Home > Designing, Others > Understanding Web Accessibility Color Contrast Guidelines and Ratios

Understanding Web Accessibility Color Contrast Guidelines and Ratios

February 19th, 2020 Leave a comment Go to comments

What should you do when you get a complaint about the color contrast in your web design? It might seem perfectly fine to you because you’re able to read content throughout the site, but to someone else, it might be a totally different experience. How can put yourself in that person’s shoes to improve their experience?

There are some relatively easy ways to test contrast. For example, you can check the site on your phone or tablet in bright sunlight, or add a CSS filter to mimic a grayscale view). But… you don’t have to trust your eyes. Not everyone has your exact eyes anyway, so your subjective opinion can possibly be a faulty measurement.

You can mathematically know if two colors have enough contrast between them.

The W3C has a document called Web Content Accessibility Guidelines (WCAG) 2.1 that covers successful contrast guidelines. Before we get to the math, we need to know what contrast ratio scores we are aiming to meet or exceed. To get a passing grade (AA), the contrast ratio is 4.5:1 for most body text and 3:1 for larger text.

How did the W3C arrive at these ratios?

The guidelines were created for anyone using a standard browser, with no additional assistive technology. The contrast ratios that the WCAG suggests were based initially on earlier contrast standards and adjusted to accommodate newer display technologies, like antialiased text, so content would be readable by people with a variety of visual or cognitive difficulties, whether it be due to age, sickness, or other losses of visual acuity.

We’re basically aiming to make text readable for someone with 20/40 vision, which is equivilent to the vision of someone 80 years old. Visual acuity of 20/40 means you can only read something at 20 feet away that someone with perfect 20/20 vision could read if it was 40 feet away.

So, say your design calls for antialiased text because it looks much smoother on a screen. It actually sacrifices a bit of contrast and ding your ratio. The WCAG goes into more detail on how scoring works.

There are other standards that take contrast in consideration, and the WCAG used some of these considerations to develop their scoring. One is called the Human Factors Engineering of Computer Workstations (ANSI/HFES 100-2007) was published in 2007 and designated as an American standard for ergonomics. It combined and replaced two earlier standards that were created by separate committees. The goal of the combined standard was to accommodate 90% of computer users, and cover many aspects of computer use and ergonomics, including visual displays and contrast. So, that means we have physical screens to consider in our designs.

What does the ratio mean?

The contrast ratio explains the difference between the lightest color brightness and the darkest color brightness in a given range. It’s the relative luminance of each color.

Let’s start with an egregious example of a teal color text on a light gray background.

<h1>Title of Your Awesome Site</h1>
h1 {
  background-color: #1ABC9C;
  color: #888888;
}
Yikes!

It’s worth calling out that some tools, like WordPress, provide a helpful warning for this when there’s a poorly contrasted text and background combination. In the case of WordPress, a you get notice in the sidebar.

“This color combination may be hard for people to read. Try using a brighter background color and/or a darker text color.”

“OK,” you say. “Perhaps you think that teal on gray color combination is not exactly great, but I can still make out what the content says.“ (I’m glad one of us can because it’s pretty much a muddy gray mess to me.)

The contrast ratio for that fine piece of hypertext is 1.47:1.

I wanted a better understanding of what the contrast scores were actually checking and came to find that it requires the use of mathematics… with a side of understanding the differences between human and computer vision. This journey taught me about the history of computer vision and a bit about biology, and gave me a small review of some math concepts I haven’t touched since college.

Here’s the equation:

(L1 + 0.05) / (L2 + 0.05)
  • L1 is the relative luminance of the lighter of the colors.
  • L2 is the relative luminance of the darker of the colors.

This seems simple, right? But first we need to determine the relative luminance for each color to get those variables.

OK, back to relative luminance

We mentioned it in passing, but it’s worth going deeper into relative luminance, or the relative brightness of any color expressed into a spectrum between 0 (black) and 1 (white).

To determine the relative luminance for each color, we first need to get the RGB notation for a color. Sometimes we’re working with HEX color values and need to covert that over to RGB. There are online calculators that will do this for us, but there’s solid math happening in the background that makes it happen. Our teal hex color, #1ABC9C, becomes an RGB of 26, 188, 156.

Next, we take each value of the RGB color and divide each one by 255 (the max integer of RGB values) to get a linear value between 0 and 1.

So now with our teal color it looks like this:

Component Equation Value
Red 26/255 0.10196078
Green 188/255 0.73725490
Blue 156/255 0.61176471

Then we apply gamma correction, which defines the relationship between a pixel’s numerical value and its actual luminance, to each component part of the RGB color. If the linear value of a component is less than .03938, we divide it by 12.92. Otherwise, we add .055 and divide the total by 1.055 and take the result to the power of 2.4.

Our gamma corrected color components from our teal color end up like this:

Component Equation Value
Red ((0.10196078 +.055)/1.055) ^ 2.4 0.01032982
Green ((0.73725490 +.055)/1.055) ^ 2.4 0.50288646
Blue ((0.61176471 +.055)/1.055) ^ 2.4 0.33245154

This part of our equation comes from the formula for determining relative luminance.

