diff --git a/.gitignore b/.gitignore index 842317924..be75aaab9 100644 --- a/.gitignore +++ b/.gitignore @@ -41,3 +41,6 @@ LibGit2Sharp/Core/UniqueIdentifier.cs !Lib/NativeBinaries/*/*.pdb !nuget.package/build/ _NCrunch_LibGit2Sharp/ + +!NuGet.exe +packages/ diff --git a/.nuget/NuGet.Config b/.nuget/NuGet.Config new file mode 100755 index 000000000..67f8ea046 --- /dev/null +++ b/.nuget/NuGet.Config @@ -0,0 +1,6 @@ + + + + + + \ No newline at end of file diff --git a/.nuget/NuGet.exe b/.nuget/NuGet.exe new file mode 100755 index 000000000..8dd7e45ae Binary files /dev/null and b/.nuget/NuGet.exe differ diff --git a/.nuget/NuGet.targets b/.nuget/NuGet.targets new file mode 100755 index 000000000..3f8c37b22 --- /dev/null +++ b/.nuget/NuGet.targets @@ -0,0 +1,144 @@ + + + + $(MSBuildProjectDirectory)\..\ + + + false + + + false + + + true + + + false + + + + + + + + + + + $([System.IO.Path]::Combine($(SolutionDir), ".nuget")) + + + + + $(SolutionDir).nuget + + + + $(MSBuildProjectDirectory)\packages.$(MSBuildProjectName.Replace(' ', '_')).config + $(MSBuildProjectDirectory)\packages.$(MSBuildProjectName).config + + + + $(MSBuildProjectDirectory)\packages.config + $(PackagesProjectConfig) + + + + + $(NuGetToolsPath)\NuGet.exe + @(PackageSource) + + "$(NuGetExePath)" + mono --runtime=v4.0.30319 "$(NuGetExePath)" + + $(TargetDir.Trim('\\')) + + -RequireConsent + -NonInteractive + + "$(SolutionDir) " + "$(SolutionDir)" + + + $(NuGetCommand) install "$(PackagesConfig)" -source "$(PackageSources)" $(NonInteractiveSwitch) $(RequireConsentSwitch) -solutionDir $(PaddedSolutionDir) + $(NuGetCommand) pack "$(ProjectPath)" -Properties "Configuration=$(Configuration);Platform=$(Platform)" $(NonInteractiveSwitch) -OutputDirectory "$(PackageOutputDir)" -symbols + + + + RestorePackages; + $(BuildDependsOn); + + + + + $(BuildDependsOn); + BuildPackage; + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +


+                
+

+ + + diff --git a/CI/build.msbuild b/CI/build.msbuild index ea4d98b1d..a8b789574 100644 --- a/CI/build.msbuild +++ b/CI/build.msbuild @@ -6,7 +6,7 @@ $(RootDir)\Build - diff --git a/Lib/MoQ/Moq.dll b/Lib/MoQ/Moq.dll deleted file mode 100644 index bdd4235f2..000000000 Binary files a/Lib/MoQ/Moq.dll and /dev/null differ diff --git a/Lib/MoQ/Moq.license.txt b/Lib/MoQ/Moq.license.txt deleted file mode 100644 index c9216ccba..000000000 --- a/Lib/MoQ/Moq.license.txt +++ /dev/null @@ -1,39 +0,0 @@ -Copyright (c) 2007. Clarius Consulting, Manas Technology Solutions, InSTEDD -http://code.google.com/p/moq/ -All rights reserved. - -Redistribution and use in source and binary forms, -with or without modification, are permitted provided -that the following conditions are met: - - * Redistributions of source code must retain the - above copyright notice, this list of conditions and - the following disclaimer. - - * Redistributions in binary form must reproduce - the above copyright notice, this list of conditions - and the following disclaimer in the documentation - and/or other materials provided with the distribution. - - * Neither the name of Clarius Consulting, Manas Technology Solutions or InSTEDD nor the - names of its contributors may be used to endorse - or promote products derived from this software - without specific prior written permission. - -THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND -CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, -INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF -MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE -DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR -CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, -SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, -BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR -SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS -INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, -WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING -NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE -OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF -SUCH DAMAGE. - -[This is the BSD license, see - http://www.opensource.org/licenses/bsd-license.php] diff --git a/Lib/MoQ/Moq.xml b/Lib/MoQ/Moq.xml deleted file mode 100644 index 160c1b516..000000000 --- a/Lib/MoQ/Moq.xml +++ /dev/null @@ -1,5449 +0,0 @@ - - - - Moq - - - -

- Implements the fluent API. -

- - -

- The expectation will be considered only in the former condition. -

- - - - -

- The expectation will be considered only in the former condition. -

- - - - - -

- Setups the get. -

- The type of the property. - The expression. - - - -

- Setups the set. -

- The type of the property. - The setter expression. - - - -

- Setups the set. -

- The setter expression. - - - -

- Handle interception -

- the current invocation context - shared data for the interceptor as a whole - shared data among the strategies during a single interception - InterceptionAction.Continue if further interception has to be processed, otherwise InterceptionAction.Stop - - -

- Covarient interface for Mock<T> such that casts between IMock<Employee> to IMock<Person> - are possible. Only covers the covariant members of Mock<T>. -

- - -

- Exposes the mocked object instance. -

- - -

- Behavior of the mock, according to the value set in the constructor. -

- - -

- Whether the base member virtual implementation will be called - for mocked classes if no setup is matched. Defaults to . -

- - -

- Specifies the behavior to use when returning default values for - unexpected invocations on loose mocks. -

- - -

- Get an eventInfo for a given event name. Search type ancestors depth first if necessary. -

- Name of the event, with the set_ or get_ prefix already removed - - -

- Get an eventInfo for a given event name. Search type ancestors depth first if necessary. - Searches also in non public events. -

- Name of the event, with the set_ or get_ prefix already removed - - -

- Given a type return all of its ancestors, both types and interfaces. -

- The type to find immediate ancestors of - - -

- Defines the Callback verb and overloads. -

- - -

- Helper interface used to hide the base - members from the fluent API to make it much cleaner - in Visual Studio intellisense. -

- - -

- Specifies a callback to invoke when the method is called. -

- The callback method to invoke. - - The following example specifies a callback to set a boolean - value that can be used later: -


-            var called = false;
-            mock.Setup(x => x.Execute())
-                .Callback(() => called = true);
-

- - - -

- Specifies a callback to invoke when the method is called that receives the original arguments. -

- The argument type of the invoked method. - The callback method to invoke. - - Invokes the given callback with the concrete invocation argument value. - - Notice how the specific string argument is retrieved by simply declaring - it as part of the lambda expression for the callback: - -


-            mock.Setup(x => x.Execute(It.IsAny<string>()))
-                .Callback((string command) => Console.WriteLine(command));
-

- - - -

- Specifies a callback to invoke when the method is called that receives the original arguments. -

- The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - -


-            mock.Setup(x => x.Execute(
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>()))
-                .Callback((string arg1, string arg2) => Console.WriteLine(arg1 + arg2));
-

- - - -

- Specifies a callback to invoke when the method is called that receives the original arguments. -

- The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - -


-            mock.Setup(x => x.Execute(
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>()))
-                .Callback((string arg1, string arg2, string arg3) => Console.WriteLine(arg1 + arg2 + arg3));
-

- - - -

- Specifies a callback to invoke when the method is called that receives the original arguments. -

- The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - -


-            mock.Setup(x => x.Execute(
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>()))
-                .Callback((string arg1, string arg2, string arg3, string arg4) => Console.WriteLine(arg1 + arg2 + arg3 + arg4));
-

- - - -

- Specifies a callback to invoke when the method is called that receives the original arguments. -


-            mock.Setup(x => x.Execute(
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>()))
-                .Callback((string arg1, string arg2, string arg3, string arg4, string arg5) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5));
-

- - - -

- Specifies a callback to invoke when the method is called that receives the original arguments. -


-            mock.Setup(x => x.Execute(
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>()))
-                .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6));
-

- - - -

- Specifies a callback to invoke when the method is called that receives the original arguments. -


-            mock.Setup(x => x.Execute(
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>()))
-                .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7));
-

- - - -

- Specifies a callback to invoke when the method is called that receives the original arguments. -


-            mock.Setup(x => x.Execute(
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>()))
-                .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8));
-

- - - -

- Specifies a callback to invoke when the method is called that receives the original arguments. -


-            mock.Setup(x => x.Execute(
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>()))
-                .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9));
-

- - - -

- Specifies a callback to invoke when the method is called that receives the original arguments. -


-            mock.Setup(x => x.Execute(
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>()))
-                .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10));
-

- - - -

- Specifies a callback to invoke when the method is called that receives the original arguments. -

- The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - -


-            mock.Setup(x => x.Execute(
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>()))
-                .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11));
-

- - - -

- Specifies a callback to invoke when the method is called that receives the original arguments. -

- The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - -


-            mock.Setup(x => x.Execute(
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>()))
-                .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12));
-

- - - -

- Specifies a callback to invoke when the method is called that receives the original arguments. -

- The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The type of the thirteenth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - -


-            mock.Setup(x => x.Execute(
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>()))
-                .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13));
-

- - - -

- Specifies a callback to invoke when the method is called that receives the original arguments. -

- The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The type of the thirteenth argument of the invoked method. - The type of the fourteenth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - -


-            mock.Setup(x => x.Execute(
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>()))
-                .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14));
-

- - - -

- Specifies a callback to invoke when the method is called that receives the original arguments. -

- The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The type of the thirteenth argument of the invoked method. - The type of the fourteenth argument of the invoked method. - The type of the fifteenth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - -


-            mock.Setup(x => x.Execute(
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>()))
-                .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14, string arg15) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15));
-

- - - -

- Specifies a callback to invoke when the method is called that receives the original arguments. -

- The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The type of the thirteenth argument of the invoked method. - The type of the fourteenth argument of the invoked method. - The type of the fifteenth argument of the invoked method. - The type of the sixteenth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - -


-            mock.Setup(x => x.Execute(
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>()))
-                .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14, string arg15, string arg16) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15 + arg16));
-

- - - -

- Defines the Callback verb and overloads for callbacks on - setups that return a value. -

- Mocked type. - Type of the return value of the setup. - - -

- Specifies a callback to invoke when the method is called. -

- The callback method to invoke. - - The following example specifies a callback to set a boolean value that can be used later: -


-            var called = false;
-            mock.Setup(x => x.Execute())
-                .Callback(() => called = true)
-                .Returns(true);
-

- Note that in the case of value-returning methods, after the Callback - call you can still specify the return value. - - - -

- Specifies a callback to invoke when the method is called that receives the original arguments. -

- The type of the argument of the invoked method. - Callback method to invoke. - - Invokes the given callback with the concrete invocation argument value. - - Notice how the specific string argument is retrieved by simply declaring - it as part of the lambda expression for the callback: - -


-            mock.Setup(x => x.Execute(It.IsAny<string>()))
-                .Callback(command => Console.WriteLine(command))
-                .Returns(true);
-

- - - -

- Specifies a callback to invoke when the method is called that receives the original - arguments. -


-            mock.Setup(x => x.Execute(
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>()))
-                .Callback((arg1, arg2) => Console.WriteLine(arg1 + arg2));
-

- - - -

- Specifies a callback to invoke when the method is called that receives the original - arguments. -


-            mock.Setup(x => x.Execute(
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>()))
-                .Callback((arg1, arg2, arg3) => Console.WriteLine(arg1 + arg2 + arg3));
-

- - - -

- Specifies a callback to invoke when the method is called that receives the original - arguments. -

- The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - -


-            mock.Setup(x => x.Execute(
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>()))
-                .Callback((arg1, arg2, arg3, arg4) => Console.WriteLine(arg1 + arg2 + arg3 + arg4));
-

- - - -

- Specifies a callback to invoke when the method is called that receives the original - arguments. -


-            mock.Setup(x => x.Execute(
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>()))
-                .Callback((arg1, arg2, arg3, arg4, arg5) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5));
-

- - - -

- Specifies a callback to invoke when the method is called that receives the original - arguments. -


-            mock.Setup(x => x.Execute(
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>()))
-                .Callback((arg1, arg2, arg3, arg4, arg5, arg6) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6));
-

- - - -

- Specifies a callback to invoke when the method is called that receives the original - arguments. -


-            mock.Setup(x => x.Execute(
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>()))
-                .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7));
-

- - - -

- Specifies a callback to invoke when the method is called that receives the original - arguments. -


-            mock.Setup(x => x.Execute(
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>()))
-                .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8));
-

- - - -

- Specifies a callback to invoke when the method is called that receives the original - arguments. -


-            mock.Setup(x => x.Execute(
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>()))
-                .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9));
-

- - - -

- Specifies a callback to invoke when the method is called that receives the original - arguments. -


-            mock.Setup(x => x.Execute(
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>()))
-                .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10));
-

- - - -

- Specifies a callback to invoke when the method is called that receives the original - arguments. -

- The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - -


-            mock.Setup(x => x.Execute(
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>()))
-                .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11));
-

- - - -

- Specifies a callback to invoke when the method is called that receives the original - arguments. -

