| 210 |
Stop Leaving Animation to the Last Minute |
Our design process relies heavily on static mockups as deliverables and this makes it harder than it needs to be to incorporate UI animation in our designs. Talking through animation ideas and dancing out the details of those ideas can be fun; but it’s not always enough to really evaluate or invest in animated design solutions.
By including deliverables that encourage discussing animation throughout your design process, you can set yourself (and your team) up for creating meaningful UI animations that feel just as much a part of the design as your colour palette and typeface. You can get out of that “running out of time to add in the animation” trap by deliberately including animation in the early phases of your design process. This will give you both the space to treat animation as a design tool, and the room to iterate on UI animation ideas to come up with higher quality solutions. Two deliverables that can be especially useful for this are motion comps and animated interactive prototypes.
Motion comps - an animation deliverable
Motion comps (also called animatics or motion mock-ups) are usually video representation of UI animations. They are used to explore the details of how a particular animation might play out. And they’re most often made with timeline-based tools like Adobe After Effects, Adobe Animate, or Tumult Hype.
The most useful things about motion comps is how they allow designers and developers to share the work of creating animations. (Instead of pushing all the responsibility of animation on one group or the other.) For example, imagine you’re working on a design that has a content panel that can either be open or closed. You might create a mockup like the one below including the two different views: the closed state and the open state. If you’re working with only static deliverables, these two artboards might be exactly what you handoff to developers along with the instruction to animate between the two.
On the surface that seems pretty straight forward, but even with this relatively simple transition there’s a lot that those two artboards don’t address. There are seven things that change between the closed state and the open state. That’s seven things the developer building this out has to figure out how to move in and out of view, when, and in what order. And all of that is even before starting to write the code to make it work.
By providing only static comps, all the logic of the animation falls on the developer. This might go ok if she has the bandwidth and animation knowledge, but that’s making an awful lot of assumptions.
Instead, if you included a motion mock up like this with your static mock ups, you could share the work of figuring out the logic of the animation between design and development. Designers could work out the logic of the animation in the motion comp, exploring which items move at which times and in which order to create the opening and closing transitions.
The motion comp can also be used to iterate on different possible animation approaches before any production code has to be committed too. Sharing the work and giving yourself time to explore animation ideas before you’re backed up again the deadline will lead to happier teammates and better design solutions.
When to use motion comps
I’m not a fan of making more deliverables just for the sake of having more things to make, so I find it helps to narrow down what question I’m trying answer before choosing which sort of deliverable to make to investigate.
Motion comps can be most helpful for answering questions like:
Exactly how should this animation look?
Which items should move? Where? And when?
Do the animation qualities reflect our brand or our voice and tone?
One of the added bonuses of creating motion comps to answer these questions is that you’ll have a concrete thing to bring to design critiques or reviews to get others’ input on them as well.
Using motion comps as handoff
Motion comps are often used to handoff animation ideas from design to development. They can be super useful for this, but they’re even more useful when you include the details of the motion specs with them. (It’s difficult, if not impossible, to glean these details from playing back a video.)
More specifically, you’ll want to include:
Durations and the properties animated for each animation
Easing curve values or spring values used
Delay values and repeat counts
In many cases you’ll have to collect these details up manually. But this isn’t necessarily something that that will take a lot of time. If you take note of them as you’re creating the motion comp, chances are most of these details will already be top of mind. (Also, if you use After Effects for your motion comps, the Inspector Spacetime plugin might be helpful for this task.)
Animated prototypes - an interactive deliverable
Making prototypes isn’t a new idea for web work by any stretch, but creating prototypes that include animation – or even creating prototypes specifically to investigate potential animation solutions – can go a long way towards having higher quality animations in your final product.
Interactive prototypes are web or app-based, or displayed in a particular tool’s preview window to create a useable version of interactions that might end up in the end product. They’re often made with prototyping apps like Principle, Framer, or coded up in HTML, CSS and JS directly like the example below.
See the Pen Prototype example by Val Head (@valhead) on CodePen.
The biggest different between motion comps and animated prototypes is the interactivity. Prototypes can reposed to taps, drags or gestures, while motion comps can only play back in a linear fashion. Generally speaking, this makes prototypes a bit more of an effort to create, but they can also help you solve different problems. The interactive nature of prototypes can also make them useful for user testing to further evaluate potential solutions.
When to use prototypes
When it comes to testing out animation ideas, animated prototypes can be especially helpful in answering questions like these:
How will this interaction feel to use? (Interactive animations often have different timing needs than animations that are passively viewed.)
What will the animation be like with real data or real content?
Does this animation fit the context of the task at hand?
Prototypes can be used to investigate the same questions that motion comps do if you’re comfortable working in code or your prototyping tool of choice has capabilities to address high fidelity animation details. There are so many different prototyping tools out there at the moment, you’re sure to be able to find one that fits your needs.
As a quick side note: If you’re worried that your coding skills might not be up to par to prototype in code, know that prototype code doesn’t have to be production quality code. Animated prototypes’ main concern is working out the animation details. Once you’ve arrived at a combination of animations that works, the animation specifics can be extracted or the prototype can be refactored for production.
Motion comp or prototype?
Both motion comps and prototypes can be extremely useful in the design process and you can use whichever one (or ones) that best fits your team’s style. The key thing that both offer is a way to make animation ideas visible and sharable. When you and your teammate are both looking at the same deliverable, you can be confident you’re talking about the same thing and discuss its pros and cons more easily than just describing the idea verbally.
Motion comps tend to be more useful earlier in the design process when you want to focus on the motion without worrying about the underlying structure or code yet. Motion comps also be great when you want to try something completely new. Some folks prefer motion comps because the tools for making them feel more familiar to them which means they can work faster.
Prototypes are most useful for animations that rely heavily on interaction. (Getting the timing right for interactions can be tough without the interaction part sometimes.) Prototypes can also be helpful to investigate and optimize performance if that’s a specific concern.
Give them a try
Whichever deliverables you choose to highlight your animation decisions, including them in your design reviews, critiques, or other design discussions will help you make better UI animation choices. More discussion around UI animation ideas during the design phase means greater buy-in, more room for iteration, and higher quality UI animations in your designs. Why not give them a try for your next project? |
2017 |
Val Head |
valhead |
2017-12-08T00:00:00+00:00 |
https://24ways.org/2017/stop-leaving-animation-to-the-last-minute/ |
design |
| 217 |
Beyond Web Mechanics – Creating Meaningful Web Design |
It was just over three years ago when I embarked on becoming a web designer, and the first opinion piece about the state of web design I came across was a conference talk by Elliot Jay Stocks called ‘Destroy the Web 2.0 Look’. Elliot’s presentation was a call to arms, a plea to web designers the world over to stop the endless reproductions of the so called ‘Web 2.0 look’.
Three and a half years on from Elliot’s talk, what has changed? Well, from an aesthetic standpoint, not a whole lot. The Web 2.0 look has evolved, but it’s still with us and much of the web remains filled with cookie cutter websites that bear a striking resemblance to one another. This wouldn’t matter so much if these websites were selling comparable services or products, but they’re not. They look similar, they follow the same web design trends; their aesthetic style sends out a very similar message, yet they’re selling completely different services or products. How can you be communicating effectively with your users when your online book store is visually indistinguishable from an online cosmetic store? This just doesn’t make sense.
I don’t want to belittle the current version of the Web 2.0 look for the sake of it. I want to talk about the opportunity we have as web designers to create more meaningful experiences for the people using our websites. Using design wisely gives us the ability to communicate messages, ideas and attitudes that our users will understand and connect with.
Being human
As human beings we respond emotionally to everything around us – people, objects, posters, packaging or websites. We also respond in different ways to different kinds of aesthetic design and style. We care about style and aesthetics deeply, whether we realise it or not. Aesthetic design has the power to attract or repel. We often make decisions based purely on aesthetics and style – and don’t retailers the world over know it! We connect attitudes and strongly held beliefs to style. Individuals will proudly associate themselves with a certain style or aesthetic because it’s an expression of who they are. You know that old phrase, ‘Don’t judge a book by its cover’? Well, the problem is that people do, so it’s important we get the cover right.
Much is made of how to structure web pages, how to create a logical information hierarchy, how to use layout and typography to clearly communicate with your users. It’s important, however, not to mistake clarity of information or legibility with getting your message across. Few users actually read websites word by word: it’s far more likely they’ll just scan the page. If the page is copy-heavy and nothing grabs their attention, they may well just move on. This is why it’s so important to create a visual experience that actually means something to the user.
Meaningful design
When we view a poster or website, we make split-second assessments and judgements of what is in front of us. Our first impressions of what a website does or who it is aimed at are provoked by the style and aesthetic of the website. For example, with clever use of colour, typography, graphic design and imagery we can communicate to users that an organisation is friendly, edgy, compassionate, fun or environmentally conscious.
Using a certain aesthetic we can convey the personality of that organisation, target age ranges, different sexes or cultural groups, communicate brand attributes, and more. We can make our users feel like they’re part of something and, perhaps even more importantly, we can make new users want to be a part of something. And we can achieve all this before the user has read a single word.
By establishing a website’s aesthetic and creating a meaningful visual language, a design is no longer just a random collection of pretty gradients that have been plucked out of thin air. There can be a logic behind the design decisions we make. So, before you slap another generic piece of ribbon or an ultra shiny icon into the top-left corner of your website, think about why you are doing it. If you can’t come up with a reason better than “I saw it on another website”, it’s probably a poor application of style.
Design and style
There are a number of reasons why the web suffers from a lack meaningful design. Firstly, there are too many preconceptions of what a website should look like. It’s too easy for designers to borrow styles from other websites, thereby limiting the range of website designs we see on the web. Secondly, many web designers think of aesthetic design as of secondary importance, which shouldn’t be the case. Designing websites that are accessible and easy to use is, of course, very important but this is the very least a web designer should be delivering. Easy to use websites should come as standard – it’s equally important to create meaningful, compelling and beautiful experiences for everyone who uses our websites. The aesthetics of your site are part of the design, and to ignore this and play down the role of aesthetic design is just a wasted opportunity.
