rowid,title,contents,year,author,author_slug,published,url,topic 131,Random Lines Made With Mesh,"I know that Adobe Illustrator can be a bit daunting for people who aren’t really advanced users of the program, but you would be amazed by how easy you can create cool effects or backgrounds. In this short tutorial I show you how to create a cool looking background only in 5 steps. Step 1 – Create Lines Create lines using random widths and harmonious suitable colors. If you get stuck on finding the right colors, check out Adobe’s Kuler and start experimenting. Step 2 – Convert Strokes to Fills Select all lines and convert them to fills. Go to the Object menu, select Path > Outline Stroke. Select the Rectangle tool and draw 1 big rectangle on top the lines. Give the rectangle a suitable color. With the rectangle still selected, go to the Object menu, select Arrange > Send to Back. Step 3 – Convert to Mesh Select all objects by pressing the command key (for Mac users), control key (for Windows users) + the “a” key. Go to the Object menu and select the Envelope Distort > Make with Mesh option. Enter 2 rows and 2 columns. Check the preview box to see what happens and click the OK button. Step 4 – Play Around with The Mesh Points Play around with the points of the mesh using the Direct Selection tool (the white arrow in the Toolbox). Click on the top right point of the mesh. Once you’re starting to drag hold down the shift key and move the point upwards. Now start dragging the bezier handles on the mesh to achieve the effect as shown in the above picture. Of course you can try out all kind of different effects here. The Final Result This is an example of how the final result can look. You can try out all kinds of different shapes dragging the handles of the mesh points. This is just one of the many results you can get. So next time you haven’t got inspiration for a background of a header, a banner or whatever, just experiment with a few basic shapes such as lines and try out the ‘Envelope Distort’ options in Illustrator or the ‘Make with Mesh’ option and experiment, you’ll be amazed by the unexpected creative results.",2006,Veerle Pieters,veerlepieters,2006-12-08T00:00:00+00:00,https://24ways.org/2006/random-lines-made-with-mesh/,design 129,Knockout Type - Thin Is Always In,"OS X has gorgeous native anti-aliasing (although I will admit to missing 10px aliased Geneva — *sigh*). This is especially true for dark text on a light background. However, things can go awry when you start using light text on a dark background. Strokes thicken. Counters constrict. Letterforms fill out like seasonal snackers. So how do we combat the fat? In Safari and other Webkit-based browsers we can use the CSS ‘text-shadow’ property. While trying to add a touch more contrast to the navigation on haveamint.com I noticed an interesting side-effect on the weight of the type. The second line in the example image above has the following style applied to it: This creates an invisible drop-shadow. (Why is it invisible? The shadow is positioned directly behind the type (the first two zeros) and has no spread (the third zero). So the color, black, is completely eclipsed by the type it is supposed to be shadowing.) Why applying an invisible drop-shadow effectively lightens the weight of the type is unclear. What is clear is that our light-on-dark text is now of a comparable weight to its dark-on-light counterpart. You can see this trick in effect all over ShaunInman.com and in the navigation on haveamint.com and Subtraction.com. The HTML and CSS source code used to create the example images used in this article can be found here.",2006,Shaun Inman,shauninman,2006-12-17T00:00:00+00:00,https://24ways.org/2006/knockout-type/,code 141,Compose to a Vertical Rhythm,"“Space in typography is like time in music. It is infinitely divisible, but a few proportional intervals can be much more useful than a limitless choice of arbitrary quantities.” So says the typographer Robert Bringhurst, and just as regular use of time provides rhythm in music, so regular use of space provides rhythm in typography, and without rhythm the listener, or the reader, becomes disorientated and lost. On the Web, vertical rhythm – the spacing and arrangement of text as the reader descends the page – is contributed to by three factors: font size, line height and margin or padding. All of these factors must calculated with care in order that the rhythm is maintained. The basic unit of vertical space is line height. Establishing a suitable line height that can be applied to all text on the page, be it heading, body copy or sidenote, is the key to a solid dependable vertical rhythm, which will engage and guide the reader down the page. To see this in action, I’ve created an example with headings, footnotes and sidenotes. Establishing a suitable line height The easiest place to begin determining a basic line height unit is with the font size of the body copy. For the example I’ve chosen 12px. To ensure readability the