ReSharper 2020.1 Help

CleanupCode Command-Line Tool

CleanupCode is a free cross-platform command-line tool that can perform code cleanup to instantly eliminate code style violations in a project or solution and ensure a uniform code base.

Run CleanupCode:

  1. Download ReSharper Command Line Tools. Use the selector next to the Download button to choose your operating system.

  2. Unzip the command line tools package in any directory.
    Ensure that the downloaded .zip file is 'unblocked' before extracting: right-click the file, select Properties and click Unblock. Failure to do this will cause the .NET framework to load the application in partial trust, which means it won't load or run correctly.

  3. Build the target solution.

  4. Run the following command:

    cleanupcode.exe YourSolution.sln

Configure CleanupCode with DotSettings

If you have previously worked on the target solution with ReSharper, you may have already configured code style settings. If so, CleanupCode will find your custom settings in .DotSettings files and apply them.

CleanupCode will read the following preferences from DotSettings files:

If you want to configure CleanupCode on a CI server, you can make all configurations locally with ReSharper, save the settings to the Solution Team-Shared layer, and then commit the resulting YourSolution.sln.DotSettings file in the solution directory to your VCS. CleanupCode on the server will find and apply these settings.

As an alternative, you can specify a path to a shared .DotSettings file (which will override settings in other settings files, if any) through the --settings parameter.

Configure CleanupCode with EditorConfig and Clang-Format

You can also configure code style settings via in EditorConfig for all languages and Clang-Format for C++, JavaScript, and TypeScript . These settings can be stored in .editorconfig, .clang-format, or _clang-format files on different levels of your solution hierarchy. The files are normally put under VCS so that settings defined there are shared among the project team.
ReSharper lets you use EditorConfig to define any of its code style preferences that are available in in the ReSharper's Options dialog. You can find names and descriptions of supported EditorConfig properties in the EditorConfig reference.
As for Clang-Format, ReSharper will only apply the supported Clang-Format options.

It is important to note that any code style property defined in an .editorconfig file will override the same property defined in ReSharper settings in the scope where this .editorconfig file applies. Formatting properties defined in Clang-Format will override both ReSharper settings and EditorConfig settings.

Configure CleanupCode with command-line parameters

Cleanup parameters

  • --profile— a code cleanup profile that lists cleanup tasks to execute.

    By default, CleanupCode will apply code cleanup tasks specified in the Built-in: Full Cleanup profile, that is all available cleanup tasks except updating file header.

    There are two more built-in profiles —Built-in: Reformat Code, which will only applies code formatting preferences and Built-in: Reformat & Apply Syntax Style, which applies code formatting preferences and code syntax styles. To use one of these profiles or any custom profile, pass the profile name via the --profile parameter, for example: --profile="Built-in: Reformat Code" YourSolution.sln.

  • --include/--exclude— relative path(s) or wildcards that define the files to include/exclude during the cleanup. If both --include and --exclude are defined and cover the same set of files, --exclude will have higher priority.
    To specify multiple paths or wildcards, separate them with the semicolon or use the --include/--exclude parameters several times.

  • --properties— lets you override MSBuild properties. You can set each property separately ( --properties:prop1=val1 --properties:prop2=val2), or use a semicolon to separate multiple properties --properties:prop1=val1;prop2=val2.

    Note that the semicolon cannot be used inside values, for example: --properties:ReferencePath="r:\reference1\;r:\reference2\". In such cases, add each value separately using another --properties parameter — the values will be combined.

    The specified properties are applied to all analyzed projects. Currently, there is no direct way to set a property to a specific project only. The workaround is to create a custom property in this project and assign it to the desired property, then use the custom property in CleanupCode parameters.

  • --toolset— use this option to specify the exact MSBuild version. For example 12.0: --toolset=12.0 By default the highest available MSBuild version is used. This option might not work if you have several installations with the same version, for example 16.0 from Visual Studio 2019 and 16.0 from .NET Core 3.x.

  • --toolset-path— use this option to specify the exact path to MSBuild. This might be helpful if you have a custom MSBuild installation and want to use it with CleanupCode, for example: --toolset-path="c:\tools\msbuild\bin\MsBuild.exe".

  • --dotnetcore— by default, .NET Core installation is auto-detected. You can use this option to point to the specific .NET Core installation if the auto-detection results in a conflict. Use it without arguments to ignore .NET Core. Example: --dotnetcore=/usr/local/share/dotnet/dotnet.

  • --dotnetcoresdk— use this option to specify .NET Core SDK version that should provide MSBuild. For example, if you have installed .NET Core with SDKs 2.0.3 and 3.0.100, CleanupCode will prefer 3.0.100 (the latest, including preview versions). Now if you want to run CleanupCode with .NET Core SDK 2.0.3, add --dotnetcoresdk=2.0.3 to the command line.

  • --mono— by default, Mono installation is auto-detected. You can use this option to point to the specific Mono installation if the auto-detection results in a conflict. Use it without arguments to ignore Mono. Example: --mono=/Library/Frameworks/Mono.framework/Versions/Current/bin/mono.