- The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - -


-            mock.Setup(x => x.Execute(
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>()))
-                .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11, arg12) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12));
-

- - - -

- Specifies a callback to invoke when the method is called that receives the original - arguments. -

- The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The type of the thirteenth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - -


-            mock.Setup(x => x.Execute(
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>()))
-                .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11, arg12, arg13) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13));
-

- - - -

- Specifies a callback to invoke when the method is called that receives the original - arguments. -

- The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The type of the thirteenth argument of the invoked method. - The type of the fourteenth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - -


-            mock.Setup(x => x.Execute(
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>()))
-                .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11, arg12, arg13, arg14) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14));
-

- - - -

- Specifies a callback to invoke when the method is called that receives the original - arguments. -

- The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The type of the thirteenth argument of the invoked method. - The type of the fourteenth argument of the invoked method. - The type of the fifteenth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - -


-            mock.Setup(x => x.Execute(
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>()))
-                .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11, arg12, arg13, arg14, arg15) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15));
-

- - - -

- Specifies a callback to invoke when the method is called that receives the original - arguments. -

- The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The type of the thirteenth argument of the invoked method. - The type of the fourteenth argument of the invoked method. - The type of the fifteenth argument of the invoked method. - The type of the sixteenth argument of the invoked method. - The callback method to invoke. - A reference to interface. - - Invokes the given callback with the concrete invocation arguments values. - - Notice how the specific arguments are retrieved by simply declaring - them as part of the lambda expression for the callback: - -


-            mock.Setup(x => x.Execute(
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>(),
-                                 It.IsAny<string>()))
-                .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11, arg12, arg13, arg14, arg15, arg16) => Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15 + arg16));
-

- - - -

- Defines the Raises verb. -

- - -

- Specifies the event that will be raised - when the setup is met. -

- An expression that represents an event attach or detach action. - The event arguments to pass for the raised event. - - The following example shows how to raise an event when - the setup is met: -


-            var mock = new Mock<IContainer>();
-            
-            mock.Setup(add => add.Add(It.IsAny<string>(), It.IsAny<object>()))
-                .Raises(add => add.Added += null, EventArgs.Empty);
-

- - - -

- Specifies the event that will be raised - when the setup is matched. -

- An expression that represents an event attach or detach action. - A function that will build the - to pass when raising the event. - - - -

- Specifies the custom event that will be raised - when the setup is matched. -

- An expression that represents an event attach or detach action. - The arguments to pass to the custom delegate (non EventHandler-compatible). - - -

- Specifies the event that will be raised when the setup is matched. -

- The expression that represents an event attach or detach action. - The function that will build the - to pass when raising the event. - The type of the first argument received by the expected invocation. - The type of the second argument received by the expected invocation. - The type of the third argument received by the expected invocation. - The type of the fourth argument received by the expected invocation. - The type of the fifth argument received by the expected invocation. - The type of the sixth argument received by the expected invocation. - The type of the seventh argument received by the expected invocation. - The type of the eighth argument received by the expected invocation. - The type of the nineth argument received by the expected invocation. - The type of the tenth argument received by the expected invocation. - The type of the eleventh argument received by the expected invocation. - - - -

- Specifies the event that will be raised when the setup is matched. -

- Defines the Returns verb. -

- Mocked type. - Type of the return value from the expression. - - -

- Specifies the value to return. -

- The value to return, or . - - Return a true value from the method call: -


-            mock.Setup(x => x.Execute("ping"))
-                .Returns(true);
-

- - - -

- Specifies a function that will calculate the value to return from the method. -

- The function that will calculate the return value. - - Return a calculated value when the method is called: -


-            mock.Setup(x => x.Execute("ping"))
-                .Returns(() => returnValues[0]);
-

- The lambda expression to retrieve the return value is lazy-executed, - meaning that its value may change depending on the moment the method - is executed and the value the returnValues array has at - that moment. - - - -

- Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. -

- The type of the argument of the invoked method. - The function that will calculate the return value. - - Return a calculated value which is evaluated lazily at the time of the invocation. - - The lookup list can change between invocations and the setup - will return different values accordingly. Also, notice how the specific - string argument is retrieved by simply declaring it as part of the lambda - expression: - -


-            mock.Setup(x => x.Execute(It.IsAny<string>()))
-                .Returns((string command) => returnValues[command]);
-

- - - -

- Calls the real method of the object and returns its return value. -

- The value calculated by the real method of the object. - - -

- Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. -

- The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - -


-            mock.Setup(x => x.Execute(
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>()))
-                .Returns((string arg1, string arg2) => arg1 + arg2);
-

- - - -

- Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. -

- The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - -


-            mock.Setup(x => x.Execute(
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>()))
-                .Returns((string arg1, string arg2, string arg3) => arg1 + arg2 + arg3);
-

- - - -

- Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. -

- The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - -


-            mock.Setup(x => x.Execute(
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>()))
-                .Returns((string arg1, string arg2, string arg3, string arg4) => arg1 + arg2 + arg3 + arg4);
-

- - - -

- Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. -


-            mock.Setup(x => x.Execute(
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>()))
-                .Returns((string arg1, string arg2, string arg3, string arg4, string arg5) => arg1 + arg2 + arg3 + arg4 + arg5);
-

- - - -

- Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. -


-            mock.Setup(x => x.Execute(
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>()))
-                .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6);
-

- - - -

- Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. -


-            mock.Setup(x => x.Execute(
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>()))
-                .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7);
-

- - - -

- Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. -


-            mock.Setup(x => x.Execute(
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>()))
-                .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8);
-

- - - -

- Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. -


-            mock.Setup(x => x.Execute(
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>()))
-                .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9);
-

- - - -

- Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. -

- The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - -


-            mock.Setup(x => x.Execute(
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>()))
-                .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10);
-

- - - -

- Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. -

- The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - -


-            mock.Setup(x => x.Execute(
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>()))
-                .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11);
-

- - - -

- Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. -

- The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - -


-            mock.Setup(x => x.Execute(
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>()))
-                .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12);
-

- - - -

- Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. -

- The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The type of the thirteenth argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - -


-            mock.Setup(x => x.Execute(
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>()))
-                .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13);
-

- - - -

- Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. -

- The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The type of the thirteenth argument of the invoked method. - The type of the fourteenth argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - -


-            mock.Setup(x => x.Execute(
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>()))
-                .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14);
-

- - - -

- Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. -

- The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The type of the thirteenth argument of the invoked method. - The type of the fourteenth argument of the invoked method. - The type of the fifteenth argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - -


-            mock.Setup(x => x.Execute(
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>()))
-                .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14, string arg15) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15);
-

- - - -

- Specifies a function that will calculate the value to return from the method, - retrieving the arguments for the invocation. -

- The type of the first argument of the invoked method. - The type of the second argument of the invoked method. - The type of the third argument of the invoked method. - The type of the fourth argument of the invoked method. - The type of the fifth argument of the invoked method. - The type of the sixth argument of the invoked method. - The type of the seventh argument of the invoked method. - The type of the eighth argument of the invoked method. - The type of the nineth argument of the invoked method. - The type of the tenth argument of the invoked method. - The type of the eleventh argument of the invoked method. - The type of the twelfth argument of the invoked method. - The type of the thirteenth argument of the invoked method. - The type of the fourteenth argument of the invoked method. - The type of the fifteenth argument of the invoked method. - The type of the sixteenth argument of the invoked method. - The function that will calculate the return value. - Returns a calculated value which is evaluated lazily at the time of the invocation. - - - The return value is calculated from the value of the actual method invocation arguments. - Notice how the arguments are retrieved by simply declaring them as part of the lambda - expression: - -


-            mock.Setup(x => x.Execute(
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>(), 
-                                 It.IsAny<int>()))
-                .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14, string arg15, string arg16) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15 + arg16);
-

- - - -

- Hook used to tells Castle which methods to proxy in mocked classes. - - Here we proxy the default methods Castle suggests (everything Object's methods) - plus Object.ToString(), so we can give mocks useful default names. - - This is required to allow Moq to mock ToString on proxy *class* implementations. -

- - -

- Extends AllMethodsHook.ShouldInterceptMethod to also intercept Object.ToString(). -

- - -

- The base class used for all our interface-inheriting proxies, which overrides the default - Object.ToString() behavior, to route it via the mock by default, unless overriden by a - real implementation. - - This is required to allow Moq to mock ToString on proxy *interface* implementations. -

- - This is internal to Moq and should not be generally used. - - Unfortunately it must be public, due to cross-assembly visibility issues with reflection, - see github.com/Moq/moq4/issues/98 for details. - - - -

- Overrides the default ToString implementation to instead find the mock for this mock.Object, - and return MockName + '.Object' as the mocked object's ToString, to make it easy to relate - mocks and mock object instances in error messages. -

- - -

- Defines async extension methods on IReturns. -

- - -

- Allows to specify the return value of an asynchronous method. -

- - -

- Allows to specify the exception thrown by an asynchronous method. -

- - -

- Language for ReturnSequence -

- - -

- Returns value -

- - -

- Throws an exception -

- - -

- Throws an exception -

- - -

- Calls original method -

- - -

- The first method call or member access will be the - last segment of the expression (depth-first traversal), - which is the one we have to Setup rather than FluentMock. - And the last one is the one we have to Mock.Get rather - than FluentMock. -

- - -

- Base class for mocks and static helper class with methods that - apply to mocked objects, such as to - retrieve a from an object instance. -

- - -

- Creates an mock object of the indicated type. -

- The type of the mocked object. - The mocked object created. - - -

- Creates an mock object of the indicated type. -

- The predicate with the specification of how the mocked object should behave. - The type of the mocked object. - The mocked object created. - - -

- Initializes a new instance of the class. -

- - -

- Retrieves the mock object for the given object instance. -

- Type of the mock to retrieve. Can be omitted as it's inferred - from the object instance passed in as the instance. - The instance of the mocked object.The mock associated with the mocked object. - The received instance - was not created by Moq. - - The following example shows how to add a new setup to an object - instance which is not the original but rather - the object associated with it: -


-				// Typed instance, not the mock, is retrieved from some test API.
-				HttpContextBase context = GetMockContext();
-
-				// context.Request is the typed object from the "real" API
-				// so in order to add a setup to it, we need to get
-				// the mock that "owns" it
-				Mock<HttpRequestBase> request = Mock.Get(context.Request);
-				mock.Setup(req => req.AppRelativeCurrentExecutionFilePath)
-					 .Returns(tempUrl);
-

- - - -

- Returns the mocked object value. -

- - -

- Verifies that all verifiable expectations have been met. -

- This example sets up an expectation and marks it as verifiable. After - the mock is used, a Verify() call is issued on the mock - to ensure the method in the setup was invoked: -


-				var mock = new Mock<IWarehouse>();
-				this.Setup(x => x.HasInventory(TALISKER, 50)).Verifiable().Returns(true);
-				...
-				// other test code
-				...
-				// Will throw if the test code has didn't call HasInventory.
-				this.Verify();
-

- Not all verifiable expectations were met. - - -

- Verifies all expectations regardless of whether they have - been flagged as verifiable. -

- This example sets up an expectation without marking it as verifiable. After - the mock is used, a call is issued on the mock - to ensure that all expectations are met: -


-				var mock = new Mock<IWarehouse>();
-				this.Setup(x => x.HasInventory(TALISKER, 50)).Returns(true);
-				...
-				// other test code
-				...
-				// Will throw if the test code has didn't call HasInventory, even
-				// that expectation was not marked as verifiable.
-				this.VerifyAll();
-

- At least one expectation was not met. - - -

- Gets the interceptor target for the given expression and root mock, - building the intermediate hierarchy of mock objects if necessary. -

- - -

- Raises the associated event with the given - event argument data. -

- - -

- Raises the associated event with the given - event argument data. -

- - -

- Adds an interface implementation to the mock, - allowing setups to be specified for it. -

- This method can only be called before the first use - of the mock property, at which - point the runtime type has already been generated - and no more interfaces can be added to it. - - Also, must be an - interface and not a class, which must be specified - when creating the mock instead. - - - The mock type - has already been generated by accessing the property. - - The specified - is not an interface. - - The following example creates a mock for the main interface - and later adds to it to verify - it's called by the consumer code: -


-				var mock = new Mock<IProcessor>();
-				mock.Setup(x => x.Execute("ping"));
-
-				// add IDisposable interface
-				var disposable = mock.As<IDisposable>();
-				disposable.Setup(d => d.Dispose()).Verifiable();
-

- Type of interface to cast the mock to. - - - - - -

- Behavior of the mock, according to the value set in the constructor. -

- - -

- Whether the base member virtual implementation will be called - for mocked classes if no setup is matched. Defaults to . -

- - -

- Specifies the behavior to use when returning default values for - unexpected invocations on loose mocks. -

- - -

- Gets the mocked object instance. -

- - -

- Retrieves the type of the mocked object, its generic type argument. - This is used in the auto-mocking of hierarchy access. -

- - -

- If this is a mock of a delegate, this property contains the method - on the autogenerated interface so that we can convert setup + verify - expressions on the delegate into expressions on the interface proxy. -

- - -

- Allows to check whether expression conversion to the - must be performed on the mock, without causing unnecessarily early initialization of - the mock instance, which breaks As{T}. -

