# Monday, December 23, 2013
Monday, December 23, 2013 5:24:42 PM (GMT Standard Time, UTC+00:00)
# Tuesday, December 17, 2013

Leap2 is a search tool that allows users to enter a search word or words and submit that search across multiple places simultaneously. Results are returned from Internet search engines as well as a number of social media sites, such as Twitter, Facebook, and LinkedIn. I was surprised how quickly this cross-domain search was able to return results.

One powerful feature of Leap2 is the ability to set “Alerts”, so that Leap2 searches for something and lets you know when it finds it via an updated tile on the Windows 8 home screen.

You can download Leap2 at aka.ms/Ntmt6u

If you have written or know of a Windows 8 app you would like to see featured here, please contact me at dgiard@microsoft.com.

Tuesday, December 17, 2013 4:03:00 PM (GMT Standard Time, UTC+00:00)
# Monday, December 16, 2013

Episode 296

Ward Bell on Breeze

Monday, December 16, 2013 10:58:00 PM (GMT Standard Time, UTC+00:00)
# Friday, December 13, 2013
Friday, December 13, 2013 5:14:29 PM (GMT Standard Time, UTC+00:00)
# Thursday, December 12, 2013

HTML5 provides a number of new APIs that developers can call from client-side JavaScript. We will review a few of them here.


Not every browser supports every new API. If you attempt to call an API not supported by the current, browser, the browser is likely to throw an exception, which could be a bad experience for your users. For Internet apps, it’s best to test if a feature is supported before calling it. Ideally, you should find an alternate way to provide similar functionality for unsupported browsers. At a minimum, though, your application should not crash.

In any event, the first step is figuring out whether the current browser supports the feature you are interested in. For HTML5 API features, the Modernizr library is a good tool to do this. You can download the latest Modernizr script from http://modernizr.com/ and you can use it in your web page by adding a script tag, pointing to the location on your server where you save the modernizer JavaScript file,  as in the example below

<script src="/scripts/modernizr-2.5.1.js"></script> 

The script tag above must appear before any script you write that uses modernizr. The script above creates an object named “Modernizr” and that object contains a lot of Boolean properties, each corresponding to an HTML5 feature and each returning true only if that feature is supported in the current browser.

For example, Modernizr.canvas returns true if the current browser supports the <Canvas> tag and its associated APIs. In practice, you can write code like the following to avoid JavaScript errors

if (!Modernizr.canvas){
    // Code that uses the CANVAS APISs
else {
    // Alternate code for older browsers


HTML5 now provides more ways to select elements than the traditional document.getElementById()

Now, you can pass the name of a class to document.getElementsByClassName () to return a set of all elements to which the class is applied.

Also, document.querySelector and document.querySelectorAll allow accept a CSS selector, such as “#Div1” as an argument and return matching elements. The difference between the two methods is that querySelector returns the first match, while querySelectorAll returns the set of all matching elements.

You can even chain together these For example, you can do the following to select all spans with the class “MyClass”:

var x1 = document.querySelectorAll (".MyClass");  

var x2 = x1.querySelectorAll ("span");  


The <canvas> tag allows you to create and manipulate images on a drawing surface. The advantage of the canvas is that you get control of these images down to the pixel level. The disadvantage is that you get control of the images down to the pixel level, which can be a lot of work.

To begin using this tool, add a <canvas> tag to your markup and set appropriate properties, such as width, height, style, and id.  A canvas is simply a container for drawing objects. You will need to use JavaScript to draw objects onto its surface.

The key to working with a canvas object in JavaScript is to get a reference to the canvas’s Context. The code below gets this reference. Similar code appears in every canvas-manipulating script I write:

 var canvas = document.getElementById("MyCanvas");
 var ctx = canvas.getContext("2d");

Once you have a reference to the canvas’s context (the ctx variable, in the example above), you can use this cccccontext to draw shapes on the canvas.

  • beginPath(): Resets the current path. Necessary if you have been using the context object to draw something and now want to begin drawing something new.
    moveTo(): Move the current postion to a given x,y position in order to begin drawing from there
    lineTo(): Draw a line from the current position to a new position
    fill(): Complete a 2-dimensional shape (if not already complete) and fill it in with the current fill color and style
    fillRect(): Draw a rectangle and fill it with color
    arc()    Draw a curve

Below are several examples of using JavaScript drawing and filling simple shapes on a canvas with the id of “MyCanvas”.

