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In Single Page Apps we're used to fetch the data on event callbacks. That disables the capacity to use the URL to share it to someone else and get to the same state of the app, just like in non Sin...
Using Angular's ngClass directive you can dynamically assign classes to the HTML elements in your Angular application. This video will show you several different methods for taking advantage of An...
Creating your own services in AngularJS can be confusing. What are the differences between an AngularJS module's Service, Provider and Factory functions? This lesson shows how Angular's provider f...
Creating your own services in AngularJS can be confusing. What are the differences between an AngularJS module's Service, Provider, Factory, and Value functions? This lesson shows how Angular's va...
Creating your own services in AngularJS can be confusing. What are the differences between an AngularJS module's Service, Provider and Factory functions? This lesson shows how Angular's factory fu...
Creating your own services in AngularJS can be confusing. What are the differences between an AngularJS module's Service, Provider and Factory functions? This lesson shows how Angular's service fu...
Walkthrough the main differences between the ng-show and ng-if directives
When you implement a search bar, the user can make several different queries in a row. With a Promise based implementation, the displayed result would be what the longest promise returns. Here we s...
JSON from server often exposes raw data you have to transform to present to your end users. In this lesson, we cover a few solutions to make it happen.
Leaking logic in controllers is not an option, filters are a way to refactor your code and are compatible with ng-if and ng-show
This lesson illustrates how to use promises inside Angular filters
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In Single Page Apps we're used to fetch the data on event callbacks. That disables the capacity to use the URL to share it to someone else and get to the same state of the app, just like in non Single Page Apps.
This lesson shows you how to use React and React Router to use the URL as the source of truth for your app state.
Sometimes you need to cancel a pending request based on an action performed by the User. In this lesson we’ll see how we can stop an in-flight ajax request by dispatching another action into the store and making use of the Rx operator ‘takeUntil’.
Epics can be unit-tested just like any other function in your application - they have a very specific set of inputs (the action$ stream) and the output is always an Observable. We can subscribe to this output Observable to assert that the actions going back into the Redux are the ones we expect.
Manually creating action items every time we need to dispatch an action eventually accumulates to a very tedious process. In this lesson, we will learn how to abstract out the creation of action items so that we consolidate their creation into a single place. This not only creates efficiencies in how we express code but also reduces code volume while simultaneously increasing stability.
One of the primary advantages of using redux is that reducers are incredibly easy to test. By nature, they have a clearly defined contract of inputs and outputs, and because they are stateless, they require very little instrumentation to test in isolation.
We will start with a few simple tests for the categories reducer and then move on to testing the CRUD functionality within the bookmarks reducer.
In this lesson, we are going to learn how to enable our store to work with more than one reducer in an application.
Currently, we have set up our store to work with the categories reducer exclusively, but this leaves us with a real problem, what if we want to keep track of the currently selected category within our store so that we can access that data somewhere else in the app? It is safe to say that most applications consist of many data models interacting together, and we need a way to accommodate this within the single state tree in our application.
When we initialize our app store, wouldn't it be convenient if we could take all of our reducers and combine them into one big reducer that our store knows how to work with? Well, this is exactly what the combine reducer method does in Redux. It allows us to combine reducers together and then access them as a named property on our application store.
We currently have a category reducer just hanging out here doing nothing because we have been focusing entirely on the categories reducer. We are going to combine the two reducers so that we can use the current category data within our bookmarks component.
Invariably the question that comes up when talking about Redux is how does one handle asynchronous operations in redux. For instance, how do we hand off an operation to redux that requires a remote call to the server? Where exactly does the async part get handled?
Redux has this concept of middleware that allows us to insert custom logic in the space between dispatching an action, and the moment it reaches the reducer. In this lesson, we are going to set up a few async operations and then use redux thunk middleware to make sure that everything makes it into the reducer properly.
The main key to thunk middleware is that it allows us to return a function instead of an action. This function can encapsulate the async operation and dispatches the appropriate action when the operation is completed.
In this lesson, we are going to learn how to map our Angular component directly to our application store using the connect method on ngRedux.
In Angular, it is a common technique to bind a controller property directly to the model so that our controllers remain lightweight and operate more as a pass through mechanism than anything else.
Using the connect method, we can accomplish the same effect by not only binding properties directly to the application store, but also binding our controller to our action creators. This allows us to drastically simplify our controllers as we are able to delete a bunch of local controller methods as they become unnecessary because of our mappings.
In this lesson, we are going to learn how to integrate Redux Devtools into our Angular application.
Redux Devtools is a live-editing time travel environment for Redux. Devtools boasts a list of awesome features but my two favorite ones are that we can inspect every state and action as it happens and we can go back in time by “cancelling” actions.