- - -

- Specifies the class that will determine the default - value to return when invocations are made that - have no setups and need to return a default - value (for loose mocks). -

- - -

- Exposes the list of extra interfaces implemented by the mock. -

- - -

- Utility repository class to use to construct multiple - mocks when consistent verification is - desired for all of them. -

- - If multiple mocks will be created during a test, passing - the desired (if different than the - or the one - passed to the repository constructor) and later verifying each - mock can become repetitive and tedious. - - This repository class helps in that scenario by providing a - simplified creation of multiple mocks with a default - (unless overriden by calling - ) and posterior verification. - - - - The following is a straightforward example on how to - create and automatically verify strict mocks using a : -


-            var repository = new MockRepository(MockBehavior.Strict);
-            
-            var foo = repository.Create<IFoo>();
-            var bar = repository.Create<IBar>();
-            
-            // no need to call Verifiable() on the setup 
-            // as we'll be validating all of them anyway.
-            foo.Setup(f => f.Do());
-            bar.Setup(b => b.Redo());
-            
-            // exercise the mocks here
-            
-            repository.VerifyAll(); 
-            // At this point all setups are already checked 
-            // and an optional MockException might be thrown. 
-            // Note also that because the mocks are strict, any invocation 
-            // that doesn't have a matching setup will also throw a MockException.
-

- The following examples shows how to setup the repository - to create loose mocks and later verify only verifiable setups: -


-            var repository = new MockRepository(MockBehavior.Loose);
-            
-            var foo = repository.Create<IFoo>();
-            var bar = repository.Create<IBar>();
-            
-            // this setup will be verified when we verify the repository
-            foo.Setup(f => f.Do()).Verifiable();
-            	
-            // this setup will NOT be verified 
-            foo.Setup(f => f.Calculate());
-            	
-            // this setup will be verified when we verify the repository
-            bar.Setup(b => b.Redo()).Verifiable();
-            
-            // exercise the mocks here
-            // note that because the mocks are Loose, members 
-            // called in the interfaces for which no matching
-            // setups exist will NOT throw exceptions, 
-            // and will rather return default values.
-            
-            repository.Verify();
-            // At this point verifiable setups are already checked 
-            // and an optional MockException might be thrown.
-

- The following examples shows how to setup the repository with a - default strict behavior, overriding that default for a - specific mock: -


-            var repository = new MockRepository(MockBehavior.Strict);
-            
-            // this particular one we want loose
-            var foo = repository.Create<IFoo>(MockBehavior.Loose);
-            var bar = repository.Create<IBar>();
-            
-            // specify setups
-            
-            // exercise the mocks here
-            
-            repository.Verify();
-

- - - - -

- Utility factory class to use to construct multiple - mocks when consistent verification is - desired for all of them. -

- - If multiple mocks will be created during a test, passing - the desired (if different than the - or the one - passed to the factory constructor) and later verifying each - mock can become repetitive and tedious. - - This factory class helps in that scenario by providing a - simplified creation of multiple mocks with a default - (unless overriden by calling - ) and posterior verification. - - - - The following is a straightforward example on how to - create and automatically verify strict mocks using a : -


-            var factory = new MockFactory(MockBehavior.Strict);
-            
-            var foo = factory.Create<IFoo>();
-            var bar = factory.Create<IBar>();
-            
-            // no need to call Verifiable() on the setup 
-            // as we'll be validating all of them anyway.
-            foo.Setup(f => f.Do());
-            bar.Setup(b => b.Redo());
-            
-            // exercise the mocks here
-            
-            factory.VerifyAll(); 
-            // At this point all setups are already checked 
-            // and an optional MockException might be thrown. 
-            // Note also that because the mocks are strict, any invocation 
-            // that doesn't have a matching setup will also throw a MockException.
-

- The following examples shows how to setup the factory - to create loose mocks and later verify only verifiable setups: -


-            var factory = new MockFactory(MockBehavior.Loose);
-            
-            var foo = factory.Create<IFoo>();
-            var bar = factory.Create<IBar>();
-            
-            // this setup will be verified when we verify the factory
-            foo.Setup(f => f.Do()).Verifiable();
-            	
-            // this setup will NOT be verified 
-            foo.Setup(f => f.Calculate());
-            	
-            // this setup will be verified when we verify the factory
-            bar.Setup(b => b.Redo()).Verifiable();
-            
-            // exercise the mocks here
-            // note that because the mocks are Loose, members 
-            // called in the interfaces for which no matching
-            // setups exist will NOT throw exceptions, 
-            // and will rather return default values.
-            
-            factory.Verify();
-            // At this point verifiable setups are already checked 
-            // and an optional MockException might be thrown.
-

- The following examples shows how to setup the factory with a - default strict behavior, overriding that default for a - specific mock: -


-            var factory = new MockFactory(MockBehavior.Strict);
-            
-            // this particular one we want loose
-            var foo = factory.Create<IFoo>(MockBehavior.Loose);
-            var bar = factory.Create<IBar>();
-            
-            // specify setups
-            
-            // exercise the mocks here
-            
-            factory.Verify();
-

- - - - -

- Initializes the factory with the given - for newly created mocks from the factory. -

- The behavior to use for mocks created - using the factory method if not overriden - by using the overload. - - -

- Creates a new mock with the default - specified at factory construction time. -

- Type to mock. - A new . - -


-            var factory = new MockFactory(MockBehavior.Strict);
-            
-            var foo = factory.Create<IFoo>();
-            // use mock on tests
-            
-            factory.VerifyAll();
-

- - - -

- Creates a new mock with the default - specified at factory construction time and with the - the given constructor arguments for the class. -


-            var factory = new MockFactory(MockBehavior.Default);
-            
-            var mock = factory.Create<MyBase>("Foo", 25, true);
-            // use mock on tests
-            
-            factory.Verify();
-

- - - -

- Creates a new mock with the given . -

- Type to mock. - Behavior to use for the mock, which overrides - the default behavior specified at factory construction time. - A new . - - The following example shows how to create a mock with a different - behavior to that specified as the default for the factory: -


-            var factory = new MockFactory(MockBehavior.Strict);
-            
-            var foo = factory.Create<IFoo>(MockBehavior.Loose);
-

- - - -

- Creates a new mock with the given - and with the the given constructor arguments for the class. -

- - The mock will try to find the best match constructor given the - constructor arguments, and invoke that to initialize the instance. - This applies only to classes, not interfaces. - - Type to mock. - Behavior to use for the mock, which overrides - the default behavior specified at factory construction time. - Constructor arguments for mocked classes. - A new . - - The following example shows how to create a mock with a different - behavior to that specified as the default for the factory, passing - constructor arguments: -


-            var factory = new MockFactory(MockBehavior.Default);
-            
-            var mock = factory.Create<MyBase>(MockBehavior.Strict, "Foo", 25, true);
-

- - - -

- Implements creation of a new mock within the factory. -

- Type to mock. - The behavior for the new mock. - Optional arguments for the construction of the mock. - - -

- Verifies all verifiable expectations on all mocks created - by this factory. -

- - One or more mocks had expectations that were not satisfied. - - -

- Verifies all verifiable expectations on all mocks created - by this factory. -

- - One or more mocks had expectations that were not satisfied. - - -

- Invokes for each mock - in , and accumulates the resulting - that might be - thrown from the action. -

- The action to execute against - each mock. - - -

- Whether the base member virtual implementation will be called - for mocked classes if no setup is matched. Defaults to . -

- - -

- Specifies the behavior to use when returning default values for - unexpected invocations on loose mocks. -

- - -

- Gets the mocks that have been created by this factory and - that will get verified together. -

- - -

- Access the universe of mocks of the given type, to retrieve those - that behave according to the LINQ query specification. -

- The type of the mocked object to query. - - -

- Access the universe of mocks of the given type, to retrieve those - that behave according to the LINQ query specification. -

- The predicate with the setup expressions. - The type of the mocked object to query. - - -

- Creates an mock object of the indicated type. -

- The type of the mocked object. - The mocked object created. - - -

- Creates an mock object of the indicated type. -

- The predicate with the setup expressions. - The type of the mocked object. - The mocked object created. - - -

- Creates the mock query with the underlying queriable implementation. -

- - -

- Wraps the enumerator inside a queryable. -

- - -

- Method that is turned into the actual call from .Query{T}, to - transform the queryable query into a normal enumerable query. - This method is never used directly by consumers. -

- - -

- Initializes the repository with the given - for newly created mocks from the repository. -

- The behavior to use for mocks created - using the repository method if not overriden - by using the overload. - - -

- A that returns an empty default value - for invocations that do not have setups or return values, with loose mocks. - This is the default behavior for a mock. -

- - -

- Interface to be implemented by classes that determine the - default value of non-expected invocations. -

- - -

- Defines the default value to return in all the methods returning . -

The type of the return value.The value to set as default. - - -

- Provides a value for the given member and arguments. -

- The member to provide a default value for. - - - -

- The intention of is to create a more readable - string representation for the failure message. -

- - -

- Implements the fluent API. -

- - -

- Defines the Throws verb. -

- - -

- Specifies the exception to throw when the method is invoked. -

- Exception instance to throw. - - This example shows how to throw an exception when the method is - invoked with an empty string argument: -


-            mock.Setup(x => x.Execute(""))
-                .Throws(new ArgumentException());
-

- - - -

- Specifies the type of exception to throw when the method is invoked. -

- Type of exception to instantiate and throw when the setup is matched. - - This example shows how to throw an exception when the method is - invoked with an empty string argument: -


-            mock.Setup(x => x.Execute(""))
-                .Throws<ArgumentException>();
-

- - - -

- Implements the fluent API. -

- - -

- Defines occurrence members to constraint setups. -

- - -

- The expected invocation can happen at most once. -

- -


-            var mock = new Mock<ICommand>();
-            mock.Setup(foo => foo.Execute("ping"))
-                .AtMostOnce();
-

- - - -

- The expected invocation can happen at most specified number of times. -

- The number of times to accept calls. - -


-            var mock = new Mock<ICommand>();
-            mock.Setup(foo => foo.Execute("ping"))
-                .AtMost( 5 );
-

- - - -

- Defines the Verifiable verb. -

- - -

- Marks the expectation as verifiable, meaning that a call - to will check if this particular - expectation was met. -

- - The following example marks the expectation as verifiable: -


-            mock.Expect(x => x.Execute("ping"))
-                .Returns(true)
-                .Verifiable();
-

- - - -

- Marks the expectation as verifiable, meaning that a call - to will check if this particular - expectation was met, and specifies a message for failures. -

- - The following example marks the expectation as verifiable: -


-            mock.Expect(x => x.Execute("ping"))
-                .Returns(true)
-                .Verifiable("Ping should be executed always!");
-

- - - -

- Implements the fluent API. -

- - - - We need this non-generics base class so that - we can use from - generic code. - - - -

- Implements the fluent API. -

- - -

- Implements the fluent API. -

- - -

- Implements the fluent API. -

- - -

- Defines the Callback verb for property getter setups. -

- - Mocked type. - Type of the property. - - -

- Specifies a callback to invoke when the property is retrieved. -

- Callback method to invoke. - - Invokes the given callback with the property value being set. -


-            mock.SetupGet(x => x.Suspended)
-                .Callback(() => called = true)
-                .Returns(true);
-

- - - -

- Implements the fluent API. -

- - -

- Defines the Returns verb for property get setups. -

- Mocked type. - Type of the property. - - -

- Specifies the value to return. -

- The value to return, or . - - Return a true value from the property getter call: -


-            mock.SetupGet(x => x.Suspended)
-                .Returns(true);
-

- - - -

- Specifies a function that will calculate the value to return for the property. -

- The function that will calculate the return value. - - Return a calculated value when the property is retrieved: -


-            mock.SetupGet(x => x.Suspended)
-                .Returns(() => returnValues[0]);
-

- The lambda expression to retrieve the return value is lazy-executed, - meaning that its value may change depending on the moment the property - is retrieved and the value the returnValues array has at - that moment. - - - -

- Calls the real property of the object and returns its return value. -

- The value calculated by the real property of the object. - - -

- Implements the fluent API. -

- - -

- Provides additional methods on mocks. -

- - Those methods are useful for Testeroids support. - - - -

- Resets the calls previously made on the specified mock. -

- The mock whose calls need to be reset. - - -

- Helper class to setup a full trace between many mocks -

- - -

- Initialize a trace setup -

- - -

- Allow sequence to be repeated -

- - -

- define nice api -

- - -

- Perform an expectation in the trace. -

- - -

- Marks a method as a matcher, which allows complete replacement - of the built-in class with your own argument - matching rules. -

- - This feature has been deprecated in favor of the new - and simpler . - - - The argument matching is used to determine whether a concrete - invocation in the mock matches a given setup. This - matching mechanism is fully extensible. - - - There are two parts of a matcher: the compiler matcher - and the runtime matcher. - - - Compiler matcher - Used to satisfy the compiler requirements for the - argument. Needs to be a method optionally receiving any arguments - you might need for the matching, but with a return type that - matches that of the argument. - - Let's say I want to match a lists of orders that contains - a particular one. I might create a compiler matcher like the following: - -


