rowid,title,contents,year,author,author_slug,published,url,topic
82,Being Prepared To Contribute,"“You’ll figure it out.” The advice my dad gives has always been the same, whether addressing my grade school homework or paying bills after college. If I was looking for a shortcut, my dad wasn’t going to be the one to provide it.
When I was a kid it infuriated the hell out of me, but what I then perceived to be a lack of understanding turned out to be a keystone in my upbringing. As an adult, I realize the value in not receiving outright solutions, but being forced to figure things out.
Even today, when presented with a roadblock while building for the web, I am temped to get by with the help of the latest grid system, framework, polyfill, or plugin. In and of themselves these resources are harmless, but before I can drop them in, those damn words still echo in the back of my mind: “You’ll figure it out.”
I know that if I blindly implement these tools as drag and drop solutions I fail to understand the intricacies behind how and why they were built; repeatedly using them as shortcuts handicaps my skill set. When I solely rely on the tools of others, my work is at their mercy, leaving me less creative and resourceful, and, thus, less able to contribute to the advancement of our industry and community.
One of my favorite things about this community is how generous and collaborative it can be. I’ve loved seeing FitVids used all over the web and regularly improved upon at Github. I bet we can all think of a time where implementing a shared resource has benefitted our own work and sanity. Because these resources are so valuable, it’s important that we continue to be a part of the conversation in order to further develop solutions and ideas. It’s easy to assume there’s someone smarter or more up-to-date in any one area, but with a degree of understanding and perspective, we can all participate.
This open form of collaboration is in our web DNA. After all, its primary purpose was to promote the exchange and development of new ideas.
Tim Berners-Lee proposed a global hypertext project, to be known as the World Wide Web. Based on the earlier “Enquire” work, it was designed to allow people to work together by combining their knowledge in a web of hypertext documents.
I’m delighted to find that this spirit of collaborative ingenuity is alive and well on the web today. Take the story of Off Canvas as an example. I was at an ATX Dribbble meet up where I met Jason Weaver and chatted to him about his recent work on the responsive layout prototype, Off Canvas. Jason said he came across a post by Luke Wroblewski outlining the idea and saw this:
If anyone is interested in building a complete example of this approach using responsive Web design techniques, let me know!
From there Luke recounts:
We went back and forth on email, with me laying out ideas and Jason doing all the hard work to see if they can be done and improving them bit by bit! Once we got to something we both liked, I wrote up an article explaining things and he hosted the examples.
Luke took the time to clearly outline and diagram his ideas, and Jason responded with a solid proof of concept that has evolved into a tool we all have at our disposal. Victory!
I have also benefitted from comrades who have taken an idea of mine into development. After blogging about some concerns in regards to maintaining hierarchy as media queries are used to shift layouts, Jordan Moore rebounded with some responsive demos where he used flexbox to (re)order content as viewport sizing changes.
Similar stories can be found behind the development of things like FitVids, FitText, and Molten Leading. I love this pattern of collaboration because it involves a fairly specific process:
Initial idea or prototype is outlined or built, then shared
Discuss
Someone develops or improves it, then shares it
Discuss
Someone else develops or improves it, then shares it.
Infinity.
This is what the web looks like when we build it together, and I’d argue that steps 2+ are absolutely crucial. A web where everyone develops their own ideas and tools independent of one another is like a room full of people talking and no one listening.
The pattern itself mimics a literal web structure, and ideally we’d be able to follow a strand from one idea to the next and so on.
Blessed are the curators
Sometimes those lines aren’t easy to find or follow. Thankfully, there are people who painstakingly log each experiment and index much of what’s out there. Chris Coyier does this with CSS in general, and Brad Frost is doing this for responsive and multi-device design with his Pattern Library. Seriously, take a look at this page and imagine what it would take to find, track and organize the progression of each of these resources yourself. I’d argue that ongoing collections like these are more valuable than the sum of their parts when they are updated regularly as opposed to a top ten tips blog post format.
Here’s my soapbox
Here are a few things I appreciate about how things are shared and contributed online. And yes, I could do way better at all of them myself.
Concise write-ups: honor others’ time by getting to the point. Not every idea or solution needs two thousand words to convey fully. I love long-form posts, but there’s a time and a place for them.
Visual aids: if a quick illustration, screenshot, or graphic helps illustrate your point or problem, yes please.
By the way, Luke Wroblewski rules the school on both of these.
Demo it: host it yourself, or put it on CodePen or JS Bin for others to see.
Put it on Github: share and improve with the rest of the community. Consider, however, that because someone puts something on Github doesn’t mean they’re forever bound to provide support or instruction.