body text will almost certainly need some leading, that is to say spacing between the lines. A line-height of 1.5em would give 6px spacing between the lines of body copy. This will create a total line height of 18px, which becomes our basic unit. Here’s the CSS to get us to this point: body { font-size: 75%; } html>body { font-size: 12px; } p { line-height 1.5em; } There are many ways to size text in CSS and the above approach provides and accessible method of achieving the pixel-precision solid typography requires. By way of explanation, the first font-size reduces the body text from the 16px default (common to most browsers and OS set-ups) down to the 12px we require. This rule is primarily there for Internet Explorer 6 and below on Windows: the percentage value means that the text will scale predictably should a user bump the text size up or down. The second font-size sets the text size specifically and is ignored by IE6, but used by Firefox, Safari, IE7, Opera and other modern browsers which allow users to resize text sized in pixels. Spacing between paragraphs With our rhythmic unit set at 18px we need to ensure that it is maintained throughout the body copy. A common place to lose the rhythm is the gaps set between margins. The default treatment by web browsers of paragraphs is to insert a top- and bottom-margin of 1em. In our case this would give a spacing between the paragraphs of 12px and hence throw the text out of rhythm. If the rhythm of the page is to be maintained, the spacing of paragraphs should be related to the basic line height unit. This is achieved simply by setting top- and bottom-margins equal to the line height. In order that typographic integrity is maintained when text is resized by the user we must use ems for all our vertical measurements, including line-height, padding and margins. p { font-size:1em; margin-top: 1.5em; margin-bottom: 1.5em; } Browsers set margins on all block-level elements (such as headings, lists and blockquotes) so a way of ensuring that typographic attention is paid to all such elements is to reset the margins at the beginning of your style sheet. You could use a rule such as: body,div,dl,dt,dd,ul,ol,li,h1,h2,h3,h4,h5,h6,pre,form,fieldset,p,blockquote,th,td { margin:0; padding:0; } Alternatively you could look into using the Yahoo! UI Reset style sheet which removes most default styling, so providing a solid foundation upon which you can explicitly declare your design intentions. Variations in text size When there is a change in text size, perhaps with a heading or sidenotes, the differing text should also take up a multiple of the basic leading. This means that, in our example, every diversion from the basic text size should take up multiples of 18px. This can be accomplished by adjusting the line-height and margin accordingly, as described following. Headings Subheadings in the example page are set to 14px. In order that the height of each line is 18px, the line-height should be set to 18 ÷ 14 = 1.286. Similarly the margins above and below the heading must be adjusted to fit. The temptation is to set heading margins to a simple 1em, but in order to maintain the rhythm, the top and bottom margins should be set at 1.286em so that the spacing is equal to the full 18px unit. h2 { font-size:1.1667em; line-height: 1.286em; margin-top: 1.286em; margin-bottom: 1.286em; } One can also set asymmetrical margins for headings, provided the margins combine to be multiples of the basic line height. In our example, a top margin of 1½ lines is combined with a bottom margin of half a line as follows: h2 { font-size:1.1667em; line-height: 1.286em; margin-top: 1.929em; margin-bottom: 0.643em; } Also in our example, the main heading is given a text size of 18px, therefore the line-height has been set to 1em, as has the margin: h1 { font-size:1.5em; line-height: 1em; margin-top: 0; margin-bottom: 1em; } Sidenotes Sidenotes (and other supplementary material) are often set at a smaller size to the basic text. To keep the rhythm, this smaller text should still line up with body copy, so a calculation similar to that for headings is required. In our example, the sidenotes are set at 10px and so their line-height must be increased to 18 ÷ 10 = 1.8. .sidenote { font-size:0.8333em; line-height:1.8em; } Borders One additional point where vertical rhythm is often lost is with the introduction of horizontal borders. These effectively act as shims pushing the subsequent text downwards, so a two pixel horizontal border will throw out the vertical rhythm by two pixels. A way around this is to specify horizontal lines using background images or, as in our example, specify the width of the border in ems and adjust the padding to take up the slack. The design of the footnote in our example requires a 1px horizontal border. The footnote contains 12px text, so 1px in ems is 1 ÷ 12 = 0.0833. I have added a margin of 1½ lines above the border (1.5 × 18 ÷ 12 = 2.5ems), so to maintain the rhythm the border + padding must equal a ½ (9px). We know the border is set to 1px, so the padding must be set to 8px. To specify this in ems we use the familiar calculation: 8 ÷ 12 = 0.667. Hit me with your rhythm stick Composing to a vertical rhythm helps engage and guide the reader down the page, but it takes typographic discipline to do so. It may seem like a lot of fiddly maths is involved (a few divisions and multiplications never hurt anyone) but good type setting is all about numbers, and it is this attention to detail which is the key to success.",2006,Richard Rutter,richardrutter,2006-12-12T00:00:00+00:00,https://24ways.org/2006/compose-to-a-vertical-rhythm/,design 130,Faster Development with CSS Constants,"Anyone even slightly familiar with a programming language will have come across the concept of constants – a fixed value that can be used through your code. For example, in a PHP script I might have a constant which is the email address that all emails generated by my application get sent to. $adminEmail = 'info@example.com'; I could then use $adminEmail in my script whenever I wanted an email to go to that address. The benefit of this is that when the client decides they want the email to go to a different address, I only need change it in one place – the place where I initially set the constant. I could also quite easily make this value user defined and enable the administrator to update the email address. Unfortunately CSS doesn’t support constants. It would be really useful to be able to define certain values initially and then use them throughout a CSS file, so in this article I’m going to take a look at some of the methods we do have available and provide pointers to more in depth commentary on each. If you have a different method, or tip to share please add it to the comments. So what options do we have? One way to get round the lack of constants is to create some definitions at the top of your CSS file in comments, to define ‘constants’. A common use for this is to create a ‘color glossary’. This means that you have a quick reference to the colors used in the site to avoid using alternates by mistake and, if you need to change the colors, you have a quick list to go down and do a search and replace. In the below example, if I decide I want to change the mid grey to #999999, all I need to do is search and replace #666666 with #999999 – assuming I’ve remember to always use that value for things which are mid grey. /* Dark grey (text): #333333 Dark Blue (headings, links) #000066 Mid Blue (header) #333399 Light blue (top navigation) #CCCCFF Mid grey: #666666 */ This is a fairly low-tech method, but if used throughout the development of the CSS files can make changes far simpler and help to ensure consistency in your color scheme. I’ve seen this method used by many designers however Garrett Dimon documents the method, with more ideas in the comments. Going server-side To truly achieve constants you will need to use something other than CSS to process the file before it is sent to the browser. You can use any scripting language – PHP, ASP, ColdFusion etc. to parse a CSS file in which you have entered constants. So that in a constants section of the CSS file you would have: $darkgrey = '#333333'; $darkblue = '#000066'; The rest of the CSS file is as normal except that when you come to use the constant value you would use the constant name instead of adding the color: p { color: $darkgrey; } Your server-side script could then parse the CSS file, replace the constant names with the constant values and serve a valid CSS file to the browser. Christian Heilmann has done just this for PHP however this could be adapted for any language you might have available on your server. Shaun Inman came up with another way of doing this that removes the need to link to a PHP script and also enables the adding of constants using the syntax of at-rules . This method is again using PHP and will require you to edit an .htaccess file. A further method is to generate static CSS files either using a script locally – if the constants are just to enable speed of development – or as part of the web application itself. Storing a template stylesheet with constant names in place of the values you will want to update means that your script can simply open the template, replace the variables and save the result as a new stylesheet file. While CSS constants are a real help to developers, they can also be used to add new functionality to your applications. As with the email address example that I used at the beginning of this article, using a combination of CSS and server-side scripting you could enable a site administrator to select the colours for a new theme to be used on a page of a content managed site. By using constants you need only give them the option to change certain parts of the CSS and not upload a whole different CSS file, which could lead to some interesting results! As we are unlikely to find real CSS constants under the tree this Christmas the above methods are some possibilities