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Configuring iOS HTTP Monitoring

Friday, December 16th, 2011

When developing Web Applications for the Mobile Web Experience it is often useful to have a clear view into all HTTP requests and responses sent between the client and server. This is quite simple to accomplish when developing Web Applications for the Desktop as, the browser is running locally so any standard HTTP Monitor will suffice. And, while it is a normal part of a typical development workflow to run an application locally the majority of the time, testing on each target device is obviously an essential part of the process as well.

Luckily, with Charles, on iOS this is quite simple to accomplish.

Configuration

To configure Charles to proxy all requests from an iOS device, simply follow these basic steps:

  1. From your iOS Device, open Settings.
  2. Go to Wi-Fi, select your Network and select the Blue “arrow” icon.
  3. Scroll to HTTP Proxy and select the Manual Button.
  4. In the Server field, enter the IP address of your development machine.
  5. In the port field, enter port 8888 (the default port to which Charles binds).
  6. Leave Authentication set to Off.

And that’s all there is to it. Now, open Mobile Safari and go to your Web Application’s URL (or any page on the web for that matter). On your development machine, in Charles you will receive a prompt with the IP Address of your Mobile Device, click “Allow” and you are all set. When you are done working, make sure to turn off HTTP Proxy on your device.

Additional Note

While this article may be focused on Mobile Web Applications, these same configurations apply to all HTTP traffic from any application on your device that requires resources over the web.

DHTMLX Touch 1.0 Released

Wednesday, November 23rd, 2011

Last week, shortly after I blogged about the release of jQuery Mobile 1.0, I received an email informing me of the release of another Mobile Web Framework: DHTMLX Touch 1.0.

Being that I was unfamiliar with DHTMLX Touch (as I have been using jQuery Mobile almost exclusively), I was quite interested to learn more; and, having tried the Examples and reviewed the Documentation, I was rather impressed by DHTMLX Touch.

And so, if you haven’t already, check it out.

jQuery Mobile 1.0 Released

Thursday, November 17th, 2011

, the jQuery Mobile Team announced the official release of jQuery Mobile 1.0.

Having worked with jQuery Mobile since Alpha 1, in the time since, the framework has certainly evolved into a mature, premier platform on which Mobile Web Applications can be built.

On a personal note, as I am currently in the process of working towards the release of a multi form-factor Mobile Web Application built on jQuery Mobile, the 1.0 release couldn’t have come at a better time.

Be sure to check out the updated API Docs, especially the new Data Attributes section.

jQuery Mobile 1.0 represents a significant milestone in the Mobile Web Space. I am certainly excited to see what is on the roadmap next.

CSS3 Combinators

Sunday, November 13th, 2011

In my previous article on CSS3 Selectors, I discussed the two Attribute Selector classifications; Attribute Presence and Value Selectors, and, Attribute Substring Matching Selectors.

In addition to the new Attribute Selectors, the CSS3 Selectors Module defines a new Combinator called the General sibling combinator, which is described below, succeeding a review of each CSS3 Combinator.

Combinators

Combinators provide a means for describing relationships between elements in order to “combine” them to form specific rules based on a simple syntax. There are four Combinators in CSS3, below is description and example of each:

Descendant combinator
The most familiar of all Combinators, the Descendant combinator allows for selecting any element f which is a descendant (child, grandchild, great-grandchild and so on) of an element e. The combinator syntax for a Descendant combinator is a single “white-space” character.

8.1. Descendant combinator
Child combinators
Child combinators allow for selecting any element f which is a direct child of an element e. The combinator syntax for a Child combinator is a single “greater-than” (>) sign.

8.2. Child combinator
Adjacent sibling combinator
The Adjacent sibling combinator is a Sibling combinator which allows for selecting an element f which is adjacent to an element e; that is, element f immediately follows element e in the document tree. The combinator syntax for an Adjacent sibling combinator is a single “plus” (+) sign.

8.3.1. Adjacent sibling combinator
General sibling combinator
New in CSS3, the General sibling combinator is similar to the Adjacent sibling combinator in that it matches an element f which follows an element e in the document tree; however, whereas in the Adjacent sibling combinator element f must immediately follow element e, the General sibling combinator allows for selecting an element f which is preceded by an element e, but not necessarily immediately preceded by an element e. The combinator syntax for a General sibling combinator is a single “tilde” (~) sign.

8.3.2. General sibling combinator

The following demonstrates a very basic example of each of the above Combinators:
View Example

CSS3 Attribute Selectors

Thursday, November 10th, 2011

The power of CSS Selectors can not be understated; for, without them, there would be no simple means by which developers could target specific elements for styling in a manner abstracted from, or external to, the actual markup to which the styles will bind.

