCollectionItem<TItem>(string index) { }
public FluentAssertions.Equivalency.IEquivalencyValidationContext AsDictionaryItem<TKey, TExpectation>(TKey key) { }
public FluentAssertions.Equivalency.IEquivalencyValidationContext AsNestedMember(FluentAssertions.Equivalency.IMember expectationMember) { }
public FluentAssertions.Equivalency.IEquivalencyValidationContext Clone() { }
public bool IsCyclicReference(object expectation) { }
public override string ToString() { }
}
public class EquivalencyValidator : FluentAssertions.Equivalency.IEquivalencyValidator
{
public EquivalencyValidator() { }
public void AssertEquality(FluentAssertions.Equivalency.Comparands comparands, FluentAssertions.Equivalency.EquivalencyValidationContext context) { }
public void RecursivelyAssertEquality(FluentAssertions.Equivalency.Comparands comparands, FluentAssertions.Equivalency.IEquivalencyValidationContext context) { }
}
public class Field : FluentAssertions.Equivalency.Node, FluentAssertions.Equivalency.IMember, FluentAssertions.Equivalency.INode
{
public Field(System.Reflection.FieldInfo fieldInfo, FluentAssertions.Equivalency.INode parent) { }
public Field(System.Type reflectedType, System.Reflection.FieldInfo fieldInfo, FluentAssertions.Equivalency.INode parent) { }
public System.Type DeclaringType { get; set; }
public override string Description { get; }
public FluentAssertions.Common.CSharpAccessModifier GetterAccessibility { get; }
public bool IsBrowsable { get; }
public System.Type ReflectedType { get; }
public FluentAssertions.Common.CSharpAccessModifier SetterAccessibility { get; }
public object GetValue(object obj) { }
}
public delegate string GetSubjectId();
public interface IAssertionContext<TSubject>
{
string Because { get; set; }
object[] BecauseArgs { get; set; }
TSubject Expectation { get; }
FluentAssertions.Equivalency.INode SelectedNode { get; }
TSubject Subject { get; }
}
public interface IEquivalencyAssertionOptions
{
bool AllowInfiniteRecursion { get; }
bool CompareRecordsByValue { get; }
FluentAssertions.Equivalency.ConversionSelector ConversionSelector { get; }
FluentAssertions.Equivalency.CyclicReferenceHandling CyclicReferenceHandling { get; }
FluentAssertions.Equivalency.EnumEquivalencyHandling EnumEquivalencyHandling { get; }
bool ExcludeNonBrowsable { get; }
FluentAssertions.Equivalency.MemberVisibility IncludedFields { get; }
FluentAssertions.Equivalency.MemberVisibility IncludedProperties { get; }
bool IsRecursive { get; }
System.Collections.Generic.IEnumerable<FluentAssertions.Equivalency.IMemberMatchingRule> MatchingRules { get; }
FluentAssertions.Equivalency.OrderingRuleCollection OrderingRules { get; }
System.Collections.Generic.IEnumerable<FluentAssertions.Equivalency.IMemberSelectionRule> SelectionRules { get; }
FluentAssertions.Equivalency.Tracing.ITraceWriter TraceWriter { get; }
bool UseRuntimeTyping { get; }
System.Collections.Generic.IEnumerable<FluentAssertions.Equivalency.IEquivalencyStep> UserEquivalencySteps { get; }
FluentAssertions.Equivalency.EqualityStrategy GetEqualityStrategy(System.Type type);
}
public interface IEquivalencyStep
{
FluentAssertions.Equivalency.EquivalencyResult Handle(FluentAssertions.Equivalency.Comparands comparands, FluentAssertions.Equivalency.IEquivalencyValidationContext context, FluentAssertions.Equivalency.IEquivalencyValidator nestedValidator);
}
public interface IEquivalencyValidationContext
{
FluentAssertions.Equivalency.INode CurrentNode { get; }
FluentAssertions.Equivalency.IEquivalencyAssertionOptions Options { get; }
FluentAssertions.Execution.Reason Reason { get; }
FluentAssertions.Equivalency.Tracing.Tracer Tracer { get; }