for better management of your stylesheets. However if you have better methods, CSS Constant horror stories or any other suggestions, add your comments below.",2006,Rachel Andrew,rachelandrew,2006-12-02T00:00:00+00:00,https://24ways.org/2006/faster-development-with-css-constants/,process 121,Hide And Seek in The Head,"If you want your JavaScript-enhanced pages to remain accessible and understandable to scripted and noscript users alike, you have to think before you code. Which functionalities are required (ie. should work without JavaScript)? Which ones are merely nice-to-have (ie. can be scripted)? You should only start creating the site when you’ve taken these decisions. Special HTML elements Once you have a clear idea of what will work with and without JavaScript, you’ll likely find that you need a few HTML elements for the noscript version only. Take this example: A form has a nifty bit of Ajax that automatically and silently sends a request once the user enters something in a form field. However, in order to preserve accessibility, the user should also be able to submit the form normally. So the form should have a submit button in noscript browsers, but not when the browser supports sufficient JavaScript. Since the button is meant for noscript browsers, it must be hard-coded in the HTML: When JavaScript is supported, it should be removed: var checkJS = [check JavaScript support]; window.onload = function () { if (!checkJS) return; document.getElementById('noScriptButton').style.display = 'none'; } Problem: the load event Although this will likely work fine in your testing environment, it’s not completely correct. What if a user with a modern, JavaScript-capable browser visits your page, but has to wait for a huge graphic to load? The load event fires only after all assets, including images, have been loaded. So this user will first see a submit button, but then all of a sudden it’s removed. That’s potentially confusing. Fortunately there’s a simple solution: play a bit of hide and seek in the
: var checkJS = [check JavaScript support]; if (checkJS) { document.write(''); } First, check if the browser supports enough JavaScript. If it does, document.write an extra So we end up with a nice simple to understand but also quick to write XSL which can be used on ATOM Flickr feeds and ATOM News feeds. With a little playing around with XSL, you can make XML beautiful again. All the files can be found in the zip file (14k)",2006,Ian Forrester,ianforrester,2006-12-07T00:00:00+00:00,https://24ways.org/2006/beautiful-xml-with-xsl/,code 124,Writing Responsible JavaScript,"Without a doubt, JavaScript has been making something of a comeback in the last year. If you’re involved in client-side development in any way at all, chances are that you’re finding yourself writing more JavaScript now than you have in a long time. If you learned most of your JavaScript back when DHTML was all the rage and before DOM Scripting was in vogue, there have been some big shifts in the way scripts are written. Most of these are in the way event handlers are assigned and functions declared. Both of these changes are driven by the desire to write scripts that are responsible page citizens, both in not tying behaviour to content and in taking care not to conflict with other scripts. I thought it may be useful to look at some of these more responsible approaches to learn how to best write scripts that are independent of the page content and are safely portable between different applications. Event Handling Back in the heady days of Web 1.0, if you wanted to have an object on the page react to something like a click, you would simply go ahead and attach an onclick attribute. This was easy and understandable, but much like the font tag or the style attribute, it has the downside of mixing behaviour or presentation in with our content. As we’re learned with CSS, there are big benefits in keeping those layers separate. Hey, if it works for CSS, it should work for JavaScript too. Just like with CSS, instead of adding an attribute to our element within the document, the more responsible way to do that is to look for the item from your script (like CSS does with a selector) and then assign the behaviour to it. To give an example, take this oldskool onclick use case: Play the animation This could be rewritten by removing the onclick attribute, and instead doing the following from within your JavaScript. document.getElementById('anim-link').onclick = playAnimation; It’s all in the timing Of course, it’s never quite that easy. To be able to attach that onclick, the element you’re targeting has to exist in the page, and the page has to have finished loading for the DOM to be available. This is where the onload event is handy, as it fires once everything has finished loading. Common practise is to have a function called something like init() (short for initialise) that sets up all these event handlers as soon as the page is ready. Back in the day we would have used the onload attibute