No compromise necessary
Easy to use, accessible websites and beautiful, meaningful aesthetics are not mutually exclusive. The key is to apply style and aesthetic design appropriately. We need to think about who and what we’re designing for and ask ourselves why we’re applying a certain kind of aesthetic style to our design. If you do this, there’s no reason why effective, functional design should come at the expense of jaw-dropping, meaningful aesthetics.
Web designers need to understand the differences between functional design and aesthetic design but, even more importantly, they need to know how to make them work together. It’s combining these elements of design successfully that makes for the best web design in the world. |
2010 |
Mike Kus |
mikekus |
2010-12-05T00:00:00+00:00 |
https://24ways.org/2010/beyond-web-mechanics-creating-meaningful-web-design/ |
design |
| 222 |
Golden Spirals |
As building blocks go, the rectangle is not one to overwhelm the designer with decisions. On the face of it, you have two options: you can set the width, and the height. But despite this apparent simplicity, there are combinations of width and height that can look unbalanced. If a rectangle is too tall and slim, it might appear precarious. If it is not tall enough, it may simply look flat. But like a guitar string that’s out of tune, you can tweak the proportions little by little until a rectangle feels, as Goldilocks said, just right.
A golden rectangle has its height and width in the golden ratio, which is approximately 1:1.618. These proportions have long been recognised as being aesthetically harmonious. Whether through instruction or by intuition, artists have understood how to exploit these proportions over the centuries. Examples can be found in classical architecture, medieval book construction, and even in the recent #newtwitter redesign.
A mathematical curiosity
The golden rectangle is unique, in that if you remove a square section from it, what is left behind is itself a golden rectangle. The removal of a square can be repeated on the rectangle that is left behind, and then repeated again, as many times as you like. This means that the golden rectangle can be treated as a building block for recursive patterns. In this article, we will exploit this property to build a golden spiral, using only HTML and CSS.
The markup
The HTML we’ll use for this study is simply a series of nested <div>s.
<body>
<div id="container">
<div class="cycle">
<div>
<div>
<div>
<div class="cycle">
<div>
<div>
<div>
<div class="cycle">
<div>
<div>
<div>
<div class="cycle"></div>
</div>
</div>
</div>
</div>
</div>
</div>
</div>
</div>
</div>
</div>
</div>
</div>
</div>
</body>
The first of these has the class cycle, and so does every fourth ancestor thereafter. The spiral completes a cycle every four steps, so this class allows styles to be reused on <div>s that appear at the same position in each cycle.
Golden proportions
To create our spiral we are going to exploit the unique properties of the golden rectangle, so our first priority is to ensure that we have a golden rectangle to begin with. If we pick a length for the short edge – say, 288 pixels – we can then calculate the length of the long edge by multiplying this value by 1.618. In this case, 288 × 1.618 = 466, so our starting point will be a <div> with these properties:
#container > div {
width: 466px;
height: 288px;
}
The greater than symbol is used here to single out the immediate child of the #container element, without affecting the grandchild or any of the more distant descendants.
We could go on to specify the precise pixel dimensions of every child element, but that means doing a lot of sums. It would be much easier if we just specified the dimensions for each element as a percentage of the width and height of its parent. This also has the advantage that if you change the size of the outermost container, all nested elements would be resized automatically – something that we shall exploit later.
The approximate value of 38.2% can be derived from (100 × 1 − phi) ÷ phi, where the Greek letter phi (ϕ) stands for the golden ratio. The value of phi can be expressed as phi = (1 + √5 ) ÷ 2, which is approximately 1.618. You don’t have to understand the derivation to use it. Just remember that if you start with a golden rectangle, you can slice 38.2% from it to create a new golden rectangle.
This can be expressed in CSS quite simply:
.cycle,
.cycle > div > div {
height: 38.2%;
width: 100%;
}
.cycle > div,
.cycle > div > div > div {
width: 38.2%;
height: 100%;
}
You can see the result so far by visiting Demo One. With no borders or shading, there is nothing to see yet, so let’s address that next.
Shading with transparency
We’ll need to apply some shading to distinguish each segment of the spiral from its neighbours. We could start with a white background, then progress through shades of grey: #eee, #ddd, #ccc and so on, but this means hard-coding the background-color for every element. A more elegant solution would be to use the same colour for every element, but to make each one slightly transparent.
The nested <div>s that we are working with could be compared to layers in Photoshop. By applying a semi-transparent shade of grey, each successive layer can build on top of the darker layers beneath it. The effect accumulates, causing each successive layer to appear slightly darker than the last. In his 2009 article for 24 ways, Drew McLellan showed how to create a semi-transparent effect by working with RGBA colour. Here, we’ll use the colour black with an alpha value of 0.07.
#container div { background-color: rgba(0,0,0,0.07) }
Note that I haven’t used the immediate child selector here, which means that this rule will apply to all <div> elements inside the #container, no matter how deeply nested they are. You can view the result in Demo Two. As you can see, the golden rectangles alternate between landscape and portrait orientation.
Demo Three).
CSS3 specification indicates that a percentage can be used to set the border-radius property, but using percentages does not achieve consistent results in browsers today. Luckily, if you specify a border-radius in pixels using a value that is greater than the width and height of the element, then the resulting curve will use the shorter length side as its radius. This produces exactly the effect that we want, so we’ll use an arbitrarily high value of 10,000 pixels for each border-radius:
.cycle {
border-radius: 0px;
border-bottom-left-radius: 10000px;
}
.cycle > div {
border-radius: 0px;
border-bottom-right-radius: 10000px;
}
.cycle > div > div {
border-radius: 0px;
border-top-right-radius: 10000px;
}
.cycle > div > div > div {
border-radius: 0px;
border-top-left-radius: 10000px;
}
Note that the specification for the border-radius property is still in flux, so it is advisable to use vendor-specific prefixes. I have omitted them from the example above for the sake of clarity, but if you view source on Demo Four then you’ll see that the actual styles are not quite as brief.
Filling the available space
We have created an approximation of the Golden Spiral using only HTML and CSS. Neat! It’s a shame that it occupies just a fraction of the available space. As a finishing touch, let’s make the golden spiral expand or contract to use the full space available to it.
Ideally, the outermost container should use the full available width or height that could accomodate a rectangle of golden proportions. This behaviour is available for background images using the “ background-size: contain; property, but I know of no way to make block level HTML elements behave in this fashion (if I’m missing something, please enlighten me). Where CSS fails to deliver, JavaScript can usually provide a workaround. This snippet requires jQuery:
$(document).ready(function() {
var phi = (1 + Math.sqrt(5))/2;
$(window).resize(function() {
var goldenWidth = windowWidth = $(this).width(),
goldenHeight = windowHeight = $(this).height();
if (windowWidth/windowHeight > phi) {
// panoramic viewport – use full height
goldenWidth = windowHeight * phi;
} else {
// portrait viewport – use full width
goldenHeight = windowWidth / phi;
};
$("#container > div.cycle")
.width(goldenWidth)
.height(goldenHeight);
}).resize();
});
You can view the result by visiting Demo Five.
Is it just me, or can you see an elephant in there?
You can probably think of many ways to enhance this further, but for this study we’ll leave it there. It has been a good excuse to play with proportions, positioning and the immediate child selector, as well as new CSS3 features such as border-radius and RGBA colours. If you are not already designing with golden proportions, then perhaps this will inspire you to begin. |
2010 |
Drew Neil |
drewneil |
2010-12-07T00:00:00+00:00 |
https://24ways.org/2010/golden-spirals/ |
design |
| 248 |
How to Use Audio on the Web |
I know what you’re thinking. I never never want to hear sound anywhere near a browser, ever ever, wow! 🙉
You’re having flashbacks, flashbacks to the days of yore, when we had a <bgsound> element and yup did everyone think that was the most rad thing since <blink>. I mean put those two together with a <marquee>, only use CSS colour names, make sure your borders were all set to ridge and you’ve got yourself the neatest website since 1998.
The sound played when the website loaded and you could play a MIDI file as well! Everyone could hear that wicked digital track you chose. Oh, surfing was gnarly back then.
Yes it is 2018, the end of in fact, soon to be 2019. We are certainly living in the future. Hoverboards self driving cars, holodecks VR headsets, rocket boots drone racing, sound on websites get real, Ruth.
We can’t help but be jaded, even though the <bgsound> element is depreciated, and the autoplay policy appeared this year. Although still in it’s infancy, the policy “controls when video and audio is allowed to autoplay”, which should reduce the somewhat obtrusive playing of sound when a website or app loads in the future.
But then of course comes the question, having lived in a muted present for so long, where and why would you use audio?
✨ Showcase Time ✨
There are some incredible uses of audio on websites today. This is my personal favourite futurelibrary.no, a site from Norway chronicling books that have been published from a forest of trees planted precisely for the books themselves. The sound effects are lovely, adding to the overall experience.
futurelibrary.no
Another site that executes this well is pottermore.com. The Hogwarts WebGL simulation uses both sound effects and ambient background music and gives a great experience. The button hovers are particularly good.
pottermore.com
Eighty-six and a half years is a beautiful narrative site, documenting the musings of an eighty-six and a half year old man. The background music playing on this site is not offensive, it adds to the experience.
Eighty-six and a half years
Sound can be powerful and in some cases useful. Last year I wrote about using them to help validate forms. Audiochart is a library which “allows the user to explore charts on web pages using sound and the keyboard”. Ben Byford recorded voice descriptions of the pages on his website for playback should you need or want it. There is a whole area of accessibility to be explored here.
Then there’s education. Fancy beginning with some piano in the new year? flowkey.com is a website which allows you to play along and learn at the same time. Need to brush up on your music theory? lightnote.co takes you through lessons to do just that, all audio enhanced. Electronic music more your thing? Ableton has your back with learningmusic.ableton.com, a site which takes you through the process of composing electronic music. A website, all made possible through the powers with have with the Web Audio API today.
lightnote.co
learningmusic.ableton.com
Considerations
Yes, tis the season, let’s be more thoughtful about our audios. There are some user experience patterns to begin with. 86andahalfyears.com tells the user they are about to ‘enter’ the site and headphones are recommended. This is a good approach because it a) deals with the autoplay policy (audio needs to be instigated by a user gesture) and b) by stating headphones are recommended you are setting the users expectations, they will expect sound, and if in a public setting can enlist the use of a common electronic device to cause less embarrassment.