-            public static class Orders
-            {
-              [Matcher]
-              public static IEnumerable<Order> Contains(Order order)
-              {
-                return null;
-              }
-            }
-

- Now we can invoke this static method instead of an argument in an - invocation: -


-            var order = new Order { ... };
-            var mock = new Mock<IRepository<Order>>();
-            
-            mock.Setup(x => x.Save(Orders.Contains(order)))
-                .Throws<ArgumentException>();
-

- Note that the return value from the compiler matcher is irrelevant. - This method will never be called, and is just used to satisfy the - compiler and to signal Moq that this is not a method that we want - to be invoked at runtime. - - - - Runtime matcher - - The runtime matcher is the one that will actually perform evaluation - when the test is run, and is defined by convention to have the - same signature as the compiler matcher, but where the return - value is the first argument to the call, which contains the - object received by the actual invocation at runtime: -


-              public static bool Contains(IEnumerable<Order> orders, Order order)
-              {
-                return orders.Contains(order);
-              }
-

- At runtime, the mocked method will be invoked with a specific - list of orders. This value will be passed to this runtime - matcher as the first argument, while the second argument is the - one specified in the setup (x.Save(Orders.Contains(order))). - - The boolean returned determines whether the given argument has been - matched. If all arguments to the expected method are matched, then - the setup matches and is evaluated. - - - - - - Using this extensible infrastructure, you can easily replace the entire - set of matchers with your own. You can also avoid the - typical (and annoying) lengthy expressions that result when you have - multiple arguments that use generics. - - - The following is the complete example explained above: -


-            public static class Orders
-            {
-              [Matcher]
-              public static IEnumerable<Order> Contains(Order order)
-              {
-                return null;
-              }
-              
-              public static bool Contains(IEnumerable<Order> orders, Order order)
-              {
-                return orders.Contains(order);
-              }
-            }
-

- And the concrete test using this matcher: -


-            var order = new Order { ... };
-            var mock = new Mock<IRepository<Order>>();
-            
-            mock.Setup(x => x.Save(Orders.Contains(order)))
-                .Throws<ArgumentException>();
-                
-            // use mock, invoke Save, and have the matcher filter.
-

- - - -

- Provides a mock implementation of . -

- Any interface type can be used for mocking, but for classes, only abstract and virtual members can be mocked. - - The behavior of the mock with regards to the setups and the actual calls is determined - by the optional that can be passed to the - constructor. - - Type to mock, which can be an interface or a class. - The following example shows establishing setups with specific values - for method invocations: -


-				// Arrange
-				var order = new Order(TALISKER, 50);
-				var mock = new Mock<IWarehouse>();
-
-				mock.Setup(x => x.HasInventory(TALISKER, 50)).Returns(true);
-
-				// Act
-				order.Fill(mock.Object);
-
-				// Assert
-				Assert.True(order.IsFilled);
-

- The following example shows how to use the class - to specify conditions for arguments instead of specific values: -


-				// Arrange
-				var order = new Order(TALISKER, 50);
-				var mock = new Mock<IWarehouse>();
-
-				// shows how to expect a value within a range
-				mock.Setup(x => x.HasInventory(
-							It.IsAny<string>(),
-							It.IsInRange(0, 100, Range.Inclusive)))
-					 .Returns(false);
-
-				// shows how to throw for unexpected calls.
-				mock.Setup(x => x.Remove(
-							It.IsAny<string>(),
-							It.IsAny<int>()))
-					 .Throws(new InvalidOperationException());
-
-				// Act
-				order.Fill(mock.Object);
-
-				// Assert
-				Assert.False(order.IsFilled);
-

- - - -

- Obsolete. -

- - -

- Obsolete. -

- - -

- Obsolete. -

- - -

- Obsolete. -

- - -

- Obsolete. -

- - -

- Ctor invoked by AsTInterface exclusively. -

- - -

- Initializes an instance of the mock with default behavior. -

- var mock = new Mock<IFormatProvider>(); - - - -

- Initializes an instance of the mock with default behavior and with - the given constructor arguments for the class. (Only valid when is a class) -

- The mock will try to find the best match constructor given the constructor arguments, and invoke that - to initialize the instance. This applies only for classes, not interfaces. - - var mock = new Mock<MyProvider>(someArgument, 25); - Optional constructor arguments if the mocked type is a class. - - -

- Initializes an instance of the mock with the specified behavior. -

- var mock = new Mock<IFormatProvider>(MockBehavior.Relaxed); - Behavior of the mock. - - -

- Initializes an instance of the mock with a specific behavior with - the given constructor arguments for the class. -

- The mock will try to find the best match constructor given the constructor arguments, and invoke that - to initialize the instance. This applies only to classes, not interfaces. - - var mock = new Mock<MyProvider>(someArgument, 25); - Behavior of the mock.Optional constructor arguments if the mocked type is a class. - - -

- Returns the name of the mock -

- - -

- Returns the mocked object value. -

- - -

- Specifies a setup on the mocked type for a call to - to a void method. -

- If more than one setup is specified for the same method or property, - the latest one wins and is the one that will be executed. - Lambda expression that specifies the expected method invocation. -


-				var mock = new Mock<IProcessor>();
-				mock.Setup(x => x.Execute("ping"));
-

- - - -

- Specifies a setup on the mocked type for a call to - to a value returning method. -

Type of the return value. Typically omitted as it can be inferred from the expression. - If more than one setup is specified for the same method or property, - the latest one wins and is the one that will be executed. - Lambda expression that specifies the method invocation. -


-				mock.Setup(x => x.HasInventory("Talisker", 50)).Returns(true);
-

- - - -

- Specifies a setup on the mocked type for a call to - to a property getter. -

- If more than one setup is set for the same property getter, - the latest one wins and is the one that will be executed. - Type of the property. Typically omitted as it can be inferred from the expression.Lambda expression that specifies the property getter. -


-				mock.SetupGet(x => x.Suspended)
-					 .Returns(true);
-

- - - -

- Specifies a setup on the mocked type for a call to - to a property setter. -

- If more than one setup is set for the same property setter, - the latest one wins and is the one that will be executed. - - This overloads allows the use of a callback already - typed for the property type. - - Type of the property. Typically omitted as it can be inferred from the expression.The Lambda expression that sets a property to a value. -


-				mock.SetupSet(x => x.Suspended = true);
-

- - - -

- Specifies a setup on the mocked type for a call to - to a property setter. -

- If more than one setup is set for the same property setter, - the latest one wins and is the one that will be executed. - Lambda expression that sets a property to a value. -


-				mock.SetupSet(x => x.Suspended = true);
-

- - - -

- Specifies that the given property should have "property behavior", - meaning that setting its value will cause it to be saved and - later returned when the property is requested. (this is also - known as "stubbing"). -

- Type of the property, inferred from the property - expression (does not need to be specified). - Property expression to stub. - If you have an interface with an int property Value, you might - stub it using the following straightforward call: -


-				var mock = new Mock<IHaveValue>();
-				mock.Stub(v => v.Value);
-

- After the Stub call has been issued, setting and - retrieving the object value will behave as expected: -


-				IHaveValue v = mock.Object;
-
-				v.Value = 5;
-				Assert.Equal(5, v.Value);
-

- - - -

- Type of the property, inferred from the property - expression (does not need to be specified). - Property expression to stub.Initial value for the property. - If you have an interface with an int property Value, you might - stub it using the following straightforward call: -


-				var mock = new Mock<IHaveValue>();
-				mock.SetupProperty(v => v.Value, 5);
-

- After the SetupProperty call has been issued, setting and - retrieving the object value will behave as expected: -


-				IHaveValue v = mock.Object;
-				// Initial value was stored
-				Assert.Equal(5, v.Value);
-
-				// New value set which changes the initial value
-				v.Value = 6;
-				Assert.Equal(6, v.Value);
-

- - - -

- Specifies that the all properties on the mock should have "property behavior", - meaning that setting its value will cause it to be saved and - later returned when the property is requested. (this is also - known as "stubbing"). The default value for each property will be the - one generated as specified by the property for the mock. -

- If the mock is set to , - the mocked default values will also get all properties setup recursively. - - - - - - -

- Verifies that a specific invocation matching the given expression was performed on the mock. Use - in conjuntion with the default . -

- This example assumes that the mock has been used, and later we want to verify that a given - invocation with specific parameters was performed: -


-				var mock = new Mock<IProcessor>();
-				// exercise mock
-				//...
-				// Will throw if the test code didn't call Execute with a "ping" string argument.
-				mock.Verify(proc => proc.Execute("ping"));
-

- The invocation was not performed on the mock.Expression to verify. - - -

- Verifies that a specific invocation matching the given expression was performed on the mock. Use - in conjuntion with the default . -

- The invocation was not call the times specified by - . - Expression to verify.The number of times a method is allowed to be called. - - -

- Verifies that a specific invocation matching the given expression was performed on the mock. Use - in conjuntion with the default . -

- The invocation was not call the times specified by - . - Expression to verify.The number of times a method is allowed to be called. - - -

- Verifies that a specific invocation matching the given expression was performed on the mock, - specifying a failure error message. Use in conjuntion with the default - . -

- This example assumes that the mock has been used, and later we want to verify that a given - invocation with specific parameters was performed: -


-				var mock = new Mock<IProcessor>();
-				// exercise mock
-				//...
-				// Will throw if the test code didn't call Execute with a "ping" string argument.
-				mock.Verify(proc => proc.Execute("ping"));
-

- The invocation was not performed on the mock.Expression to verify.Message to show if verification fails. - - -

- Verifies that a specific invocation matching the given expression was performed on the mock, - specifying a failure error message. Use in conjuntion with the default - . -

- The invocation was not call the times specified by - . - Expression to verify.The number of times a method is allowed to be called.Message to show if verification fails. - - -

- Verifies that a specific invocation matching the given expression was performed on the mock, - specifying a failure error message. Use in conjuntion with the default - . -

- The invocation was not call the times specified by - . - Expression to verify.The number of times a method is allowed to be called.Message to show if verification fails. - - -

- Verifies that a specific invocation matching the given expression was performed on the mock. Use - in conjuntion with the default . -

- This example assumes that the mock has been used, and later we want to verify that a given - invocation with specific parameters was performed: -


-				var mock = new Mock<IWarehouse>();
-				// exercise mock
-				//...
-				// Will throw if the test code didn't call HasInventory.
-				mock.Verify(warehouse => warehouse.HasInventory(TALISKER, 50));
-

- The invocation was not performed on the mock.Expression to verify.Type of return value from the expression. - - -

- Verifies that a specific invocation matching the given - expression was performed on the mock. Use in conjuntion - with the default . -

- The invocation was not call the times specified by - . - Expression to verify.The number of times a method is allowed to be called.Type of return value from the expression. - - -

- Verifies that a specific invocation matching the given - expression was performed on the mock. Use in conjuntion - with the default . -

- The invocation was not call the times specified by - . - Expression to verify.The number of times a method is allowed to be called.Type of return value from the expression. - - -

- Verifies that a specific invocation matching the given - expression was performed on the mock, specifying a failure - error message. -

- This example assumes that the mock has been used, - and later we want to verify that a given invocation - with specific parameters was performed: -


-				var mock = new Mock<IWarehouse>();
-				// exercise mock
-				//...
-				// Will throw if the test code didn't call HasInventory.
-				mock.Verify(warehouse => warehouse.HasInventory(TALISKER, 50), "When filling orders, inventory has to be checked");
-

- The invocation was not performed on the mock.Expression to verify.Message to show if verification fails.Type of return value from the expression. - - -

- Verifies that a specific invocation matching the given - expression was performed on the mock, specifying a failure - error message. -

- The invocation was not call the times specified by - . - Expression to verify.The number of times a method is allowed to be called.Message to show if verification fails.Type of return value from the expression. - - -

- Verifies that a property was read on the mock. -

- This example assumes that the mock has been used, - and later we want to verify that a given property - was retrieved from it: -


-				var mock = new Mock<IWarehouse>();
-				// exercise mock
-				//...
-				// Will throw if the test code didn't retrieve the IsClosed property.
-				mock.VerifyGet(warehouse => warehouse.IsClosed);
-

- The invocation was not performed on the mock.Expression to verify. - Type of the property to verify. Typically omitted as it can - be inferred from the expression's return type. - - - -

- Verifies that a property was read on the mock. -

- The invocation was not call the times specified by - . - The number of times a method is allowed to be called.Expression to verify. - Type of the property to verify. Typically omitted as it can - be inferred from the expression's return type. - - - -

- Verifies that a property was read on the mock. -

- Verifies that a property was read on the mock, specifying a failure - error message. -

- This example assumes that the mock has been used, - and later we want to verify that a given property - was retrieved from it: -


-				var mock = new Mock<IWarehouse>();
-				// exercise mock
-				//...
-				// Will throw if the test code didn't retrieve the IsClosed property.
-				mock.VerifyGet(warehouse => warehouse.IsClosed);
-

- The invocation was not performed on the mock.Expression to verify.Message to show if verification fails. - Type of the property to verify. Typically omitted as it can - be inferred from the expression's return type. - - - -

- Verifies that a property was read on the mock, specifying a failure - error message. -