We just sort of sped past gamma correction there without talking much about it and what it does. In short, it translates what a computer “sees” into the human perception of brightness. Computers record light directly where twice the photons equals twice the brightness. Human eyes perceive more levels of light in dim conditions and fewer in bright conditions. The digital devices around us make gamma encoding and decoding calculations all the time. It’s used to show us things on the screens that match up to our perception of how things appear to our eyes.

Finally, we multiply the different colors by numbers that signify how bright that color appears to the human eye. That means we determine the luminance of each color by multiplying the red component value by .2126, the green component value by .7152, and the blue component by .0722 before adding all three of those results together. You’ll note that green gets the highest value here,

So, one last time for teal:

Component Equation Value
Red 0.01032982 X 0.2126 0.00219611973
Green 0.50288646 X 0.7152 0.35966439619
Blue 0.33245154 X 0.0722 0.02400300118

…and add them together for luminance!

L1 = 0.00219611973 + 0.35966439619 + 0.02400300118 = 0.38586352

If we do the same to get our L2 value, that gives us 0.24620133.

We finally have the L1 and L2 values we need to calculate contrast. To determine which value is L1 and and which is L2 , we need to make sure that the larger number (which shows the lighter color) is always L1 and is divided by the smaller/darker color as L2.

Now compare that result with the WCAG success criterias. For standard text size, between 18-22 points, a minimul result of 4.5 will pass with a grade of AA. If our text is larger, then a slightly lower score of 3 will do the job. But to get the highest WCAG grade (AAA), we have to have a contrast ratio result of at least 7. Our lovely combination fails all tests, coming far under 4.5 for regular text or 3 for headline style text. Time to choose some better colors!

I’m so glad we have computers and online tools to do this work for us! Trying to work out the details step-by-step on paper gave me a couple weeks of frustration. It was a lot of me getting things wrong when comparing results to those of automated contrast checkers.

Remember how teachers in school always wanted you to show your math work to prove how you got to the answer? I made something to help us out.

CodePen Embed Fallback

If you view this demo with the console open, you’ll see the math that goes into each step of the calculations. Go ahead, try our two example colors, like #1ABC9C and #888888.

I just want my page to have proper contrast, what do I do?!

There are a variety of accessibility resources that you can can audit your site. Here’s a list I put together, and there’s another list here on CSS-Tricks.

But here are a few tips to get you started.

First, identify areas that are not serving your accessibility needs.

The WAVE accessibility tool is a good place to start. Run your site through that and it will give you contrast results and help identify trouble areas.

Yay, passing scores!

Follow the suggestions of the audit

Use best practices to improve your scores, and remove the errors. Once you identify contrast errors, you can try out some different options right there in the WAVE tool. Click on the color box to pop open a color picker. Then play around until the errors go away, and you’ll know what you can replace in your code.

Run the test again

This way, you can make sure your changes improved things. Congratulations! You just made your product better for all users, not just ones affected by the accessibility errors!

What comes next is up to you!

You can make it easier on yourself and start all new products with the goal of making them accessible. Make accessibility guidelines part of your requirements for both technology and design. You’ll save yourself potentially hundreds of hours of remediation, and potential legal complaints. U.S. government and education websites are required to comply, but other industries are often taken to task for not making their sites equally available for all people.

If you have the option, consider using established and tested frameworks and web libraries (like Bootstrap or Google’s Material Design) that have already figured out optimum contrast theme colors. In many cases, you can take just what you need (like only the CSS) or at least review their color palettes to inform choices. You should still check the contrast though because, while most standard text options in a framework may follow contrast ratio WCAG suggestions, things like alert and message styles may not. (I’m looking at you, Bootstrap!)

Derek Kay has reviewed a list of web frameworks with a focus on accessibility, which I suggest you read if you are looking for more options. The U.S. Web Design System shows one way to solve color/contrast puzzles using their CSS token system that labels colors to make contrast differences super clear), but they also link to several very good resources for improving and understanding contrast.

We took a deeper dive here than perhaps you ever really need to know, but understanding what a contrast ratio is and what it actually means should help you remember to keep contrast in mind when designing future sites, web apps, and other software.

Having a clearer understanding of what the contrast ratio means helps me to remember who poor contrast can affect, and how to improve web and mobile products overall.

I’m not the ultimate subject expert on contrast, just a very, very curious girl who sometimes has issues reading things on the web with low contrast.

If you have any additional thoughts, corrections or further research to share, please leave a comment and I’ll amend this article! The fuller our understanding of the needs and requirements of our sites is, the better we can plan improvements and ultimately serve the needs of our audiences.

The post Understanding Web Accessibility Color Contrast Guidelines and Ratios appeared first on CSS-Tricks.

Categories: Designing, Others Tags:
  1. No comments yet.
  1. No trackbacks yet.
You must be logged in to post a comment.