Eighty-six and a half years
Allowing mute and/or volume control clearly within the user interface is a good idea. It won’t draw the user out of the experience, it’ll give more control to the user about what audio they want to hear (they may not want to turn down the volume of their entire device), and it’s less thought to reach for a very visible volume than to fumble with device settings.
Indicating that sound is playing is also something to consider. Browsers do this by adding icons to tabs, but this isn’t always the first place to look for everyone.
To The Future
So let’s go!
We see amazing demos built with Web Audio, and I’m sure, like me, they make you think, oh wow I wish I could do that / had thought of that / knew the first thing about audio to begin to even conceive that.
But audio doesn’t actually need to be all bells and whistles (hey, it’s Christmas). Starting, stopping and adjusting simple panning and volume might be all you need to get started to introduce some good sound design in your web design.
Isn’t it great then that there’s a tutorial just for that! Head on over to the MDN Web Audio API docs where the Using the Web Audio API article takes you through playing and pausing sounds, volume control and simple panning (moving the sound from left to right on stereo speakers).
This year I believe we have all experienced the web as a shopping mall more than ever. It’s shining store fronts, flashing adverts, fast food, loud noises.
Let’s use 2019 to create more forests to explore, oceans to dive and mountains to climb. |
2018 |
Ruth John |
ruthjohn |
2018-12-22T00:00:00+00:00 |
https://24ways.org/2018/how-to-use-audio-on-the-web/ |
design |
| 277 |
Raising the Bar on Mobile |
One of the primary challenges of designing for mobile devices is that screen real estate is often in limited supply. Through the advocacy of Luke W and others, we’ve drawn comfort from the idea that this constraint ends up benefiting users and designers alike, from obvious advantages like portability and reach, to influencing our content strategy decisions through focus and restraint. But that doesn’t mean we shouldn’t take advantage of every last pixel of that screen we can snag!
As anyone who has designed a website for use on a smartphone can attest, there’s an awful lot of space on mobile screens dedicated to browser functions that would be better off toggled out of view. Unfortunately, the visibility of some of these elements is beyond our control, such as the buttons fixed to the bottom of the viewport in iOS’s Safari and the WebOS browser. However, in many devices, the address bar at the top can be manually hidden, and its absence frees up enough pixel room for a large, impactful heading, a critical piece of navigation, or even just a little more white space to air things out.
So, as my humble contribution to this most festive of web publications, today I’ll dig into the approach I used to hide the address bar in a browser-agnostic fashion for sites like BostonGlobe.com, and the jQuery Mobile framework.
Surveying the land
First, let’s assess the chromes of some popular, current mobile browsers. For example purposes, the following screen-captures feature the homepage of the Boston Globe site, without any address-bar-hiding logic in place.
Note: these captures are just mockups – actual experience on these platforms may vary.
On the left is iOS5’s Safari (running on iPhone), and on the right is Windows Phone 7 (pre-Mango).
BlackBerry 7 (left), and Android 2.3 (right).
WebOS (left), Opera Mini (middle), and Opera Mobile (right).
Some browsers, such the default browsers on WebOS and BlackBerry 5, hide the bar automatically without any developer intervention, but many of them don’t. Of these, we can only manually hide the address bar on iOS Safari and Android (according to Opera Web Opener, Mike Taylor, some discussion is underway for support in Opera Mini and Mobile as well, which would be great!). This is unfortunate, but iOS and Android are incredibly popular, so let’s direct our focus there.
Great API, or greatest API?
As it turns out, iOS and Android not only allow you to hide the address bar, they use the same JavaScript method to do so, too (this shouldn’t be surprising, given that they are both WebKit browsers, but nothing expected happens in mobile). However, the method they use is not exactly intuitive. You might set out looking for a JavaScript API dedicated to this purpose, like, say, window.toolbar.hide(), but alas, to hide the address bar you need to use the window.scrollTo method!
window.scrollTo(0, 0);
The scrollTo method is not new, it’s just this particular use of it that is. For the uninitiated, scrollTo is designed to scroll a document to a particular set of coordinates, assuming the document is large enough to scroll to that spot. The method accepts two arguments: a left coordinate; and a top coordinate. It’s both simple and supported well pretty much everywhere. In iOS and Android, these coordinates are calculated from the top of the browser’s viewport, just below the address bar (interestingly, it seems that some platforms like BlackBerry 6 treat the top of the browser chrome as 0 instead, meaning the page content is closer to 20px from the top).
Anyway, by passing the coordinates 0, 0 to the scrollTo method, the browser will jump to the top of the page and pull the address bar out of view! Of course, if a quick call to scrollTo was all we need to do to hide the address bar in iOS and Android, this article would be pretty short, and nothing new. Unfortunately, the first issue we need to deal with is that this method alone will not usually do the trick: it must be called after the page has finished loading.
The browser gives us a load event for just that purpose, so we’ll wrap our scrollTo method in it and continue on our merry way! We’ll use the standard, addEventListener method to bind the the load event, passing arguments for event name load, and a callback function to execute when the event is triggered.
window.addEventListener("load",function() {
window.scrollTo(0, 0);
});
For the sake of preventing errors in those using browsers that don’t support addEventListener, such as Internet Explorer 8 and under, let’s make sure that method exists before we use it:
if( window.addEventListener ){
window.addEventListener("load",function() {
window.scrollTo(0, 0);
});
}
Now we’re getting somewhere, but we must also call the method after the load event’s default behavior has been applied. For this, we can use the setTimeout method, delaying its execution to after the load event has run its course.
if( window.addEventListener ){
window.addEventListener("load",function() {
setTimeout(function(){
window.scrollTo(0, 0);
}, 0);
});
}
Sweet sugar of Christmas! Hit this demo in iOS and watch that address bar drift up and away!
Not so fast…
We’ve got a little problem: the approach above does work in iOS but, in some cases, it works a little too well. In the process of applying this behavior, we’ve broken one of the primary tenets of responsible web development: don’t break the browser’s default behaviour. This usability rule of thumb is often violated by developers with even the best of intentions, from breaking the browser’s back button through unrecorded Ajax page refreshes, to fancy momentum touch scrolling scripts that can wreak havoc in all but the most sophisticated of devices. In this case, we’ve prevented the browser’s native support of deep-linking to sections of a page (a hash identifier in the URL matching a page element’s id attribute, for example, http://example.com#contact) from working properly, because our script always scrolls to the top.
To avoid this collision, we’ll need to detect whether a deep link, or hash, is present in the URL before applying our logic. We can do this by ensuring that the location.hash property is falsey:
if( !window.location.hash && window.addEventListener ){
window.addEventListener( "load",function() {
setTimeout(function(){
window.scrollTo(0, 0);
}, 0);
});
}
Still works great! And a quick test using a hash-based URL confirms that our script will not execute when a deep anchor is in play. Now iOS is looking sharp, and we’ve added our feature defensively to avoid conflicts.
Now, on to Android…
Wait. You didn’t expect that we could write code for one browser and be finished, right? Of course you didn’t. I mentioned earlier that Android uses the same method for getting rid of the scrollbar, but I left out the fact that the arguments it prefers vary slightly, but significantly, from iOS. Bah!
Differering from the earlier logic from iOS, to remove the address bar on Android’s default browser, you need to pass a Y coordinate of 1 instead of 0. Aside from being just plain odd, this is particularly unfortunate because to any other browser on the planet, 1px is a very real, however small, distance from the top of the page!
window.scrollTo( 0, 1 );
Looks like we’re going to need a fork…
R UA Android?
At this point, some developers might decide to simply not support this feature in Android, and more determined devs might decide that a quick check of the User Agent string would be a reliable way to determine the browser and tweak the scroll value accordingly. Neither of those decisions would be tragic, but in the spirit of cross-browser and future-friendly development, I’ll propose an alternative.
By this point, it should be clear that neither of the implementations above offer a particularly intuitive way to hide an address bar. As such, one might be skeptical that these approaches will stick around very long in their present state in either browser. Perhaps at some point, Android will decide to use 0 like iOS, making our lives a little easier, or maybe some new browser will decide to model their address bar hiding method after one of these implementations. In any case, detecting the User Agent only allows us to apply logic based on the known present, and in the world of mobile, let’s face it, the present is already the past.
Writing a check
In this next step of today’s technique, we’ll apply some logic to quickly determine the behavior model of the browser we’re using, then capitalize on that model – without caring which browser it happens to come from – by applying the appropriate scroll distance.
To do this, we’ll rely on a fortunate side effect of Android’s implementation, which is when you programatically scroll the page to 1 using scrollTo, Android will report that it’s still at 0 because oddly enough, it is! Of course, any other browser in this situation will report a scroll distance of 1. Thus, by scrolling the page to 1, then asking the browser its scroll distance, we can use this artifact of their wacky implementation to our advantage and scroll to the location that makes sense for the browser in play.
Getting the scroll distance
To pull off our test, we’ll need to ask the browser for its current scroll distance. The methods for getting scroll distance are not entirely standardized across popular browsers, so we’ll need to use some cross-browser logic. The following scroll distance function is similar to what you’d find in a library like jQuery. It checks the few common ways of getting scroll distance before eventually falling back to 0 for safety’s sake (that said, I’m unaware of any browsers that won’t return a numeric value from one of the first three properties).
// scrollTop getter
function getScrollTop(){
return scrollTop = window.pageYOffset ||
document.compatMode === "CSS1Compat" && document.documentElement.scrollTop ||
document.body.scrollTop || 0;
}
In order to execute that code above, the body object (referenced here as document.body) will need to be defined already, or we’ll risk an error. To determine that it’s defined, we can run a quick timer to execute code as soon as that object is defined and ready for use.
var bodycheck = setInterval(function(){
if( document.body ){
clearInterval( bodycheck );
//more logic can go here!!