- The invocation was not call the times specified by - . - The number of times a method is allowed to be called.Expression to verify.Message to show if verification fails. - Type of the property to verify. Typically omitted as it can - be inferred from the expression's return type. - - - -

- Verifies that a property was read on the mock, specifying a failure - error message. -

- Verifies that a property was set on the mock. -

- This example assumes that the mock has been used, - and later we want to verify that a given property - was set on it: -


-				var mock = new Mock<IWarehouse>();
-				// exercise mock
-				//...
-				// Will throw if the test code didn't set the IsClosed property.
-				mock.VerifySet(warehouse => warehouse.IsClosed = true);
-

- The invocation was not performed on the mock.Expression to verify. - - -

- Verifies that a property was set on the mock. -

- The invocation was not call the times specified by - . - The number of times a method is allowed to be called.Expression to verify. - - -

- Verifies that a property was set on the mock. -

- The invocation was not call the times specified by - . - The number of times a method is allowed to be called.Expression to verify. - - -

- Verifies that a property was set on the mock, specifying - a failure message. -

- This example assumes that the mock has been used, - and later we want to verify that a given property - was set on it: -


-				var mock = new Mock<IWarehouse>();
-				// exercise mock
-				//...
-				// Will throw if the test code didn't set the IsClosed property.
-				mock.VerifySet(warehouse => warehouse.IsClosed = true, "Warehouse should always be closed after the action");
-

- The invocation was not performed on the mock.Expression to verify.Message to show if verification fails. - - -

- Verifies that a property was set on the mock, specifying - a failure message. -

- The invocation was not call the times specified by - . - The number of times a method is allowed to be called.Expression to verify.Message to show if verification fails. - - -

- Verifies that a property was set on the mock, specifying - a failure message. -

- The invocation was not call the times specified by - . - The number of times a method is allowed to be called.Expression to verify.Message to show if verification fails. - - -

- Raises the event referenced in using - the given argument. -

- The argument is - invalid for the target event invocation, or the is - not an event attach or detach expression. - - The following example shows how to raise a event: -


-				var mock = new Mock<IViewModel>();
-
-				mock.Raise(x => x.PropertyChanged -= null, new PropertyChangedEventArgs("Name"));
-

- - This example shows how to invoke an event with a custom event arguments - class in a view that will cause its corresponding presenter to - react by changing its state: -


-				var mockView = new Mock<IOrdersView>();
-				var presenter = new OrdersPresenter(mockView.Object);
-
-				// Check that the presenter has no selection by default
-				Assert.Null(presenter.SelectedOrder);
-
-				// Raise the event with a specific arguments data
-				mockView.Raise(v => v.SelectionChanged += null, new OrderEventArgs { Order = new Order("moq", 500) });
-
-				// Now the presenter reacted to the event, and we have a selected order
-				Assert.NotNull(presenter.SelectedOrder);
-				Assert.Equal("moq", presenter.SelectedOrder.ProductName);
-

- - - -

- Raises the event referenced in using - the given argument for a non-EventHandler typed event. -

- The arguments are - invalid for the target event invocation, or the is - not an event attach or detach expression. - - The following example shows how to raise a custom event that does not adhere to - the standard EventHandler: -


-				var mock = new Mock<IViewModel>();
-
-				mock.Raise(x => x.MyEvent -= null, "Name", bool, 25);
-

- - - -

- Exposes the mocked object instance. -

- - -

- Allows naming of your mocks, so they can be easily identified in error messages (e.g. from failed assertions). -

- - - - - -

- Provides legacy API members as extensions so that - existing code continues to compile, but new code - doesn't see then. -

- - -

- Obsolete. -

- - -

- Obsolete. -

- - -

- Obsolete. -

- - -

- Provides additional methods on mocks. -

- - Provided as extension methods as they confuse the compiler - with the overloads taking Action. - - - -

- Specifies a setup on the mocked type for a call to - to a property setter, regardless of its value. -

- - If more than one setup is set for the same property setter, - the latest one wins and is the one that will be executed. - - Type of the property. Typically omitted as it can be inferred from the expression. - Type of the mock. - The target mock for the setup. - Lambda expression that specifies the property setter. - -


-            mock.SetupSet(x => x.Suspended);
-

- - - This method is not legacy, but must be on an extension method to avoid - confusing the compiler with the new Action syntax. - - - -

- Verifies that a property has been set on the mock, regarless of its value. -

- - This example assumes that the mock has been used, - and later we want to verify that a given invocation - with specific parameters was performed: -


-            var mock = new Mock<IWarehouse>();
-            // exercise mock
-            //...
-            // Will throw if the test code didn't set the IsClosed property.
-            mock.VerifySet(warehouse => warehouse.IsClosed);
-

- - The invocation was not performed on the mock. - Expression to verify. - The mock instance. - Mocked type. - Type of the property to verify. Typically omitted as it can - be inferred from the expression's return type. - - -

- Verifies that a property has been set on the mock, specifying a failure - error message. -

- - This example assumes that the mock has been used, - and later we want to verify that a given invocation - with specific parameters was performed: -


-            var mock = new Mock<IWarehouse>();
-            // exercise mock
-            //...
-            // Will throw if the test code didn't set the IsClosed property.
-            mock.VerifySet(warehouse => warehouse.IsClosed);
-

- - The invocation was not performed on the mock. - Expression to verify. - Message to show if verification fails. - The mock instance. - Mocked type. - Type of the property to verify. Typically omitted as it can - be inferred from the expression's return type. - - -

- Verifies that a property has been set on the mock, regardless - of the value but only the specified number of times. -

- - This example assumes that the mock has been used, - and later we want to verify that a given invocation - with specific parameters was performed: -


-            var mock = new Mock<IWarehouse>();
-            // exercise mock
-            //...
-            // Will throw if the test code didn't set the IsClosed property.
-            mock.VerifySet(warehouse => warehouse.IsClosed);
-

- - The invocation was not performed on the mock. - The invocation was not call the times specified by - . - The mock instance. - Mocked type. - The number of times a method is allowed to be called. - Expression to verify. - Type of the property to verify. Typically omitted as it can - be inferred from the expression's return type. - - -

- Verifies that a property has been set on the mock, regardless - of the value but only the specified number of times, and specifying a failure - error message. -

- - This example assumes that the mock has been used, - and later we want to verify that a given invocation - with specific parameters was performed: -


-            var mock = new Mock<IWarehouse>();
-            // exercise mock
-            //...
-            // Will throw if the test code didn't set the IsClosed property.
-            mock.VerifySet(warehouse => warehouse.IsClosed);
-

- - The invocation was not performed on the mock. - The invocation was not call the times specified by - . - The mock instance. - Mocked type. - The number of times a method is allowed to be called. - Message to show if verification fails. - Expression to verify. - Type of the property to verify. Typically omitted as it can - be inferred from the expression's return type. - - -

- Helper for sequencing return values in the same method. -

- - -

- Return a sequence of values, once per call. -

- - -

- Casts the expression to a lambda expression, removing - a cast if there's any. -

- - -

- Casts the body of the lambda expression to a . -

- If the body is not a method call. - - -

- Converts the body of the lambda expression into the referenced by it. -

- - -

- Checks whether the body of the lambda expression is a property access. -

- - -

- Checks whether the expression is a property access. -

- - -

- Checks whether the body of the lambda expression is a property indexer, which is true - when the expression is an whose - has - equal to . -

- - -

- Checks whether the expression is a property indexer, which is true - when the expression is an whose - has - equal to . -

- - -

- Creates an expression that casts the given expression to the - type. -

- - - - TODO: remove this code when https://connect.microsoft.com/VisualStudio/feedback/ViewFeedback.aspx?FeedbackID=331583 - is fixed. - - - -

- Extracts, into a common form, information from a - around either a (for a normal method call) - or a (for a delegate invocation). -

- - -

- Tests if a type is a delegate type (subclasses ). -

- - -

- Provides partial evaluation of subtrees, whenever they can be evaluated locally. -

- Matt Warren: http://blogs.msdn.com/mattwar - Documented by InSTEDD: http://www.instedd.org - - -

- Performs evaluation and replacement of independent sub-trees -

- The root of the expression tree. - A function that decides whether a given expression - node can be part of the local function. - A new tree with sub-trees evaluated and replaced. - - -

- Performs evaluation and replacement of independent sub-trees -

- The root of the expression tree. - A new tree with sub-trees evaluated and replaced. - - -

- Evaluates and replaces sub-trees when first candidate is reached (top-down) -

- - -

- Performs bottom-up analysis to determine which nodes can possibly - be part of an evaluated sub-tree. -

- - -

- Ensures the given is not null. - Throws otherwise. -

- - -

- Ensures the given string is not null or empty. - Throws in the first case, or - in the latter. -

- - -

- Checks an argument to ensure it is in the specified range including the edges. -

- Type of the argument to check, it must be an type. - - The expression containing the name of the argument. - The argument value to check. - The minimun allowed value for the argument. - The maximun allowed value for the argument. - - -

- Checks an argument to ensure it is in the specified range excluding the edges. -

- Implemented by all generated mock object instances. -

- - -

- Implemented by all generated mock object instances. -

- - -

- Reference the Mock that contains this as the mock.Object value. -

- - -

- Reference the Mock that contains this as the mock.Object value. -

- - -

- Implements the actual interception and method invocation for - all mocks. -

- - -

- Implements the fluent API. -

- - -

- Defines the Callback verb for property setter setups. -

- Type of the property. - - -

- Specifies a callback to invoke when the property is set that receives the - property value being set. -

- Callback method to invoke. - - Invokes the given callback with the property value being set. -


-            mock.SetupSet(x => x.Suspended)
-                .Callback((bool state) => Console.WriteLine(state));
-

- - - -

- Allows the specification of a matching condition for an - argument in a method invocation, rather than a specific - argument value. "It" refers to the argument being matched. -

- This class allows the setup to match a method invocation - with an arbitrary value, with a value in a specified range, or - even one that matches a given predicate. - - - -

- Matches any value of the given type. -

- Typically used when the actual argument value for a method - call is not relevant. - -


-				// Throws an exception for a call to Remove with any string value.
-				mock.Setup(x => x.Remove(It.IsAny<string>())).Throws(new InvalidOperationException());
-

- Type of the value. - - -

- Matches any value of the given type, except null. -

Type of the value. - - -

- Matches any value that satisfies the given predicate. -

Type of the argument to check.The predicate used to match the method argument. - Allows the specification of a predicate to perform matching - of method call arguments. - - This example shows how to return the value 1 whenever the argument to the - Do method is an even number. -


-				mock.Setup(x => x.Do(It.Is<int>(i => i % 2 == 0)))
-				.Returns(1);
-

- This example shows how to throw an exception if the argument to the - method is a negative number: -


-				mock.Setup(x => x.GetUser(It.Is<int>(i => i < 0)))
-				.Throws(new ArgumentException());
-

- - - -

- Matches any value that is in the range specified. -

Type of the argument to check.The lower bound of the range.The upper bound of the range. - The kind of range. See . - - The following example shows how to expect a method call - with an integer argument within the 0..100 range. -


-				mock.Setup(x => x.HasInventory(
-				It.IsAny<string>(),
-				It.IsInRange(0, 100, Range.Inclusive)))
-				.Returns(false);
-

- - - -

- Matches any value that is present in the sequence specified. -

Type of the argument to check.The sequence of possible values. - The following example shows how to expect a method call - with an integer argument with value from a list. -


-				var values = new List<int> { 1, 2, 3 };
-			
-				mock.Setup(x => x.HasInventory(
-				It.IsAny<string>(),
-				It.IsIn(values)))
-				.Returns(false);
-

- - - -

- Matches any value that is present in the sequence specified. -

Type of the argument to check.The sequence of possible values. - The following example shows how to expect a method call - with an integer argument with a value of 1, 2, or 3. -


-				mock.Setup(x => x.HasInventory(
-				It.IsAny<string>(),
-				It.IsIn(1, 2, 3)))
-				.Returns(false);
-

- - - -

- Matches any value that is not found in the sequence specified. -

Type of the argument to check.The sequence of disallowed values. - The following example shows how to expect a method call - with an integer argument with value not found from a list. -


-				var values = new List<int> { 1, 2, 3 };
-				
-				mock.Setup(x => x.HasInventory(
-				It.IsAny<string>(),
-				It.IsNotIn(values)))
-				.Returns(false);
-

- - - -

- Matches any value that is not found in the sequence specified. -

Type of the argument to check.The sequence of disallowed values. - The following example shows how to expect a method call - with an integer argument of any value except 1, 2, or 3. -


-				mock.Setup(x => x.HasInventory(
-				It.IsAny<string>(),
-				It.IsNotIn(1, 2, 3)))
-				.Returns(false);
-

- - - -

- Matches a string argument if it matches the given regular expression pattern. -

The pattern to use to match the string argument value. - The following example shows how to expect a call to a method where the - string argument matches the given regular expression: -


-				mock.Setup(x => x.Check(It.IsRegex("[a-z]+"))).Returns(1);
-

- - - -

- Matches a string argument if it matches the given regular expression pattern. -

