Support Center & Knowledge base


This page talks about the core principles at play, our mindset going into this project and what is expected from any contributions to the project.

Target scenario(s)

This library is meant to make it easier to build line of business types of applications. It is not optimized for other scenarios, although it might be useful and work fine in other scenarios. With LOB as the target, it means that there is much more of an application thinking going into this library. Its all about making applications consistent in look and feel and make applications more maintainable over time.

Target persona

The typical developer that we’re aiming for with the library is looking for the following:

  • Increased productivity
  • Reusable components
  • Promotes maintainable code
  • Consistent and predictable API surface for components
  • Consistent look and feel
  • Not having to do nitty and gritty HTML+CSS to make something cool

Core Mindset

At the core of Dolittle sits a set of core principles, such as the S.O.L.I.D principles and they all applies just as much in this project as any other Dolittle project. However, there is a high emphasis on two core principles that we are looking for; Single Responsibility principle and the Separation of Concerns princple.

These two principles are the core guiding principles throughout all the code and are on the checklist for reviewers of pull requests.

Read more about our core values, core principles and development principles.


Making something look consistent and feel solid from a UI perspective is very hard. We’ve chosen to lean on existing work from Microsoft Fluent Design System to help us stay consistent.

Read more about consistency in our development principles


Cohesion is very important; everything that belongs together should go together. Separating on technical function is considered at Dolittle as an anti-pattern, so folders that group things by their technical function is not accepted. A component should have all of its concerns in the same folder; view, styles, images, view-model or any other resource that is for the component. That also includes any child component that is to be used for a particular component. Any helpers that are related to it should also go in the same folder as the component.

The exception to this rule is when you have something that is commonly used amongst them.

Read more about cohesion in our development principles

UWP controls as reference

We aim to be inspired by and adhering to as much as possible to the UWP controls and patterns. The API surface is somewhat adapted for Web purpose with naming conventions different slightly. Instead of upper camel casing for anything that is in the view concern, it uses consistently lower case and words separated with - instead. This naming convention is however only for the view. Any JavaScript code adhere to the upper camel casing (pascal) for component names, while properties follow the lower camel casing convention.

Aurelia translates names and keeps the concerns separate on this. So any property that is bindable with a lower camel casing convention will be understood in the view as - space separation instead.

Design Language and Styles

The design language adheres to the Microsoft Fluent Design system and is implemented using the Dolittle Styles.

API thinking

Components are APIs - we put a great deal of thought into this. With the basis in the UWP controls, we get a lot for free when it comes to the API surface. But we do paint outside the box at times and introduce new APIs - it is vital that these APIs feel natural and consistent with the UWP and other APIs in the component library.


All components are trying to encapsulate a single unit of work; a specific purpose or task that you typically need solved in a UI. It is important that these are encapsulated.


Components are by their nature autonomous; they should be decoupled from other components and stand alone.

Model View View Model (MVVM)

MVVM originates from Martin Fowler’s Presentation Model from 2004 and is a variation of Trygve Reenskaug’s MVC from 1976. Microsoft iterated on this and introduced MVVM in 2005.

Model View View Model figure


A model holds state, often served from the server - but not always. It can also be state created in the client itself. The view model typically provides the model.


The view is responsible for doing the composition of flow, styles and observing state provided by a view model. It also delegates behaviors back to the view model.

View Model

The View model is responsible for coordinating the model, expose state and provide behaviors that can be used by a view. The view model should be completely coupled from the view and have no explicit knowledge about that it is being used in a view. Your view model should stay clean.

It is considered an anti-pattern to take a dependency to en `Element` into a view-model. If you need to interact with the actual element or the DOM in general, you should use the `@processContent` decorator in Aurelia - read more [here]( You can encapsulate the `@processContent` decorator to make it clearer in the code by introducing a wrapper decorator: ```javascript import { processContent } from 'aurelia-framework'; export function myDecorator() { function myProcessor(viewCompiler, viewResources, element, parentInstruction) { /* stuff... */ } return processContent(myProcessor); } ``` You'd then use it as follows: ```javascript @myDecorator() export class viewModel { } ```

Values - anti corruption

The view in a Web application typically knows about HTML and strings, some times these are even so view specific that it really does not make sense for the view model to interact with it. This is part of really separating the concerns and understanding that a representation of something in one concern does not have to bleed into another concern. This is where value converters come to play. They help you translate the value between the view and view model concerns and make both of these pure in nature.