}
}, 15 );
Above, we’ve defined a 15 millisecond interval called bodycheck that checks if document.body is defined and, if so, clears itself of running again. Within that if statement, we can extend our logic further to run other code, such as our check for the scroll distance, defined via the variable scrollTop below:
var scrollTop,
bodycheck = setInterval(function(){
if( document.body ){
clearInterval( bodycheck );
scrollTop = getScrollTop();
}
}, 15 );
With this working, we can immediately scroll to 1, then check the scroll distance when the body is defined. If the distance reports 1, we’re likely in a non-Android browser, so we’ll scroll back to 0 and clean up our mess.
window.scrollTo( 0, 1 );
var scrollTop,
bodycheck = setInterval(function(){
if( document.body ){
clearInterval( bodycheck );
scrollTop = getScrollTop();
window.scrollTo( 0, scrollTop === 1 ? 0 : 1 );
}
}, 15 );
Cashing in
All of the pieces are written now, so all we need to do is combine them with our previous logic for scrolling when the window is loaded, and we’ll have a cross-browser solution of which John Resig would be proud. Here’s our combined code snippet, with some formatting updates rolled in as well:
(function( win ){
var doc = win.document;
// If there’s a hash, or addEventListener is undefined, stop here
if( !location.hash && win.addEventListener ){
//scroll to 1
window.scrollTo( 0, 1 );
var scrollTop = 1,
getScrollTop = function(){
return win.pageYOffset || doc.compatMode = "CSS1Compat" && doc.documentElement.scrollTop || doc.body.scrollTop || 0;
},
//reset to 0 on bodyready, if needed
bodycheck = setInterval(function(){
if( doc.body ){
clearInterval( bodycheck );
scrollTop = getScrollTop();
win.scrollTo( 0, scrollTop = 1 ? 0 : 1 );
}
}, 15 );
win.addEventListener( “load”, function(){
setTimeout(function(){
//reset to hide addr bar at onload
win.scrollTo( 0, scrollTop === 1 ? 0 : 1 );
}, 0);
} );
}
})( this );
View code example
And with that, we’ve got a bunch more room to play with on both iOS and Android.
Break out the eggnog
…because we’re not done yet! In the spirit of making our script act more defensively, there’s still another use case to consider. It was essential that we used the window’s load event to trigger our scripting, but on pages with a lot of content, its use can come at a cost. Often, a user will begin interacting with a page, scrolling down as they read, before the load event has fired. In those situations, our script will jump the user back to the top of the page, resulting in a jarring experience.
To prevent this problem from occurring, we’ll need to ensure that the page has not been scrolled beyond a certain amount. We can add a simple check using our getScrollTop function again, this time ensuring that its value is not greater than 20 pixels or so, accounting for a small tolerance.
if( getScrollTop() < 20 ){
//reset to hide addr bar at onload
window.scrollTo( 0, scrollTop === 1 ? 0 : 1 );
}
And with that, we’re pretty well protected! Here’s a final demo.
The completed script can be found on Github (full source: https://gist.github.com/1183357 ). It’s MIT licensed. Feel free to use it anywhere or any way you’d like!
Your thoughts?
I hope this article provides you with a browser-agnostic approach to hiding the address bar that you can use in your own projects today. Perhaps alternatively, the complications involved in this approach convinced you that doing this well is more trouble than it’s worth and, depending on the use case, that could be a fair decision. But at the very least, I hope this demonstrates that there’s a lot of work involved in pulling off this small task in only two major platforms, and that there’s a real need for standardization in this area.
Feel free to leave a comment or criticism and I’ll do my best to answer in a timely fashion.
Thanks, everyone!
Some parting notes
I scream, you scream…
At the time of writing, I was not able to test this method on the latest Android 4.0 (Ice Cream Sandwich) build. According to Sencha Touch’s browser scorecard, the browser in 4.0 may have a different way of managing the address bar, so I’ll post in the comments once I get a chance to dig into it further.
Short pages get no love
Today’s technique only works when the page is as tall, or taller than, the device’s available screen height, so that the address bar may be scrolled out of view. On a short page, you might work around this issue by applying a minimum height to the body element ( body { min-height: 460px; } ), but given the variety of screen sizes out there, not to mention changes in orientation, it’s tough to find a value that makes much sense (unless you manipulate it with JavaScript). |
2011 |
Scott Jehl |
scottjehl |
2011-12-20T00:00:00+00:00 |
https://24ways.org/2011/raising-the-bar-on-mobile/ |
design |
| 279 |
Design the Invisible to Tell Better Stories on the Web |
For design to be meaningful we need to tell stories. We need to design the invisible, the cues, the messages and the extra detail hidden beneath the aesthetics. It’s all about the story.
From verbal exchanges around the campfire to books, the web and everything in between, storytelling allows us to share, organize and process information more efficiently. It helps us understand our surroundings and make emotional connections to people, places and experiences.
Web design lends itself perfectly to the conventions of storytelling, a universal process. However, the stories vary because they’re defined by culture, society, politics and religion. All of which need considering if you are to design stories that are relevant to your target audience.
The benefits of approaching design with storytelling in mind from the very start of the project is that we are creating considered design that allows users to quickly gather meaning from the website. They do this by reading between the lines and drawing on the wealth of knowledge they have acquired about the associations between colours, typyefaces and signs.
With so much recognition and analysis happening subconsciously you have to consider how design communicates on this level. This invisible layer has a significant impact on what you say, how you say it and who you say it to.
How can we design something that’s invisible?
By researching and making conscious decisions about exactly what you are communicating, you can make the invisible visible. As is often quoted, good design is like air, you only notice it when it’s bad. So by designing the invisible the aim is to design stories that the audience receive subliminally, so that they go somewhat unnoticed, like good air.
Storytelling strands
To share these stories through design, you can break it down into several strands. Each strand tells a story on its own, but when combined they may start to tell a different story altogether. These strands are colour, typefaces, branding, tone of voice and symbols. All are literal and visible but the invisible element is the meaning behind them – meaning that you can extract and share. In this article I want to focus on colour, typefaces and tone of voice and on how combining story strands can change the meaning.
Colour
Let’s start with colour. Red represents emotions such as love but can also signify war. Green is commonly used for all things environmental and purple is a colour that connotes wealth and royalty. These associations between colour and emotion or value have been learned over time and are continually reinforced through media and culture.
With this knowledge come expectations from your users. For example, they will expect Valentine’s Day sites to be red and kids’ sites to be bright and colourful. This is true in the same way audiences have expectations of certain genres of film or music. These conventions help savvy audiences decode texts and read between the lines or, rather, to draw meaning from the invisible. It’s practically an innate skill. This is why you need to design the invisible: because users will quickly deduce meaning from your site and fill in the story’s gaps, it’s important to give them as much of that story to begin with. A story relevant to their culture.
Of all the ways you can tell stories through web design, colour is the most fascinating and important. Not only does it evoke emotions in users but its meaning varies significantly between cultures. In the west, for example, white is a colour associated with weddings, and black is the colour of mourning. This is signified by the traditions of brides wearing white and those in mourning wearing black. In other cultures the meanings are reversed, as black is a colour that represents good luck and white is a colour that signifies mourning. If you assume the same values are true in all cultures then you risk offending the very people you are targeting.
When colours combine, the story being told can change. If you design using red, white and blue then it’s going to be difficult to shake off patriotic connotations because this colour combination is so ingrained as being American or British or French thanks largely to their flags. This extends to politics too. Each party has its own representative colour. In the UK, the Conservatives are blue and Labour is red so it would be inappropriate storytelling to design a Labour-related website in blue as there would be a conflict between the content and the design, a conflict that would result in a poor user experience.
Conflicts become more of an issue when you start to combine story strands. I once saw a No VAT advert use the symbol on the left:
There’s a complete conflict in storytelling here between the sign and its colour. The prohibition sign was used over the word VAT to mean no VAT; that makes sense. But this is a symbol that is used to communicate to people that something is being prohibited or prevented, it mustn’t continue. So to use green contradicts the message of the sign itself; green is used as a colour to say yes, go, proceed, enter. The same would be true if we had a tick in red and a cross in green. Bad design here means the story is flawed and the user experience is compromised.
Typefaces
Typefaces also tell stories. They are so much more than the words that are written with them because they connote different values. Here are a few:
Serif fonts are more formal and are associated with tradition, sophistication and high-end values. Sans serif fonts, on the other hand, are synonymous with modernity, informality and friendliness. These perceptions are again reinforced through more traditional media such as newspaper mastheads, where the serious news-focused broadsheets have serif titles, and the showbiz and gossip-led tabloids have sans serif titles. This translates to the web as well. With these associations already familiar to users, they may see copy and focus on the words, but if the way that copy is displayed jars with the context then we are back to having conflicting stories like the No VAT sign earlier.
Let’s take official institutions, for example. The White House, the monarchy, 10 Downing Street and other government departments are formal, traditional and important organisations. If the copy on their websites were written in a typeface like Cooper Black, it would erase any authority and respect that they were due. They need people to take them seriously and trust them, and part of the way to do this is to have a typeface that represents those values.
It works both ways though. If Innocent, Threadless or other fun companies used traditional typefaces, they wouldn’t be accurate reflections of their core values, brand and personality. They are better positioned to use friendly, informal and modern typefaces. But still never Comic Sans.
Tone of voice
Closely tied to this is tone of voice, my absolute bugbear on the web. Tone of voice isn’t what is said but, rather, how it is said. When we interact with others in person we don’t just listen to the words they say, but we also draw meaning from their body language, and pitch and tone of voice. Just because the web removes that face-to-face interaction with your audience it doesn’t mean you can’t have a tone of voice.
Innocent pioneered the informal chatty tone of voice that so many others have since emulated, but unless it is representative of your company, then it’s not appropriate. It works for Innocent because the tone of voice is consistent across all the company’s materials, both online and offline. Ben and Jerry’s takes the same approach, as does Threadless, but maybe you need a more formal or corporate tone of voice. It really depends on what your business or service is and who it is for, and that is why I think LoveFilm has it all wrong.
LoveFilm offers a film and game rental service, something fun for people in their downtime. While they aren’t particularly stuffy, neither is their tone of voice very friendly or informal, which is what I would expect from a service like theirs. The reason they have it wrong is in the language they use and the way their sentences are constructed.
