This isn't a complete list, but here are some notable changes when upgrading to V4.
- The config syntax now uses use dots instead of colons with get / config so
get('colors:accent')
is nowget('colors.accent')
. - The clr function now prefers percentages instead of a level so
clr(accent, -5)
is nowclr(accent, -50%)
.
- Would it make sense to rename
config
asset
so that it matches theget
function naming? - Need to refine the color / theme tagging system. The syntax is different for colors vs. site variables.
- Controls mixins still need some cleanup and need to figure out how to handle site-vars.
- Need to make a decision on whether to use color-mix with site-vars (or make it an option?).
- Add the ability to load px-styles with a complete config object and a way to export a configuration object (this is all on the assumption that loading this way would be faster...not sure if that's actually true so probably good to investigate first).
Add the package to your project using npm.
npm install @thinkpixellab-public/px-styles --save
Each of these basic utility mixins or functions is completely standalone and requires no shared configuration. This is the most lightweight version of px-styles and is adequate for many scenarios.
@use '@thinkpixellab-public/px-styles/utils' as *
If you want to access the site-configured utilities y9ou can load the default package which includes the basic utility functions and the site-configured utilitis. It does not include a handful of less commonly used modules (e.g. controls, boilerplate, etc.) on the assumption that those can be loaded as needed (to reduce overall loading times).
Here's a basic loader:
// forwards come first
@forward '@thinkpixellab-public/px-styles';
// now import it (so we can configure it)
@use '@thinkpixellab-public/px-styles' as *;
// add configuration as needed (this is optional)
@include config('colors.accent', #5157bd);
@include config('colors.selection', clr('accent', -10%));
@include config('controls.border-radius', 0.5em);
// call init() to set missing defaults, etc.
@include init();
Note: it might seem a little out of order to call init() (and loading defaults) after configuration, but we do this to avoid situations where local configuration accidentally relies on unintended usage of px-styles defaults. A good example of this would be the lines that configure colors.accent
followed by colors.selection
(which relies on colors.accent). If these were done in the opposite order they would fail (and rightly so since colors.selection
is based on colors.accent
). But if the library had been initialized with defaults, then the calls wouldn't fail but the selection color would be based on the wrong color (the px-styles default instead of the custom version).
You can Load individual modules after loading the configured library.
// load the module
@use '@thinkpixellab-public/px-styles/src/modules/boilerplate' as *;
If you have multiple components or files that need to access a shared configuration, it often makes sense to create a shared loader / configuration file.
@forward '@thinkpixellab-public/px-styles';
@use '@thinkpixellab-public/px-styles' as *;
@include config('colors.accent', #5157bd);
@include config('colors.selection', clr('accent', -10%));
@include config('controls.border-radius', 0.5em);
@include init();
// load configured-styles
@use 'px' as *;
// load other custom modules if needed
@use '@thinkpixellab-public/px-styles/src/modules/controls' as *;
.my-class { ... }
Optionally, you could also create a utils only loader to make loading utils seem a bit cleaner (so you don't have to include the long package name every time). This might also encourage loading the simpler utils which require no configuration or config parsing.
@forward '@thinkpixellab-public/px-styles/utils';
@use 'px-utils' as *;
There are so many potential sources for any given value that tt seems worth mentioning some guiding principles about where the value should come from and when and how convenient defaults should be provided (and then where those defaults come from).
- hardcoded values should be used when the value is absolute and unchanging.
- SCSS variables make sense when a hardcoded value would suffice but we're trying to keep the code DRY. See the node about module configuration below for a small exception to this.
- mixin or function parameters should be exposed when the value changes on each use (this is probably pretty obvious).
- site / module "config" values make sense when the value can/should be configured at the site level and is expected to be constant at runtime.
- CSS variables (or custom properties) make sense when the value might change during runtime (either in code or based on DOM location) or when we want to otherwise expose some kind of CSS accessible configuration. There is some runtime cost to this flexibility as well as potential complexity in the CSS itself. Also, CSS variables are difficult to work with inside of a framework because the only way to manipulate them is with calc() functions (e.g. it's not possible to multiply two css variables except using calc()).
That all seems pretty straightforward, but the devil is in the details. In real world usage, things can be a bit muddier so let's address some common scenarios where there may be some ambiguity.
A major purpose of a CSS framework like pxstyles is to simplify syntax and produce more consistent / better tested output but that needs to be balanced with flexibility.
That said, multple levels of defaults can also become a bit unruly and it can become difficult to know where a value is ultimately coming from.
A common pattern might be something like:
/* pxstyles */
// this will set a value in config for default-background only if no has been configured already
@include default('default-background', orange);
@mixin dark-background($color: null) {
// lookup the site configured background
$color: if-null($color, get('default-background'));
background: darken($color, 10%);
}
/* user code (no config) */
@use '@thinkpixellab-public/px-styles' as *;
@include dark-background(); // outputs dark orange
@include dark-background(green); // outputs dark green
/* user code (with config) */
$site-config: (
'default-background': purple,
);
@use '@thinkpixellab-public/px-styles' as * with (
$-config: $site-config
);
@include dark-background(); // outputs dark purple
@include dark-background(green); // outputs dark green
This seems pretty useful, but even with just a couple of layers of redirection it can get pretty confusing to figure out where the value is coming from. And some examples might get even more complex. Imagine now that we're using the dark-background()
mixin inside of a button mixin. The button mixin has it's own background configuration.
/* pxstyles */
@mixin button($accent: null) {
$accent: if-null($accent, get('button.accent'));
background-color: $accent;
&:active {
@include dark-background($accent);
}
}
/* user code (with config for button accent) */
$site-config: (
'button.background': blue,
);
@use '@thinkpixellab-public/px-styles' as * with (
$-config: $site-config
);
.button {
@include button(); // background will be blue / darker blue (when active)
}
I don't think we should go deeper than this.
