HTML5 vs. Native App Development

As you're likely aware, there's a big debate going on about whether HTML5 web sites are a better platform for mobile apps than native code development using Android, iOS and Windows.

The main selling point for HTML5 is the write-once-run-anywhere advantage. Web browsers on mobile devices can access web sites from any mobile platform. HTML5 is providing features that allow web page JavaScript code to access phone features like devices sensors and geo positioning. In theory, a well constructed HTML5 web page will look and perform like a mobile device native code app.

However, currently not all device features are available to HTML5 JavaScript code and native code apps have a performance advantage over HTML5 web pages viewed using a browser. Native code apps are presently the dominant choice among developers.

In HTML5's corner, though, the technology is improving and web browsers are ramping up their implementation of HTML5 features. Life would certainly be simpler for mobile developers if they could develop for only one platform, HTML5, instead of multiple native platforms.

Longer term, HTML5 will certainly continue to get better. But so will native platforms. In fact, native platforms may improve more rapidly than HTML5. HTML5 is a global standard developed by the W3C. It takes years of effort to change the standard and have these changes adopted by the various browsers. The individual native platforms (Android, iOS, Windows) can change as quickly as their developers (Google, Apple and Microsoft) want them to. So will HTML5 ever catch up?

Maybe not. Google, Apple and Microsoft have lots of developers and big budgets. They want their products to be competitive ... and that means constant improvements.

So, what's likely to happen? In my opinion, we'll have a blend of the two. In fact, this is taking place today. Native code platforms have Application Programming Interfaces (APIs) that support displaying web pages from within native code apps. Developers can use native code for what it does best and HTML5 web pages for what they do best. The exact mix will shift over time as all the platforms change and improve. 

For developers, this means that separate native code platforms will likely continue to exist. Write-once-run-anywhere will remain an elusive goal probably not realized for a long time, if ever. This doesn't mean that development costs can't be managed or reduced. HTML5 web pages can be developed and used by native code apps where appropriate. Functions specific to those pages can be write-once-run-anywhere. This may not be an optimal solution, but it's the game on the ground.

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WebPlatform.org: A Resource for Web Development

WebPlatform.org is a new organization and collection of websites that will provide open source resources for web development. It will cover topics such as HTML5, Canvas, SVG, Video, Animations, IndexedDB, CSS, WebGL, Transforms, Audio, Media Queries and FileAPI.

Bridge Design Pattern

This entry is part of a series on programming Design Patterns that provides a framework for the rapid recall and use of patterns during application design. 

The Bridge design pattern is used to define multiple processes that work on multiple object types with similar aspects.

To understand how this pattern might be used, consider how software to control a real bridge might be constructed. Such an application would have two processes: trafficControl() and gateControl() which would control two types of objects: cars and boats. 

      class Bridge - contains methods to control bridge activities.

          trafficControl(trafficType) - method that controls traffic signals.

            gateControl(trafficType) - method that controls the bridge gates.

      class Traffic - contains objects describing types of traffic.

            cars() - defines car objects

            boats() - defines boat objects

Adapter Design Pattern

This entry is part of a series on programming Design Patterns that provides a framework for the rapid recall and use of patterns during application design. 

The Adapter design pattern is used to wrap a class in code that allows that class to be used via a different interface. Another name for the pattern is a Wrapper.

To understand how this pattern might be used, consider how software to display an image on a fixed size device might be constructed. Assume the following class and method are provided by the standard device software:

class Display - contains methods to create displays on the device.

displayImage(source) - method that displays an image with the dimensions of the device screen.

An adapter would fit an image of any size to the device screen:

class DisplayAdapter - contains methods that fit an image of any size to the device screen.

imageAdapter(original) - method that changes the size of the original image to fit the display screen.

imageResample(original, resized) - method that resamples the image for size change.

displayImage(resized) - uses the method built into the device to display the resized image.

Which is the Best Browser

An analysis of Internet browsers by Top Ten Reviews places Google Chrome at the head of the list. The analysis shows, however, that it's a real horse race between the top five: Chrome, Firefox, Internet Explorer, Opera and Safari. Here are some of my observations based on this analysis and personal tests and experience:

Change after new releases: All of the browser developers are working hard to improve their products. With each new browser version release, the competitive landscape can change. For example, Internet Explorer had recently lagged in speed due to the lack of graphics hardware acceleration. Based on my tests, they're now the fastest running HTML5 Canvas animations.