This is the first time we’ve discussed language because, on the whole, designing the invisible isn’t concerned with language at all. But that doesn’t mean that these strands can’t still elicit an emotional response in users. Jon Tan quoted Dr Mazviita Chirimuuta in his New Adventures in Web Design talk in January 2011:
Although there is no absolute separation between language and emotion, there will still be countless instances where you have emotional response without verbal input or linguistic cognition. In general language is not necessary for emotion.
This is even more pertinent when the emotions evoked are connected to people’s culture, surroundings and way of life. It makes design personal, something that audiences can connect with at more than just face value but, rather, on a subliminal or, indeed, invisible level.
It also means that when you are asked the inevitable question of why – why is blue the dominant colour? why have you used that typeface? why don’t we sound like Innocent? – you will have a rationale behind each design decision that can explain what story you are telling, how you discovered the story and how it is targeted at the core audience.
Research
This is where research plays a vital role in the project cycle. If you don’t know and understand your audience then you don’t know what story to design. Every project lends itself to some level of research, but how in-depth and what methods are most appropriate will be dictated by project requirements and budget restrictions – but do your research.
Even if you think you know your audience, it doesn’t hurt to research and reaffirm that because cultures and society do change, albeit slowly, but they can change. So ask questions at the start of the project during the research phase:
What do different colours mean for your audience’s culture?
Do the typeface and tone of voice appeal to the demographic?
Does the brand identity represent the values and personality of your service?
Are there any social, political or religious significances associated with your audience that you need to take into consideration so you don’t offend them?
Ask questions, understand your audience, design your story based on these insights, and create better user experiences in context that have good, solid storytelling at their heart.
Major hat tip to Gareth Strange for the beautiful graphics used within this article. |
2011 |
Robert Mills |
robertmills |
2011-12-14T00:00:00+00:00 |
https://24ways.org/2011/design-the-invisible/ |
design |
| 285 |
Composing the New Canon: Music, Harmony, Proportion |
Ohne Musik wäre das Leben ein Irrtum
—Friedrich NIETZSCHE, Götzen-Dämmerung, Sprüche und Pfeile 33, 1889
Somehow, music is hardcoded in human beings. It is something we understand and respond to without prior knowledge. Music exercises the emotions and our imaginative reflex, not just our hearing. It behaves so much like our emotions that music can seem to symbolize them, to bear them from one person to another. Not surprisingly, it conjures memories: the word music derives from Greek μουσική (mousike), art of the Muses, whose mythological mother was Mnemosyne, memory. But it can also summon up the blood, console the bereaved, inspire fanaticism, bolster governments and dissenters alike, help us learn, and make web designers dance. And what would Christmas be without music?
Music moves us, often in ways we can’t explain. By some kind of alchemy, music frees us from the elaborate nuisance and inadequacy of words. Across the world and throughout recorded history – and no doubt well before that – people have listened and made (and made out to) music.
[I]t appears probable that the progenitors of man, either the males or females or both sexes, before acquiring the power of expressing their mutual love in articulate language, endeavoured to charm each other with musical notes and rhythm.
—Charles DARWIN, The Descent of Man, and Selection in Relation to Sex, 1871
It’s so integral to humankind, we’ve sent it into space as a totem for who we are. (Who knows? It might be important.) Music is essential, a universal compulsion; as Nietzsche wrote, without music life would be a mistake.
Music, design and web design
There are some obvious and notable similarities between music and visual design. Both can convey mood and evoke emotion but, even under close scrutiny, how they do that remains to a great extent mysterious. Each has formal qualities or parts that can be abstracted, analysed and discussed, often using the same terminology: composition, harmony, rhythm, repetition, form, theme; even colour, texture and tone.
A possible reason for these shared aspects is that both visual design and music are means to connect with people in deep and lasting ways. Furthermore, I believe the connections to be made can complement direct emotional appeal. Certain aesthetic qualities in music work on an unconscious and, it could be argued, universal level. Using musical principles in our designs, then, can help provide the connectedness between content, device and user that we now seek as web designers.
Yet, when we talk about music and web design, the conversation is almost always about the music designers listen to while working, a theme finding its apotheosis in Designers.MX. Sometimes, articles in that dreary list format seek inspiration from music industry websites. There’s even a service offering pre-templated web designs for bands, and at least one book surveyed the landscape back in 2006. Occasionally, discussions broaden somewhat into whether and how different kinds of music can inspire and influence the design work we produce.
Such enquiries, it seems to me, are beside the point. Do I really design differently when I listen to Bach rather than Bacharach? Will the barely restrained energy of Count Basie’s The Kid from Red Bank mean I choose a lively colour palette, and rural, autumnal shades when inspired by Fleet Foxes? Mahler means a thirteen-column layout? Gillian Welch leads to distressed black and white photography? While reflecting the importance we place in music and how it seems to help us in our work, surveys on musical taste and lists of favourite artists fail to recognize that some of the fundamental aesthetic characteristics of music can be adapted and incorporated into modern web design.
Antiphonal geometry
Over recent years, web designers have embraced grid systems as powerful tools to help create good-looking and intuitive user experiences. With the advent of responsive design, these grids and their contents must adapt to the different screen sizes and properties of all kinds of user devices. Finding and using grid values that can scale well and retain or enhance their proportions and relationships while making the user experience meaningful in several different contexts is more important than ever.
In print, this challenge has always started with the dimensions and proportions of the page. Content can thereby be made to belong inside the page and be bound to it. And music has been used for centuries to further this aim. As Robert Bringhurst says in The Elements of Typographical Style:
Indeed, one of the simplest of all systems of page proportions is based on the familiar intervals of the diatonic scale. Pages that embody these basic musical proportions have been in common use in Europe for more than a thousand years.
Very well. But while he goes on to list (from the full chromatic scale, rather than just diatonic) the proportions and the musical intervals they’re based on, Bringhurst fails to mention what they’re ratios of or their potential effects. Shame. In his favour, however, he later touches on how proportions in print might be considered to work:
The page is a piece of paper. It is also a visible and tangible proportion, silently sounding the thoroughbass of the book. On it lies the textblock, which must answer to the page. The two together – page and textblock – produce an antiphonal geometry. That geometry alone can bond the reader to the book. Or conversely, it can put the reader to sleep, or put the reader’s nerves on edge, or drive the reader away.
So what does Bringhurst mean by antiphonal geometry, a phrase that marries the musical to the spatial? By stating that the textblock “must answer to the page”, the implication is that the relationship between the proportions of the page and the shape of the textblock printed on it embodies a spatial (geometrical) call-and-response (antiphony) that can be appealing or not.
Boulton’s new canon
But, as Mark Boulton has pointed out, on the web “there are no edges. There are no ‘pages’. We’ve made them up.” So, what is to be done? In January 2011 at the New Adventures in Web Design conference, Boulton presented his vision of a new canon of web design, a set of principles to guide us as we design the web. There are three overlapping tenets:
design from the content out
create connectedness between the different content elements
bind the content to the web device
Rather than design from the edges in, we need to design layout systems from the content out. To this end, Boulton asserts that grid system design should begin with a constraint, and he suggests we use the size of a fixed content element, such as an advertising unit or image, as a starting point for online grid calculations. Khoi Vinh advocates the same approach in his book, Ordering Disorder: Grid Principles for Web Design.
Boulton’s second and third tenets, however, are more complex and overlap significantly with each other. Connecting the different parts of the content and binding the content to the device share many characteristics and solutions:
adopting ems and percentages as units of size for layout elements
altering text size, line length and line height for different viewport dimensions
providing higher resolution images for devices with greater pixel densities
fluid layout grids, flexible images and responsive design
All can help relate the presentation of the content to its delivery in a certain context.
But how do we determine the relationship between one element of a layout and another? How can we avoid making arbitrary decisions about the relative sizes of parts of our designs? What can we use to connect the parts of our design to one another, and how can we bind the presentation of the content to the user’s device?
Tim Brown’s application of modular typographic scales hints at an answer. In the very useful tool he created for calculating such scales, Brown includes two musical ratios: the perfect fifth (2:3); and the perfect fourth (3:4). Why? Where do they come from? And what do they mean?
Harmonies musical and visual
Fundamental to music are rhythm and harmony.
As any drummer will tell you, without rhythm there is no music. Even when there’s no regular beat, any tune follows a rhythm, however irregular, simply because a change of note is a point of change in the music. Although rhythm, timing and pacing are all relevant to interaction design, right now it’s harmony we’re interested in.
Sometimes harmony is called the vertical aspect of music, and melody the horizontal. But this conceit overlooks the fact that harmony is both vertical and horizontal. A single melodic line, as it is played, implies various sets of harmonies on which it is grounded, whether or not those harmonies are played. So, harmony doesn’t just sit vertically beneath the horizontal melody, but moves horizontally as well, through harmonic progression.
To stretch this arrangement pixel-thin, we could argue that in onscreen design melody is the content, and the layout and arrangement of the content is the harmony. We sometimes say a design is harmonious when the interplay of different elements of a design is pleasing or balanced or in proportion, and the content (the melody) is set off or conveyed well by or appropriate to the design.
We seem to know instinctively whether a layout is harmonious…
In the design of The Great Discontent, the relationships between different elements combine to form a balanced whole.
…or not.
There’s no harmony in the Department for Education’s website because the different parts of the content don’t feel related to one another.
What is it that makes one design harmonious and another dissonant? It’s not just whether things line up, though that’s a start. I believe there are much deeper aesthetic forces at work, forces we can tap into in our onscreen designs. Now, I’m not going start a difficult discussion about aesthetics. For our purposes, we just need to know that it’s the branch of philosophy dealing with the nature of beauty, and the creation and perception of beauty. And among the key components in the perception of beauty are harmony and proportion. These have been part of traditional western aesthetics since Plato (about 2,500 years).
One of the ways we appreciate the beauty of music is through the harmonic intervals we hear. A musical interval is a combination of two notes and it describes the distance between the two pitches. For example, the distance between C and the G above it (if we take C as the tonic or root) is called a perfect fifth.
Left: C to G, a perfect fifth. Right: C and G, not a perfect fifth.