The pattern to use to match the string argument value.The options used to interpret the pattern. - The following example shows how to expect a call to a method where the - string argument matches the given regular expression, in a case insensitive way: -


-				mock.Setup(x => x.Check(It.IsRegex("[a-z]+", RegexOptions.IgnoreCase))).Returns(1);
-

- - - -

- Matcher to treat static functions as matchers. - - mock.Setup(x => x.StringMethod(A.MagicString())); - - public static class A - { - [Matcher] - public static string MagicString() { return null; } - public static bool MagicString(string arg) - { - return arg == "magic"; - } - } - - Will succeed if: mock.Object.StringMethod("magic"); - and fail with any other call. -

- - -

- Options to customize the behavior of the mock. -

- - -

- Causes the mock to always throw - an exception for invocations that don't have a - corresponding setup. -

- - -

- Will never throw exceptions, returning default - values when necessary (null for reference types, - zero for value types or empty enumerables and arrays). -

- - -

- Default mock behavior, which equals . -

- - -

- Exception thrown by mocks when setups are not matched, - the mock is not properly setup, etc. -

- - A distinct exception type is provided so that exceptions - thrown by the mock can be differentiated in tests that - expect other exceptions to be thrown (i.e. ArgumentException). - - Richer exception hierarchy/types are not provided as - tests typically should not catch or expect exceptions - from the mocks. These are typically the result of changes - in the tested class or its collaborators implementation, and - result in fixes in the mock setup so that they dissapear and - allow the test to pass. - - - - -

- Supports the serialization infrastructure. -

- Serialization information. - Streaming context. - - -

- Supports the serialization infrastructure. -

- Serialization information. - Streaming context. - - -

- Indicates whether this exception is a verification fault raised by Verify() -

- - -

- Made internal as it's of no use for - consumers, but it's important for - our own tests. -

- - - - Used by the mock factory to accumulate verification - failures. - - - -

- Supports the serialization infrastructure. -

- - -

- A strongly-typed resource class, for looking up localized strings, etc. -

- - -

- Returns the cached ResourceManager instance used by this class. -

- - -

- Overrides the current thread's CurrentUICulture property for all - resource lookups using this strongly typed resource class. -

- - -

- Looks up a localized string similar to Mock type has already been initialized by accessing its Object property. Adding interfaces must be done before that.. -

- - -

- Looks up a localized string similar to Value cannot be an empty string.. -

- - -

- Looks up a localized string similar to Can only add interfaces to the mock.. -

- - -

- Looks up a localized string similar to Can't set return value for void method {0}.. -

- - -

- Looks up a localized string similar to Constructor arguments cannot be passed for delegate mocks.. -

- - -

- Looks up a localized string similar to Constructor arguments cannot be passed for interface mocks.. -

- - -

- Looks up a localized string similar to A matching constructor for the given arguments was not found on the mocked type.. -

- - -

- Looks up a localized string similar to Could not locate event for attach or detach method {0}.. -

- - -

- Looks up a localized string similar to Expression {0} involves a field access, which is not supported. Use properties instead.. -

- - -

- Looks up a localized string similar to Type to mock must be an interface or an abstract or non-sealed class. . -

- - -

- Looks up a localized string similar to Cannot retrieve a mock with the given object type {0} as it's not the main type of the mock or any of its additional interfaces. - Please cast the argument to one of the supported types: {1}. - Remember that there's no generics covariance in the CLR, so your object must be one of these types in order for the call to succeed.. -

- - -

- Looks up a localized string similar to The equals ("==" or "=" in VB) and the conditional 'and' ("&&" or "AndAlso" in VB) operators are the only ones supported in the query specification expression. Unsupported expression: {0}. -

- - -

- Looks up a localized string similar to LINQ method '{0}' not supported.. -

- - -

- Looks up a localized string similar to Expression contains a call to a method which is not virtual (overridable in VB) or abstract. Unsupported expression: {0}. -

- - -

- Looks up a localized string similar to Member {0}.{1} does not exist.. -

- - -

- Looks up a localized string similar to Method {0}.{1} is public. Use strong-typed Expect overload instead: - mock.Setup(x => x.{1}()); - . -

- - -

- Looks up a localized string similar to {0} invocation failed with mock behavior {1}. - {2}. -

- - -

- Looks up a localized string similar to Expected only {0} calls to {1}.. -

- - -

- Looks up a localized string similar to Expected only one call to {0}.. -

- - -

- Looks up a localized string similar to {0} - Expected invocation on the mock at least {2} times, but was {4} times: {1}. -

- - -

- Looks up a localized string similar to {0} - Expected invocation on the mock at least once, but was never performed: {1}. -

- - -

- Looks up a localized string similar to {0} - Expected invocation on the mock at most {3} times, but was {4} times: {1}. -

- - -

- Looks up a localized string similar to {0} - Expected invocation on the mock at most once, but was {4} times: {1}. -

- - -

- Looks up a localized string similar to {0} - Expected invocation on the mock between {2} and {3} times (Exclusive), but was {4} times: {1}. -

- - -

- Looks up a localized string similar to {0} - Expected invocation on the mock between {2} and {3} times (Inclusive), but was {4} times: {1}. -

- - -

- Looks up a localized string similar to {0} - Expected invocation on the mock exactly {2} times, but was {4} times: {1}. -

- - -

- Looks up a localized string similar to {0} - Expected invocation on the mock should never have been performed, but was {4} times: {1}. -

- - -

- Looks up a localized string similar to {0} - Expected invocation on the mock once, but was {4} times: {1}. -

- - -

- Looks up a localized string similar to All invocations on the mock must have a corresponding setup.. -

- - -

- Looks up a localized string similar to Object instance was not created by Moq.. -

- - -

- Looks up a localized string similar to Out expression must evaluate to a constant value.. -

- - -

- Looks up a localized string similar to Property {0}.{1} does not have a getter.. -

- - -

- Looks up a localized string similar to Property {0}.{1} does not exist.. -

- - -

- Looks up a localized string similar to Property {0}.{1} is write-only.. -

- - -

- Looks up a localized string similar to Property {0}.{1} is read-only.. -

- - -

- Looks up a localized string similar to Property {0}.{1} does not have a setter.. -

- - -

- Looks up a localized string similar to Cannot raise a mocked event unless it has been associated (attached) to a concrete event in a mocked object.. -

- - -

- Looks up a localized string similar to Ref expression must evaluate to a constant value.. -

- - -

- Looks up a localized string similar to Invocation needs to return a value and therefore must have a corresponding setup that provides it.. -

- - -

- Looks up a localized string similar to A lambda expression is expected as the argument to It.Is<T>.. -

- - -

- Looks up a localized string similar to Invocation {0} should not have been made.. -

- - -

- Looks up a localized string similar to Expression is not a method invocation: {0}. -

- - -

- Looks up a localized string similar to Expression is not a property access: {0}. -

- - -

- Looks up a localized string similar to Expression is not a property setter invocation.. -

- - -

- Looks up a localized string similar to Expression references a method that does not belong to the mocked object: {0}. -

- - -

- Looks up a localized string similar to Invalid setup on a non-virtual (overridable in VB) member: {0}. -

- - -

- Looks up a localized string similar to Type {0} does not implement required interface {1}. -

- - -

- Looks up a localized string similar to Type {0} does not from required type {1}. -

- - -

- Looks up a localized string similar to To specify a setup for public property {0}.{1}, use the typed overloads, such as: - mock.Setup(x => x.{1}).Returns(value); - mock.SetupGet(x => x.{1}).Returns(value); //equivalent to previous one - mock.SetupSet(x => x.{1}).Callback(callbackDelegate); - . -

- - -

- Looks up a localized string similar to Unsupported expression: {0}. -

- - -

- Looks up a localized string similar to Only property accesses are supported in intermediate invocations on a setup. Unsupported expression {0}.. -

- - -

- Looks up a localized string similar to Expression contains intermediate property access {0}.{1} which is of type {2} and cannot be mocked. Unsupported expression {3}.. -

- - -

- Looks up a localized string similar to Setter expression cannot use argument matchers that receive parameters.. -

- - -

- Looks up a localized string similar to Member {0} is not supported for protected mocking.. -

- - -

- Looks up a localized string similar to Setter expression can only use static custom matchers.. -

- - -

- Looks up a localized string similar to The following setups were not matched: - {0}. -

- - -

- Looks up a localized string similar to Invalid verify on a non-virtual (overridable in VB) member: {0}. -

- - -

- Allows setups to be specified for protected members by using their - name as a string, rather than strong-typing them which is not possible - due to their visibility. -

- - -

- Specifies a setup for a void method invocation with the given - , optionally specifying arguments for the method call. -

- The name of the void method to be invoked. - The optional arguments for the invocation. If argument matchers are used, - remember to use rather than . - - -

- Specifies a setup for an invocation on a property or a non void method with the given - , optionally specifying arguments for the method call. -

- The name of the method or property to be invoked. - The optional arguments for the invocation. If argument matchers are used, - remember to use rather than . - The return type of the method or property. - - -

- Specifies a setup for an invocation on a property getter with the given - . -

- The name of the property. - The type of the property. - - -

- Specifies a setup for an invocation on a property setter with the given - . -

- The name of the property. - The property value. If argument matchers are used, - remember to use rather than . - The type of the property. - - -

- Specifies a verify for a void method with the given , - optionally specifying arguments for the method call. Use in conjuntion with the default - . -

- The invocation was not call the times specified by - . - The name of the void method to be verified. - The number of times a method is allowed to be called. - The optional arguments for the invocation. If argument matchers are used, - remember to use rather than . - - -

- Specifies a verify for an invocation on a property or a non void method with the given - , optionally specifying arguments for the method call. -

- The invocation was not call the times specified by - . - The name of the method or property to be invoked. - The optional arguments for the invocation. If argument matchers are used, - remember to use rather than . - The number of times a method is allowed to be called. - The type of return value from the expression. - - -

- Specifies a verify for an invocation on a property getter with the given - . - The invocation was not call the times specified by - . -

- The name of the property. - The number of times a method is allowed to be called. - The type of the property. - - -

- Specifies a setup for an invocation on a property setter with the given - . -

- The invocation was not call the times specified by - . - The name of the property. - The number of times a method is allowed to be called. - The property value. - The type of the property. If argument matchers are used, - remember to use rather than . - - -

- Allows the specification of a matching condition for an - argument in a protected member setup, rather than a specific - argument value. "ItExpr" refers to the argument being matched. -

- - Use this variant of argument matching instead of - for protected setups. - This class allows the setup to match a method invocation - with an arbitrary value, with a value in a specified range, or - even one that matches a given predicate, or null. - - - -

- Matches a null value of the given type. -

- - Required for protected mocks as the null value cannot be used - directly as it prevents proper method overload selection. - - -


-            // Throws an exception for a call to Remove with a null string value.
-            mock.Protected()
-                .Setup("Remove", ItExpr.IsNull<string>())
-                .Throws(new InvalidOperationException());
-

- - Type of the value. - - -

- Matches any value of the given type. -

- - Typically used when the actual argument value for a method - call is not relevant. - - -


-            // Throws an exception for a call to Remove with any string value.
-            mock.Protected()
-                .Setup("Remove", ItExpr.IsAny<string>())
-                .Throws(new InvalidOperationException());
-

- - Type of the value. - - -

- Matches any value that satisfies the given predicate. -

- Type of the argument to check. - The predicate used to match the method argument. - - Allows the specification of a predicate to perform matching - of method call arguments. - - - This example shows how to return the value 1 whenever the argument to the - Do method is an even number. -


-            mock.Protected()
-                .Setup("Do", ItExpr.Is<int>(i => i % 2 == 0))
-                .Returns(1);
-

- This example shows how to throw an exception if the argument to the - method is a negative number: -


-            mock.Protected()
-                .Setup("GetUser", ItExpr.Is<int>(i => i < 0))
-                .Throws(new ArgumentException());
-

- - - -

- Matches any value that is in the range specified. -

- Type of the argument to check. - The lower bound of the range. - The upper bound of the range. - The kind of range. See . - - The following example shows how to expect a method call - with an integer argument within the 0..100 range. -


-            mock.Protected()
-                .Setup("HasInventory",
-                        ItExpr.IsAny<string>(),
-                        ItExpr.IsInRange(0, 100, Range.Inclusive))
-                .Returns(false);
-

- - - -

- Matches a string argument if it matches the given regular expression pattern. -

- The pattern to use to match the string argument value. - - The following example shows how to expect a call to a method where the - string argument matches the given regular expression: -


-            mock.Protected()
-                .Setup("Check", ItExpr.IsRegex("[a-z]+"))
-                .Returns(1);
-

- - - -

- Matches a string argument if it matches the given regular expression pattern. -

- The pattern to use to match the string argument value. - The options used to interpret the pattern. - - The following example shows how to expect a call to a method where the - string argument matches the given regular expression, in a case insensitive way: -


-            mock.Protected()
-                .Setup("Check", ItExpr.IsRegex("[a-z]+", RegexOptions.IgnoreCase))
-                .Returns(1);
-

- - - -

- Enables the Protected() method on , - allowing setups to be set for protected members by using their - name as a string, rather than strong-typing them which is not possible - due to their visibility. -