FluentAssertions.Equivalency.IEquivalencyValidationContext AsCollectionItem<TItem>(string index);
FluentAssertions.Equivalency.IEquivalencyValidationContext AsDictionaryItem<TKey, TExpectation>(TKey key);
FluentAssertions.Equivalency.IEquivalencyValidationContext AsNestedMember(FluentAssertions.Equivalency.IMember expectationMember);
FluentAssertions.Equivalency.IEquivalencyValidationContext Clone();
bool IsCyclicReference(object expectation);
}
public interface IEquivalencyValidator
{
void RecursivelyAssertEquality(FluentAssertions.Equivalency.Comparands comparands, FluentAssertions.Equivalency.IEquivalencyValidationContext context);
}
public interface IMember : FluentAssertions.Equivalency.INode
{
System.Type DeclaringType { get; }
FluentAssertions.Common.CSharpAccessModifier GetterAccessibility { get; }
bool IsBrowsable { get; }
System.Type ReflectedType { get; }
FluentAssertions.Common.CSharpAccessModifier SetterAccessibility { get; }
object GetValue(object obj);
}
public interface IMemberInfo
{
System.Type DeclaringType { get; }
FluentAssertions.Common.CSharpAccessModifier GetterAccessibility { get; }
string Name { get; }
string Path { get; set; }
FluentAssertions.Common.CSharpAccessModifier SetterAccessibility { get; }
System.Type Type { get; }
}
public interface IMemberMatchingRule
{
FluentAssertions.Equivalency.IMember Match(FluentAssertions.Equivalency.IMember expectedMember, object subject, FluentAssertions.Equivalency.INode parent, FluentAssertions.Equivalency.IEquivalencyAssertionOptions options);
}
public interface IMemberSelectionRule
{
bool IncludesMembers { get; }
System.Collections.Generic.IEnumerable<FluentAssertions.Equivalency.IMember> SelectMembers(FluentAssertions.Equivalency.INode currentNode, System.Collections.Generic.IEnumerable<FluentAssertions.Equivalency.IMember> selectedMembers, FluentAssertions.Equivalency.MemberSelectionContext context);
}
public interface INode
{
int Depth { get; }
string Description { get; }
FluentAssertions.Equivalency.GetSubjectId GetSubjectId { get; }
bool IsRoot { get; }
string Name { get; set; }
string Path { get; }
string PathAndName { get; }
bool RootIsCollection { get; }
System.Type Type { get; }
}
public interface IObjectInfo
{
System.Type CompileTimeType { get; }
string Path { get; set; }
System.Type RuntimeType { get; }
System.Type Type { get; }
}
public interface IOrderingRule
{
FluentAssertions.Equivalency.OrderStrictness Evaluate(FluentAssertions.Equivalency.IObjectInfo objectInfo);
}
public static class MemberFactory
{
public static FluentAssertions.Equivalency.IMember Create(System.Reflection.MemberInfo memberInfo, FluentAssertions.Equivalency.INode parent) { }
}
public class MemberSelectionContext
{
public MemberSelectionContext(System.Type compileTimeType, System.Type runtimeType, FluentAssertions.Equivalency.IEquivalencyAssertionOptions options) { }
public FluentAssertions.Equivalency.MemberVisibility IncludedFields { get; }
public FluentAssertions.Equivalency.MemberVisibility IncludedProperties { get; }
public System.Type Type { get; }
}
[System.Flags]
public enum MemberVisibility
{
None = 0,
Internal = 1,
Public = 2,
}
public class Node : FluentAssertions.Equivalency.INode
{
public Node() { }
public int Depth { get; }
public virtual string Description { get; }
public FluentAssertions.Equivalency.GetSubjectId GetSubjectId { get; set; }
public bool IsRoot { get; }
public string Name { get; set; }
public string Path { get; set; }
public string PathAndName { get; }
public bool RootIsCollection { get; set; }
public System.Type Type { get; set; }
public override bool Equals(object obj) { }
public override int GetHashCode() { }
public override string ToString() { }