And, to get superficially scientific for a moment, each musical interval can be expressed as a ratio of the wavelength frequencies of the notes; for our perfect fifth, with every two wavelengths of C, there are three of G. And what is a ratio, if not a proportion of one thing to another?
So, simple musical harmony (using what’s known as just intonation1) affords us a set of proportions, expressed as ratios. Where better to apply these ideas of harmony and proportion from music in web design, than grid systems?
A digression: whither φ?
Quite often in our discussions of pure design and aesthetics, we mention the golden ratio and regurgitate the same justifications for its use: roots in antiquity; embodied in classical and Renaissance architecture and art; occurrence in nature; the New Twitter, and so forth (oh, really?).
Yet the ratios of musical intervals from just intonation are equally venerable and much more widespread: described by Pythagorus; employed in Palladian architecture, and printing, books and art from the Renaissance onwards; in modern times, film and television dimensions; standard international paper sizes (ISO 216, the A and B series); and, again and again, screen dimensions – chances are that screen you’re probably looking at right now has the proportions 2:3 (iPhone and iPod Touch), 3:4 (iPad and Kindle), 3:5 (many smartphones), 5:8 or 16:9 (many widescreen monitors), all ratios of musical intervals.
Back to our theme…
Musical interval ratios
Let’s take a look at most of the ratios within a couple of octaves and crunch some numbers to generate some percentages and other values that we can use in our designs. First, the intervals and their ratios in just intonation and expressed as ratios of one:
Name
Interval in C
Ratio
Ratio (1:x)
unison
C→C
1:1
1:1
minor second
C→D♭
15:16
1:1.067
major second
C→D
8:9
1:1.125
minor third
C→E♭
5:6
1:1.2
major third
C→E
4:5
1:1.25
perfect fourth
C→F
3:4
1:1.333
augmented fourth
or diminished fifth
C→F♯/G♭
1:√2
1:1.414
perfect fifth
C→G
2:3
1:1.5
minor sixth
C→A♭
5:8
1:1.6
major sixth
C→A
3:5
1:1.667
minor seventh
C→B♭
9:16
1:1.778
major seventh
C→B
8:15
1:1.875
octave
C→C↑
1:2
1:2
major tenth
C→E↑
2:5
1:2.5
major eleventh
C→F↑
3:8
1:2.667
major twelfth
C→G↑
1:3
1:3
double octave
C→C↑
1:4
1:4
Name
Interval in C
Ratio
Ratio (1:x)
And now as percentages, of both the larger and smaller values in the ratios:
Name
Ratio
% of larger value
% of smaller value
unison
1:1
100%
100%
minor second
15:16
93.75%
106.667%
major second
8:9
88.889%
112.5%
minor third
5:6
83.333%
120%
major third
4:5
80%
125%
perfect fourth
3:4
75%
133.333%
augmented fourth
or diminished fifth
1:√2
70.711%
141.421%
perfect fifth
2:3
66.667%
150%
minor sixth
5:8
62.5%
160%
major sixth
3:5
60%
166.667%
minor seventh
9:16
56.25%
177.778%
major seventh
8:15
53.333%
187.5%
octave
1:2
50%
200%
major tenth
2:5
40%
250%
major eleventh
3:8
37.5%
266.667%
major twelfth
1:3
33.333%
300%
double octave
1:4
25%
400%
Name
Ratio
% of larger value
% of smaller value
As you can see, the simple musical intervals are expressed as ratios of small whole numbers (integers). We can then normalize them as ratios of one, as well as derive percentage values, both in terms of the smaller value to the larger, and vice versa. These are the numbers we can incorporate into our designs. If you’ve ever written something like body { font: 100%/1.5 "Museo Sans", Helvetica, sans-serif; } in your CSS, you’re already using a musical ratio: the perfect fifth.
Modular scales allow us to generate a set of numbers based on a musical interval that can be used for all kinds of typographic and layout decisions to create harmony in a visual design for the web. As Tim Brown said at the 2010 Build conference:
I think that from that most atomic unit – type – whole experiences can resonate, whole experiences can be harmonious. And whole experiences can have a purpose suited to our design intentions.
Once more, with feeling: connectedness
As well as modular scales, there are other methods of incorporating musical interval ratios into our work. Setting the ratio of font size to line height in CSS is one such example. We could also create a typographic hierarchy using the same principle and combining several ratios that we know harmonize well musically in a chord:
body { font-size: 75%; } /* =12px = base size or tonic */
h1 { font-size: 32px; font-size: 2.667rem; }
/* =32px = 3:8 = major eleventh (C→F↑) */
h2 { font-size: 24px; font-size: 2rem; }
/* =24px = 1:2 = octave (C→C↑) */
h3 { font-size: 20px; font-size: 1.667rem; }
/* =20px = 3:5 = major sixth (C→A) */
figcaption, small { font-size: 9px; font-size : 0.75rem }
/* =9px = 3:4 = perfect fourth (C→F) */
Whoa! Hold your reindeer, Santa! How can we know what interval combinations work well together to form chords? Well, I’m a classically trained musician, so perhaps I have an advantage. To avoid a long, technically complex digression into musical harmony, here are a few basic combinations of intervals that are harmonious in one way or another:
unison; major third; perfect fifth; octave
unison; perfect fourth; major sixth; octave
unison; minor third; minor sixth; octave
unison; minor third; diminished fifth; major sixth; octave
This isn’t to say that other combinations can’t be used to interesting effect and particular purpose – they surely can – but I have to make sure there’s something left for you to experiment with in the wee small hours over the holiday. Bear in mind, though, were I to play you two notes from the same scale to form a minor second, for example, you’d probably say it was dissonant and maybe that quality of the 15:16 ratio would be translated to the design.
In the typographic hierarchy above, you’ll notice I used an interval in the higher octave, which affords a broader range of ratios while retaining the harmony. Thus, a perfect fifth (2:3) becomes a major twelfth (1:3), or a major sixth (3:5) becomes a major thirteenth (3:10).
The harmonic ratios can obviously be used as proportions for layout as well, in several different ways:
image width and height (for example, 450×800px = 9:16 = minor seventh)
main content to page width (67%:100% = 2:3 = perfect fifth)
page width to viewport width (80%:100% = 4:5 = major third)
One great benefit of using such ratios in web design work is that they can be applied in responsive web design. Proportional values, based on percentages or equivalent em units, will scale with changing viewports, so your layout and image proportions can be maintained or deliberately changed, as we’re about to find out, across devices.
Small speakers, tall speakers: binding to the device
The musical interval ratios also provide an opportunity, not only to create connectedness between the parts of a layout, but to bind the content to a device – that elusive antiphonal geometry. Just as a textblock and page resonate together, so too can web content and the screen. Earlier, I mentioned that several common screen aspect ratios match musical interval ratios. It would seem, then, that we have a set of proportions that we can use in different ways to establish and retain a sense of harmony that can be based on and change with those contexts. Using musical interval ratios, we can bind the display of our content to the device it’s displayed on.
If you haven’t met already, let me introduce you to the device-aspect-ratio property of CSS media queries.
@media only screen and (device-aspect-ratio: 3/4) { }
@media only screen and (device-aspect-ratio: 480/640) { }
@media only screen and (device-aspect-ratio: 600/800) { }
@media only screen and (device-aspect-ratio: 768/1024) { }
Regardless of the precise pixel values, each of these media queries would apply to devices whose display area has an aspect ratio of 3:4. It works by comparing the device-width with the device-height. (It’s not to be confused with aspect-ratio, which is defined by the width and height of the browser within the device.) The values in the media query are always presented as width/height, with portrait being the default orientation for smartphones and tablets; that is, to match an iPhone screen, you’d use device-aspect-ratio: 2/3, not 3/2, which won’t work.
Here’s a table of the musical intervals with their corresponding screens.
Name
device-aspect-ratio
Screens
Common resolutions (pixels)
major third
5/4
TFT LCD computer screens
1,280×1,024
perfect fourth
3/4 or 4/3
iPad, Kindle and other tablets, PDAs
320×240, 768×1,024
perfect fifth
2/3
iPhone, iPod Touch
320×480, 640×960
minor sixth
8/5 (16/10)
Many widescreens
1,152×720, 1,440×900, 1,920×1,200
major sixth
3/5
Many smartphones
240×400, 480×800
minor seventh
16/9 or 9/16
Many widescreens and some smartphones
720×1,280, 1,366×768, 1,920×1,080, 2,560×1,440
[You might argue that I’m playing fast and loose with the ratios. I suppose, mathematically speaking, 9:16 is not the same as 16:9: I’m no expert. But let’s not throw the baby out with the bath water, particularly at Christmas.]
With this in mind, we can begin to write media queries that will influence various typographic and layout values in line with the aspect ratios of specific screens and in combination with em-based min-width queries that work from smaller, mobile screens to larger, desktop screens.
Here’s a very simple demo page with only some text, an image with a caption and a little basic layout: no seasonal overindulgence here.
Demo: Sample page using device-aspect-ratio media queries based on musical interval ratios
Our initial styles for all devices are based on the perfect fifth, with the major third and octave rounding things out into a harmonious whole, whether or not media queries are supported. For example:
html { font-size: 100%; line-height: 1.5; }
/* font-size:line-height = 16:24 = 2:3 = perfect fifth */
h1 { font-size: 32px; font-size: 2rem; line-height: 1.25; }
/* font-size:line-height = 32:40 = 4:5 = major third
body:h1 = 16:32 = 1:2 = octave */
While we should really consider methods of delivering images appropriate to the screen size, let’s just stick to a single image for all devices. But why don’t we change its aspect ratio from 4:3 to 3:2, to fit with our harmonic scheme? It’s easy enough to do with overflow:hidden on the <figure> element to hide a part of the image, and a negative margin fudge:
figure img { margin: -8.5% 0 0 0; width: 100%; max-width: 100%; }
Our first break point targets devices 320 pixels wide with an aspect ratio of 2:3, namely the iPhone and iPod Touch:
/* 320px = 20×16 */
@media only screen and (min-width: 20em) and (device-aspect-ratio: 2/3) { }
We’re actually already there, of course, as the intervals we’ve chosen resonate with this aspect ratio – the content is already bound to the device.
