Full Stack F# powered by ASP.NET Core on the backend and modern React on the frontend.

A lightweight alternative template to the full-fledged official SAFE Template. Lowers the entry barrier by choosing the simplest possible opinionated defaults:

• Nuget for package management
• FAKE build script as a console project (see ./build)
• Saturn as server web framework
• Fable.Remoting for client-server communications
• Feliz to build pure React on the front-end
• Expecto for server unit-tests project
• Fable.Mocha for client unit-tests project (runs in Node.js when on CI servers or live during development)
• Serilog for logging server-side stuff
• Scalable architecture by modelling logical server-side components following Fable.Remoting protocols
• F# Analyzers support
• Simple application variable configuration (see below sections)

To start using this template, simply clone this repository or use it as template via Github UI and you are good to go.

You need to have installed:

• .NET Core SDK 3.1+
• Node.js 12.0+

You can use the editor of your choice to work with the repository. VS Code is recommended with the Ionide extension for F# development but the template will also work just fine with Visual Studio, Rider or Visual Studio for Mac if you prefer to work with any of those.

To work with and develop the application, you need to both the server and the client project running at the same time. The server application is in the server directory and the client is in client directory. To run them both, simply open two shell tabs, each for either applications then:

  Shell tab c:\project\safe-react   Shell tab c:\project\safe-react
 -------------------------------------- --------------------------------------
  > cd server                            > cd client
  > dotnet restore                       > npm install
  > dotnet run                           > npm start

As shown here below

The server web application starts listening for requests at http://localhost:5000 where as the client application will be hosted at http://localhost:8080 during developments. All web requests made from the front-end are automatically proxied to the backend at http://localhost:5000. In production, there will no proxy because the front-end application will be served from the backend itself.

That is unless you are hosting the backend serverless and would like to host the front-end project separately.

You can easily run the build targets as follows:

• ./build.sh {Target} on Linux, Mac or simulated bash on Windows
• build {Target} on Windows
• Hitting F5 where Build.fsproj is the startup project in Visual Studio or Rider

There are a bunch of built-in targets that you can run:

• Server builds the server in Release mode
• Client builds the client in production mode
• Clean cleans up cached assets from all the projects
• ServerTests runs the server unit-tests project
• ClientTests runs the client unit-tests project by compiling the project first and running via Mocha in node.js
• LiveClientTests runs a standalone web application at http://localhost:8085 that shows test results from the unit tests and recompiles whenever the tests change.
• HeadlessBrowserTests builds the test project as web application and spins up a headless browser to run the tests and report results
• Pack builds and packs both server and client into the {solutionRoot}/dist directory after running unit tests of both projects. You can run the result application using dotnet Server.dll in the dist directory.
• PackNoTests builds and packs both server and client projects into {solutionRoot}/dist without running tests.
• InstallAnalyzers installs F# code analyzers. You can configure which analyzers to install from the build target itself.

The server web application picks up the environment variables by default from the host machine and makes them available from an injected IConfiguration interface. However, it adds a nice feature on top which allows to add more application-specific local variables by adding a JSON file called config.json inside your server directory:

{
  "DATABASE_CONNECTIONSTRING": "ConnectionString",
  "APP_NAME": "SimplifiedSafe",
  "VERSION": "0.1.0-alpha"
}

Just including the file will allow the variables to be picked up automatically and will also be made available through the IConfiguration interface.

Even the client can use build variables. Using the Config.variable : string -> string function, you can have access to the environment variables that were used when the application was compiled. Webpack will pick them up automatically by default. To use local variables other than the environment variables, you add a file called .env into the client directory. This file is a dotenv variables file and has the following format:

KEY1=VALUE1
KEY2=VALUE2
WELCOME_MESSAGE=Welcome to full-stack F#

Then from your Fable application, you can use the variables like this:

Config.variable "WELCOME_MESSAGE" // returns "Welcome to full-stack F#"

Since this file can contain variables that might contain sensitive data. It is git-ignored by default.

This template uses scoped CSS modules by default. Scoped CSS modules allow you to define specific stylehsheets (modules) for specific React components without using global classes and worrying about whether they will collide or not.

Define your stylesheet in CSS or SASS like this:

/* File ./styles/counter.css */
.container {
  padding: 20px;
  color: lightblue;
}

Then, from the F# code, you can import the CSS module and use it as follows:

let stylesheet = Stylesheet.load "./styles/counter.css"

Html.div [
  prop.className stylesheet.["container"]
  prop.children [
    Html.h1 "Counter"
    Html.button [ ]
  ]
]

You can still use global classes for your application and use them everywhere but you have to specify that they are indeed global as follows:

/* File ./styles/global.css */
:gloabl(.container) {
  padding: 20px;
  color: lightblue;
}

Notice how the class was decorated with the :global directive. This effectively ensures that the class name is not mangled when compiled and that it can be used globally.

You can then import this file in your F# entry point like this:

open Fable.Core.JsInterop

importSideEffects "./styles/global.css"

Which loads the stylesheet globally.

Note that all these configured default can be easily changed in your webpack.config.js file, specifically in the rules sections of the webpack loaders. Feel free to adjust as needed.

Since we are using Fable.Remoting in the template, make sure to check out the Functional Dependency Injection article from the documentation of Fable.Remoting that goes through the required steps of injecting services into the functions of Fable.Remoting APIs

When developing the application using Ionide and VS Code, you can make use of F# analyzers that are built to detect certain types of specific pieces of code. By default the template doesn't include any analyzers but it is easy to add and install them using the InstallAnalyzers build target defined in build/Program.fs as follows:

Target.create "InstallAnalyzers" <| fun _ ->
    let analyzersPath = path [ solutionRoot; "analyzers" ]
    Analyzers.install analyzersPath [
        // Add analyzer entries to download
        // example { Name = "NpgsqlFSharpAnalyzer"; Version = "3.2.0" }
    ]

To install for example the NpgsqlFSharpAnalyzer package, simply uncomment the entry to make the code look like this:

Target.create "InstallAnalyzers" <| fun _ ->
    let analyzersPath = path [ solutionRoot; "analyzers" ]
    Analyzers.install analyzersPath [
        // Add analyzer entries to download
        { Name = "NpgsqlFSharpAnalyzer"; Version = "3.2.0" }
    ]

Then run the build target InstallAnalyzers again where it will delete the contents of analyzers directory and re-install all configured analyzers from scratch. Restart VS Code to allow Ionide to reload the installed analyzers. If you already have analyzers installed and adding new ones, you might need to do that from the terminal outside of VS Code because Ionide will lock the files in the analyzers path preventing the target from deleting the old analyzers.

The bundled application you get by running the Pack build target can be used directly as an application inside of IIS. Publishing on IIS requires that you make a separate Application Pool per .NET Core application with selected .NET CLR Version = No Managed Code. Then creating a new IIS Application which into the newly created Application Pool and setting the Physical Path of that Application to be the dist directory.