This is going to be an interesting lesson because, in order for this to work, we are going to need to make something that was written for React work in Angular. For the most part, everything will play side by side with one small trick that we will pull off at the end to force an Angular digest cycle when React manipulates the application store.
In this lesson, we are going are going to apply everything that we have learned by building out our bookmarks component to be powered by Redux. This will help reinforce all the techniques we have covered by seeing them built out in a single, contiguous lesson.
We will walk through the steps necessary to phase out the bookmarks model with a Redux implementation that includes building and integrating the equivalent reducers and action creators to integrate into our application.
One of the biggest mental shifts that developers have to take when embracing redux is shifting from mutable operations to immutable operations. The problem with mutable operations is that they create side effects that involve anything else that is referencing the thing that is being mutated.
With immutable operations within a reducer, a new object is returned for every operation – completely bypassing the possibility that an existing reference is going to be compromised. It is then up to the consumer to decide how they want to get the new data and what to do with it.
In this lesson, we are going to flesh out the CRUD functionality of our bookmarks reducer, doing it first using mutable operations and then refactoring it to use immutable operations.
Up to this point, we have created an effective, yet rudimentary, implementation of Redux by manually creating an application store, reducers and action creators. We have already made significant progress in simplifying state management within our application, but we have in fact only touched the surface of what Redux has to offer.
In this lesson, we are going to introduce ngRedux into our application and let it handle the rest of the heavy lifting as we work through this series. ngRedux is a project that provides angular bindings to redux to streamline integrating it into our application.
In this lesson, we are going to extend our application store with a subscribe method so that we do not have to manually query our application store every time we dispatch an action.
In our categories controller, we are dispatching a GET_CATEGORIES action every time we want to update the categories collection within our application store. For this change to be propagated back into our controller, we need to call store.getState.
Depending on how many times we are calling store.dispatch, this could get very cumbersome. We will extend our application by adding a subscribe method so that state changes are automatically pushed into our controller.
In this lesson, we are going to learn how to build an application store so that we can have a single place to store our application state. Reducers are great for updating state because they are stateless, but they are very bad at preserving state, which is vital when you need to reference state in more than one place.
We will build out a simple application store that will be responsible for keeping track of our categories collection that our categories controller can consume.
Welcome to the series where we are going to learn how to integrate Redux into an existing Angular application.
One of the most challenging aspects of programming is state management. The complexity involved with managing state exponentially increases with each moving piece that we introduce. For every piece of shared, mutable state that we have in our application, there is an opportunity for unintended behavior. For instance, let us say that we have a collection that is shared between two controllers; how do we modify it from one controller with absolute certainty that it isn't going to adversely affect the other?
Redux was initially created for React, but it is in fact, a really solid programming pattern that we can easily apply to our Angular applications. The beauty of Redux is its simplicity in so much that someone could create an implementation of Redux in less than 10 minutes. This is exactly what we will do in the first couple lessons as we build out our reducers, actions and application store by hand before we introduce ng-redux to handle the rest of our abstractions.
We will also learn how to combine reducers, introduce middleware for async operations, map state directly to our actions, test reducers and even hook up Redux devtools. By the end of the series, you will have the tools in your hands to tame state management within your angular application while reducing the overall complexity thanks to the simplicity of Redux.
In this lesson, we are are going to learn how to abstract out state mutations into a reducer. In our current Eggly application, all of the state and business logic for our categories is handled within the categories model. We are going to refactor our code to entirely eliminate the need for our categories model by building out a couple of reducers and seeing how we can interact with them directly.
The key thing to notice as we build out our reducers is that a reducer itself is completely stateless because it receives current state every single time it needs to calculate and return the new state. With a clearly defined contract of inputs and outputs, this makes testing reducers really easy which is one of the huge benefits of using this approach.
In Angular 2, we use observables to push new data to our components. In Angular 1, we occasionally need to notify a component that a collection has changed so that we can perform an operation at the component level.
For example, when we are editing or creating a bookmark, and we navigate to a new category, we are left in this awkward state of an incomplete edit.
We need to be notified when a new category is selected at the bookmark level so that we can reset the current bookmark. Even though we do not have the convenience of an observable to emit state changes to us, we can still spin up an event bus to let us know when we need to hit reset.
Angular exposes key events within a component's lifecycle so that we can apply our own custom logic. In this lesson, we will learn how to leverage component lifecycle hooks to adhere to best practices of keeping our initialization logic out of our constructor.