Our next media query, then, will make some changes to match a different ratio, the major sixth (3:5), which is same as that of many smartphones:
/* 480px = 30×16 */
@media only screen and (min-width: 30em) and (device-aspect-ratio: 3/5) { }
A different aspect ratio might require a change in harmony. For devices with these proportions, we’ll now use the perfect fourth (3:4) and the major sixth (3:5) along with the octave we already have to create a new resonating harmony. For instance, a slightly wider screen means we can increase the line-height to aid the legibility of longer lines:
html { line-height: 1.667; }
/* font-size:line-height = 16:26.672 = 3:5 = major sixth */
h1 { font-size: 32px; font-size: 2rem; line-height: 1.667; }
/* font-size:line-height = 32:53.333 = 3:5 = major sixth
body:h1 = 16:32 = 1:2 = octave */
and we can remove the negative margin to display our 4:3 image in its entirety.
Each screen displays content styled using relationships related to its own proportions. On the left, an iPhone 4 (2:3); on the right, a Samsung Nexus S (3:5). Your mileage may vary.
Another device, another media query. At 768 pixels, screens are wide enough to add columns. The ratios we’ve used for the 3:5 screens include the perfect fourth (3:4) so we don’t need to change any of the font measurements, but we can base the proportions of the columns on the major sixth interval:
article { float: left; width: 56%; }
/* width of main column 3:5 (60% of 100%, major sixth)
incorporating gutter width */
aside { float : right; width : 36%; }
On devices with a 3:4 aspect ratio, this works even better in landscape orientation.
While not every screen over 768 pixels wide will have 3:4 proportions, the range of intervals informing the design ensure harmonious relationships between the different parts of the layout.
For wide screens proper (break point at 1,280 pixels) we can employ a new set of harmonious intervals. Many laptop and desktop screens have a 16:10 aspect ratio, which boils down to 8:5, equivalent to the minor sixth (5:8). Combined with a minor third (5:6) and the octave (1:2), this creates a new harmony appropriate to these devices. Let’s increase the font size and change the image’s aspect ratio to match:
html { font-size: 120%; line-height: 1.6; }
/* font-size increased for wider screens from 16px to 19.2px
(5:6 = minor third)
font-size:line-height = 19.2:30.72 = 5:8 = minor sixth */
figure img { margin: -12.5% 0 0 ; }
/* using -ve margin combined with overflow:hidden
on the figure element
to crop the image from 4:3 to 8:5 = minor sixth */
A wide screen with a 8:5 (16:10) aspect ratio and an image to match.
With more pixels at our disposal, we can also now use the musical interval ratios to determine the width of the layout, and change the column proportions as well:
section { margin: 0 auto; width: 83.333%; }
/* content width:screen width = 5:6 = minor third */
article { width: 60%; }
/* width of main column 5:8 (62.5% of 100%, minor sixth)
incorporating gutter width */
aside { width: 35%; }
With some carefully targeted media queries, we can begin to reach towards fulfilling the second and third tenets of Boulton’s new canon for web design: connecting the parts of content through relationships embodied in the layout design; and binding the content to the devices people use to access it.
Coda
Musical interval ratios and screen aspect ratios reveal more than convenient correspondence. These proportions work on a deep aesthetic level. Much is claimed for the golden ratio φ, but none of the screens pervading our lives use it. Perhaps that’s an accident of technology, but can making screens to φ’s proportions be more difficult or expensive than 2:3 or 3:4 or 16:10? Here, then, is not just one but a set of proportions with a uniquely human focus, originating in nature, recognized in antiquity, fundamental still.
We find music to be an art steeped with meaning, yet, unlike literary and representational arts, purely instrumental music has no obvious semantic content. It boasts an ability to express emotions while remaining an abstract art in some sense, which makes it very like design. These days, we’re rightly encouraged to design for emotion, to make our users’ experience meaningful, seductive, delightful. Using musical ideas and principles in our designs can help achieve those ends.
Let’s not be naïve, of course; designing web pages is even less like composing music than it’s like designing for print. In visual design, the eye will always be sovereign to the ear; following these principles will only get us so far. We cannot truly claim that a carefully composed web page layout will have the same qualities and effect as any musical patterns that inform it. In music, a set of intervals is always harmonious in relation to other sets of intervals: music rarely stands still. What aspect ratios will future screens take? Already today there is great variation in devices and support for media queries (and within that, support for device-aspect-ratio). And what of non-western musical traditions? Or rhythm, form, tempo and dynamics? What I’ve demonstrated above is only a suggestion, a tentative exploration of one possible way forward.
But as our discipline matures and we become more articulate about what we do, we must look longer and deeper into areas of human endeavour already rich with value. Music is a fertile ground to explore and has the potential to yield up new approaches for web design.
Footnotes
Just intonation is a system of tuning that uses small integers to describe the musical intervals, based initially on the perfect fifth, that most consonant of intervals. Simple instruments such as vibrating strings and natural horns, as well as unaccompanied voices, tend to fall into just intonation naturally. |
2011 |
Owen Gregory |
owengregory |
2011-12-09T00:00:00+00:00 |
https://24ways.org/2011/composing-the-new-canon/ |
design |
| 311 |
Designing Imaginative Style Guides |
(Living) style guides and (atomic) patterns libraries are “all the rage,” as my dear old Nana would’ve said. If articles and conference talks are to be believed, making and using them has become incredibly popular. I think there are plenty of ways we can improve how style guides look and make them better at communicating design information to creatives without it getting in the way of information that technical people need.
Guides to libraries of patterns
Most of my consulting work and a good deal of my creative projects now involve designing style guides. I’ve amassed a huge collection of brand guidelines and identity manuals as well as, more recently, guides to libraries of patterns intended to help designers and developers make digital products and websites.
Two pages from one of my Purposeful style guide packs. Designs © Stuff & Nonsense.
“Style guide” is an umbrella term for several types of design documentation. Sometimes we’re referring to static style or visual identity guides, other times voice and tone. We might mean front-end code guidelines or component/pattern libraries. These all offer something different but more often than not they have something in common. They look ugly enough to have been designed by someone who enjoys configuring a router.
OK, that was mean, not everyone’s going to think an unimaginative style guide design is a problem. After all, as long as a style guide contains information people need, how it looks shouldn’t matter, should it?
Inspiring not encyclopaedic
Well here’s the thing. Not everyone needs to take the same information away from a style guide. If you’re looking for markup and styles to code a ‘media’ component, you’re probably going to be the technical type, whereas if you need to understand the balance of sizes across a typographic hierarchy, you’re more likely to be a creative. What you need from a style guide is different.
Sure, some people1 need rules:
“Do this (responsive pattern)” or “don’t do that (auto-playing video.)”
Those people probably also want facts:
“Use this (hexadecimal value)” and not that inaccessible colour combination.”
Style guides need to do more than list facts and rules. They should demonstrate a design, not just document its parts. The best style guides are inspiring not encyclopaedic. I’ll explain by showing how many style guides currently present information about colour.
Colours communicate
I’m sure you’ll agree that alongside typography, colour’s one of the most important ingredients in a design. Colour communicates personality, creates mood and is vital to an easily understandable interactive vocabulary. So you’d think that an average style guide would describe all this in any number of imaginative ways. Well, you’d be disappointed, because the most inspiring you’ll find looks like a collection of chips from a paint chart.
Lonely Planet’s Rizzo does a great job of separating its Design Elements from UI Components, and while its ‘Click to copy’ colour values are a thoughtful touch, you’ll struggle to get a feeling for Lonely Planet’s design by looking at their colour chips.
Lonely Planet’s Rizzo style guide.
Lonely Planet approach is a common way to display colour information and it’s one that you’ll also find at Greenpeace, Sky, The Times and on countless more style guides.
Greenpeace, Sky and The Times style guides.
GOV.UK—not a website known for its creative flair—varies this approach by using circles, which I find strange as circles don’t feature anywhere else in its branding or design. On the plus side though, their designers have provided some context by categorising colours by usage such as text, links, backgrounds and more.
GOV.UK style guide.
Google’s Material Design offers an embarrassment of colours but most helpfully it also advises how to combine its primary and accent colours into usable palettes.
Google’s Material Design.
While the ability to copy colour values from a reference might be all a technical person needs, designers need to understand why particular colours were chosen as well as how to use them.
Inspiration not documentation
Few style guides offer any explanation and even less by way of inspiring examples. Most are extremely vague when they describe colour:
“Use colour as a presentation element for either decorative purposes or to convey information.”
The Government of Canada’s Web Experience Toolkit states, rather obviously.
“Certain colors have inherent meaning for a large majority of users, although we recognize that cultural differences are plentiful.”
Salesforce tell us, without actually mentioning any of those plentiful differences.
I’m also unsure what makes the Draft U.S. Web Design Standards colours a “distinctly American palette” but it will have to work extremely hard to achieve its goal of communicating “warmth and trustworthiness” now.
In Canada, “bold and vibrant” colours reflect Alberta’s “diverse landscape.”
Adding more colours to their palette has made Adobe “rich, dynamic, and multi-dimensional” and at Skype, colours are “bold, colourful (obviously) and confident” although their style guide doesn’t actually provide information on how to use them.
The University of Oxford, on the other hand, is much more helpful by explaining how and why to use their colours:
“The (dark) Oxford blue is used primarily in general page furniture such as the backgrounds on the header and footer. This makes for a strong brand presence throughout the site. Because it features so strongly in these areas, it is not recommended to use it in large areas elsewhere. However it is used more sparingly in smaller elements such as in event date icons and search/filtering bars.”
OpenTable style guide.
The designers at OpenTable have cleverly considered how to explain the hierarchy of their brand colours by presenting them and their supporting colours in various size chips. It’s also obvious from OpenTable’s design which colours are primary, supporting, accent or neutral without them having to say so.
Art directing style guides
For the style guides I design for my clients, I go beyond simply documenting their colour palette and type styles and describe visually what these mean for them and their brand. I work to find distinctive ways to present colour to better represent the brand and also to inspire designers.