  • --targets-for-references— Names of custom MSBuild targets that will be executed to get referenced assemblies of projects. The targets are defined either in the project file or in the .targets file. Multiple values are separated with the semicolon. For example, --targets-for-references="GetReferences".

  • --targets-for-items— Names of custom MSBuild targets that will be executed to get other items (for example, a Compile item) of projects. The targets are defined either in the project file or in the .targets file. Multiple values are separated with the semicolon. For example, --targets-for-items="GetCompileItems".

Auxiliary parameters

  • --verbosity— by default, CleanupCode only displays information messages in the log. Use this parameter to change the amount of information written to the log by the following levels (the order is from less to more detailed): [OFF, FATAL, ERROR, WARN, INFO, VERBOSE, TRACE].
    For example, if something goes wrong with CleanupCode, you can contact ReSharper support and share a log file with all TRACE messages: --verbosity=TRACE > [path_to_log_file].

  • --caches-home— lets you specify a custom location for the data that CleanupCode caches. By default, the %LOCALAPPDATA% directory is used, unless there are settings files, in which case the one specified there is used. This parameter can be helpful if you want to use a fast SSD disk for the cache or if you want to store all your build processing data in a single place.

  • --config-create and --config— these options allow you to pass the parameters described above with a configuration file. The first option will create a configuration file according to the current parameters; the second option is used to load the parameters from this file.

  • --debug (-d)— use this option to add execution details of CleanupCode to the output. If you have problems with CleanupCode, these details will be helpful when contacting the support team.

Parameters that control ReSharper settings

  • --settings— by default, CleanupCode will override its default settings with ReSharper settings from the 'Solution team-shared' layer SolutionName.DotSettings, if it exists. If necessary, you can use this parameter to specify another .DotSettings file, which will override all other settings. For example,

  • --disable-settings-layers -dsl— disables specified settings layers. Accepted values: GlobalAll, GlobalPerProduct, SolutionShared, SolutionPersonal

  • --no-buildin-settings— suppresses settings from global, solution, and project setting layers. Equivalent to --disable-settings-layers: GlobalAll; GlobalPerProduct; SolutionShared; SolutionPersonal; ProjectShared; ProjectPersonal

MSBuild. Possible problems and solutions

When CleanupCode receives the target solution file, it needs to create a list of files to be cleaned up and initialize a number of properties, such as language version. CleanupCode uses MSBuild to get this information from project files.

In most cases, CleanupCode automatically finds the proper MSBuild executable for the target solution. But there might be problems that prevent auto-detection, such as when the version of the solution runtime does not match the version of the installed .NET SDK.

If CleanupCode yields an error such as The current .NET SDK does not support targeting .NET Core 3.0. or The SDK 'Microsoft.NET.Sdk' specified could not be found., you need to specify the correct SDK or runtime using additional parameters. If you work with .NET, MSBuild is already installed on your machine, and often more than one installation exists, so you have to provide one that fits the target solution.

In most cases you will have to add just one parameter —--toolset or --dotnetcore. In complicated cases, for example, many different installations on the machine or when using a custom version of MSBuild, you may need other parameters: --toolset-path, --mono, --targets-for-references, --targets-for-items.

When you specify --dotnetcore or --dotnetcoresdk, CleanupCode will try to use MSBuild from .NET Core SDK and ignore others. For example, if you have several installations of MSBuild v 16.0 on your machine and specify a path to .NET Core installation with --dotnetcore, CleanupCode will use .NET Core MSBuild from the specified installation. When --dotnetcore is not specified, CleanupCode will look into the solution directory, try to find global.json, and use the SDK version specified there. If nothing is found, the latest available SDK version will be used.

Project references. Possible problems and solutions

MSBuild is also used by CleanupCode to resolve symbols from referenced projects and assemblies. There are two project properties that allow using different references depending on the environment: Platform and Configuration. If the environment where you run CleanupCode differs from the environment where the project was last built, you can receive errors such as: Can't resolve reference XXX: Reference wasn't resolved by MsBuild or Could not resolve this reference. Could not locate the assembly "XXX".

If you get such an error, check the output to see whether there is a mismatch in build configurations. For example

..... JetBrains Inspect Code 2020.1 Running in 64-bit mode, .NET runtime 4.0.30319.42000 under Microsoft Windows NT 10.0.17134.0 Custom settings layer is mounted. Used file XXXXX.DotSettings Using toolset version 15.0 from "C:\Program Files (x86)\Microsoft Visual Studio\2017\Enterprise\MSBuild\15.0\Bin" Configuration: Debug, Platform: x86 .....

In the above, you can see that the platform specified in the project file is x86, but the tool is running in a 64-bit mode. To fix this, specify the target platform and the configuration explicitly with the --properties parameter: --properties:Platform=x64;Configuration=Debug.

Supported languages

CleanupCode supports the following languages:

Language: C#Language: VB.NETLanguage: C++Language: HTMLLanguage: ASP.NETLanguage: RazorLanguage: JavaScriptLanguage: TypeScriptLanguage: CSSLanguage: XMLLanguage: XAMLLanguage: ResxLanguage: Build ScriptsLanguage: ProtobufLanguage: JSON
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Last modified: 11 August 2020