on the element to do this, but of course what we really want is: window.onload = init; As an interesting side note, we’re using init here rather than init() so that the function is assigned to the event. If we used the parentheses, the init function would have been run at that moment, and the result of running the function (rather than the function itself) would be assigned to the event. Subtle, but important. As is becoming apparent, nothing is ever simple, and we can’t just go around assigning our initialisation function to window.onload. What if we’re using other scripts in the page that might also want to listen out for that event? Whichever script got there last would overwrite everything that came before it. To manage this, we need a script that checks for any existing event handlers, and adds the new handler to it. Most of the JavaScript libraries have their own systems for doing this. If you’re not using a library, Simon Willison has a good stand-alone example function addLoadEvent(func) { var oldonload = window.onload; if (typeof window.onload != 'function') { window.onload = func; } else { window.onload = function() { if (oldonload) { oldonload(); } func(); } } } Obviously this is just a toe in the events model’s complex waters. Some good further reading is PPK’s Introduction to Events. Carving out your own space Another problem that rears its ugly head when combining multiple scripts on a single page is that of making sure that the scripts don’t conflict. One big part of that is ensuring that no two scripts are trying to create functions or variables with the same names. Reusing a name in JavaScript just over-writes whatever was there before it. When you create a function in JavaScript, you’ll be familiar with doing something like this. function foo() { ... goodness ... } This is actually just creating a variable called foo and assigning a function to it. It’s essentially the same as the following. var foo = function() { ... goodness ... } This name foo is by default created in what’s known as the ‘global namespace’ – the general pool of variables within the page. You can quickly see that if two scripts use foo as a name, they will conflict because they’re both creating those variables in the global namespace. A good solution to this problem is to add just one name into the global namespace, make that one item either a function or an object, and then add everything else you need inside that. This takes advantage of JavaScript’s variable scoping to contain you mess and stop it interfering with anyone else. Creating An Object Say I was wanting to write a bunch of functions specifically for using on a site called ‘Foo Online’. I’d want to create my own object with a name I think is likely to be unique to me. var FOOONLINE = {}; We can then start assigning functions are variables to it like so: FOOONLINE.message = 'Merry Christmas!'; FOOONLINE.showMessage = function() { alert(this.message); }; Calling FOOONLINE.showMessage() in this example would alert out our seasonal greeting. The exact same thing could also be expressed in the following way, using the object literal syntax. var FOOONLINE = { message: 'Merry Christmas!', showMessage: function() { alert(this.message); } }; Creating A Function to Create An Object We can extend this idea bit further by using a function that we run in place to return an object. The end result is the same, but this time we can use closures to give us something like private methods and properties of our object. var FOOONLINE = function(){ var message = 'Merry Christmas!'; return { showMessage: function(){ alert(message); } } }(); There are two important things to note here. The first is the parentheses at the end of line 10. Just as we saw earlier, this runs the function in place and causes its result to be assigned. In this case the result of our function is the object that is returned at line 4. The second important thing to note is the use of the var keyword on line 2. This ensures that the message variable is created inside the scope of the function and not in the global namespace. Because of the way closure works (which if you’re not familiar with, just suspend your disbelief for a moment) that message variable is visible to everything inside the function but not outside. Trying to read FOOONLINE.message from the page would return undefined. This is useful for simulating the concept of private class methods and properties that exist in other programming languages. I like to take the approach of making everything private unless I know it’s going to be needed from outside, as it makes the interface into your code a lot clearer for someone else to read. All Change, Please So that was just a whistle-stop tour of a couple of the bigger changes that can help to make your scripts better page citizens. I hope it makes useful Sunday reading, but obviously this is only the tip of the iceberg when it comes to designing modular, reusable code. For some, this is all familiar ground already. If that’s the