public static FluentAssertions.Equivalency.INode From<T>(FluentAssertions.Equivalency.GetSubjectId getSubjectId) { }
public static FluentAssertions.Equivalency.INode FromCollectionItem<T>(string index, FluentAssertions.Equivalency.INode parent) { }
public static FluentAssertions.Equivalency.INode FromDictionaryItem<T>(object key, FluentAssertions.Equivalency.INode parent) { }
}
public enum OrderStrictness
{
Strict = 0,
NotStrict = 1,
Irrelevant = 2,
}
public class OrderingRuleCollection : System.Collections.Generic.IEnumerable<FluentAssertions.Equivalency.IOrderingRule>, System.Collections.IEnumerable
{
public OrderingRuleCollection() { }
public OrderingRuleCollection(System.Collections.Generic.IEnumerable<FluentAssertions.Equivalency.IOrderingRule> orderingRules) { }
public void Add(FluentAssertions.Equivalency.IOrderingRule rule) { }
public System.Collections.Generic.IEnumerator<FluentAssertions.Equivalency.IOrderingRule> GetEnumerator() { }
public bool IsOrderingStrictFor(FluentAssertions.Equivalency.IObjectInfo objectInfo) { }
}
public class Property : FluentAssertions.Equivalency.Node, FluentAssertions.Equivalency.IMember, FluentAssertions.Equivalency.INode
{
public Property(System.Reflection.PropertyInfo propertyInfo, FluentAssertions.Equivalency.INode parent) { }
public Property(System.Type reflectedType, System.Reflection.PropertyInfo propertyInfo, FluentAssertions.Equivalency.INode parent) { }
public System.Type DeclaringType { get; }
public override string Description { get; }
public FluentAssertions.Common.CSharpAccessModifier GetterAccessibility { get; }
public bool IsBrowsable { get; }
public System.Type ReflectedType { get; }
public FluentAssertions.Common.CSharpAccessModifier SetterAccessibility { get; }
public object GetValue(object obj) { }
}
public abstract class SelfReferenceEquivalencyAssertionOptions<TSelf> : FluentAssertions.Equivalency.IEquivalencyAssertionOptions
where TSelf : FluentAssertions.Equivalency.SelfReferenceEquivalencyAssertionOptions<TSelf>
{
protected SelfReferenceEquivalencyAssertionOptions(FluentAssertions.Equivalency.IEquivalencyAssertionOptions defaults) { }
public bool CompareRecordsByValue { get; }
public FluentAssertions.Equivalency.ConversionSelector ConversionSelector { get; }
[System.Diagnostics.DebuggerBrowsable(System.Diagnostics.DebuggerBrowsableState.Never)]
protected FluentAssertions.Equivalency.OrderingRuleCollection OrderingRules { get; }
public FluentAssertions.Equivalency.Tracing.ITraceWriter TraceWriter { get; }
protected TSelf AddMatchingRule(FluentAssertions.Equivalency.IMemberMatchingRule matchingRule) { }
protected TSelf AddSelectionRule(FluentAssertions.Equivalency.IMemberSelectionRule selectionRule) { }
public TSelf AllowingInfiniteRecursion() { }
public TSelf ComparingByMembers(System.Type type) { }
public TSelf ComparingByMembers<T>() { }
public TSelf ComparingByValue(System.Type type) { }
public TSelf ComparingByValue<T>() { }
public TSelf ComparingEnumsByName() { }
public TSelf ComparingEnumsByValue() { }
public TSelf ComparingRecordsByMembers() { }
public TSelf ComparingRecordsByValue() { }
public TSelf Excluding(System.Linq.Expressions.Expression<System.Func<FluentAssertions.Equivalency.IMemberInfo, bool>> predicate) { }
public TSelf ExcludingFields() { }
public TSelf ExcludingMissingMembers() { }
public TSelf ExcludingNestedObjects() { }
public TSelf ExcludingNonBrowsableMembers() { }
public TSelf ExcludingProperties() { }
public TSelf IgnoringCyclicReferences() { }
public TSelf Including(System.Linq.Expressions.Expression<System.Func<FluentAssertions.Equivalency.IMemberInfo, bool>> predicate) { }
public TSelf IncludingAllDeclaredProperties() { }