Want your site to look good, even though you're not a designer? Try a design framework.
For as long as I can remember, I've known how to use a pencil. I can write with it, and I even can draw with it—although in my case, saying I can draw is something of a sad exaggeration. I might know how to use a pencil and thoroughly understand its technology, but that technical knowledge doesn't mean I can draw something aesthetically pleasing.
I mention this because I always think of my poor drawing abilities when I work with CSS. I understand the technology and have used it for many years. I'm comfortable working with and modifying stylesheets, and using complex selectors. And yet, any Web application that I create on my own looks ugly. Despite all of my technical knowledge of CSS, I'm generally unable to make a nicer, more pleasing design.
Fortunately for people like me, a new type of framework exists to help with such problems. Just as server-side frameworks like Ruby on Rails and Django make it easy to create Web applications, and client-side frameworks like Backbone.js and Knockout.js make it easy to create in-browser applications, design frameworks make it easy to decorate and design your applications.
Now, when I first heard about design frameworks (sometimes known as CSS frameworks), I wondered how they could possibly help. After all, I already know CSS; what could they contribute? The answer is: a great deal. By embracing a design framework, you gain a number of CSS classes and IDs that make it very easy to lay out your page. By choosing the right classes, you can make a site look more than reasonable, even if you have my graphic design skills. Using a design framework means that even if you don't have any design skills, you can make a site that looks fairly pleasing. If you do have design skills, the framework will allow you to do more with less effort.
In this article, I describe some of the leading design frameworks, leading up to the latest and most interesting one, Twitter's Bootstrap. In my next article, I'll look more closely at Bootstrap and why it has taken the world by storm.
The first design framework I'm aware of was (and is) Blueprint. The idea behind Blueprint is pretty simple. You download and refer to Blueprint's three CSS files: one for the screen, one for print and one with special definitions for Internet Explorer:
<link rel="stylesheet" href="css/blueprint/screen.css" ↪type="text/css" media="screen, projection"> <link rel="stylesheet" href="css/blueprint/print.css" ↪type="text/css" media="print"> <!--[if lt IE 8]> <link rel="stylesheet" href="css/blueprint/ie.css" ↪type="text/css" media="screen, projection"> <![endif]-->`
By including these stylesheets, Blueprint resets the CSS values for the user's browser, removing any defaults that might have been set elsewhere for margins, padding and borders.
Blueprint also resets the defaults for typography, ensuring that your headline and paragraph tags look better, and more consistent, than the defaults defined by each browser. Again, even without any additional effort on your part, Blueprint ensures that your typography is a bit more in line with established principles of design. As the Blueprint Web site says, these principles predated the Web and still are relevant in our electronic age.
The real magic of Blueprint, however, is in its layout. Blueprint offers a "grid layout", which in practical terms means it provides you with CSS classes that let you indicate how wide a particular element should be, from one column across to 24 columns across. Do you want to display two divs, side by side, with the left-hand div taking up two-thirds of the space? No problem—just define them as follows:
<div class="container"> <div class="span-16">This is the left-hand div</div> <div class="span-8 last">This is the right-hand div</div> </div>
By using these CSS classes, the divs automatically will take up the right amount of space on a user's screen. Moreover, because the content is inside a div named "container", the width of the screen (and of the divs) will adjust automatically according to the width of the user's browser window.
Before Blueprint, Web designers would do all this work themselves, implementing and re-implementing such columnar layouts on their own, specifically for each site. The advantage of Blueprint's 24-column grid is that you have enormous flexibility in the layout of your pages, letting each element extend across however many columns you think are appropriate. So long as the span-* classes add up to 24, and the final element on each row has the "last" class, the layout will look pretty good. This is far better, in every way, from what many people would do to ensure a certain layout, namely the use of tables. Tables are great, but not for laying out a page. I can't tell you how many times I've seen tables triple-nested inside other tables, just to get the layout to work appropriately.
Another advantage of Blueprint is that it has tried and tested these CSS definitions on a variety of browsers. You no longer need to worry about whether things will work on Chrome, Firefox, IE and Safari, because Blueprint has taken care of that for you. The special IE-only CSS file ensures that Internet Explorer also will work correctly, even if your users are running an old version.
Of course, because Blueprint is a bunch of CSS files, you always can change it to suit your needs. And indeed, much of the (extensive) Blueprint documentation describes how you can customize not only the layouts, but also the CSS itself.
The biggest criticism of Blueprint is that its class names violate the spirit of CSS. Sure, you can have classes named "span-5" and "span-10" to indicate that you want text to extend across five or ten columns of your 24-column layout. But, wasn't CSS supposed to free you from such calculations, allowing you to think more in terms of semantic names? My response is that, yes, this is a good point, but Blueprint's layouts are so useful and so easy to understand, it's unhelpful to focus on the original intent of CSS's designers.
Reuven M. Lerner, Linux Journal Senior Columnist, a longtime Web developer, consultant and trainer, is completing his PhD in learning sciences at Northwestern University.
With all the industry talk about the benefits of Linux on Power and all the performance advantages offered by its open architecture, you may be considering a move in that direction. If you are thinking about analytics, big data and cloud computing, you would be right to evaluate Power. The idea of using commodity x86 hardware and replacing it every three years is an outdated cost model. It doesn’t consider the total cost of ownership, and it doesn’t consider the advantage of real processing power, high-availability and multithreading like a demon.
This ebook takes a look at some of the practical applications of the Linux on Power platform and ways you might bring all the performance power of this open architecture to bear for your organization. There are no smoke and mirrors here—just hard, cold, empirical evidence provided by independent sources. I also consider some innovative ways Linux on Power will be used in the future.Get the Guide
- Download "Linux Management with Red Hat Satellite: Measuring Business Impact and ROI"
- Peppermint 7 Released
- Sony Settles in Linux Battle
- Libarchive Security Flaw Discovered
- Maru OS Brings Debian to Your Phone
- Profiles and RC Files
- Snappy Moves to New Platforms
- Git 2.9 Released
- The Giant Zero, Part 0.x
- Susan Lauber's Linux Command Line Complete Video Course (Prentice Hall)