This isn’t a call for everyone to learn everything all the time, but if you’re curious or interested in something, skip the shortcut and get your hands dirty: sketch, prototype, question, debate, fork, and share. Figuring these things out on our own makes us valuable contributors to the web – the thing that ultimately we’re all trying to figure out together.",2012,Trent Walton,trentwalton,2012-12-03T00:00:00+00:00,https://24ways.org/2012/being-prepared-to-contribute/,process
90,Monkey Business,"“Too expensive.” “Over-priced.” “A bit rich.”
They all mean the same thing.
When you say that something’s too expensive, you’re doing much more than commenting on a price. You’re questioning the explicit or implicit value of a product or a service. You’re asking, “Will I get out of it what you want me to pay for it?” You’re questioning the competency, judgement and possibly even integrity of the individual or company that gave you that price, even though you don’t realise it. You might not be saying it explicitly, but what you’re implying is, “Have you made a mistake?”, “Am I getting the best deal?”, “Are you being honest with me?”, “Could I get this cheaper?”
Finally, you’re being dishonest, because deep down you know all too well that there’s no such thing as too expensive.
Why?
It doesn’t matter what you’re questioning the price of. It could be a product, a service or the cost of an hour, day or week of someone’s time. Whatever you’re buying, too expensive is always an excuse. Saying it shifts acceptability of a price back to the person who gave it. What you should say, but are too afraid to admit, is:
“It’s more money than I wanted to pay.”
“It’s more than I estimated it would cost.”
“It’s more than I can afford.”
Everyone who’s given a price for a product or service will have been told at some point that it’s too expensive. It’s never comfortable to hear that. Thoughts come thick and fast: “What do I do?” “How do I react?” “Do I really want the business?” “Am I prepared to negotiate?” “How much am I willing to compromise?”
It’s easy to be defensive when someone questions a price, but before you react, stay calm and remember that if someone says what you’re offering is too expensive, they’re saying more about themselves and their situation than they are about your price. Learn to read that situation and how to follow up with the right questions.
Imagine you’ve quoted someone for a week of your time. “That’s too expensive,” they respond. How should you handle that? Think about what they might otherwise be saying.
“It’s more money than I want to pay” may mean that they don’t understand the value of your service. How could you respond?
Start by asking what similar projects they’ve worked on and the type of people they worked with. Find out what they paid and what they got for their money, because it’s possible what you offer is different from what they had before. Ask if they saw a return on that previous investment. Maybe their problem isn’t with your headline price, but the value they think they’ll receive. Put the emphasis on value and shift the conversation to what they’ll gain, rather than what they’ll spend.
It’s also possible they can’t distinguish your service from those of your competitors, so now would be a great time to explain the differences. Do you work faster? Explain how that could help them launch faster, get customers faster, make money faster. Do you include more? Emphasise that, and how unique the experience of working with you will be.
“It’s more than I estimated it would cost” could mean that your customer hasn’t done their research properly. You’d never suggest that to them, of course, but you should ask how they’ve arrived at their estimate. Did they base it on work they’ve purchased previously? How long ago was that? Does it come from comparable work or from a different sector?
Help your customer by explaining how you arrived at your estimate. Break down each element and while you’re doing that, emphasise the parts of your process that you know will appeal to them. If you know that they’ve had difficulty with something in the past, explain how your approach will benefit them. People almost always value a positive experience more than the money they’ll save.
“It’s more than I can afford” could mean they can’t afford what you offer at all, but it could also mean they can’t afford it right now or all at once. So ask if they could afford what you’re asking if they spread payment over a longer period? Ask, “Would that mean you’ll give me the business?”
It’s possible they’re asking for too much for what they can afford to pay. Will they compromise? Can you reach an agreement on something less? Ask, “If we can agree what’s in and what’s out, will you give me the business?”
What can they afford? When you know, you’re in a good position to decide if the deal makes good business sense, for both of you. Ask, “If I can match that price, will you give me the business?”
There’s no such thing as “a bit rich”, only ways for you to get to know your customer better. There’s no such thing as “over-priced”, only opportunities for you to explain yourself better. You should relish those opportunities. There’s really also no such thing as “too expensive”, just ways to set the tone for your relationship and help you develop that relationship to a point where money will be less of a deciding factor.
Unfinished Business
Join me and my co-host Anna Debenham next year for Unfinished Business, a new discussion show about the business end of working in web, design and creative industries.",2012,Andy Clarke,andyclarke,2012-12-23T00:00:00+00:00,https://24ways.org/2012/monkey-business/,business
89,"Direction, Distance and Destinations","With all these new smartphones in the hands of lost and confused owners, we need a better way to represent distances and directions to destinations. The immediate examples that jump to mind are augmented reality apps which let you see another world through your phone’s camera. While this is interesting, there is a simpler way: letting people know how far away they are and if they are getting warmer or colder.