Graphics hardware acceleration: GPU (Graphics Processing Unit) hardware acceleration is an important factor in browser speed. A browser displaying video or animation with GPU acceleration will outperform a browser without it by a factor of 3-4. That's right, 300-400%. A computer using just the CPU to manipulate graphics displays simply can't keep up with one using the combination of CPU and GPU. Hardware acceleration is a fairly complex topic. Basically, the browser offloads calculations from the CPU to the GPU. If you're interesting in some of the details, take a look at this discussion of hardware acceleration from the Chromium Projects.

Mobile lags desktop: Especially in speed, the mobile browsers lag desktop versions. Mobile devices simply don't have the computing power to match desktop devices. 

HTML5 Status

HTML5 Logo.png

The World Wide Web Consortium (W3C) has announced that a final recommendation for HTML 5.0 will be released in the 4th quarter of 2014. In spite of the "recommendation" terminology that W3C uses, this is official release of HTML5. This is a big deal and great news. Browser developers will have a firm definition of HTML5 they can use to bring their products up to a complete level of support for this latest version of HTML.

W3C has also defined the follow-on version, HTML 5.1, to be released in the 4th quarter of 2016. This release will include features that have been pushed out in order to get release 5.0 completed in 2014. Without this stragegy, W3C was looking at an indefinite specification development timeframe. 

Browser developers are not waiting for 2014 to begin implementation of HTML5. You can use www.html5test.com to check the status of your browser to see which features are supported and www.caniuse.com for a summary of the status of support by all the major browsers.

Software Application Re-use

Software re-use has gained popularity and success due to technologies like Object Oriented Programming. Software classes and methods can be re-used based on their documented parameters and functionality.

The emergence of mobile apps over the last few years offers another level of re-use, that of whole applications. Instead of re-developing the functionality of an app (e.g. Google Maps) the app can be invoked by passing control to the app, providing it with a valid input (e.g. an address.)

Marketimpacts.com developed a series of Android apps based on applicaiton re-use. The Quickclick Locale series of apps uses the Google Maps API to map the locations of various types of places such as ATMs, Restaurants and Shops. The value added by Quickclick is an easy to use front end and app icons for different types of places.

To our surprise, there seems to be some resistance from other developers to app re-use. The only negative comments the Quickclick apps have received complain that the app is passing control to Google Maps to do the mapping.  Certainly, we could have created our own maps. But why? Are we really smart enough to out-develop Google? Would we really want to scramble to update our apps with new mapping capabilities to match Google? We think not. Google themselves promotes the idea of app re-use.

App re-use has some powerful advantages:

Lowered development costs: App functionality can be had for the cost of implementing a siimple interface to the app to be re-used.

Automatic upgrades: When the app you're re-using is upgraded, your app automatically benefits.

Higher quality: It's unlikely you'll be able to duplicate all the functionality of an existing app focused on a specific niche.

Leverage of user knowledge: If the app you're re-using is popular, many users will already know how to use it. This is certainly the case with Google Maps.

Access to complete app functionality: Some apps, including Google Maps, provide only limited functionality via an API (Application Programming Interface). By passing control to and re-using the entire app, your users gain access to full functionality.

Code Comments

What makes good code comments? Should they be terse or expansive? Should they be frequent or used sparingly? Opinions on these and other aspects of code commenting vary widely. My take is this ... to answer these questions, start with the objectives for code comments:

To assist in development: Comments aid in understand functionality being implemented in code. For example, they can be used as pseudo-code place holders for eventual real code.

To speed development and maintenance: Comments allow more rapid digestion of code sections. This is especially important when revisiting code not recently seen or code developed by others.

To clarify code: The function of a section of even well constructed code may not be evident. Comments can add that critical piece of missing information.

Given these objectives, here are some suggestions:

Comment appropriate groups of code: Sometimes a single line of code might need explanation. Or there might be a long section of code that repeats similar functionality and a single comment will suffice for the group. It's a judgment call.

Leave signposts for developers: Even if a section of code can be understood without a comment, how long will it take for you, or someone else, to understand it after time passes? Also, it's sometimes important to be able to understand the flow of a function or application without necessarily understanding all the details. Give yourself and others a break, make understanding as easy as possible. Most code is not a programming quiz.

Clean up comments: Keep them up to date and free of extraneous information. Remove temporary words used during development. Make them understandable. After all, that's their purpose in life.

Add comments while coding: It's tempting to think you can go back later and add a comment to some code that looks perfectly clear to you as you write it. Don't do it. Leverage the knowledge you have in that temporary cache in your brain.

Use a fairly uniform comment style: You don't have to be perfectly uniform, but it's a good idea to used some consistency within an application. It helps with understanding and looks more professional. 

Add value to the code being commented: Don't just repeat what the code obviously tells you. Make the comment compliment and add value to the code.

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What is HTML5 Canvas?

