CSS is a Strongly Typed Language

Publikováno: 13.4.2021

One of the ways you can classify a programming language is by how strongly or weakly typed it is. Here, “typed” means if variables are known at compile time. An example of this would be a scenario where an integer …


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One of the ways you can classify a programming language is by how strongly or weakly typed it is. Here, “typed” means if variables are known at compile time. An example of this would be a scenario where an integer (1) is added to a string containing an integer ("1"):

result = 1 + "1";

The string containing an integer could have been unintentionally generated from a complicated suite of logic with lots of moving parts. It could also have been intentionally generated from a single source of truth.

Despite the connotations that the terms “weak” and “strong” imply, a strongly-typed programming language isn’t necessarily better than a weakly-typed one. There may be scenarios where flexibility is needed more than rigidity, and vice-versa. As with many aspects of programming, the answer is dependent on multiple external contexts (i.e “it depends”).

The other interesting bit is there is no formal definition of what constitutes strong or weak typing. This means that perceptions of what is considered a strongly or weakly-typed language differ from person to person, and may change over time.

TypeScript

JavaScript is considered a weakly-typed language, and this flexibility contributed to its early adoption on the web. However, as the web has matured and industrialized, use cases for JavaScript have become more complicated.

Extensions like TypeScript were created to help with this. Think of it as a “plugin” for JavaScript, which grafts strong typing onto the language. This helps programmers navigate complicated setups. An example of this could be a data-intensive single page application used for e-commerce.

TypeScript is currently very popular in the web development industry, and many new projects default to using TypeScript when first setting things up.

Compile time

Compile time is the moment when a programming language is converted into machine code. It is a precursor to runtime, the moment when machine code is performed by the computer.

As with many things on the web, compile time is a bit tricky. A setup that utilizes TypeScript will stitch together component pieces of JavaScript code and compile them into a single JavaScript file for the browser to read and run.

The time when component pieces compile is when they are all combined. TypeScript serves as a kind of overseer, and will yell at you if you try to break the typed conventions you have set up for yourself before combination occurs.

A tooltip that reads, “var content: any. Property ‘content’ does not exist on type ‘PropsWithChildren<Props>’. ts(2339). View Problem (Option F8). No quick fixes available. Tooltip is pointing towards an argument called “content.”
A sample TypeScript error in VS Code.

The stitched-together JavaScript file is then ingested by the browser, which has its own compile time. Browser compile time is highly variable, depending on:

  • The device the browser is on,
  • What other work the browser is doing, and
  • What other work the device’s other programs are doing.

TypeScript isn’t directly used by the browser, but its presence is felt. JavaScript is fragile. TypeScript helps with this fragility by trying to prevent errors upstream in the code editor. This lessens the chance errors occur in the JavaScript read by the browser — errors that would cause JavaScript to stop functioning on the website or web app a person is using.

CSS

CSS is a declarative, domain-specific programming language. It is also strongly typed. For the most part, values in CSS stay declared as authored. If a value is invalid the browser throws the entire property away.

Types in CSS

The list of types in CSS is thorough. They are:

Textual types
  • Globally-scoped keywords:
    • initial
    • inherit
    • unset
    • revert
  • Custom identifies, which are specifically used for things, such as providing a grid-area name
  • Strings, such as, "hello"
  • URLs, such as https://css-tricks.com/
  • Dashed idents (--), which are used to create custom properties (more on this in a bit)
Numeric types
  • Integers, which are decimal numbers 0–9
  • Real numbers, such as 3.14
  • Percentages, such as 25%
  • Dimensions, a number with a unit appended to it such as (100px or 3s)
  • Ratios, such as 16/9
  • flex, a variable length for CSS grid calculation
Quantity types
  • Lengths:
  • Angles, such as 15deg
  • Time, such as 250ms
  • Frequencies, such 16Hz
  • Resolution, such as 96dpi

Dimensions and lengths might seem similar, but dimensions can contain percentages and lengths cannot.

Color types
  • Keywords:
    • Named colors, such as papayawhip
    • transparent
    • currentColor
  • RGB colors:
    • Hexidecimal notation, such as #FF8764
    • RGB/RGBa notation, such as rgba(105, 221, 174, 0.5)
  • HSL/HSLA colors, such as hsl(287, 76%, 50%)
  • System colors, such as ButtonText
Image types
  • Image, which is a URL reference to an image file or gradient
  • color-stop-list, a list of two or more color stops, used for gradient notion
  • linear-color-stop, a color and length expression used to indicate a gradient color stop
  • linear-color-hint, a length percentage used to interpolate color
  • ending-shape, which uses a keyword of either circle or ellipse for radial gradients
2D positioning types
  • Keywords:
    • top
    • right
    • bottom
    • left
    • center
  • A percentage length, such as 25%

Programming in CSS

The bulk of programming in CSS is authoring selectors, then specifying a suite of properties and their requisite values. Collections of selectors give content a visual form, much as how collections of JavaScript logic creates features.