JavaScript to draw a triangle on a canvas

var canvas = document.getElementById("MyCanvas");
ctx = canvas.getContext("2d");
ctx.moveTo(25, 25);
ctx.lineTo(75, 100);
ctx.lineTo(25, 100);

JavaScript to Draw and fill a rectangle on a canvas

var canvas = document.getElementById("MyCanvas");
ctx = canvas.getContext("2d");
ctx.fillStyle = "rgb(500,0,0)"; 
ctx.fillRect(25, 150, 150, 100); 

JavaScript to Draw a circle on a canvas

var canvas = document.getElementById("MyCanvas");
ctx = canvas.getContext("2d");
ctx.arc(125,375,100,0,2*Math.PI, false);
ctx.fillStyle = "Blue";

Here are the results of the JavaScript above:



In the past, HTML defined a finite list of tags and attributes that it considered valid markup. This changes with HTML5. Now, any attribute that begins with “data-” (pronounced “datadash”) is considered valid markup. In fact, such attributes have a super power, in that you can access them in JavaScript, via the object’s data collection.

For example, if I have the following markup in my page:

<div data-firstname="David" data-lastname="Giard" id="fName"> 

, I can access the data stored with the datadash attributes via the following JavaScript:

var div = getElementById("fName");
var fn = div.data("firstname");
var ln = div.data("lastname"); 


Web storage is a feature of HTML5 that allows you to write JavaScript to store data on the client. This is useful if you want to maintain state as the user navigates from page to page or if they close the browser and return to your site at a later time.

There are two types of web storage – Local Storage and Session Storage. The difference between these two is that session storage is reset after the user closes the browser, while local storage persists between sessions.

The syntax of the two web storage types is very similar. The window object contains 2 properties – localStorage and sessionStorage to access local storage and session storage respectively. You can store data in these by assigning creating a property and assigning a value to it, as in the following JavaScript example:

var lStorage = window.localStorage;
lStorage.lastProductViewed = “Widget”;
var sStorage = window.sessionStorage;
sStorage.currentProduct = “Widget2”;
var product = lStorage.lastProductViewed; 


Geolocation is a feature that allows the browser to determine the physical location of the user. Before describing the API, it is important to understand some limitations of Geolocation.

In order to use the geolocation API, the user must turn on location tracking in their browser. When a script first make a call to the geolocation API, the browser may prompt the user for permission to turn on this feature. 

Location is determined by one or more of the following methods: IP address tracking; GPS; Wi-Fi; Cell Phone Tower triangulation; and user-defined settings. Not all these features may be available and the accuracy and precision may vary from one feature to the next, or even from one day to the next.

The API is relatively straightforward: The navigator.geolocation exposes the getCurrentPosition method, which returns a position object. The only trick is that this method runs asynchronously, so you must pass to getCurrentPosition the name of a function to call when the method returns successfully. This function will accept the return value (a position object) as a parameter. The position object contains properties, such as

You may also pass to getcurrentPosition the name of a function to call if an error occurs.

A sample JavaScript syntax is below:

navigator.geolocation.getCurrentPosition(showPosition, showError);
var coords = position.coords;
var lat = coords.latitude;
var lng = coords.longitude;
position.coords contains a number of useful properties, including latitude, longitude, accuracy, altitude, altitudeAccuracy, heading (direction of movement), and speed. 


In this article, I described some of the new JavaScript APIs introduced with HTML5.

In this series, I introduced some of the concepts and features of HTML5 and CSS3.

HTML5 | Web
Thursday, December 12, 2013 8:40:00 PM (GMT Standard Time, UTC+00:00)
# Wednesday, December 11, 2013

In my last article in this series, I covered a few of the new features introduced with CSS3. This article introduces some more new CSS features.


Most browser vendors began working on CSS3 features before they became full recommendations by the W3C. As a result, some implementations are specific to certain browsers. To accommodate these, it is sometimes necessary to precede a style name with a vendor prefix, as in the following example:

#title {


Below is a list of prefixes and the browser(s) for which they are intended.

Style feature Browser(s)
feature W3C Standard
-ms-feature Internet Explorer
-moz-feature Firefox
-webkit-feature Safari and Chrome
-o-feature Opera


The new “transform” style can be used to rotate skew, or scale an object. Let’s go over each of these.


The “transform:rotate” style rotates an object around its center point. It accepts an argument indicating the amount by which to rotate – positive values rotate clockwise and negative numbers rotate counter-clockwise. The example below rotates an object 15 degrees counter-clockwise from the horizontal.

#Div1 {

This is one of the styles that requires vendor-specific prefixes in order to work in all browsers. With the prefixes in place, you will need to add the following styles

#Div1 {
   -ms-transform:rotate(-15deg); /* IE  */
   -moz-transform:rotate(-15deg); /* Firefox */
   -webkit-transform:rotate(-15deg); /* Safari, Chrome */
   -o-transform:rotate(-15deg); /* Opera */

The results would look something like this:



The “transform:skew” style tilts an objects tilt an object. There are three variations of this style: “transform:skewX” (which tilts an object along the x-axis); “transform:skewY” (which tilts an object along the y-axis); and “transform:skew” (which tilts an object along both axes). The first two styles accept a single parameter, indicating how many degrees to tilt the object in the appropriate direction.  The third style accepts 2 parameters: one for the x-tilt and one for the y-tilt. Positive arguments skew an object up or to the right; negative arguments tilt it down or to the left.