In the app world, you can easily tap into the phone’s array of sensors such as the GPS and compass, but what people rarely know is that you can do the same with HTML. The native versus web app debate will never subside, but at least we can show you how to replicate some of the functionality progressively in HTML and JavaScript.
In this tutorial, we’ll walk through how to create a simple webpage listing distances and directions of a few popular locations around the world. We’ll use JavaScript to access the device’s geolocation API and also attempt to access the compass to get a heading. Both of these APIs are documented, to be included in the W3C geolocation API specification, and can be used on both desktop and mobile devices today.
To get started, we need a list of a few locations around the world. I have chosen the highest mountain peak on each continent so you can see a diverse set of distances and directions.
Mountain
°Latitude
°Longitude
Kilimanjaro
-3.075833
37.353333
Vinson Massif
-78.525483
-85.617147
Puncak Jaya
-4.078889
137.158333
Everest
27.988056
86.925278
Elbrus
43.355
42.439167
Mount McKinley
63.0695
-151.0074
Aconcagua
-32.653431
-70.011083
Source: Wikipedia
We can put those into an HTML list to be styled and accessed by JavaScript to create some distance and directions calculations.
The next thing we need to do is check to see if the browser and operating system have geolocation support. To do this we test to see if the function is available or not using a single JavaScript if statement.
The if statement will be false if geolocation support is not present, and then it is up to you to do something else instead as a fallback. For this example, we’ll do nothing since our page should work as is and only get progressively better if more functionality is available.
The if statement will be true if there is support and therefore will continue inside the curly brackets to try to get the location. This should prompt the reader to accept or deny the request to get their location. If they say no, the second function callback is processed, in this case a function called geo_error; whereas if the location is available, it fires the geo_success function callback.
The function geo_error(){ } isn’t that exciting. You can handle this in any way you see fit. The success function is more interesting. We get a position object passed into the function which contains a series of exciting attributes, namely the latitude and longitude of the device’s current location.
function geo_success(position){
gLat = position.coords.latitude;
gLon = position.coords.longitude;
}
Now, in the variables gLat and gLon we have the user’s approximate geographical position. We can use this information to start to calculate some distances between where they are and all the destinations.
At the time of writing, you can also get position.coords.heading, but on Windows and iOS devices this returned NULL. In the future, if and when this is supported, this is also where you can easily grab the compass information.
Inside the geo_success function, we want to loop through the HTML to get all of the mountain peaks’ latitudes and longitudes and compute the distance.
...
$('.geo').each(function(){
// Get the lat/lon from the HTML
tLat = $(this).find('.lat').html()
tLon = $(this).find('.lon').html()
// compute the distances between the current location and this points location
dist = distance(tLat,tLon,gLat,gLon);
// set the return values into something useful
d = parseInt(dist[0]*10)/10;
a = parseFloat(dist[1]);
// display the value in the HTML and style the arrow
$(this).find('.distance').html(d+' km away');
$(this).find('.direction').css('-webkit-transform','rotate(-' + a + 'deg)');
// store the arc for later use if compass is available
$(this).attr('data-arc',a);
}
In the variable d we have the distance between the current location and the location of the mountain peak based on the Haversine Formula. The variable a is the arc, which has a value from 0 to 359.99. This will be useful later if we have compass support. Given these two values we have a distance and a heading to style the HTML.
The next thing we want to do is check to see if the device has a compass and then get access to the the current heading. As we’ll see, there are several ways to do this, some of which work on certain devices but not others. The W3C geolocation spec says that, along with the coordinates, there are several other attributes: accuracy; altitude; and heading. Heading is the direction to true north, which is different than magnetic north! WebKit and Windows return NULL for the heading value, but WebKit has an experimental method to fetch the heading. If you get into accessing these sensors, you’ll have to try to catch a few of these methods to finally get a value. Assuming you do, we can move on to the more interesting display opportunities.
In an ideal world, this would succeed and set a variable we’ll call compassHeading to get a value between 0 and 359.99 degrees. Now we know which direction north is, we also know the direction relative to north of the path to our destination, so we can can subtract the two values to get an arrow to display on the screen. But we’re not finished yet: we also need to get the device’s orientation (landscape or portrait) and subtract the correct amount from the angle for the arrow. Once we have a value, we can use CSS to rotate the arrow the correct number of degrees.