In a hope to simplify the configuration of a pretty complex library, we rely on a single map that stores all config values. This can be initialized with a simple map object or maniuplated using mixins and function in /src/site/config.scss
.
This is stated above, but worth mentioning again that the library is organized by whether the code relies on that config map. The utils
module is configuration free. Functions and mixins may have smart defaults for parameters but there is no concept of a shared configuration. All functionaly is standalone. The site
module relies on a shared config object. Other modules like controls
and typography
rely on the configured site
module and also expose their own config.
No work has been done to guarantee that site/
API Documentation can be found in the docs folder. Just open index.html
in a browser (it should run fine from the local file system). All of the documentation is generated dynamically using sassdoc and output to a json file (which the page uses as a data source).
Learn more about sassdoc annotations here: SassDoc Annotations.
- Only emit emit on demand. This library only contains functions and mixins (even big actions like initializing a site are done through mixins) so it can be included without any concern about creating bulk or having an impact on runtime performance.
- Make it easy to initialize a project/site.
- Simplify common css use cases. Make complex syntax easier to remember / understand.
- Encourage consistency by making common values available via shared functions and settings for things like sizing, color, spacing, breakpoints, etc.
- Make css easier to read, write and understand. Make it easier to infer intent from code.
/utils
Contains utility mixins and functions that have no depependency on site configuration/site
Contains utility mixins and functions that depend on site configuration/modules
Contains purpose-built mixins that generate css related to a specific task or goal/controls
Contains mixins for generating consistent control stylesdefaults.scss
Contains all default values. Generally mixins and functions shouldn't declare new defaults for parameters or vars (although there is probably some remaining work to remove these). Use this to see what can be customized and to determine where a particular setting is coming from.
The library is designed to work with the new sass module infrastructure. The library is configured
in site-config.scss
and that file can be "used" by any other file in the project. In theory that
file should only be loaded once and so it could emit CSS but for safety, the rule is that
site-config.scss
won't emit. Instead any global scss should be in site-global.scss
.
Decision: px does not set globals nor do modules uses configurable local variables. Globals introduce predictability issues due to ordering dependencies. Configurable module variables have to all be set at once and therefore can't easily be derived from other variables or by using functions.
Instead all configuration settings are stored in a global map that can be accessed with the get, config and default defined in /utils/config.scss.
Instead of using the global get
function, some common settings can be accessed using domain specific functions (where applicable) or a standard function that retrieves any setting.
Domain specific functions include:
fs($name)
- gets a font-size from the type rampsp($n)
- gets a spacing value derived from the common spacer valuerems($px)
- convert px value to rems based on the sites base font-sizecolor($name, $shade, $alpha)
- retrieves a common named color and optionally produce a shade of that colorgray($scaler)
// gets a derived a gray valueshadow($level)
// creates a box shadow@include transition($props)
// mixin that emits a transition with common defaults for dur/ease@include media-until($name)
// mixin that creates a media query at common breakpoint size
Sample code that retrieves a bunch of common values:
.contact-link {
// get the font-size called md
font-size: fs(md);
// get the color called accent:
color: clr(accent);
// get the variable for the headings font-family
font-family: get(heading-font-family);
// apply a transition with the default transition dur/eass
@include transition(color);
&:hover {
// set the color called accent but one level darker
color: color(accent, -1);
}
}
API documentation is generated using sassdoc. The full build process is run using gulp and output to the /docs folder. The resulting output can be browsed directly from the file system (no server required) by loading ./docs/index.html
To kickoff a docs build just run gulp docs
The project is setup so that you can play with the library from a file in the root called scratch.scss
. Run gulp scratch
to build this file once you've created it. After building, the output will be available as scratch.css
(note the prefix of 'css' instead of 'scss`). These files have also been added to .gitignore so you should be able to play with them freely.
Here is a sample scratch file that will load px-styles from local source:
// load px
@use 'index.scss' as *;
// initialize px
@include init();
// write css
.button {
@include button();
}
-
Better version management. It would be great to inlude a mixin like ensure-version($version) that would make sure that you're using a compatible version of px-styles. Maybe package versioning is enough but it seems like we could do a little more to prevent breaks.
-
Make easing variables available via function or else cleanup the docs to filter them somehow
-
Better CSS Grid helpers
-
Mixin for cover(url, centerx, centery)
-
Mixin for contain(url, centerx, centery)
-
Helpers for CSS vars?
-
Transforms mixins?
-
Make use of interesting css units (beyond viewport)
-
Simple animations? (like animate.css)
-
Create a vscode snippets library for common things?
-
Add a list of good third party libs
-
Refinements to the reading mixin / config
-
z-order management
-
Rename "primary" as "accent"? -
Rename basics() => boilerplate() -
Rename defaults() => init() -
Make sanitize a module and optionally called by the boilerplate mixin -
Bem helpers?
- Css maps now use periods as a separator instead of colons (so
button.background
instead ofbutton:backround
) - Any settings related to controls are now just the name of the component (e.g.
controls:button:background
is now justbutton:background
)
This is a simple SCSS framework that provides basic site setup and some common functionality for web projects. The goal is to create a simple to understand boilerplate coupled with a consistent approach to styling that encourages reuse and best practices while maintaing flexibility.
- Repository: https://github.com/thinkpixellab/px-styles
- API Documentation: https://thinkpixellab.github.io/px-styles
- NPM Package: https://www.npmjs.com/package/@thinkpixellab-public/px-styles