This style still requires the vendor-specific prefixes to make it work on all browsers.

An example is below

    transform: skewX(150deg);
    -ms-transform: skewX(150deg);
    -moz-transform: skewX(150deg);
    -webkit-transform: skewX(150deg);
    -o-transform: skewX(150deg);

This will skew Div1 similar to the following



The “transform:scale” style and its variations resize an object. There are three variations of this style: “transform:scaleX” (which resizes an object horizontally); “transform:scaleY” (which resizes an object vertically); and “transform:scale” (which resizes an object along both axes). These styles all accept a parameter to indicate the factor by which to resize the target selected object or objects. A factor greater than 1 will make an object larger, while a factor below 1 will shrink the object.

This style is ideal for event filter selections, such as “:hover”, which is applied when the user move his or her mouse over an object.

The “transform:scale” style still requires the vendor-specific prefixes to make it work on all browsers.

An example is below

#Div1: hover
    transform: scale(factor);
    -ms-transform: scale(factor);
    -moz-transform: scale(factor);
    -webkit-transform: scale(factor);
    -o-transform: scale(factor);


The “animation” style allows you to transition from one style to another and to control how and how long that transition takes place. This is done by referencing a keyframes declaration that lists the styles and how the transition should occur. In the following example, the “blackgraywhite” keyframe defines the background color of an object changing from black through various shades of gray to white.

@keyframes blackgraywhite
    0%   {background: #000000;}
    25%  {background: #777777;}
    50%  {background: #aaaaaa;}
    75%  {background: #dddddd;}
    100% {background: #ffffff;}
 animation:  blackgraywhite 8s;

Applying the “animation: blackgraywhite” style to Div1 causes it to start out black and slowly transform to white. The entire transition lasts 8 seconds, thanks to the parameter at the end.

We can reverse the transition (from white, back to black) by adding the optional “alternate” argument and we can keep this transition going forever by adding the optional “infinite” argument.

 animation:  blackgraywhite 8s infinite alternate;


Transitions are similar to animations in that you can define how long it takes to apply a style; however, they apply to other applied styles and they are typically in response to user event filters, such as “:hover”. By default, when such a style is applied (when the user moves the mouse over an object), the new style is applied instantly. To apply a transition, define two style sets and add the “transition” style to the first one. The transition allows arguments to specify how long a transition will take and what to which styles the transition applies.  The sample below tells the browser to change green text on a white background to white text on a green background and to take 2 seconds to make this transition.

#Div1 {
    background: white;
    transition: all 2s;
#Div1:hover {
    background: green;


In this and in the previous article of this series, we covered many of the new features of CSS3.

HTML5 | Web
Wednesday, December 11, 2013 8:28:00 PM (GMT Standard Time, UTC+00:00)
# Tuesday, December 10, 2013

Thumbs Up Wine Finder provides information on countless types of wines. The app provides wine reviews, which wines are available in your local supermarket, what wines are appropriate for various meals and occasions and the ability to search by type and price of wine.

This app is ideal for people like me who don’t know a great deal about selecting wine, but it could also add value for those who know wines but are looking for more information or for some ideas of what to buy and server.


You can download Thumbs Up Wine Finder at http://apps.microsoft.com/windows/en-us/app/thumbs-up-winefinder/a6d01b26-96df-46b9-9739-bbba03b0a722.

If you have written or know of a Windows 8 app you would like to see featured here, please contact me at dgiard@microsoft.com.

Tuesday, December 10, 2013 5:00:01 PM (GMT Standard Time, UTC+00:00)
# Monday, December 9, 2013
Monday, December 9, 2013 1:31:27 PM (GMT Standard Time, UTC+00:00)
# Sunday, December 8, 2013

NOTE: If you are unfamiliar with Cascading Style Sheets, please check out my earlier article on the basics of CSS.

Cascading Style Sheets (CSS) have been around for years. They contain styling information to apply to a web page and they are a recommended way to separate content from layout. The Worldwide Web Consortium (W3C) released a new set of CSS recommendations – known as “CSS3” – at about the same time they released the HTML3 recommendations, so these two specification sets are often spoken of together. CSS3 adds a number of new and useful selectors, selector filters, and styles to provide more flexibility in styling web pages.