case, I encourage you to perhaps submit a comment with any useful resources you’ve found that might help others get up to speed. Ultimately it’s in all of our interests to make sure that all our JavaScript interoperates well – share your tips.",2006,Drew McLellan,drewmclellan,2006-12-10T00:00:00+00:00,https://24ways.org/2006/writing-responsible-javascript/,code 132,Tasty Text Trimmer,"In most cases, when designing a user interface it’s best to make a decision about how data is best displayed and stick with it. Failing to make a decision ultimately leads to too many user options, which in turn can be taxing on the poor old user. Under some circumstances, however, it’s good to give the user freedom in customising their workspace. One good example of this is the ‘Article Length’ tool in Apple’s Safari RSS reader. Sliding a slider left of right dynamically changes the length of each article shown. It’s that kind of awesomey magic stuff that’s enough to keep you from sleeping. Let’s build one. The Setup Let’s take a page that has lots of long text items, a bit like a news page or like Safari’s RSS items view. If we were to attach a class name to each element we wanted to resize, that would give us something to hook onto from the JavaScript. Example 1: The basic page. As you can see, I’ve wrapped my items in a DIV and added a class name of chunk to them. It’s these chunks that we’ll be finding with the JavaScript. Speaking of which … Our Core Functions There are two main tasks that need performing in our script. The first is to find the chunks we’re going to be resizing and store their original contents away somewhere safe. We’ll need this so that if we trim the text down we’ll know what it was if the user decides they want it back again. We’ll call this loadChunks. var loadChunks = function(){ var everything = document.getElementsByTagName('*'); var i, l; chunks = []; for (i=0, l=everything.length; iLorem ipsum dolor ...
and its cite attribute.With more than one person speaking, you need to establish a temporal order for the conversation. Once again, the element to do just that is already there in XHTML; the humble ordered list.This project will use XHTML1.0 Strict, CSS2.1 and all that malarkey.
Adding a new note is as simple as adding a new item to list, and if you prefer to add more information to each note, such as the date or time that the note was written, go right ahead. Place your note list at the bottom of the source order of your document, right before the closing tag. One advantage of this approach over using conventional comments in your code is that all the notes are unobtrusive and are grouped together in one place, rather than being spread throughout your document. Basic CSS styling For the first stage you are going to add some basic styling to the notes area, starting with the ordered list. For this design I am basing the look and feel on an instant messenger window. ol#notes { width : 300px; height : 320px; padding : .5em 0; background : url(im.png) repeat; border : 1px solid #333; border-bottom-width : 2px; -moz-border-radius : 6px; /* Will not validate */ color : #000; overflow : auto; } ol#notes li { margin : .5em; padding : 10px 0 5px; background-color : #fff; border : 1px solid #666; -moz-border-radius : 6px; /* Will not validate */ } ol#notes blockquote { margin : 0; padding : 0; } ol#notes p { margin : 0 20px .75em; padding : 0; } ol#notes p.date { font-size : 92%; color : #666; text-transform : uppercase; } Take a gander at the first example. You could stop right there, but without seeing who has left the note, there is little context. So next, extract the name of the commenter from the
This project will use XHTML1.0 Strict, CSS2.1 and all that malarkey.
Those bits are simple and bulletproof.
’s cite attribute and display it before each note by using generated content. ol#notes blockquote:before { content : "" ""attr(cite)"" said: ""; margin-left : 20px; font-weight : bold; } Fun with more detailed styling Now, with all of the information and basic styling in place, it’s time to have some fun with some more detailed styling to spruce up your notes. Let’s start by adding an icon for each person, once again based on their cite. First, all of the first paragraphs of a’s that includes a cite attribute are given common styles. ol#notes blockquote[cite] p:first-child { min-height : 34px; padding-left : 40px; } Followed by an individual background-image. ol#notes blockquote[cite=""Andy""] p:first-child { background : url(malarkey.png) no-repeat 5px 5px; } If you prefer a little more interactivity, add a :hover state to eachand perhaps highlight the most recent comment. ol#notes blockquote:hover { background-color : #faf8eb; border-top : 1px solid #fff; border-bottom : 1px solid #333; } ol#notes li:last-child blockquote { background-color : #f1efe2; } You could also adjust the style for each comment based on the department that the person works in, for example:This project will use XHTML1.0 Strict, CSS2.1 and all that malarkey.
