Fluid typography

And, font-size: calc(vw + em)

If you are a web developer, you’ve probably seen font-size declarations something like this:

body {
  font-size: calc(21px + 3 * ((100vw - 375px) / 825));
}

But back in 2017, I saw an unusual font-size declaration for the first time:

body {
  font-size: calc(1.9393939394vw + 2.8727272727em);
}

The calculation seemed like magic, leaving me scratching my head. I had no idea how it worked or how it was calculated. I searched online but couldn’t find any answers. Still, I had to figure it out myself. It seemed pretty cool to explore.

In 2024, the frustration grew as I continued to work with fluid font sizes. But I remain hopeful that one day, I’ll unlock its logic, inshallah.

I know the fundamental

Here’s the math, credit Mike Riethmuller:

body {
  font-size: calc(min_font + (max_font - min_font) * ((100vw - min_viewport_width) / (max_viewport_width - min_viewport_width)));
}

This is a simplified version of fluid font size with pixels. If I want the font size to range from 21px on a 375px screen to 24px on a 1200px screen, it would be like this:

body {
  font-size: 21px;
  font-size: calc(21px + (24 - 21) * ((100vw - 375px) / (1200 - 375)));
}
@media screen and (min-width: 1200px) {
  body {
    font-size: 24px;
  }
}

Browsers will render the calc() function as follows:

body {
  font-size: calc(21px + 3 * (100vw - 375px) / 825);
}

This isn’t what I want.

I want to render something like this:

body {
  font-size: calc(0.3636363636vw + 19.6363636364px);
}

So, I need to do some basic math. But it took me 7 years to figure it out. Here’s an example:

// math
1: 21px + (24 - 21) * ((100vw - 375px) / (1200 - 375))
2: 21px + (24 - 21) * ((100vw / (1200 - 375)) - (375px / (1200 - 375)))
3: 21px + ((24 - 21) * (100vw / (1200 - 375))) - ((24 - 21) * (375px / (1200 - 375)))
4: ((24 - 21) * (100vw / (1200 - 375))) + (21px - ((24 - 21) * (375px / (1200 - 375))))  

// browser will render 
1: 21px + 3 * (100vw - 375px) / 825
2: 21px + 3 * (0.1212121212vw - 0.4545454545px)
3: 21px + 0.3636363636vw - 1.3636363636px
4: 0.3636363636vw + 19.6363636364px

Last one is the output I want. So here’s the final math:

body {
  font-size: calc(((max_font - min_font) * 100vw / (max_viewport_width - min_viewport_width)) + (min_font  - ((max_font - min_font) * min_viewport_width) / (max_viewport_width - min_viewport_width)));
}

In Sass

I love Sass, and Dart Sass is my go-to for every project. When it comes to units, I prefer em. Remember, 1em = 16px. To keep things simple, I start by setting the body font-size to 62.5%, making 1em = 10px.

body
  font-size: 62.5%

Finally I’ve crafted a (pretty robust) @mixin, like this:

// Fluid Font Size (ffs)
// target: calc(vw + em)

@use "sass:math"

@function strip-unit($value)
  @return math.div($value, ($value * 0 + 1))

=ffs($fs-max, $fs-min, $w-max: strip-unit($w-max), $w-min: strip-unit($w-min))
  font-size: calc(($fs-max - $fs-min) * 100vw / ($w-max - $w-min) + (($fs-min * .1em) - ($fs-max - $fs-min) * ($w-min * .1em) / ($w-max - $w-min)))

Here’s how I use it:

$w-min: 375px
$w-max: 1200px

p
  +ffs(24, 21)

Now, the browser renders my desired target:

p {
  font-size: calc(0.3636363636vw + 1.9636363636em);
}

Conclusion

Yes, after 7 long years, I’ve finally cracked its logic. Alhamdulillah.

Am I leaving you scratching your head? I understand it’s tough. Fluid font sizes, result like calc(vw + em), might seem tricky initially, but with the right approach, you’ll get there too. Read well, be patient. Best of luck!