The Canvas feature of HTML5 is one of the most exciting new developments in web based capabilities in many years. Here are some key aspects:

HTML5 - Canvas is a part of the latest revision and improvement of the previous version (HTML4, released in the late 1990's) markup language for displaying web pages on the Internet.

Canvas Tag - The <canvas> tag joins the other HTML tags (there are around 100 now) as a way to include single or multiple Canvas areas on a web  page. 

Bit Map DisplayThe Canvas area you define with a <canvas> tag is a bit map display. You can manipulate individual pixels to draw objects, images, animations and video.

JavaScript ControlThe JavaScript language is used to control what is seen on the Canvas. The JavaScript application code is placed between the <head></head> and <script></script> tags of the web page.

Browser Based - The computing needed to create a Canvas display is done within the browser. In other words, it's client based, not server based. The means that creating a Canvas application is simpler than one requiring server based programming. It also means that the computing power needed to generate the Canvas display is not concentrated in single servers. Each user's browser handles its own work.

Animation - Canvas applications can generate animations. This is accomplished using callbacks from the browser. The Canvas application designates one of its functions to be called from the browser at specified time intervals. During each of these callbacks, the application draws a new Canvas display, moving objects slightly. When viewed as a continuous flow of Canvas displays, an animation is generated.

Audio/Video - Audio and video can be incorporated into your Canvas applications. Moving objects can create sounds and video images can be melded into other application objects. This is done without the use of any audio or video plugins.

Gaming - Game developers have all to tools necessary to create compelling HTML5 Canvas games.

Fun - Putting aside the technical aspects of Canvas ... it can be described as just plain fun. An HTML5 Canvas is a place where as a developer you can express your creative energies and as a user you can have expanded and enjoyable experiences.

For a more details look at HTML5 Canvas, watch for my upcoming book: HTML5 Canvas for Dummies.

Integrating Audio with HTML5 Canvas

One of the useful features of HTML5 Canvas is the ability to integrate audio, either with or without an audio player. Click here or on the image to see if it works on your browser ... click on my dog Daisy and/or the pelican to test simultaneous sounds.

When the new browser window opens, you can view the page source to see the code that generates the Canvas display.

This is one of the sample applications from HTML5 Canvas for Dummies.

HTML5 Canvas Performance Test

Browser support for HTML5 Canvas is constantly improving. More features are being supported and performance is improving. Click here or on the image below to see how your browser performs. The app rotates a ten layer gradient and displays the Frame Rate.

Smartphone Installations Will Soon Outnumber PCs

According to a new study by IDC, smartphone installations will soon outnumber those of PCs.  Not surprising, really, but we've lived in a PC dominant world for long enough that the shift seems monumental.

Chart: Worldwide Smart Connected Device Shipments, 2010-2016 (Unit Millions)Description: This data comes from IDC's WW Quarterly PC Tracker, WW Quarterly Mobile Phone Tracker, and WW Quarterly Media Tablet and eReader Tracker.Tags: Tracker, mobile phones, tablets, forecast, PCs, devices, consumer, IDC ...Author: IDCcharts powered by iCharts

 

Managing Android Devices

Google has quite a task ... to manage an installed base of over a thousand different types of Android devices. Multiple sizes, shapes, features, etc. The positive way to describe this is variety. On the other hand, it has also been refered to as fragmentation.

So how do they do it? In short, leverage. A good metaphor is a mechanical shovel. Relatively compact machines can move and lift very heavy objects using a system of joints and lever articulation. Android does something similar.

The code in Android applications doesn't manipulate devices directly. There are intermediate joints and levers that make the task manageable. Application code is programmed using component names to refer to layout elements. Layouts are adjusted to device characteristics automatically by the Android operating system. This lets an individual line of code manipulate many different types of devices.

This is a simplified view of how it all happens. There are a number of Android features that make it work: Themes, Styles, Action Bars, Fragments, Resources and much more. When implemented properly, an Android application can move a thousand different types of devices.

Coding for Better Understanding

A recent article in the Communications of the ACM focuses on how to improve the understandability of code. "Coding Guidelines: Finding the Art in the Science" by Robert Green and Henry Ledgard addresses a number of often overlooked aspects of code design, including:

  • Statement alignment.
  • Component naming.
  • The use of white space.
  • Syntax highlighting.

Many developers feel that work done to improve the appearance and understandabililty of code is wasted effort. They will often work to make code as compact and sometimes as obscure as possible.

This might work well for them while the function of the code is recently developed in their own head. But someone, even themselves, trying to maintain or improve the code sometime in the future would likely find it very difficult to understand.

Using principles such as those above can, over the long run, decrease development costs and improve code performance.