CSS3 adds a number of filters to refine selector criteria. Some of these support valid and invalid input.

For example, if a web page contains an input textbox with the “required” attribute, that textbox is invalid until the user types something into it. We can specify a different style for valid versus invalid input, using the “:valid” and “:invalid” selection filters, as shown below

input:invalid {
    border:3px solid red;
 input:valid {
    border:3px solid gray;
<input type=“textid=“FirstNamename=“FirstNamerequired> 

In the example above, the “FirstName” textbox displays with a red border until the user types text into it.


Font types are controlled by the “font-family” style. This style accepts a list of preferred fonts for the selection.  In earlier CSS versions, a list was necessary because browsers were unable to display a font unless it was physically installed on the user’s machine. If you wanted to display text using an unusual font, you had to either convince each user to install this font locally, or convert the stylized font text to a picture.

With CSS3, you can use the “@font-face” declaration to define a server-side font; then, point the font-family style to that font. This gives far more flexibility and control when applying fonts to text.

The syntax is

@font-face {
 font-family: FriendlyFontName;
 src: url('fontname.woff') format('woff');
selector {
 font-family: FriendlyFontName;

WOFF is a common file format that contains font information. An example (using the desyrel font, found at fontsquirrel.com), is listed below:

    font-family: desyrel;
    src: url('desyrel-webfont.woff') format('woff');
    font-family: desyrel, Arial;
    font-size: 30pt;

The style above assumes that the desyrel-webfont.woff file is in the same folder as the web page being accessed. The results would look something like this:



Text shadows were nearly impossible to achieve with earlier version of CSS. Again, developers had to resort to pictures of text. But with CSS3, the “text-shadow” style accomplishes this. This style accepts 4 arguments: for the horizontal offset (positive values to the right), vertical offset (positive values down), blur (higher numbers cause blurrier shadows), and color of the shadow. The following example causes a gray dropshadow below and to the right of the text in Div1:

    text-shadow: 30pt 25pt 15px gray;

Here is sample text with that style applied:



With the CSS3 “resize” style, you can declaratively allow users to resize an object by dragging its edges. The style takes the following parameters

resize: The direction to allow resizing (none, horizontal, vertical, or both)

overflow: Always “auto”

max-width: (optional) The maximum width to which a user may resize the object

max-height: (optional) The maximum height to which a user may resize the object

The following example allows users to resize Div1 horizontally to a maximum width of 600 pixels and vertically as much as they want.

    resize: both;
    overflow: auto; 
    max-width: 600px; 


A few years ago, everyone rushed to add rounded corners to their web layouts. The problem was that this was difficult to do with the CSS of the time. With CSS3, it is straightforward to round the corners of an object using the new “border-radius” style and its derivatives.

Border-radius style rounds all 4 corners of an object; while “border-top-left-radius”, “border-bottom-left-radius”, “border-top-right-radius”, and “border-bottom-right-radius” styles each rounds only a single corner of an object. Increase the parameter value to provide more curvature to the object corners.

The following example, rounds the two left corners of Div1.

#Div1 {

The results are something like the object below



In this article, we covered a few of the new styles introduced in CSS3. In the next article, we will demonstrate a few more CSS3 features.

HTML5 | Web
Sunday, December 8, 2013 9:18:00 PM (GMT Standard Time, UTC+00:00)
# Saturday, December 7, 2013

The <input> tag has been around a long time and supports a number of values for the “type” attribute (“text”, “checkbox”, “hidden”, etc.) HTML5 adds a number of new allowed values to the input type attribute. These are designed to capture specific types of input data. Allowed values are

  • color
  • date
  • datetime
  • datetime-local
  • email
  • month
  • number
  • range
  • search
  • tel
  • time
  • url
  • week

For example, if you want the user to enter a color value, use the following markup:

<input type="color" name="MyColor">

In Chrome, this markup renders a button that, when clicked, displays the following popup, allowing users to select the color of their choice.


Some browsers render different controls for these input types. For example, Chrome renders a popup calendar for the date type and a color picker for the color type. Browsers that don’t support custom controls simply render a textbox.

Even if no special control is rendered, the behavior of these objects is affected by the type value. Two properties – valid and invalid – were added to input tags in HTML5 and these property values change depending on the input type value and the data entered by the user. For example, if a user attempts to enter text into a <input type=“number”> control, the valid property will be set to false and the invalid property will be set to true. You can access this property either through JavaScript or through CSS, which is a good way to provide visual cues that a user has not correctly completed a form.

The new Input types are a great way to make it easier for users to input data into your forms; to restrict user input based on the expected data use; and to validate form input.

HTML5 | Web
Saturday, December 7, 2013 9:06:00 PM (GMT Standard Time, UTC+00:00)