Ionic 2 Filter in Templates with Pipes

Angular 1 (Ionic 1) gave us the orderBy and filter filters for free. Angular 2 drops them for a couple of reasons. The points outlined in this article cuts both ways for Angular 2 and Ionic 2.

Ionic 2 is just Angular 2 on mobile drugs, there’re’nt any much deviation if any.

One (according to the docs):

“The filter and orderBy have often been abused in Angular 1 apps, leading to complaints that Angular itself is slow. That charge is fair in the indirect sense that Angular 1 prepared this performance trap by offering filter and orderBy in the first place.”

Find more details in the docs: http://devdocs.io/angular~2_typescript/guide/pipes

Fair point. However, now that each developer is supposed to do their ‘own thing’, do you expect Angular to be hailed as fast when each developer concocts something crazy?

Well, that’s just by the way.

Here’s what the end results look like:

Here’s how I’m currently doing filtering of a list. I find this approach close enough to what I would have in Angular 1. I have no idea whether it looks good or bad. For now, it works. I don’t also know if the speeds are going to be hugely affected, as one of the reasons the filterPipe was dropped natively is because of speed.

They say we should just call it Angular, even without the JS?

Duh!

Pipes

Creating pipes in Ionic 2 is similar to Angular 2 if you’re on the command line interfaces: Angular, it is ng and Ionic, it is ionic

Since this article focuses on Ionic, let’s do it the Ionic way.

In your Ionic project directory,

$ ionic generate pipe Search

Open the newly created search file, and let’s update it with this:

import { Injectable, Pipe } from '@angular/core';

@Pipe({
  name: 'search',
  pure: true
})
@Injectable()
export class Search {
  transform(list: any[], searchTerm: string): any[] {
     if (searchTerm) {
        searchTerm = searchTerm.toUpperCase();
        return list.filter(item => {
          return item[0].fullname.toUpperCase().indexOf(searchTerm) !== -1 
        });
      } else {
        return list;
      }
  }
}

Notes:

We’re using the pure: true here because we want the filtering to happen as per only an ionInput event fired.

According to the docs:

Angular executes an impure pipe during every component change detection cycle. An impure pipe will be called a lot, as often as every keystroke or mouse-move.

We don’t want that, an event firing every damn unrelated action by a user. Thus, we will be intercepting the ionInput event, which fires only when the input value changes.

The ionInput refers to: “When an input field value has changed including cleared.”

Remember to declare the pipe above in your app.module.ts file under the declarations property array.

Our ListPage

This page is where the list of items are, in which the Pipe we created above will be used within. Let’s say, it is called home.ts

Here’s how mine looks like:

import { Component } from '@angular/core';

import { AlertController, NavController, ModalController } from 'ionic-angular';
import { Backend } from '../../providers/backend';

@Component({
  selector: 'page-home',
  templateUrl: 'home.html',
})
export class HomePage {

  list: any;
  term: string = '';

  constructor(
    public backend: Backend ) {
  }

  ngOnInit() {
    // this pull items from localstorage via
    // a simple service.
    this.list = this.backend.getAll()
    console.log(this.list);
  }

  // this is run whenever the (ionInput) event is fired
  searchFn(ev: any) {
    this.term = ev.target.value;
  }

}

Let’s add the contents of the home.html and see how all fit together now:

  <ion-searchbar (ionInput)="searchFn($event)"></ion-searchbar>
  <ion-list>
    <ion-item-sliding *ngFor="let item of list | search: term">
      <button ion-item (click)="detailItem(item[0])">
        <h1>{{ item[0].fullname }}</h1>
        <h2>{{ item[0].item }}</h2>
        <h2>Amount Left: {{ item[0].cost - item[0].paid }}</h2>
        <p>Date: {{ item[0].createdAt }}</p>
      </button>
      <ion-item-options>
        <button ion-button color="light" icon-left (click)="detailItem(item[0])">
          <ion-icon name="ios-more"></ion-icon>
          View
        </button>
        <button ion-button color="primary" icon-left (click)="editItem(item[0])">
          <ion-icon name="text"></ion-icon>
          Edit
        </button>
        <button ion-button color="danger" icon-left (click)="deleteItem(item[0])">
          <ion-icon name="call"></ion-icon>
          Delete
        </button>
      </ion-item-options>
    </ion-item-sliding>
  </ion-list>

Now allow the above snippet to soak in.

What is happening:

In English, here’s what is happening.

Conclusion

The above snippets are a part of an ongoing project of mine and thought of sharing. I plan to use the above approach for more projects in the future.

As you can see on MadeWithFirebase.com, filtering when done on a list with minimal items, they can be very useful.

Should the list grow, simply break them into pages, then filter on each page. Depending on what you’re filtering and what that involves, a max of 50 items of a list per page shouldn’t be much of a challenge for many devices today.

I’m happy to learn better approaches to the above, and if there’s anything wrong, performance-wise or if it is just plain stupid to use the above approach, lemme know in the comments what you use and I’m happy to learn from.

Hope to see you in the next one.

Exit mobile version