Traditionally you had to create DOM elements to test a directive but by shifting our focus to components, writing unit tests got a lot easier using $componentController within ngMocks. We can now test our component's controller with an easy to use API that does not require us to spin up any DOM elements to do so. In this lesson, we will see how our ES6 tests are transpiled, learn how to test a component using $componentController and talk about how to simulate lifecycle hooks.
Managing state is one of the hardest things to do in any application. Angular 2 tackles this problem by making it easy to implement a reactive, uni-directional data flow that favor immutable operations. We are moving in the right direction in Angular 1 by moving our state and logic to models but invariably this raises a question. If we are moving to an immutable world, how do you manage mutable operations like forms in Angular? In this lesson, we are going to learn a surprisingly simple technique to isolate state mutations within a component using component lifecycle hooks.
Angular 2 introduces the concept of inputs and outputs as a mechanism for components to communicate. The most significant advantage of this is that we can create presentation components that are void of any imperative logic as they rely entirely on their parent container component. We will learn how to create inputs and outputs in Angular 1 using isolated scope and the component binding syntax.
In Angular, our controllers should be small and focused on the view that it is controlling. We accomplish this by moving as much logic and state as we can into models. Angular 2 introduced observables and async pipes which make it easy to manage state and communicate that directly to our templates.
We can start to point our Angular 1 applications in that direction by binding to our models directly from within our controllers. In this lesson, we will see a simple example of this technique and a slightly more advanced case where we lose the lexical reference to the
Angular 2 leverages new language features in ES6 and TypeScript so that we can organize and express our ideas better. By writing our Angular 1.x application in ES6, we can create a surprising resemblance to an Angular 2 application. To do this, we need to set up Webpack and Gulp to convert our code into something the browser can safely understand. In this lesson, we will learn how to configure Webpack to process our source code and then hook it into Gulp as part of our build system.
In Angular, we want to keep our controllers lightweight and specific to the view that it is controlling. To accomplish this, we are going to refactor our categories collection into a CategoriesModel. A recurring theme in Angular 2 is that everything is "just a class". When we create our controllers and services in an Angular 2 style, they are also "just a class". We will see this in action as we convert our controller almost verbatim into a service.
In this lesson, we are going to talk about dependency injection in an Angular application in ES6. There is a gotcha that I want to point out that most people will run into especially if they have not spent a lot of time using a classical language. We will start with a contrived example and then anchor it back into our application when we modify our CategoriesModel to use the $q service to return a promise.
The simplest version of a component in Angular 2 is nothing more than a container for a template. When we need to introduce imperative logic into our component, we do that via an ES6 class. We accomplish the exact same thing in Angular 1.x by using an ES6 class to serve as a controller for a component. In this lesson, we will examine an Angular 2 component to establish the pattern and then illustrate the similarity as we build out our own controller in ES6.
An Angular 2 cornerstone is component driven architecture and how we divide up our features into self-contained components and then fit them together. In this lesson, we will cover the basic structure of a component in an Angular 2 style as we build one from the ground up. Equally important, we will see how to integrate it into our application by adding it to our root component.
The entry point for any Angular 2 is a single, top-level component that all other components branch off of. We will apply this pattern to our Angular 1.x applications by creating our first component using the
.component syntax and adding it to our application to serve as our root component.
In this introductory lesson, we will discuss how the architectural concepts of Angular 2 can be applied to AngularJS 1.x. We will also take a brief tour of the concepts that we will be covering in this series as well as how the code is structured per lesson.
Themes convey meaning through color, tones, and contrasts. And the theme color palettes, alphas, and shadows deliver a consistent tone to your application and a unified feel for all Angular Material UI components. Theming allows developers to change the intention and meaning of the application by changing the colors and shadows.
Accessibility is a huge - often overlooked - feature in modern web applications. Angular Material components all implement ARIA features whenever possible. And for usage scenarios where the ARIA attributes are not explicitly provided and cannot be inferred, then Angular Material will provide details console warnings alerting the developer.
Let’s use the Angular Material Theming service to change the background, primary, accent, and warning colors used within the entire application. These will be configured at startup using the $mdThemeProvider.
Let’s also resolve the two ARIA warnings shown in console. These originate from icon buttons where the ARIA label cannot be inferred. So let’s add a static aria-label and a dynamic, interpolated aria-label to those buttons.
This course presented by Thomas Burleson and Aaron Frost
Both flexbox CSS and the Angular Material Layout allow web applications to
respond to the size of the browser at any given point. No matter what the browser width may be, the web app adjusts its layout sizing accordingly. Combine responsive functionality with media query support and your web applications will have
adaptive features to adapt to the width of the browser at a specific points. More than fluidly adjusting the widths and heights of elements, Adaptive applications can change the rendered UX with new positions, new components, and new styles. Angular Material Layout hides the complexities of implementing adaptive features with a singularly unique and simple HTML syntax.
