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TypeScript Command Pattern

This is an implementation of the Command pattern for TypeScript. It allows you to wrap computations into objects, run them sequentially, stop on failure, undo them, and compose them.

A command is just a class that implement the Command interface. All commands have a context: Context property, and an execute(): void method.

The execute method is where the command does the actual work by reading and writing to its context.

The command is responsible for setting context.success to either true or false, to reflect whether the command succeeded or not.

Commands can also define their own context interface, extending from Context. The interface defines all the fields your command uses from the context.

Below is an example of a very simple command that simply generates a new number (the number 2), and saves it into context.value:

interface GenerateNumberContext extends Context {
  value: number;
}

class GenerateNumberCommand implements Command {
  context: GenerateNumberContext;

  constructor(context: GenerateNumberContext) {
    this.context = context;
  }

  execute() {
    this.context.success = true;
    this.context.value = 2;
  }
}

Note that context.success comes from Context, and is something all commands have in common.

Here is another command that takes a number and adds 2 to it:

interface AddTwoContext extends Context {
  value: number;
}

class AddTwoCommand implements Command {
  context: AddTwoContext;

  constructor(context: AddTwoContext) {
    this.context = context;
  }

  execute() {
    this.context.success = true;
    this.context.value = this.context.value + 2;
  }
}

Running a command

You can run a command with the run function:

const context = { success: true, value: 0 };

const result = await run<typeof context>(context, GenerateNumberCommand);

expect(result.success).toEqual(true);
expect(result.value).toEqual(2);

Or more succinctly:

const { success, value } = await run(
  { success: true, value: 0 },
  GenerateNumberCommand
);

expect(success).toEqual(true);
expect(value).toEqual(2);

The run function will return a copy of the context, modified by the given command.

Async Commands

The run function will always return a promise, even if your commands are not asynchronous, so you'll most likely always want to use await when calling it.

As you might have guessed, you can define asynchronous commands just like regular ones, just add async to #execute or #undo as needed:

class MyAsyncCommand implements Command {
  context: MyAsyncContext;

  constructor(context: MyAsyncContext) {
    this.context = context;
  }

  async execute() {
    const result = await someAsyncFunction();
    this.context.success = true;
    this.context.value = result;
  }
}

Running several commands

Chaining commands is the main reason to use the Command pattern. We can run several commands one after the other by simply passing them to run:

const context = { success: true, value: 0 };

const { success, value } = await run<typeof context>(
  context,
  GenerateNumberCommand,
  AddTwoCommand
);

expect(success).toEqual(true);
expect(value).toEqual(4);

TypeScript will do its magic and make sure the context is valid and satisfies all our commands.

Stops on Failure

Below is a very simple command that all it does is fail by setting context.success to false.

If all the context we need is a success field, we can use the default to Context:

class FailCommand implements Command {
  context: Context;

  constructor(context: Context) {
    this.context = context;
  }

  execute() {
    this.context.success = false;
  }
}

Because FailCommand sets context.success to false, subsequent commands won't be executed:

const context = { success: true, value: 0 };

const { success, value } = await run<typeof context>(
  context,
  GenerateNumberCommand,
  FailCommand,
  AddTwoCommand
);

expect(success).toEqual(false);
expect(value).toEqual(2);

Note that result.value is 2 because AddTwoCommand was not executed.

Undo

You can define an undo method if you need to clean up after your command when a subsequent command fails:

interface GenerateStringContext extends Context {
  string: string;
}

class GenerateStringCommand implements Command {
  context: GenerateStringContext;

  constructor(context: GenerateStringContext) {
    this.context = context;
  }

  execute() {
    this.context.success = true;
    this.context.string = "Hello";
  }

  undo() {
    // Could do some cleanup here...
    this.context.string = "Undone";
  }
}
const context = { success: true, string: "" };

const { success, string } = await run<typeof context>(
  context,
  GenerateStringCommand,
  FailCommand
);

expect(success).toEqual(false);
expect(string).toEqual("Undone");

Note that the initial value of context.string is "Hello", but after FailCommand is executed, it calls GenerateStringCommand#undo and context.string ends up being "Undone".

The #undo command is called in reverse order from the specified commands. So if you compose commands A, B, C and D, and command D fails, the order of the #undo calls will be D -> C -> B -> A.

Exceptions

Note that if one command throws, #undo will not be called. Also, if one #undo throws, remaining #undo will not be called, either. It's up to you to properly handle exceptions inside #execute and #undo for each command.

Composing Commands

You can compose smaller simple commands into a bigger, more complex one. This is particularly useful if you find you run the same subset of commands in several places. You can extract them into a composite command with compose:

const GenerateNumberAndString = compose<
  GenerateNumberContext & GenerateStringContext
>(GenerateNumberCommand, GenerateStringCommand);

You can then run them like regular commands:

const context = { success: true, value: 0, string: "" };
const { success, value, string } = await run<typeof context>(
  context,
  GenerateNumberAndString,
  AddTwoCommand
);

expect(success).toBe(true);
expect(value).toEqual(4);
expect(string).toEqual("Hello");

Conditional Commands

Sometimes you want to run a command based on a given input. In that case, you can use cond to run a conditional check, and return the command you want to execute:

interface ValidateExcelOrCSVContext extends Context {
  format: string;
}

const ValidateExcelOrCSV = cond<
  ValidateExcelOrCSVContext & ValidateExcelFileContext & ValidateCSVFileContext
>((context) =>
  context.format === "XLSX" ? ValidateExcelFile : ValidateCSVFile
);

Testing

Another big advantage of the Command pattern is that your commands are just JavaScript objects, and can easily be tested in isolation.

const result = await run(dummyContext, MyCommand);

expect(result.something).toEqual(somethingElse);

If you know each command works independently (because you tested them), and you know the command chaining and composition works (because this library tested them), then you can feel safe when chaining and composing commands to perform complex actions.

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