ol#notes blockquote.designer { border-color : #600; } Take a look at the results of the second stage. Show and hide the notes using CSS positioning With your notes now dressed in their finest, it is time to tuck them away above the top of your working XHTML/CSS prototype so that you can reveal them when you need them, no JavaScript required. Start by moving the ordered list of notes off the top of the viewport leaving only a few pixels in view. It is also a good idea to make them semi-transparent by using the opacity property for browsers that have implemented it. ol#notes { position : absolute; opacity : .25; z-index : 2000; top : -305px; left : 20px; } Your last step is to add :hover and :focus dynamic pseudo-classes to reposition the list at the top of the viewport and restore full opacity to display them in their full glory when needed. ol#notes:hover, ol#notes:focus { top : 0; opacity : 1; } Now it’s time to sit back, pour yourself a long drink and bask in the glory of the final result. Your notes are all stored in one handy place at the bottom of your document rather than being spread around your code. When your templates are complete, simply dive straight to the bottom and pull out the notes. A Message To You, Rudy Thank-you to everybody for making this a really great year for web standards. Have a wonderful holiday season. Buy Andy Clarke’s book Transcending CSS from Amazon.com",2006,Andy Clarke,andyclarke,2006-12-15T00:00:00+00:00,https://24ways.org/2006/css-production-notes/,process 138,Rounded Corner Boxes the CSS3 Way,"If you’ve been doing CSS for a while you’ll know that there are approximately 3,762 ways to create a rounded corner box. The simplest techniques rely on the addition of extra mark-up directly to your page, while the more complicated ones add the mark-up though DOM manipulation. While these techniques are all very interesting, they do seem somewhat of a kludge. The goal of CSS is to separate structure from presentation, yet here we are adding superfluous mark-up to our code in order to create a visual effect. The reason we are doing this is simple. CSS2.1 only allows a single background image per element. Thankfully this looks set to change with the addition of multiple background images into the CSS3 specification. With CSS3 you’ll be able to add not one, not four, but eight background images to a single element. This means you’ll be able to create all kinds of interesting effects without the need of those additional elements. While the CSS working group still seem to be arguing over the exact syntax, Dave Hyatt went ahead and implemented the currently suggested mechanism into Safari. The technique is fiendishly simple, and I think we’ll all be a lot better off once the W3C stop arguing over the details and allow browser vendors to get on and provide the tools we need to build better websites. To create a CSS3 rounded corner box, simply start with your box element and apply your 4 corner images, separated by commas. .box { background-image: url(top-left.gif), url(top-right.gif), url(bottom-left.gif), url(bottom-right.gif); } We don’t want these background images to repeat, which is the normal behaviour, so lets set all their background-repeat properties to no-repeat. .box { background-image: url(top-left.gif), url(top-right.gif), url(bottom-left.gif), url(bottom-right.gif); background-repeat: no-repeat, no-repeat, no-repeat, no-repeat; } Lastly, we need to define the positioning of each corner image. .box { background-image: url(top-left.gif), url(top-right.gif), url(bottom-left.gif), url(bottom-right.gif); background-repeat: no-repeat, no-repeat, no-repeat, no-repeat; background-position: top left, top right, bottom left, bottom right; } And there we have it, a simple rounded corner box with no additional mark-up. As well as using multiple background images, CSS3 also has the ability to create rounded corners without the need of any images at all. You can do this by setting the border-radius property to your desired value as seen in the next example. .box { border-radius: 1.6em; } This technique currently works in Firefox/Camino and creates a nice, if somewhat jagged rounded corner. If you want to create a box that works in both Mozilla and WebKit based browsers, why not combine both techniques and see what happens.",2006,Andy Budd,andybudd,2006-12-04T00:00:00+00:00,https://24ways.org/2006/rounded-corner-boxes-the-css3-way/,code Those bits are simple and bulletproof.