In addition to some of the more common Simple Selectors, such as Type Selectors, Class Selectors and Id Selectors, we have have Attribute Selectors, which, as the name implies, allow us to match elements based on their attributes.

Attribute Presence and Value Selectors

CSS2 introduced four Attribute Selectors; referred to as Attribute Presence and Value Selectors, which allow for coarse grained matching of specific elements based on their attributes and / or attribute values. These include the following:

e[attr]
Where e is an element and [attr] is an attribute of element e. For example, p[title] would match all p tags with a title, regardless of the value of the title.
e[attr=val]
Where e is an element and [attr=val] represent an attribute of element e which contains the exact value of val. For example, p[title="Example 1"] would match all p tags with a title which equals “Example 1” exactly.
e[attr~=val]
Where e is an element and [attr~=val] is an attribute of element e which has a value containing a whitespace-separated list of words, one of which equals val exactly. For example, p[title~="Example-1a"] would match all p tags with a title containing the word “Example-1a” in a list of whitespace delimited words.
e[attr|=val]
Where e is an element and [attr|=val] is an attribute of element e that has a value of val exactly, or begins with val immediately followed by a hyphen “-“. For example, p[title!="Example"] would match all p tags with a title containing the word “Example-“, followed by any other value, such as “Example-1”, “Example-A”, etc..

View Example

Substring Matching Attribute Selectors

In addition to the above Attribute Presence and Value Selectors, CSS3 expands on this by defining three additional Attribute Selectors; referred to as Substring Matching Attribute Selectors. These additions allow for fine grained matching of specific elements based on their attribute values.

In simplest terms, the new Attribute Selectors in CSS3 can be used to match an element with a given attribute whose value begins, ends or contains a certain value. The following is a basic description and example of each new Attribute Selector:

e[attr^=val]
Where e is an element and [attr^=val] is an attribute of element e which contains a value that begins with val.
e[attr$=val]
Where e is an element and [attr$=val] represent an attribute of element e which contains a value that ends with val.
e[attr*=val]
Where e is an element and [attr*=val] is an attribute of element e which has a value that contains val.

View Example

To summarize, there are a total of seven Attribute Selectors in CSS3, three of which are new. Whether used for general matches, such as global Attributes; e.g. *[hreflang|=en] or more specific matches, such as chaining; e.g, a[href^="https"][target="_blank"], Attribute Selectors provide a powerful mechanism for selecting both general and specific content within a page.

Test Driven Javascript with QUnit

Monday, September 19th, 2011

For the past year I have been using jQuery Mobile for developing web based mobile applications leveraging HTML5, CSS3 and JavaScript. Like all UI implementations, meaningful test coverage is essential to ensuring requirements have been met and refactoring can be achieved with confidence. Building applications for the Mobile Web is no different in this respect. And so, a high quality Unit Testing framework is as essential to the success of Mobile Web Applications as it is to their Desktop counterparts.

Why QUnit?

While there are quite a few good JavaScript Unit Testing Frameworks available, Jasmine in particular, I have found QUnit to best suit my particular needs for implementing Test Driven Development in JavaScript based on it’s clean design and practical implementation.

A Simple, Powerful API

The power of QUnit lies in it’s simple and a rather unique approach to Test Driven Development in JavaScript. The QUnit API introduces a few slightly different test implementation concepts when compared to the more traditional xUnit style of TDD. In doing so, QUnit succeeds in simplifying some of the tedium of writing tests by leveraging the language features of JavaScript as opposed to strictly adhering to the more traditional xUnit conventions, the design of which is based on an fundamentally different language idiom – that is, Java.

For example, consider the follow which tests for a custom data namespace attribute in jQuery Mobile:

Figure 1 (run) (source)

The above test may appear quite straightforward, yet it serves as a good example by illustrating how each test in QUnit is implemented by the QUnit test fixture. The first argument is simply a String which describes the test case. This is quite convenient in that the intent of a particular test case can be expressed more naturally in textual form as opposed to using a long, descriptive test method name. The Second argument contains the actual test implementation itself, which is defined as an anonymous function and passed as an argument to QUnit.test.

As you may have also noticed from the above example, there are some, perhaps subtle, differences between the QUnit style of testing and the traditional xUnit style. Specifically, whereas in xUnit assertions expected values are specified first and preceded by actuals, in QUnit actuals are specified first followed by expected values. This may feel a bit odd at first however, after a few tests it’s easy to get used to. Additionally, where an assertion message is specified before any arguments in xUnit, in QUnit assertion messages are specified after all arguments. With regard to test descriptions, this is a difference I prefer as, a test message is always optional so passing this value last make sense. While somewhat subtle differences, these are worth noting.

A Complete Example

As code can typically convey much more information than any lengthy article could ever hope to achieve, I have provided a simple, yet complete, example which demonstrates a basic qUnit test implementation. (run) (source).