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Creating a UI Driven State
Now that we have a UI that is purely driven by the state of our app, we need to add functionality to allow the UI to drive the state. This is often done by creating functions that call setState like we saw in the todoHeader, that are passed down to the UI as props.
We'll be learning in part 2 of this workshop how we can expose these functions without explicitly passing them down via props
This is our core 'business logic' and handles everything our basic 'CRUD' operations of "Create, Read, Update, Delete". We don't have time to walk through writing all of those functions, but you can see that they are already provided in the demo's TodoApp.tsx.
Intro to Typescript
Taking a look at our components in TodoApp you can see that our list of props is not just getting longer, but is getting much more complex! We're passing through functions with various signatures, complex todos objects as well as filter strings which are always one of three values.
As applications grow, it becomes increasing difficult to remember what each function does, or what each todo contains. Also, as JavaScript is a loosly type language, if I wanted to change the value of todos to an array inside my TodoList, javascript wouldn't care. But if TodoListItems was expecting an object, our application would break.
It is because of these two reasons that the entire industry is shifting to writing applications that are strongly typed, and are using Typescript to accomplish that.
As their website state:
Typescript is a superset of JavaScript that compiles to plain JavaScript
If you've ever used Sass you are familiar with this concept. In the same say that all valid CSS is valid Sass, all valid JavaScript is valid Typescript. That's why most of this project has been writting in ts and tsx files instead of js and jsx files.
Let's dive into the demo and see how Typescript can help us better understand our component props, and guard against future regressions.
Demo
Let's start off in the TodoList, as that has the most data flow, up and down.
Looking at our TodoApp we know that TodoList has three props, filter, todos, and filter. We'll start by creating and interface that represents this component's props called TodoListProps.
interface TodoListProps {
filter: any;
todos: any;
complete: any;
}
Note that we're using the
anykeyword for now. This won't give us any type safety, but it does innumerate the valid props we can pass to this component.
With that interface written, we'll add it to our component class.
export class TodoList extends React.Component<TodoListProps, any>
Note that the first value in
<>is for a props interface, and the second for state
Now that we have a typed component, let's go back to our TodoApp and see what happens if we try to change the name of a prop.
Adding type safety
So far we've only established what our prop names are, not the values inside of them. Let's first look at filter, and see how we can improve that prop's type safety.
Filter Type
We know that filter shouldn't be an object, array or function, so we can specify it should always be a string like this:
interface TodoListProps {
filter: string;
todos: any;
complete: any;
}
But since we know that the filter can be only one of three values, we can explicitly write it that way with union types:
interface TodoListProps {
filter: 'all' | 'active' | 'completed';
todos: any;
complete: any;
}
Now try going back to TodoApp and changing the filter attribute in TodoList to something else.
Complete Type
The complete props isn't data, but rather a function. Fortunatly, Typescript can handle function types just as well as data.
interface TodoListProps {
filter: 'all' | 'active' | 'completed';
todos: any;
complete: (id: string) => void;
}
For functions we are only concerned with the parameters passed in and the return value. You can see in the example above that the function takes in an id of type string, and returns void, which means it has no return.
Todos Type
The todos prop is interesting in that todos is an object with a bunch of unknown keys. So here's what that interface would look like.
interface TodoListProps {
filter: 'all' | 'active' | 'completed';
todos: {
[id: string]: {
label: string;
completed: boolean;
};
};
complete: (id: string) => void;
}
Note that the
[]notation does not mean an array, it is a computed property notation.
app
Add Types to TodoApp change 'filter' state value to demonstrate
List (open list next to app)
Demo TodoApp.types Add Types in List
App
Back to App, add complete={this._complete} to Todolist - show types, change complete to 'false', filter
List
add complete, pass to item (prop drilling)
List Item (move List Item into App window)
TodoListItemProps, extend, id, complete (possible abstraction) add props, add complete to List item
List
Demo how you can't add random things to TodoListItem or item's this.props now
exercise
Add types to footer Add onClick to button Add types to header Add setFilter to filter buttons write onAdd function place onAdd to submit button