- - -

- Enable protected setups for the mock. -

- Mocked object type. Typically omitted as it can be inferred from the mock instance. - The mock to set the protected setups on. - - - - - - - - - - -

- Kind of range to use in a filter specified through - . -

- - -

- The range includes the to and - from values. -

- - -

- The range does not include the to and - from values. -

- - -

- Determines the way default values are generated - calculated for loose mocks. -

- - -

- Default behavior, which generates empty values for - value types (i.e. default(int)), empty array and - enumerables, and nulls for all other reference types. -

- - -

- Whenever the default value generated by - is null, replaces this value with a mock (if the type - can be mocked). -

- - For sealed classes, a null value will be generated. - - - -

- A default implementation of IQueryable for use with QueryProvider -

- - -

- The is a - static method that returns an IQueryable of Mocks of T which is used to - apply the linq specification to. -

- - -

- Allows creation custom value matchers that can be used on setups and verification, - completely replacing the built-in class with your own argument - matching rules. -

- See also . - - - - - Provided for the sole purpose of rendering the delegate passed to the - matcher constructor if no friendly render lambda is provided. - - - -

- Initializes the match with the condition that - will be checked in order to match invocation - values. -

The condition to match against actual values. - - - - - - - - - This method is used to set an expression as the last matcher invoked, - which is used in the SetupSet to allow matchers in the prop = value - delegate expression. This delegate is executed in "fluent" mode in - order to capture the value being set, and construct the corresponding - methodcall. - This is also used in the MatcherFactory for each argument expression. - This method ensures that when we execute the delegate, we - also track the matcher that was invoked, so that when we create the - methodcall we build the expression using it, rather than the null/default - value returned from the actual invocation. - - - -

- Allows creation custom value matchers that can be used on setups and verification, - completely replacing the built-in class with your own argument - matching rules. -

Type of the value to match. - The argument matching is used to determine whether a concrete - invocation in the mock matches a given setup. This - matching mechanism is fully extensible. - - Creating a custom matcher is straightforward. You just need to create a method - that returns a value from a call to with - your matching condition and optional friendly render expression: -


-				[Matcher]
-				public Order IsBigOrder()
-				{
-					return Match<Order>.Create(
-						o => o.GrandTotal >= 5000, 
-						/* a friendly expression to render on failures */
-						() => IsBigOrder());
-				}
-

- This method can be used in any mock setup invocation: -


-				mock.Setup(m => m.Submit(IsBigOrder()).Throws<UnauthorizedAccessException>();
-

- At runtime, Moq knows that the return value was a matcher (note that the method MUST be - annotated with the [Matcher] attribute in order to determine this) and - evaluates your predicate with the actual value passed into your predicate. - - Another example might be a case where you want to match a lists of orders - that contains a particular one. You might create matcher like the following: - -


-				public static class Orders
-				{
-					[Matcher]
-					public static IEnumerable<Order> Contains(Order order)
-					{
-						return Match<IEnumerable<Order>>.Create(orders => orders.Contains(order));
-					}
-				}
-

- Now we can invoke this static method instead of an argument in an - invocation: -


-				var order = new Order { ... };
-				var mock = new Mock<IRepository<Order>>();
-
-				mock.Setup(x => x.Save(Orders.Contains(order)))
-					 .Throws<ArgumentException>();
-

- - - -

- Tracks the current mock and interception context. -

- - -

- Having an active fluent mock context means that the invocation - is being performed in "trial" mode, just to gather the - target method and arguments that need to be matched later - when the actual invocation is made. -

- - -

- A that returns an empty default value - for non-mockeable types, and mocks for all other types (interfaces and - non-sealed classes) that can be mocked. -

- - -

- Allows querying the universe of mocks for those that behave - according to the LINQ query specification. -

- - This entry-point into Linq to Mocks is the only one in the root Moq - namespace to ease discovery. But to get all the mocking extension - methods on Object, a using of Moq.Linq must be done, so that the - polluting of the intellisense for all objects is an explicit opt-in. - - - -

- Access the universe of mocks of the given type, to retrieve those - that behave according to the LINQ query specification. -

- The type of the mocked object to query. - - -

- Access the universe of mocks of the given type, to retrieve those - that behave according to the LINQ query specification. -

- The predicate with the setup expressions. - The type of the mocked object to query. - - -

- Creates an mock object of the indicated type. -

- The type of the mocked object. - The mocked object created. - - -

- Creates an mock object of the indicated type. -

- The predicate with the setup expressions. - The type of the mocked object. - The mocked object created. - - -

- Creates the mock query with the underlying queriable implementation. -

- - -

- Wraps the enumerator inside a queryable. -

- - -

- Method that is turned into the actual call from .Query{T}, to - transform the queryable query into a normal enumerable query. - This method is never used directly by consumers. -

- - -

- Extension method used to support Linq-like setup properties that are not virtual but do have - a getter and a setter, thereby allowing the use of Linq to Mocks to quickly initialize Dtos too :) -

- - -

- Helper extensions that are used by the query translator. -

- - -

- Retrieves a fluent mock from the given setup expression. -

- - -

- Gets an autogenerated interface with a method on it that matches the signature of the specified - . -

- - Such an interface can then be mocked, and a delegate pointed at the method on the mocked instance. - This is how we support delegate mocking. The factory caches such interfaces and reuses them - for repeated requests for the same delegate type. - - The delegate type for which an interface is required. - The method on the autogenerated interface. - - - - - - - - -

- Defines the number of invocations allowed by a mocked method. -

- - -

- Specifies that a mocked method should be invoked times as minimum. -

The minimun number of times.An object defining the allowed number of invocations. - - -

- Specifies that a mocked method should be invoked one time as minimum. -

An object defining the allowed number of invocations. - - -

- Specifies that a mocked method should be invoked time as maximun. -

The maximun number of times.An object defining the allowed number of invocations. - - -

- Specifies that a mocked method should be invoked one time as maximun. -

An object defining the allowed number of invocations. - - -

- Specifies that a mocked method should be invoked between and - times. -

The minimun number of times.The maximun number of times. - The kind of range. See . - An object defining the allowed number of invocations. - - -

- Specifies that a mocked method should be invoked exactly times. -

The times that a method or property can be called.An object defining the allowed number of invocations. - - -

- Specifies that a mocked method should not be invoked. -

An object defining the allowed number of invocations. - - -

- Specifies that a mocked method should be invoked exactly one time. -

An object defining the allowed number of invocations. - - -

- Determines whether the specified is equal to this instance. -

- The to compare with this instance. - - true if the specified is equal to this instance; otherwise, false. - - - -

- Returns a hash code for this instance. -

- A hash code for this instance, suitable for use in hashing algorithms and data structures like a hash table. - - - -

- Determines whether two specified objects have the same value. -

- The first . - - The second . - - true if the value of left is the same as the value of right; otherwise, false. - - - -

- Determines whether two specified objects have different values. -

- The first . - - The second . - - true if the value of left is different from the value of right; otherwise, false. - - - - diff --git a/Lib/NuGet/NuGet.exe b/Lib/NuGet/NuGet.exe deleted file mode 100644 index cb3ed0367..000000000 Binary files a/Lib/NuGet/NuGet.exe and /dev/null differ diff --git a/Lib/NuGet/NuGet.license.txt b/Lib/NuGet/NuGet.license.txt deleted file mode 100644 index 48715cacc..000000000 --- a/Lib/NuGet/NuGet.license.txt +++ /dev/null @@ -1,29 +0,0 @@ -This license governs use of the accompanying software. If you use the software, you accept this license. If you do not accept the license, do not use the software. - -1. Definitions - -The terms "reproduce," "reproduction," "derivative works," and "distribution" have the same meaning here as under U.S. copyright law. - -A "contribution" is the original software, or any additions or changes to the software. - -A "contributor" is any person that distributes its contribution under this license. - -"Licensed patents" are a contributor's patent claims that read directly on its contribution. - -2. Grant of Rights - -(A) Copyright Grant- Subject to the terms of this license, including the license conditions and limitations in section 3, each contributor grants you a non-exclusive, worldwide, royalty-free copyright license to reproduce its contribution, prepare derivative works of its contribution, and distribute its contribution or any derivative works that you create. - -(B) Patent Grant- Subject to the terms of this license, including the license conditions and limitations in section 3, each contributor grants you a non-exclusive, worldwide, royalty-free license under its licensed patents to make, have made, use, sell, offer for sale, import, and/or otherwise dispose of its contribution in the software or derivative works of the contribution in the software. - -3. Conditions and Limitations - -(A) No Trademark License- This license does not grant you rights to use any contributors' name, logo, or trademarks. - -(B) If you bring a patent claim against any contributor over patents that you claim are infringed by the software, your patent license from such contributor to the software ends automatically. - -(C) If you distribute any portion of the software, you must retain all copyright, patent, trademark, and attribution notices that are present in the software. - -(D) If you distribute any portion of the software in source code form, you may do so only under this license by including a complete copy of this license with your distribution. If you distribute any portion of the software in compiled or object code form, you may only do so under a license that complies with this license. - -(E) The software is licensed "as-is." You bear the risk of using it. The contributors give no express warranties, guarantees or conditions. You may have additional consumer rights under your local laws which this license cannot change. To the extent permitted under your local laws, the contributors exclude the implied warranties of merchantability, fitness for a particular purpose and non-infringement. diff --git a/Lib/xUnit/xUnit.license.txt b/Lib/xUnit/xUnit.license.txt deleted file mode 100644 index 48715cacc..000000000 --- a/Lib/xUnit/xUnit.license.txt +++ /dev/null @@ -1,29 +0,0 @@ -This license governs use of the accompanying software. If you use the software, you accept this license. If you do not accept the license, do not use the software. - -1. Definitions - -The terms "reproduce," "reproduction," "derivative works," and "distribution" have the same meaning here as under U.S. copyright law. - -A "contribution" is the original software, or any additions or changes to the software. - -A "contributor" is any person that distributes its contribution under this license. - -"Licensed patents" are a contributor's patent claims that read directly on its contribution. - -2. Grant of Rights - -(A) Copyright Grant- Subject to the terms of this license, including the license conditions and limitations in section 3, each contributor grants you a non-exclusive, worldwide, royalty-free copyright license to reproduce its contribution, prepare derivative works of its contribution, and distribute its contribution or any derivative works that you create. - -(B) Patent Grant- Subject to the terms of this license, including the license conditions and limitations in section 3, each contributor grants you a non-exclusive, worldwide, royalty-free license under its licensed patents to make, have made, use, sell, offer for sale, import, and/or otherwise dispose of its contribution in the software or derivative works of the contribution in the software. - -3. Conditions and Limitations - -(A) No Trademark License- This license does not grant you rights to use any contributors' name, logo, or trademarks. - -(B) If you bring a patent claim against any contributor over patents that you claim are infringed by the software, your patent license from such contributor to the software ends automatically. - -(C) If you distribute any portion of the software, you must retain all copyright, patent, trademark, and attribution notices that are present in the software. - -(D) If you distribute any portion of the software in source code form, you may do so only under this license by including a complete copy of this license with your distribution. If you distribute any portion of the software in compiled or object code form, you may only do so under a license that complies with this license. - -(E) The software is licensed "as-is." You bear the risk of using it. The contributors give no express warranties, guarantees or conditions. You may have additional consumer rights under your local laws which this license cannot change. To the extent permitted under your local laws, the contributors exclude the implied warranties of merchantability, fitness for a particular purpose and non-infringement. diff --git a/Lib/xUnit/xunit.dll b/Lib/xUnit/xunit.dll deleted file mode 100644 index 86168af53..000000000 Binary files a/Lib/xUnit/xunit.dll and /dev/null differ diff --git a/Lib/xUnit/xunit.dll.tdnet b/Lib/xUnit/xunit.dll.tdnet deleted file mode 100644 index d14ca810f..000000000 --- a/Lib/xUnit/xunit.dll.tdnet +++ /dev/null @@ -1,5 +0,0 @@ - - xUnit.net {0}.{1}.{2} build {3} - xunit.runner.tdnet.dll - Xunit.Runner.TdNet.TdNetRunner - \ No newline at end of file diff --git a/Lib/xUnit/xunit.extensions.dll b/Lib/xUnit/xunit.extensions.dll deleted file mode 100644 index 0b1907e63..000000000 Binary files a/Lib/xUnit/xunit.extensions.dll and /dev/null differ diff --git a/Lib/xUnit/xunit.extensions.xml b/Lib/xUnit/xunit.extensions.xml deleted file mode 100644 index 7434835a5..000000000 --- a/Lib/xUnit/xunit.extensions.xml +++ /dev/null @@ -1,805 +0,0 @@ - - - - xunit.extensions - - - -

- A wrapper for Assert which is used by . -

- - -

- Verifies that a collection contains a given object. -

- The type of the object to be verified - The object expected to be in the collection - The collection to be inspected - Thrown when the object is not present in the collection - - -

- Verifies that a collection contains a given object, using an equality comparer. -

- The type of the object to be verified - The object expected to be in the collection - The collection to be inspected - The comparer used to equate objects in the collection with the expected object - Thrown when the object is not present in the collection - - -

- Verifies that a string contains a given sub-string, using the current culture. -

