Issue number: resolves #25990 --------- <!-- Please do not submit updates to dependencies unless it fixes an issue. --> <!-- Please try to limit your pull request to one type (bugfix, feature, etc). Submit multiple pull requests if needed. --> ## What is the current behavior? <!-- Please describe the current behavior that you are modifying. --> The tab bar and footer are being shown too soon after the keyboard begins to hide. This is happening because the webview resizes _after_ the keyboard begins to dismiss. As a result, it is possible for the tab bar and footer to briefly appear on the top of the keyboard in environments where the webview resizes. ## What is the new behavior? <!-- Please describe the behavior or changes that are being added by this PR. --> - The tab bar and footer wait until after the webview has resized before showing again | before | after | | - | - | | <video src="https://user-images.githubusercontent.com/2721089/236905066-42ac17a5-a5bf-458b-9c62-005fcce05e20.MP4"></video> | <video src="https://user-images.githubusercontent.com/2721089/236905185-d2f539d1-6d93-4385-b1cb-24dd7aa06393.MP4"></video> | This code works by adding an optional parameter to the keyboard controller callback called `waitForResize`. When defined, code within Ionic can wait for the webview to resize as a result of the keyboard opening or closing. Tab bar and footer wait for this `waitForResize` promise to resolve before re-showing the relevant elements. This `waitForResize` parameter is only only defined when all of the following are two: **1. The webview resize mode is known and is _not_ "None".** If the webview resize mode is unknown then either the Keyboard plugin is not installed (in which case the tab bar/footer are never hidden in the first place) or the app is being deployed in a browser/PWA environment (in which case the web content typically does not resize). If the webview resize mode is "None" then that means the keyboard plugin is installed, but the webview is configured to never resize when the keyboard opens/closes. As a result, there is no need to wait for the webview to resize. **2. The webview has previously resized.** If the keyboard is closed _before_ the opening keyboard animation completes then it is possible for the webview to never resize. In this case, the webview is at full height and the tab bar/footer can immediately be re-shown. ------ Under the hood, we use a [ResizeObserver](https://developer.mozilla.org/en-US/docs/Web/API/ResizeObserver) to listen for when the web content resizes. Which element we listen on depends on the resize mode set in the developer's Capacitor app. We determine this in the `getResizeContainer` function. From there, we wait for the ResizeObserver callback, then wait 1 more frame so the promise resolves _after_ the resize has finished. ## Does this introduce a breaking change? - [ ] Yes - [x] No <!-- If this introduces a breaking change, please describe the impact and migration path for existing applications below. --> ## Other information <!-- Any other information that is important to this PR such as screenshots of how the component looks before and after the change. --> Dev build: `7.0.6-dev.11683905366.13943af0`
@ionic/core
Ionic is an open source App Development Framework that makes it easy to build top quality Native and Progressive Web Apps with web technologies.
The Ionic Core package contains the Web Components that make up the reusable UI building blocks of Ionic Framework. These components are designed to be used in traditional frontend view libraries/frameworks (such as Stencil, React, Angular, or Vue), or on their own through traditional JavaScript in the browser.
Features
- Tiny, highly optimized components built with Stencil
- Styling for both iOS and Material Design
- No build or compiling required
- Simply add the static files to any project
- Lazy-loaded components without configuration
- Asynchronous rendering
- Theming through CSS Variables
How to use
Vanilla HTML
Easiest way to start using Ionic Core is by adding a script tag to the CDN:
<script type="module" src="https://cdn.jsdelivr.net/npm/@ionic/core/dist/ionic/ionic.esm.js"></script>
<script nomodule src="https://cdn.jsdelivr.net/npm/@ionic/core/dist/ionic/ionic.js"></script>
<link href="https://cdn.jsdelivr.net/npm/@ionic/core/css/ionic.bundle.css" rel="stylesheet">
Any Ionic component added to the webpage will automatically load. This includes writing the component tag directly in HTML, or using JavaScript such as document.createElement('ion-toggle').
Additionally, within this package is a dist/ionic.js file and accompanying dist/ionic/ directory. These are the same files which are used by the CDN, and they're available in this package so they can be apart of an app's local development.
Framework Bindings
The @ionic/core package can be used in simple HTML, or by vanilla JavaScript without any framework at all. Ionic also has packages that make it easier to integrate Ionic into a framework's traditional ecosystem and patterns. (However, at the lowest-level framework bindings are still just using Ionic Core and Web Components).
Custom Elements Build
In addition to the default, self lazy-loading components built by Stencil, this package also comes with each component exported as a stand-alone custom element within @ionic/core/components. Each component extends HTMLElement, and does not lazy-load itself. Instead, this package is useful for projects already using a bundler such as Webpack or Rollup. While all components are available to be imported, the custom elements build also ensures bundlers only import what's used, and tree-shakes any unused components.
Below is an example of importing ion-badge, and initializing Ionic so it is able to correctly load the "mode", such as Material Design or iOS. Additionally, the initialize({...}) function can receive the Ionic config.
import { defineCustomElement } from "@ionic/core/components/ion-badge.js";
import { initialize } from "@ionic/core/components";
// Initializes the Ionic config and `mode` behavior
initialize();
// Defines the `ion-badge` web component
defineCustomElement();
Notice how we import from @ionic/core/components as opposed to @ionic/core. This helps bundlers pull in only the code that is needed.
The defineCustomElement function will automatically define the component as well as any child components that may be required.
For example, if you wanted to use ion-modal, you would do the following:
import { defineCustomElement } from "@ionic/core/components/ion-modal.js";
import { initialize } from "@ionic/core/components";
// Initializes the Ionic config and `mode` behavior
initialize();
// Defines the `ion-modal` and child `ion-backdrop` web components.
defineCustomElement();
The defineCustomElement function will define ion-modal, but it will also define ion-backdrop, which is a component that ion-modal uses internally.
Using Overlay Controllers
When using an overlay controller, developers will need to define the overlay component before it can be used. Below is an example of using modalController:
import { defineCustomElement } from '@ionic/core/components/ion-modal.js';
import { initialize, modalController } from '@ionic/core/components';
initialize();
defineCustomElement();
const showModal = async () => {
const modal = await modalController.create({ ... });
...
}
How to contribute
Check out the CONTRIBUTE guide