Using JavaScript, jQuery and HTML5 with Cloud-Based Web Development Tools

Cloud based web development tools (such as Squarespace) are making web development easier. Their WYSIWYG editors even make simple web update accessible to non technical users. Web developers can concentrate on the more complicated, higher value added tasks, while their clients make simpler updates such as text changes and blogging.

By adding JavaScript, jQuery and HTML5 to the mix, sophisticated, cost effective websites can be developed. 

Using Concept Maps with UML Components

Concept Maps are a useful way to graphically document the relationships between the elements of a system. Not only do they assist in the system design process, but they can be used to communicate design ideas to stakeholders such as users and management. Unified Modeling Language (UML) is a more structured form of concept maps focused on Object Oriented Programming (OOP.)

We've found that combining tools and including useful graphic elements such as screen shots creates a very user friendly design tool.

Programming Languages: Java vs. C++

We're often asked about the differences between the Java and C++ programming languages and why Android apps are written most often in Java.

The table below highlights some of the differences between the languages. Basically, Java is better suited to the fundamental programming (using the SDK - Software Development Kit) for most app functions. C++ is used (with the NDK - Native Development Kit) in circumstances when high performance or easy re-use of existing C++ code is important. 

Object Oriented Programming Design Patterns

OOP Design Patterns are development templates that give software designers and coders shorthand ways of thinking about and solving programming challenges.

A full explanation of OOP Design Patterns can (and does) fill entire textbooks. Understanding and remembering every aspect of every pattern can be a daunting task. Hopefully the brief descriptions below will help in remembering the function of some common Design Patterns.

Often programmers need to discuss pattern usage with software designers, managers and other programmers. Getting too lost in the details can distract from communicating the essence of a software solution. Design Patterns can help with these challenges.

Some commonly used Design Patterns are listed below. Click on the Design Pattern name for a full pattern description.

  • Adapter - Facilitates object interaction.
  • Bridge - Similar to the Adapter pattern but more robust.
  • Builder - Similar to the Factory pattern for returning objects as an output but used in cases where many variables of output object construction are needed.
  • Chain of Responsibility - Uses a sequence of processing code blocks, each of which handles a specific set of conditions before passing control to the next block.
  • Command - Used to store and use the information needed to call a method at a later time.
  • Composite - Describes that a group of objects is to be treated in the same way as a single instance of an object.
  • Decorator - Also known as a wrapper, allows behavior to be added to an individual object.
  • Facade - Provides a simplified interface to a larger body of code.
  • Factory - Creates objects as a return output.
  • Flyweight - Minimizes memory use by sharing as much data as possible with other objects.
  • Interpreter - Specifies how to evaluate sentences in a language.
  • Iterator - Used to traverse a container and access the container's elements.
  • Mediator - Defines an object the encapsulates how a set of objects interact. Instead of communicating directly, the encapsulated objects communicate through the Mediator.
  • Memento - Provides the ability to restore an object to its previous state, such as an undo via a rollback.
  • Null Object - Object with defined neutral ("null") behavior.
  • Object Pool - Set of initialized objects kept ready to use, rather than allocating and destroying them on demand. Thread Pools are a common Object Pool implementation.
  • Observer - Maintains a list of other objects and notifies them of any state change. Objects that perform Callbacks operate as an observer.
  • Prototype - Similar to the Factory pattern, creates objects based on prototypical instances.
  • Proxy - Functions as an interface to something else.
  • Singleton - Restricts the instantiation of a class to one object.
  • Strategy - Enables an algorithm's behavior to be selected at runtime.
  • Template - Defines the program skeleton of an algorithm and defers some steps to subclasses.
  • Visitor - Separates an algorithm from the objects on which it operates.

What's Up with HTML5?

HTML5 is the first major update to the HTML standard since HTML4 was standardized in 1994. Full approval by standards bodies and complete implementation may take another decade, but parts of HTML5 are already being implemented.

Each browser supports HTML5 to a different degree. The www.html5test.com website can be used to test the extent to which a browser currently supports HTML5. 

The screens to the right were taken from a test of a Droid X running Android version 2.3.3. It scored 177 points out of a total of 450. As is evident from this test, smartphone browsers are not very far along in implementing HTML5 features. The lower screen to the right shows the status of some desktop browsers.

Possibly the most well known of the HTML5 features is the new tag that will avoid the need for Flash in playing videos. This is especially important now that Adobe has announced it will stop development of Flash for mobile devices.

HTML5 contains many new features. A number of these are focused on eliminating the need for proprietary plugins and Application Programming Interfaces (APIs.) This advances the idea of being able to develop applications that will run on any device that supports HTML5, including multiple smartphone, tablet and desktop brands.