As a core principle we want to do the translation for the concern as late as possible. It would be fundamentally wrong to for instance let the backend know how to translate into something the frontend could be using. The same relationship is between the view and the view model. The separation in thinking is absolute.

Event Aggregator

Some times there are multiple parts of a composition of components that need to know of changes or events that occurs without having to couple them together. This is where an event aggregator comes handy and lets each component fire and forget messages that others can listen to.

Event Aggregator figure

Routing of events

When a component has child components and you want to decouple the container from the children, tapping into the event system of the DOM is a great of doing this. Events can bubble up through the hierarchy. Not all events does this, but they could be captured and forwarded as is or represented as a new custom event.

There is a helper that helps you do this in a declarative way without having to involve the view model for this. Which would be the correct way. This is not the responsibility of the view model. Look at the [Routed Event topic](../../interaction/routed_event) for more details.

Composition through binding

Another way to deal with composing multiple components together without using an event aggregator is to leverage binding and expose an API surface with properties and observables that will notify when internals are changing of a component. An example of this could be a component with items in it and you have another component that will show the details when something is selected. Instead of firing off messages, you could simply expose an @bindable property of the component with items called selectedItem. The details component could then be bound to this items property. This is called a ref binding in Aurelia.



    <items name="items" view-model.ref="items"></items>
    <detail-view current-item.bind="items.selectedItem"></detail-view>


With the complete separation of concerns and focus on single responsibility principle we’ve put ourselves in the pit of success for optimal testing.

The project is configured with WallabyJS for continuous testing while writing code. In addition there is also support for Karma.

The following testing frameworks are being used:

Tests are referred to as specs or specifications, rooted in BDD and the concept of Specifications by Example.

Core principle of testing the components is that you should not rely on concrete instances during testing, but provide mocks and test the behavior in isolation. The interaction with other dependencies is what you want to test, not that they actual integrate well together.

It is vital that you test the public API and its promise, not test internals. Follow the behavior and its resulting state.

Specs sits together with the component it is specifying. The conventions supported are folders starting with for_ or when_.

│   Items.html
│   Items.scss
│   Items.js
    |       some_component_without_selection.js
    │   when_item_is_selected.js


import { SomeComponent } from '../SomeComponent';

export class some_component_without_selection {

  constructor() {
    this.component = new SomeComponent();
    this.component.selectedItem = null;



import { some_component_without_selection } from './given/some_component_without_selection';

describe('when item is selected', () => {
  let context = new some_component_without_selection();

  (beforeEach => {
    context.component.selectedItem = {};

  it('should do things...', () =>; // Duh...

In the codebase you’ll find better examples of the how to write good tests.


When developing it is very important that developers get to see what is going on. Therefor, the use of the @containerless decorator is prohibited for outer-most custom elements. For child custom elements used within, it could potentially end up rendering invalid HTML and for these scenarios it is allowed to have the @containerless decorator. An example would be a scenario where a custom element has items and uses <ul> and <li>, having the custom element in-between is not considered valid HTML.

We are however looking into the ability to add this decorator, or the effect of it as part of a production build. During development it gives a lot more context to see the actual elements and it helps understand the object model. You can find the issue [here](

We expect the copyright header to be present in all files.

 *  Copyright (c) Dolittle. All rights reserved.
 *  Licensed under the MIT License. See LICENSE in the project root for license information.

Aurelia building blocks

Name Description link
@processContent Enables you to interact with the DOM link
ref binding Element reference binding link

If you’re unfamiliar with Aurelia, we highly recommend reading through its fundamentals.