Code & Development
Open Transclude
The Website Obesity Crisis
A Talk by Maciej CegłowskiWeb Design - The First 100 Years
A Talk by Maciej CegłowskiVisualizing Algorithms
An Article by Mike BostockAias
A Profile by Nick TrombleyThe Future of Programming
A Talk by Bret VictorWhat Makes Software Good?
An Article by Mike BostockAn incoherent rant about design systems
An Article by Robin RendleNo matter how fancy your Figma file is or how beautiful and lovingly well organized that Storybook documentation is; the front-end is always your source of truth. You can hate it as much as you like—all those weird buttons, variables, inaccessible form inputs—but that right there is your design system.
...being honest about this is the first step to fixing it.
Right-Angle Doodling Machine
A Game by Clive Thompson- You draw one single line. It can be as long as you like.
- To start the line, you put your pen down.
- You can make right-angle turns only, either 90 degrees or -90 degrees.
- You cannot back up. You must always move forward.
- You don’t lift your pen until you’re ready to stop. When you lift the pen, the doodle is done.
What do I need to read to be great at CSS?
An Article by Baldur BjarnasonA rule of thumb is that the importance of a blog in your feed reader is inversely proportional to their posting cadence. Prioritise the blogs that post only once a month or every couple of weeks over those that post every day or multiple times a day...Building up a large library of sporadically updated blogs is much more useful and much easier to keep up with than trying to keep up with a handful of aggregation sites every day.
Designing with code
An Article by Matthew StrömRecently I’ve had a few opportunities to use code to create design. In two of my bigger projects at The Wall Street Journal, writing code has led to new ideas. Problems that typically plague early designs — e.g. “how does this look with real content?” — are easy to solve. By exploring visual ideas directly in code, I’ve started to see the amazing potential of code as a design tool.
Picking better names for variables, functions, and projects
An Article by Tom MacWright- Avoid weasel words
- Follow patterns religiously
- Don’t cheap out on characters
- Call things the same thing
- Don’t name internal projects
- When things change, change their names
this vs. that
A Website by Phuoc Nguyentixy.land
A Websitesin(t * x) * cos(t * y)
Creative code golfing.
Front-of-the-front-end and back-of-the-front-end web development
An Article by Brad FrostA succinct way I’ve framed the split is that a front-of-the-front-end developer determines the look and feel of a
button
, while a back-of-the-front-end developer determines what happens when thatbutton
is clicked.The Great Divide
An Article by Chris CoyierOn one side, an army of developers whose interests, responsibilities, and skill sets are heavily revolved around JavaScript.
On the other, an army of developers whose interests, responsibilities, and skill sets are focused on other areas of the front end, like HTML, CSS, design, interaction, patterns, accessibility, etc.
Painting With the Web
An Article by Matthias OttSo much about [Gerhard Richter's painting process] reminds me of designing and building for the Web: The unpredictability, the peculiarities of the material, the improvisation, the bugs, the happy accidents. There is one crucial difference, though. By using static wireframes and static layouts, by separating design and development, we are often limiting our ability to have that creative dialogue with the Web and its materials. We are limiting our potential for playful exploration and for creating surprising and novel solutions. And, most importantly, we are limiting our ability to make conscious, well-informed decisions going forward. By adding more and more layers of abstraction, we are breaking the feedback loop of the creative process.
Technical debt as a lack of understanding
An Article by Dave Rupert"If you develop a program for a long period of time by only adding features but never reorganizing it to reflect your understanding of those features, then eventually that program simply does not contain any understanding and all efforts to work on it take longer and longer.” — Ward Cunningham
bees & bombs
A Blog
A Plea for Lean Software
Software's girth has surpassed its functionality, largely because hardware advances make this possible. The way to streamline software lies in disciplined methodologies and a return to the essentials.
Measured by the number of its features
A primary cause of complexity is that software vendors uncritically adopt almost any feature that users want. Any incompatibility with the original system concept is either ignored or passes unrecognized, which renders the design more complicated and its use more cumbersome. When a system's power is measured by the number of its features, quantity becomes more important than quality. Every new release must offer additional features, even if some don't add functionality.
Essential vs. nice to have
Customers have trouble distinguishing between essential features and those that are just "nice to have." Examples of the latter class: those arbitrarily overlapping windows suggested by the uncritically but widely adopted desktop metaphor; and fancy icons decorating the screen display, such as antique mailboxes and garbage cans that are further enhanced by the visible movement of selected items toward their ultimate destination. These details are cute but not essential, and they have a hidden cost.
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Increased complexity results in large part from our recent penchant for friendly user interaction. I've already mentioned windows and icons; color, gray-scales, shadows, pop-ups, pictures, and all kinds of gadgets can easily be added.
Dependence is more profitable than education
A customer who pays—in advance—for service contracts is a more stable income source than a customer who has fully mastered a product's use.
Customer dependence is more profitable than customer education.
What I find truly baffling are manuals—hundreds of pages long—that accompany software applications, programming languages, and operating systems. Unmistakably, they signal both a contorted design that lacks clear concepts and an intent to hook customers.
The most rewarding iterations
Initial designs for sophisticated software applications are invariably complicated, even when developed by competent engineers. Truly good solutions emerge after iterative improvements or after redesigns that exploit new insights, and the most rewarding iterations are those that result in program simplifications.
Evolutions of this kind, however, are extremely rare in current software practice—they require time-consuming thought processes that are rarely rewarded. Instead, software inadequacies are typically corrected by quickly conceived additions that invariably result in the well-known bulk.
Never enough time
Time pressure is probably the foremost reason behind the emergence of bulky software. The time pressure that designers endure discourages careful planning. It also discourages improving acceptable solutions; instead, it encourages quickly conceived software additions and corrections. Time pressure gradually corrupts an engineer's standard of quality and perfection. It has a detrimental effect on people as well as products.