Let’s use the Adaptive extensions of the Angular Material API to hide the SideNav on small devices (like iPhone or Android). We will explore the use of the $mdMedia service to easily lock open the SideNav on larger devices. And we will see how the $mdSideNav service can be used to programmatically close the SideNav after a user is selected.
This course presented by Thomas Burleson and Aaron Frost.
Let’s use the BottomSheet service to configure and display an Angular Material BottomSheet container which in turn will display a nested, custom Contact Sheet view.
This course presented by by Thomas Burleson & Aaron Frost.
Angular Material UI components have been designed from the ground-up to use dynamic, live data. Supporting AngularJS interpolation, expressions, and databindings… each component exposes an intuitive API and fully supports the existing ng- directives published in AngularJS.
Let’s replace the hard-coded, static HTML with dynamic, mock data using AngularJS data bindings, ng-repeat, and the ng-click directives. Our UX remains unchanged, yet now we are using custom application logic and dataservices.
This course has been created by Thomas Burleson & Aaron Frost.
Angular Material provides over 30 UI components and services. The framework offers a suite of components and containers: from simple Button components with built-in ink and hover effects, theming, and ARIA support… to more complex container components like mdList and Tabs.
Let’s use some of those components in our SideNav and Content containers. For now we will use hard-coded, HTML markup. This allows us to confirm the UX matches that specified in the design docs before we start working on our application logic.
This course has been created by Thomas Burleson and Aaron Frost.
The Angular Material Layout API wraps the flexbox CSS features with an amazingly easy, powerful HTML markup API. The Layout API hides the complexities of the CSS, is intuitive to use, and eliminates the need for developers to become flexbox experts to implement modern page layouts.
In this lesson we will learn how to use the Angular Material Container components and the Layout API to implement the layouts specified in design wireframe.
This course has been created by Thomas Burleson and Aaron Frost.
Babel 6 was a major change in how Babel works and is configured. In this lesson, find out how to update this Angular application built with Webpack to use Babel 6.
For more information about how modules have changed in Babel 6, see this blogpost by Kent.
In this lesson, we learn how to build modals in Ionic. We use the
ion-modal-view directive to wrap our “create” and “edit” forms with modal goodness, as well as use the
ion-header-bar directive to put a nice bar at the top of our forms. Finally, we use the
$ionicModal service to give life to our modals by integrating them with our controllers.
In this lesson, we are going to dig into Ionic lists and make use of some awesome list features that Ionic gives us for free. We are going to learn how to use the following Ionic directives:
ionItem, this element allows a developer to show/hide a delete button within an
ionItem, this element allows a developer to reorder an
ionItemwithin a list easily.
In this lesson, we learn how to build a sidebar layout using only Ionic directives. Ionic provides some powerful functionality with very few semantics. Here are all the directives we will learn about:
- ion-side-menus - A container element for side menu(s) and the main visible content.
- ion-side-menu-content - A container for the main visible content, sibling to one or more
- ion-side-menu - A container for a side menu, sibling to an
- ion-nav-view - Used to render templates in your application. Each template
is part of a state. States are usually mapped to a url, and are defined programatically
using angular-ui-router (see their docs for reference).
- ion-view - A container for view content and any navigational and header bar information. Used as a child of
- ion-nav-bar - If we have an
ionNavView directive, we can also create an
ionNavBar, which will create a topbar that updates as the application state changes.
- ion-nav-buttons - Use nav buttons to set the buttons on your
from within an
- ion-content- Provides an easy to use content area that can be configured
to use Ionic’s custom Scroll View, or the built in overflow scrolling of the browser.
- ion-list - The List is a widely used interface element in almost any mobile app, and can include
content ranging from basic text all the way to buttons, toggles, icons, and thumbnails.
- ion-item - Used to create items inside of an
In this lesson, we are going to learn how to interact with native components through Cordova plugins. We will walk through how to add a Cordova plugin to our application and use it to interact with our native device. In this case, we are going to install a plugin that will allow us to open URLs in a mobile browser from within our Ionic app.
In this lesson, we are going to build an Ionic app for the iOS platform, and then emulate iOS on our computer. We are going to cover some important command-line options when emulating an Ionic application. We will then see how these options play a critical role in debugging our applications.
In this lesson, we are going to demonstrate how easy it is to copy existing Angular code into an Ionic app. It is literally as simple as removing unnecessary code from the Ionic app and pasting in the guts of our Angular application. Along the way, we will update some dependencies and discover a gotcha for including assets from a CDN.