For example, on a recent project for SunLife, I described their palette of colours and how to use them across a series of art directed pages that reflect the lively personality of the SunLife brand. Information about HEX and RGB values, Sass variables and when to use their colours for branding, interaction and messaging is all there, but in a format that can appeal to both creative and technical people.
SunLife style guide. Designs © Stuff & Nonsense.
Purposeful style guides
If you want to improve how you present colour information in your style guides, there’s plenty you can do.
For a start, you needn’t confine colour information to the palette page in your style guide. Find imaginative ways to display colour across several pages to show it in context with other parts of your design. Here are two CSS gradient filled ‘cover’ pages from my Purposeful style sheets.
Colour impacts other elements too, including typography, so make sure you include colour information on those pages, and vice-versa.
Purposeful. Designs © Stuff & Nonsense.
A visual hierarchy can be easier to understand than labelling colours as ‘primary,’ ‘supporting,’ or ‘accent,’ so find creative ways to present that hierarchy. You might use panels of different sizes or arrange boxes on a modular grid to fill a page with colour.
Don’t limit yourself to rectangular colour chips, use circles or other shapes created using only CSS. If irregular shapes are a part of your brand, fill SVG silhouettes with CSS and then wrap text around them using CSS shapes.
Purposeful. Designs © Stuff & Nonsense.
Summing up
In many ways I’m as frustrated with style guide design as I am with the general state of design on the web. Style guides and pattern libraries needn’t be dull in order to be functional. In fact, they’re the perfect place for you to try out new ideas and technologies. There’s nowhere better to experiment with new properties like CSS Grid than on your style guide.
The best style guide designs showcase new approaches and possibilities, and don’t simply document the old ones. Be as creative with your style guide designs as you are with any public-facing part of your website.
Purposeful are HTML and CSS style guides templates designed to help you develop creative style guides and pattern libraries for your business or clients. Save time while impressing your clients by using easily customisable HTML and CSS files that have been designed and coded to the highest standards. Twenty pages covering all common style guide components including colour, typography, buttons, form elements, and tables, plus popular pattern library components. Purposeful style guides will be available to buy online in January.
Boring people ↩ |
2016 |
Andy Clarke |
andyclarke |
2016-12-13T00:00:00+00:00 |
https://24ways.org/2016/designing-imaginative-style-guides/ |
design |
| 325 |
"Z's not dead baby, Z's not dead" |
While Mr. Moll and Mr. Budd have pipped me to the post with their predictions for 2006, I’m sure they won’t mind if I sneak in another. The use of positioning together with z-index will be one of next year’s hot techniques
Both has been a little out of favour recently. For many, positioned layouts made way for the flexibility of floats. Developers I speak to often associate z-index with Dreamweaver’s layers feature. But in combination with alpha transparency support for PNG images in IE7 and full implementation of position property values, the stacking of elements with z-index is going to be big. I’m going to cover the basics of z-index and how it can be used to create designs which ‘break out of the box’.
No positioning? No Z!
Remember geometry? The x axis represents the horizontal, the y axis represents the vertical. The z axis, which is where we get the z-index, represents /depth/. Elements which are stacked using z-index are stacked from front to back and z-index is only applied to elements which have their position property set to relative or absolute. No positioning, no z-index. Z-index values can be either negative or positive and it is the element with the highest z-index value appears closest to the viewer, regardless of its order in the source. Furthermore, if more than one element are given the same z-index, the element which comes last in source order comes out top of the pile.
Let’s take three <div>s.
<div id="one"></div>
<div id="two"></div>
<div id="three"></div>
#one {
position: relative;
z-index: 3;
}
#two {
position: relative;
z-index: 1;
}
#three {
position: relative;
z-index: 2;
}
As you can see, the <div> with the z-index of 3 will appear closest, even though it comes before its siblings in the source order. As these three <div>s have no defined positioning context in the form of a positioned parent such as a <div>, their stacking order is defined from the root element <html>. Simple stuff, but these building blocks are the basis on which we can create interesting interfaces (particularly when used in combination with image replacement and transparent PNGs).
Brand building
Now let’s take three more basic elements, an <h1>, <blockquote> and <p>, all inside a branding <div> which acts a new positioning context. By enclosing them inside a positioned parent, we establish a new stacking order which is independent of either the root element or other positioning contexts on the page.
<div id="branding">
<h1>Worrysome.com</h1>
<blockquote><p>Don' worry 'bout a thing...</p></blockquote>
<p>Take the weight of the world off your shoulders.</p>
</div>
Applying a little positioning and z-index magic we can both set the position of these elements inside their positioning context and their stacking order. As we are going to use background images made from transparent PNGs, each element will allow another further down the stacking order to show through. This makes for some novel effects, particularly in liquid layouts.
(Ed: We’re using n below to represent whatever values you require for your specific design.)
#branding {
position: relative;
width: n;
height: n;
background-image: url(n);
}
#branding>h1 {
position: absolute;
left: n;
top: n;
width: n;
height: n;
background-image: url(h1.png);
text-indent: n;
}
#branding>blockquote {
position: absolute;
left: n;
top: n;
width: n;
height: n;
background-image: url(bq.png);
text-indent: n;
}
#branding>p {
position: absolute;
right: n;
top: n;
width: n;
height: n;
background-image: url(p.png);
text-indent: n;
}
Next we can begin to see how the three elements build upon each other.
1. Elements outlined
2. Positioned elements overlayed to show context
3. Our final result
Multiple stacking orders
Not only can elements within a positioning context be given a z-index, but those positioning contexts themselves can also be stacked.
Two positioning contexts, each with their own stacking order
Interestingly each stacking order is independent of that of either the root element or its siblings and we can exploit this to make complex layouts from just a few semantic elements. This technique was used heavily on my recent redesign of Karova.com.
Dissecting part of Karova.com
First the XHTML. The default template markup used for the site places <div id="nav_main"> and <div id="content"> as siblings inside their container.
<div id="container">
<div id="content">
<h2></h2>
<p></p>
</div>
<div id="nav_main"></div>
</div>
By giving the navigation <div> a lower z-index than the content <div> we can ensure that the positioned content elements will always appear closest to the viewer, despite the fact that the navigation comes after the content in the source.
#content {
position: relative;
z-index: 2;
}
#nav_main {
position: absolute;
z-index: 1;
}
Now applying absolute positioning with a negative top value to the <h2> and a higher z-index value than the following <p> ensures that the header sits not only on top of the navigation but also the styled paragraph which follows it.
h2 {
position: absolute;
z-index: 200;
top: -n;
}
h2+p {
position: absolute;
z-index: 100;
margin-top: -n;
padding-top: n;
}
Dissecting part of Karova.com
You can see the full effect in the wild on the Karova.com site.
Have a great holiday season! |
2005 |
Andy Clarke |
andyclarke |
2005-12-16T00:00:00+00:00 |
https://24ways.org/2005/zs-not-dead-baby-zs-not-dead/ |
design |
| 329 |
Broader Border Corners |
A note from the editors: Since this article was written the CSS border-radius property has become widely supported in browsers. It should be preferred to this image technique.
A quick and easy recipe for turning those single-pixel borders that the kids love so much into into something a little less right-angled.
Here’s the principle: We have a box with a one-pixel wide border around it. Inside that box is another box that has a little rounded-corner background image sitting snugly in one of its corners. The inner-box is then nudged out a bit so that it’s actually sitting on top of the outer box. If it’s all done properly, that little background image can mask the hard right angle of the default border of the outer-box, giving the impression that it actually has a rounded corner.
Take An Image, Finely Chopped
Add A Sprinkle of Markup
<div id="content">
<p>Lorem ipsum etc. etc. etc.</p>
</div>
Throw In A Dollop of CSS
#content {
border: 1px solid #c03;
}
#content p {
background: url(corner.gif) top left no-repeat;
position: relative;
left: -1px;
top: -1px;
padding: 1em;
margin: 0;
}
Bubblin’ Hot
The content div has a one-pixel wide red border around it.
The paragraph is given a single instance of the background image, created to look like a one-pixel wide arc.
The paragraph is shunted outside of the box – back one pixel and up one pixel – so that it is sitting over the div’s border. The white area of the image covers up that part of the border’s corner, and the arc meets up with the top and left border.
Because, in this example, we’re applying a background image to a paragraph, its top margin needs to be zeroed so that it starts at the top of its container.
Et voilà. Bon appétit.
Extra Toppings
If you want to apply a curve to each one of the corners and you run out of meaningful markup to hook the background images on to, throw some spans or divs in the mix (there’s nothing wrong with this if that’s the effect you truly want – they don’t hurt anybody) or use some nifty DOM Scripting to put the scaffolding in for you.
Note that if you’ve got more than one of these relative corners, you will need to compensate for the starting position of each box which is nested in an already nudged parent.
You’re not limited to one pixel wide, rounded corners – the same principles apply to thicker borders, or corners with different shapes. |
2005 |
Patrick Griffiths |
patrickgriffiths |
2005-12-14T00:00:00+00:00 |
https://24ways.org/2005/broader-border-corners/ |
design |
| 330 |
An Explanation of Ems |
Ems are so-called because they are thought to approximate the size of an uppercase letter M (and so are pronounced emm), although 1em is actually significantly larger than this. The typographer Robert Bringhurst describes the em thus:
The em is a sliding measure. One em is a distance equal to the type size. In 6 point type, an em is 6 points; in 12 point type an em is 12 points and in 60 point type an em is 60 points. Thus a one em space is proportionately the same in any size.
To illustrate this principle in terms of CSS, consider these styles:
#box1 {
font-size: 12px;
width: 1em;
height: 1em;
border:1px solid black;
}
#box2 {
font-size: 60px;
width: 1em;
height: 1em;
border: 1px solid black;
}
These styles will render like:
M
and
M
Note that both boxes have a height and width of 1em but because they have different font sizes, one box is bigger than the other. Box 1 has a font-size of 12px so its width and height is also 12px; similarly the text of box 2 is set to 60px and so its width and height are also 60px. |
2005 |
Richard Rutter |
richardrutter |
2005-12-02T00:00:00+00:00 |
https://24ways.org/2005/an-explanation-of-ems/ |
design |