- The sub-string expected to be in the string - The string to be inspected - Thrown when the sub-string is not present inside the string - - -

- Verifies that a string contains a given sub-string, using the given comparison type. -

- The sub-string expected to be in the string - The string to be inspected - The type of string comparison to perform - Thrown when the sub-string is not present inside the string - - -

- Verifies that a collection does not contain a given object. -

- The type of the object to be compared - The object that is expected not to be in the collection - The collection to be inspected - Thrown when the object is present inside the container - - -

- Verifies that a collection does not contain a given object, using an equality comparer. -

- The type of the object to be compared - The object that is expected not to be in the collection - The collection to be inspected - The comparer used to equate objects in the collection with the expected object - Thrown when the object is present inside the container - - -

- Verifies that a string does not contain a given sub-string, using the current culture. -

- The sub-string which is expected not to be in the string - The string to be inspected - Thrown when the sub-string is present inside the string - - -

- Verifies that a string does not contain a given sub-string, using the current culture. -

- The sub-string which is expected not to be in the string - The string to be inspected - The type of string comparison to perform - Thrown when the sub-string is present inside the given string - - -

- Verifies that a block of code does not throw any exceptions. -

- A delegate to the code to be tested - - -

- Verifies that a collection is empty. -

- The collection to be inspected - Thrown when the collection is null - Thrown when the collection is not empty - - -

- Verifies that two objects are equal, using a default comparer. -

- The type of the objects to be compared - The expected value - The value to be compared against - Thrown when the objects are not equal - - -

- Verifies that two objects are equal, using a custom equatable comparer. -

- The type of the objects to be compared - The expected value - The value to be compared against - The comparer used to compare the two objects - Thrown when the objects are not equal - - -

- Verifies that two values are equal, within the number of decimal - places given by . -

- The expected value - The value to be compared against - The number of decimal places (valid values: 0-15) - Thrown when the values are not equal - - -

- Verifies that two values are equal, within the number of decimal - places given by . -

- The expected value - The value to be compared against - The number of decimal places (valid values: 0-15) - Thrown when the values are not equal - - -

- Verifies that the condition is false. -

- The condition to be tested - Thrown if the condition is not false - - -

- Verifies that the condition is false. -

- The condition to be tested - The message to show when the condition is not false - Thrown if the condition is not false - - -

- Verifies that a value is within a given range. -

- The type of the value to be compared - The actual value to be evaluated - The (inclusive) low value of the range - The (inclusive) high value of the range - Thrown when the value is not in the given range - - -

- Verifies that a value is within a given range, using a comparer. -

- The type of the value to be compared - The actual value to be evaluated - The (inclusive) low value of the range - The (inclusive) high value of the range - The comparer used to evaluate the value's range - Thrown when the value is not in the given range - - -

- Verifies that an object is of the given type or a derived type. -

- The type the object should be - The object to be evaluated - The object, casted to type T when successful - Thrown when the object is not the given type - - -

- Verifies that an object is of the given type or a derived type. -

- The type the object should be - The object to be evaluated - Thrown when the object is not the given type - - -

- Verifies that an object is not exactly the given type. -

- The type the object should not be - The object to be evaluated - Thrown when the object is the given type - - -

- Verifies that an object is not exactly the given type. -

- The type the object should not be - The object to be evaluated - Thrown when the object is the given type - - -

- Verifies that an object is exactly the given type (and not a derived type). -

- The type the object should be - The object to be evaluated - The object, casted to type T when successful - Thrown when the object is not the given type - - -

- Verifies that an object is exactly the given type (and not a derived type). -

- The type the object should be - The object to be evaluated - Thrown when the object is not the given type - - -

- Verifies that a collection is not empty. -

- The collection to be inspected - Thrown when a null collection is passed - Thrown when the collection is empty - - -

- Verifies that two objects are not equal, using a default comparer. -

- The type of the objects to be compared - The expected object - The actual object - Thrown when the objects are equal - - -

- Verifies that two objects are not equal, using a custom equality comparer. -

- The type of the objects to be compared - The expected object - The actual object - The comparer used to examine the objects - Thrown when the objects are equal - - -

- Verifies that a value is not within a given range, using the default comparer. -

- The type of the value to be compared - The actual value to be evaluated - The (inclusive) low value of the range - The (inclusive) high value of the range - Thrown when the value is in the given range - - -

- Verifies that a value is not within a given range, using a comparer. -

- Verifies that an object reference is not null. -

- The object to be validated - Thrown when the object is not null - - -

- Verifies that two objects are not the same instance. -

- The expected object instance - The actual object instance - Thrown when the objects are the same instance - - -

- Verifies that an object reference is null. -

- The object to be inspected - Thrown when the object reference is not null - - -

- Verifies that two objects are the same instance. -

- The expected object instance - The actual object instance - Thrown when the objects are not the same instance - - -

- Verifies that the given collection contains only a single - element of the given type. -

- The collection. - The single item in the collection. - Thrown when the collection does not contain - exactly one element. - - -

- Verifies that the given collection contains only a single - element of the given type. -

- The collection type. - The collection. - The single item in the collection. - Thrown when the collection does not contain - exactly one element. - - -

- Verifies that the exact exception is thrown (and not a derived exception type). -

- The type of the exception expected to be thrown - A delegate to the code to be tested - The exception that was thrown, when successful - Thrown when an exception was not thrown, or when an exception of the incorrect type is thrown - - -

- Verifies that the exact exception is thrown (and not a derived exception type). - Generally used to test property accessors. -

- Verifies that the exact exception is thrown (and not a derived exception type). -

- Verifies that the exact exception is thrown (and not a derived exception type). - Generally used to test property accessors. -

- Verifies that an expression is true. -

- The condition to be inspected - Thrown when the condition is false - - -

- Verifies that an expression is true. -

- The condition to be inspected - The message to be shown when the condition is false - Thrown when the condition is false - - -

- A class which can be derived from for test classes, which bring an overridable version - of Assert (using the class. -

- - -

- Gets a class which provides assertions. -

- - -

- Apply this attribute to your test method to replace the - with another role. -

- - -

- Replaces the identity of the current thread with . -

- The role's name - - -

- Restores the original . -

- The method under test - - -

- Stores the current and replaces it with - a new role identified in constructor. -

- The method under test - - -

- Gets the name. -

- - -

- Apply this attribute to your test method to automatically create a - that is rolled back when the test is - finished. -

- - -

- Rolls back the transaction. -

- - -

- Creates the transaction. -

- - -

- Gets or sets the isolation level of the transaction. - Default value is .Unspecified. -

- - -

- Gets or sets the scope option for the transaction. - Default value is .Required. -

- - -

- Gets or sets the timeout of the transaction, in milliseconds. - By default, the transaction will not timeout. -

- - -

- Provides a data source for a data theory, with the data coming from a class - which must implement IEnumerable<object[]>. -

- - -

- Abstract attribute which represents a data source for a data theory. - Data source providers derive from this attribute and implement GetData - to return the data for the theory. -

- - -

- Returns the data to be used to test the theory. -

- - The parameter is provided so that the - test data can be converted to the destination parameter type when necessary. - Generally, data should NOT be automatically converted, UNLESS the source data - format does not have rich types (for example, all numbers in Excel spreadsheets - are returned as even if they are integers). Derivers of - this class should NOT throw exceptions for mismatched types or mismatched number - of parameters; the test framework will throw these exceptions at the correct - time. - - The method that is being tested - The types of the parameters for the test method - The theory data - - - - - -

- Initializes a new instance of the class. -

- The class that provides the data. - - - - - -

- Gets the type of the class that provides the data. -

- - -

- Represents an implementation of which uses an - instance of to get the data for a - decorated test method. -

- - - - - -

- Converts a parameter to its destination parameter type, if necessary. -

- The parameter value - The destination parameter type (null if not known) - The converted parameter value - - -

- Gets the data adapter to be used to retrieve the test data. -

- - -

- Provides a data source for a data theory, with the data coming from inline values. -

- - -

- Initializes a new instance of the class. -

- The data values to pass to the theory - - -

- Returns the data to be used to test the theory. -

- The method that is being tested - The types of the parameters for the test method - The theory data, in table form - - -

- Gets the data values. -

- - -

- Provides a data source for a data theory, with the data coming from an OLEDB connection. -

- - -

- Creates a new instance of . -

- The OLEDB connection string to the data - The SELECT statement used to return the data for the theory - - -

- Gets the connection string. -

- - -

- Gets the select statement. -

- - - - - -

- Provides a data source for a data theory, with the data coming from a public static property on the test class. - The property must return IEnumerable<object[]> with the test data. -

- - -

- Creates a new instance of / -

- The name of the public static property on the test class that will provide the test data - - -

- Returns the data to be used to test the theory. -

- The method that is being tested - The types of the parameters for the test method - The theory data, in table form - - -

- Gets the property name. -

- - -

- Provides a data source for a data theory, with the data coming a Microsoft SQL Server. -

- - -

- Creates a new instance of , using a trusted connection. -

- The server name of the Microsoft SQL Server - The database name - The SQL SELECT statement to return the data for the data theory - - -

- Creates a new instance of , using the provided username and password. -

- The server name of the Microsoft SQL Server - The database name - The username for the server - The password for the server - The SQL SELECT statement to return the data for the data theory - - -

- Provides a data source for a data theory, with the data coming a Microsoft Excel (.xls) spreadsheet. -

- - -

- Creates a new instance of . -

- The filename of the XLS spreadsheet file; if the filename provided - is relative, then it is relative to the location of xunit.extensions.dll. - The SELECT statement that returns the data for the theory - - - - - -

- A wrapper around the static operations on which allows time - to be frozen using the . The clock begins in the - thawed state; that is, calls to , , and - return current (non-frozen) values. -

- - -

- Freezes the clock with the current time. - Until is called, all calls to , , and - will return the exact same values. -

- - -

- Freezes the clock with the given date and time, considered to be local time. - Until is called, all calls to , , and - will return the exact same values. -

- The local date and time to freeze to - - -

- Freezes the clock with the given date and time, considered to be Coordinated Universal Time (UTC). - Until is called, all calls to , , and - will return the exact same values. -

- The UTC date and time to freeze to - - -

- Thaws the clock so that , , and - return normal values. -

- - -

- Gets a object that is set to the current date and time on this computer, - expressed as the local time. -

- - -

- Gets the current date. -

- - -

- Gets a object that is set to the current date and time on this computer, - expressed as the Coordinated Universal Time (UTC). -

- - -

- Apply this attribute to your test method to freeze the time represented by the - class. -

- - -

- Freeze the clock with the current date and time. -

- - -

- Freeze the clock with the given date, considered to be local time. -

- The frozen year - The frozen month - The frozen day - - -

- Freeze the clock with the given date and time, considered to be in local time. -

- The frozen year - The frozen month - The frozen day - The frozen hour - The frozen minute - The frozen second - - -

- Freeze the clock with the given date and time, with the given kind of time. -

- The frozen year - The frozen month - The frozen day - The frozen hour - The frozen minute - The frozen second - The frozen time kind - - -

- Thaws the clock. -

- The method under test - - -

- Freezes the clock. -

- The method under test - - -

- Marks a test method as being a data theory. Data theories are tests which are fed - various bits of data from a data source, mapping to parameters on the test method. - If the data source contains multiple rows, then the test method is executed - multiple times (once with each data row). -

- - -

- Creates instances of which represent individual intended - invocations of the test method, one per data row in the data source. -

- The method under test - An enumerator through the desired test method invocations - - -

- Represents a single invocation of a data theory test method. -

- - -

- Creates a new instance of . -

- The method under test - The parameters to be passed to the test method - - -

- Creates a new instance of based on a generic theory. -

- The method under test - The parameters to be passed to the test method - The generic types that were used to resolved the generic method. - - - - - -

- Gets the parameter values that are passed to the test method. -

- - -

- Apply to a test method to trace the method begin and end. -

- - -

- This method is called before the test method is executed. -

- The method under test - - -

- This method is called after the test method is executed. -

- The method under test - - - diff --git a/Lib/xUnit/xunit.runner.msbuild.dll b/Lib/xUnit/xunit.runner.msbuild.dll deleted file mode 100644 index ac2065d02..000000000 Binary files a/Lib/xUnit/xunit.runner.msbuild.dll and /dev/null differ diff --git a/Lib/xUnit/xunit.runner.tdnet.dll b/Lib/xUnit/xunit.runner.tdnet.dll deleted file mode 100644 index f7d0639ae..000000000 Binary files a/Lib/xUnit/xunit.runner.tdnet.dll and /dev/null differ diff --git a/Lib/xUnit/xunit.runner.utility.dll b/Lib/xUnit/xunit.runner.utility.dll deleted file mode 100644 index cc1f21bf8..000000000 Binary files a/Lib/xUnit/xunit.runner.utility.dll and /dev/null differ diff --git a/Lib/xUnit/xunit.xml b/Lib/xUnit/xunit.xml deleted file mode 100644 index 4b60b4400..000000000 --- a/Lib/xUnit/xunit.xml +++ /dev/null @@ -1,2604 +0,0 @@ - - - - xunit - - - -

- Contains various static methods that are used to verify that conditions are met during the - process of running tests. -