-webkit-transform: rotate(-180deg)
Not all devices support a standard way to access compass information, so in the meantime we need to use a work around. On iOS, you can use the experimental event method e.webkitCompassHeading. We want the compass to update in real time as the device is moved around, so we’ll put this inside an event listener.
window.addEventListener('deviceorientation', function(e) {
// Loop through all the locations on the page
$('.geo').each(function(){
// get the arc value from north we computed and stored earlier
destination_arc = parseInt($(this).attr('data-arc'))
compassHeading = e.webkitCompassHeading + window.orientation + destination_arc;
// find the arrow element and rotate it accordingly
$(this).find('.direction').css('-webkit-transform','rotate(-' + compassHeading + 'deg)');
}
}
As the device is rotated, the compass arrow will constantly be updated. If you want to see an example, you can have a look at this page which shows the distances to all the peaks on each continent.
With progressive enhancement, we slowly layer on additional functionality as we go. The reader will first see the list of locations with a latitude and longitude. If the device is capable and permissions allow, it will then compute the distance. If a compass is available, with the correct permissions it will then add the final layer which is direction.
You should consider this code a stub for your projects. If you are making a hyperlocal webpage with restaurant locations, for example, then consider adding these features. Knowing not only how far away a place is, but also the direction can be hugely important, and since the compass is always active, it acts as a guide to the location.
Future developments
Improvements to this could include setting a timer and recalling the navigator.geolocation.getCurrentPosition() function and updating the distances. I chose very distant mountains so kilometres made sense, but you can divide again by 1,000 to convert to metres if you are dealing with much nearer places. Walking or driving would change the distances so the ability to refresh would be important.
It is outside the scope of this article, but if you manage to get this HTML to work offline, then you can make a nice web app which sits on your devices’ homescreens and works even without an internet connection. This could be ideal for travellers in an unknown city looking for your destination. Just with offline storage, base64 encoding and data URIs, it is possible to embed plenty of design and functionality into a small offline webpage.
Now you know how to use JavaScript to look up a destination’s location and figure out the distance and direction – never get lost again.",2012,Brian Suda,briansuda,2012-12-19T00:00:00+00:00,https://24ways.org/2012/direction-distance-and-destinations/,code
80,HTML5 Video Bumpers,"Video is a bigger part of the web experience than ever before. With native browser support for HTML5 video elements freeing us from the tyranny of plugins, and the availability of faster internet connections to the workplace, home and mobile networks, it’s now pretty straightforward to publish video in a way that can be consumed in all sorts of ways on all sorts of different web devices.
I recently worked on a project where the client had shot some dedicated video shorts to publish on their site. They also had some five-second motion graphics produced to top and tail the videos with context and branding. This pretty common requirement is a great idea on the web, where a user might land at your video having followed a link and be viewing a page without much context.
Known as bumpers, these short introduction clips help brand a video and make it look a lot more professional.
Adding bumpers to a video
The simplest way to add bumpers to a video would be to edit them on to the start and end of the video file itself. Cooking the bumpers into the video file is easy, but should you ever want to update them it can become a real headache. If the branding needs updating, for example, you’d need to re-edit and re-encode all your videos. Not a fun task.
What if the bumpers could be added dynamically? That would enable you to use the same bumper for multiple videos (decreasing download time for users who might watch more than one) and to update the bumpers whenever you wanted. You could change them seasonally, update them for special promotions, run different advertising slots, perform multivariate testing, or even target different bumpers to different users.
The trade-off, of course, is that if you dynamically add your bumpers, there’s a chance that a user in a given circumstance might not see the bumper. For example, if the main video feature was uploaded to YouTube, you’d have no way to control the playback. As always, you need to weigh up the pros and cons and make your choice.
HTML5 bumpers
If you wanted to dynamically add bumpers to your HTML5 video, how would you go about it? That was the question I found myself needing to answer for this particular client project.
My initial thought was to treat it just like an image slideshow. If I were building a slideshow that moved between images, I’d use CSS absolute positioning with z-index to stack the images up on top of each other in a pile, with the first image on top. To transition to the second image, I’d use JavaScript to fade the top image out, revealing the second image beneath it.
Now that video is just a native object in the DOM, just like an image, why not do the same? Stack the videos up with the opening bumper on top, listen for the video’s onended event, and fade it out to reveal the main feature behind. Good idea, right?
Wrong
Remember that this is the web. It’s never going to be that easy. The problem here is that many non-desktop devices use native, dedicated video players. Think about watching a video on a mobile phone – when you play the video, the phone often goes full-screen in its native player, leaving the web page behind. There’s no opportunity to fade or switch z-index, as the video isn’t being viewed in the page. Your page is left powerless. Powerless!
So what can we do? What can we control?
Those of us with particularly long memories might recall a time before CSS, when we’d have to use JavaScript to perform image rollovers. As CSS background images weren’t a practical reality, we would use lots of elements, and perform a rollover by modifying the src attribute of the image.
Turns out, this old trick of modifying the source can help us out with video, too. In most cases, modifying the src attribute of a