CSS has functions. It can perform calculation, conditional logic, algorithmic expressions, state, and mode-based behavior. It also has custom properties, which are effectively CSS variables that allow values to be updated dynamically. Heck, you can even solve fizzbuzz with CSS.

Like other programming languages, there is also a “meta” layer, with different thoughts and techniques on how to organize, manage and maintain things.

Throwing errors

Unlike other programming languages where code largely exists under the hood, CSS is highly visual. You won’t see warnings or errors in the console if you use an invalid value for a property declaration, but you will get visuals that don’t update the way you anticipated.

The reason for this is that CSS is resilient. When visuals don’t update because of a misconstructed declaration, CSS is prioritizing, ensuring content can be shown at all costs and will render every other valid declaration it possibly can. This is in keeping with the design principles of the language, the principles of the platform, and the overarching goals of the web’s mission.

Proof

Let’s demonstrate how strong typing in CSS keeps the guardrails on in three examples: one with a straightforward property/value declaration, one with calculation, and one with redefining a custom property.

Example 1: Straightforward property/value declaration

See the Pen Basic example by Eric Bailey (@ericwbailey) on CodePen.

For this example, the browser does not understand the banner’s border-style “potato” declaration. Note that the other .banner class selector property/value declarations are honored by the browser and rendered, even though border-style has a type mismatch. This is an example of how resilient CSS is.

The border-style declaration is expecting one of the following textual style types:

  • Globally-scoped keywords, or a
  • Dashed indent for a custom property.

If we update border-style to use a valid, typed value of dotted, the browser will render the border!

Example 2: Calculation

The calc() function in CSS allows us to take two arguments and an operator to return a calculated result. If one of the arguments doesn’t use a valid type, the calculation won’t work.

In this Pen, the p selector’s font-size property is expecting a value with a numeric dimension type (e.g. 1.5rem). However, the calculation function produces an invalid type value for the font-size property. This is because the second argument in the calc() function is a string ("2rem"), and not a numeric dimension type.

Because of this, the paragraph’s font size falls back to the next most applicable parent node — the font-size of 1.5rem declared on the body element.

This is a bit in the weeds, but worth pointing out: Combining two custom properties in a calc() function can cause errors. While both custom properties may be valid on their own, calc() will not accept dashed indent textual types. Think of a scenario where we might try multiplying custom properties that contain mismatched units, e.g. --big: 500px and --small: 1em.

Example 3: Redefined custom property

Like JavaScript variables, custom property values can be redefined. This flexibility allows for things like easily creating dark mode color themes.

In the :root selector of this CodePen, I have set a custom property of --color-cyan, with a value of #953FE3. Then, in the .square class, I have updated the --color-cyan custom property’s value to be top. While top is a valid, typed value, it is not a type that background-color honors.

Notice that the updated custom property is scoped to .square, and does not affect other usages, such as the right-hand border on the phrase “Don’t play to type.” And if you remove the redefined custom property from .square, you’ll see the cyan background color snap back in.

While this is a bit contrived, it serves as an example of how redefining custom properties can get away from you if you’re not careful.

This phenomenon can be found in projects with poor communication, larger CSS codebases, and situations where CSS preprocessors are used to construct custom properties at scale.

Tooling

With the gift of hindsight, I think a lack of console warnings for CSS is a flaw, and has contributed to a lot of the negative perceptions about the language.

Hoping a developer will notice a potentially tiny visual change is too big an ask, and does not meet them where they are for most of their other daily tools. There are a couple of initiatives I’m aware of that try to address this.

First is stylelint, a linter made specifically to deal with CSS and CSS-like preprocessing languages. stylelint can integrate with code editors, task runners, command line tools, and GitHub actions to help keep your CSS under control. This allows it to meet developers where they already are.

A tooltip that reads, “var content: any. Property ‘content’ does not exist on type ‘PropsWithChildren<Props>’. ts(2339). View Problem (Option F8). No quick fixes available. Tooltip is pointing towards an argument called “content.”
stylelint terminal output.

Second is Firefox’s excellent suite of CSS inspection options in its Developer Tools. In particular, I would like to call attention to its ability to identify unused CSS. This is extremely helpful for identifying selectors that may have run afoul of a type mismatch.

Tooltip attached to an unused selector in the Developer panel. The tooltip reads, “vertical-align has no effect on this element since it’s not an inline or table-cell element. Try adding display: inline or display: table-cell. Learn more. Screenshot.”
Firefox Developer edition

Wrapping up

CSS has been strongly typed for as long as it has been a programming language, and as a programming language it has been around for a long time. It’s also done a lot of growing up lately. If you haven’t checked in, there are some new, amazing features available.

As strongly-typed JavaScript becomes more popular, it is my hope that it helps developers become more comfortable with the firm, yet flexible approach of CSS.


Thank you to Miriam Suzanne for her feedback.


The post CSS is a Strongly Typed Language appeared first on CSS-Tricks.

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