A simple library for building delightfully animated stepped flows with Svelte. Svelte Stepper is completely "headless", meaning it steps through whatever components you give it, putting you in full control of container- and step layout, styles and transitions.
Check out an simple demo implementation at svelte-stepper.jason-e.dev.
You can find the code for the above at /src/routes
in this repo as a usage example.
Svelte Stepper comes with a lot of built-in functionality, while still remaining easy-to-use at its core.
Svelte Stepper is written entirely in TypeScript, and all its interfaces are fully type-safe out of the box. To get started, all you need to do is provide a sequence of Svelte components as steps. Every step can receive custom props.
Svelte Stepper automatically transitions steps in a delightful way, and even smoothly adjusts its height to match each new step component. Of course, you can fully customize all animations.
Svelte Stepper includes a full context API, which allows you to share data between steps. This enables advanced usecases like building up form data over several steps, and submitting it at the end.
Install with NPM or yarn:
npm install @efstajas/svelte-stepper
yarn add @efstajas/svelte-stepper
Getting a simple flow going is easy. First, let's create a few Step components.
A step is simply a normal Svelte component, which can dispatch a number of special events in order to communicate with the stepper. Here's a very simple step with some text and a button that advances the flow to the next step:
<script lang="ts">
import { createStepController } from '@efstajas/svelte-stepper';
const stepController = createStepController();
</script>
<h1>My first step</h1>
<button on:click={stepController.nextStep}>Next</button>
As you can see, Svelte Stepper exposes a createStepController
function, which you can use to create a stepController
. This object contains a number of functions for communicating with the stepper, such as nextStep
and previousStep
.
Go ahead and create two simple step components so that we can move on to creating our first flow.
Getting a simple flow going is easy. The core of Svelte Stepper is the Stepper
component. Simply import it into your page, and provide an array of your steps using the makeStep
utility.
<script lang="ts">
import { Stepper, makeStep } from '@efstajas/svelte-stepper';
/* ... import your step components here ... */
const exampleSteps = [
makeStep({
component: MyFirstStep,
props: undefined
}),
makeStep({
component: MySecondStepWithProps,
props: {
foo: 'bar',
},
}),
makeStep({
component: MyFinalStep,
props: undefined
})
];
</script>
<Stepper steps={exampleSteps} />
As you can see, you can pass props to your step components using the props
property. The type of this property is automatically inferred from the provided step component.
Congratulations! This is everything you need to build a simple flow. Let's have a look at some more advanced features.
The stepper component automatically hides step overflow during transitions in order to prevent steps from overflowing the container during transition, which doesn't look very nice. If you want to add padding around your steps, please pass a padding
prop to the Stepper component, instead of wrapping the container in a padded element. This ensures that transitions aren't visually cut off by the step container.
Svelte Stepper automatically transitions between your steps with a sleek animation by default. Of course, you can fully customize the entry- and exit transitions for steps.
If all you want to do is change the duration of the default transition, you can pass a defaultTransitionDuration
prop to the stepper. Out of the box, it's set to 300 milliseconds. This prop controls the speed of the stepper container height transition, as well as the step's entry- and exit transitions.
<Stepper
steps={exampleSteps}
defaultTransitionDuration={1000}
/>
If you want to set fully custom transitions, you can set the stepIntroTransition
and stepOutroTransition
props on the stepper.
<Stepper
steps={exampleSteps}
defaultTransitionDuration={600}
stepOutroTransition={{
transitionFn: scale,
params: () => ({
duration: 600,
delay: 0,
scale: 1,
}),
}}
stepIntroTransition={{
transitionFn: fly,
params: (direction) => ({
duration: 600,
delay: 0,
x: direction === 'forward' ? 100 : -100,
}),
}}
/>
These props accept an object with transitionFn
and params
properties. Pass any standard Svelte transition function, and set any custom parameters for it. The params
property accepts a function with an optional direction
parameter, allowing you to alter the transition parameters based on whether the user is currently navigating forward or backward within the flow.
Stepped flows frequently collect a bunch of data from the user over multiple steps, and submit it at the end. For exactly this use-case, Svelte Stepper comes with a context system. It allows you to conveniently share a single Svelte writable
store between all steps.
To define context, simply write a function that returns a Svelte writable
store, and pass it to the Stepper component:
<script lang="ts" context="module">
export interface MyExampleStepperContext {
foo: string;
bar: number;
}
</script>
<script lang="ts">
import { Stepper, makeStep } from '@efstajas/svelte-stepper';
/* ... import your step components here ... */
const exampleSteps = [
makeStep({
component: MyFirstStep,
props: undefined
}),
];
const exampleContext: () => Writable<MyExampleStepperContext> = () => writable({
foo: 'bar',
bar: 42,
});
</script>
<Stepper steps={exampleSteps} context={exampleContext} />
In this particular example, we're exporting the type of our context writable from a module, so that we can properly type the context writable in our step components later.
Passing context
to the Stepper will make it automatically available to all steps as a context
prop:
<script lang="ts">
import { Writable } from 'svelte/store';
import { MyExampleStepperContext } from './my-stepper-page.svelte';
import { createStepController } from '@efstajas/svelte-stepper';
const stepController = createStepController();
export let context: Writable<MyExampleStepperContext>;
</script>
<h1>My first step</h1>
<p>
Foo is {$context.foo} and bar is {$context.bar}.
</p>
<button on:click={context.update((v) => ({ ...v, bar: v.bar + 1}))}>Increment bar</button>
<button on:click={stepController.nextStep}>Next</button>
Using this method, you can incrementally populate a store of data throughout multiple steps.
The Stepper component emits events allowing you to react to a step change or conclusion of the flow.
<Stepper
steps={exampleSteps}
on:conclusion={() => {
alert('The last step in the flow has called stepController.nextStep()!');
}}
on:stepChange={(e) => {
const { newIndex, of, direction } = e.detail;
console.log(\`Changed to step \${newIndex + 1} of \${of} going \${direction}\`);
}}
/>
The stepChange
event is emitted when the stepper moves to a new step. It includes metadata on the current step index, the total amount of steps, as well as the direction of the change.
The conclusion
event is emitted when the stepper has reached the last step and nextStep
is called.
Sometimes, you may need to temporarily switch to a different set of steps within a flow. Svelte Stepper includes sidestep
functionality for this purpose. Using a side-step, you can easily temporarily launch a different flow, and come back to the original flow at the end.
To trigger a side-step, simply call stepController.sidestep(steps)
within a step component, where steps
is an array of new steps:
<script lang="ts">
import { createStepController } from '@efstajas/svelte-stepper';
import MyFirstSidestepStep from './my-first-sidestep-step.svelte';
const stepController = createStepController();
</script>
<h1>Launching a sidestep</h1>
<button on:click={() => stepController.sidestep([
makeStep({
component: MyFirstSidestepStep,
props: undefined
}),
])}>Start sidestep</button>
Within a sidestep, you can use the usual nextStep
and previousStep
methods to navigate between steps. Once you reach the end of the sidestep flow, the stepper will automatically navigate back to the original flow.
You can also cancel a sidestep anywhere within the sidestep flow by calling stepController.cancelSidestep()
. This will end the sidestep flow immediately, and navigate back to where the sidestep was triggered from within the original flow.