This repo (wizard/garden
) is a fork of the original noprompt/garden
repo, since the upstream repo had not had a Clojars release for some years, and
a number of fixes and improvements had accumulated. The version found here is
released to Clojars under the enterprises.wizard
organization. See below for
installation instructions.
At the time of writing both repos are identical in functionality, but this this
repo uses the lambdaisland project tooling for handling releases. See
CHANGELOG.md
for release details.
Also check out lambdaisland/ornament for our styled component companion library.
To use the latest release, add the following to your deps.edn
(Clojure CLI)
enterprises.wizard/garden {:mvn/version "1.5.569-SNAPSHOT"}
or add the following to your project.clj
(Leiningen)
[enterprises.wizard/garden "1.5.569-SNAPSHOT"]
Garden is a library for rendering CSS in Clojure and ClojureScript. Conceptually similar to Hiccup, it uses vectors to represent rules and maps to represent declarations. It is designed for stylesheet authors who are interested in what's possible when you trade a preprocessor for a programming language.
Garden 1.2.5 and below requires Clojure 1.6.0 and is known to work with ClojureScript 0.0-2342. However, starting with Garden 1.3.0 Garden requires Clojure 1.7 and ClojureScript 1.7.x to leverage a unified syntax with reader conditionals, and other major changes in the compiler and repl in Clojurescript.
Garden syntax is very similar to Hiccup. If you're familiar with Hiccup you should feel right at home. If not, don't sweat it!
From your project's root directory start up a new REPL and try the following:
user=> (require '[garden.core :refer [css]])
nil
user=> (css [:body {:font-size "16px"}])
"body{font-size:16px}"
First you'll notice the use of the css
function. This function takes an
optional map of compiler flags, any number of rules, and returns a string of
compiled CSS.
Vectors represent rules in CSS. The first n non-collection elements of a
vector depict the rule's selector where n > 0. When n = 0 the rule is not
rendered. To produce a rule which selects the <h1>
and <h2>
HTML elements
for example, we simply begin a vector with [:h1 :h2]
:
user=> (css [:h1 :h2 {:font-weight "none"}])
"h1,h2{font-weight:none}"
To target child selectors nested vectors may be employed:
user=> (css [:h1 [:a {:text-decoration "none"}]])
"h1 a{text-decoration:none}"
user=> (css [:h1 :h2 [:a {:text-decoration "none"}]])
"h1 a, h2 a{text-decoration:none}"
As in Less/Sass, Garden also supports selectors prefixed with the &
character allowing you to reference a parent selector:
user=> (css [:a
{:font-weight 'normal
:text-decoration 'none}
[:&:hover
{:font-weight 'bold
:text-decoration 'underline}]])
"a{text-decoration:none;font-weight:normal}a:hover{text-decoration:underline;font-weight:bold}"
A slightly more complex example demonstrating nested vectors with multiple selectors:
user=> (css [:h1 :h2 {:font-weight "normal"}
[:strong :b {:font-weight "bold"}]])
"h1,h2{font-weight:normal}h1 strong,h1 b,h2 strong,h2 b{font-weight:bold}"
garden.selectors
namespace defines a CSSSelector record. It doubles as both a
function and a literal (when passed to the css-selector). When the function is
called it will return a new instance that possesses the same properties. All
arguments to the function must satisfy ICSSSelector.
garden.selectors
namespace also defines these macros that create a selector
record: defselector
, defclass
, defid
, defpseudoclass
and
defpseudoelement
.
garden.selectors
namespace also defines many CSSSelector instances such as:
- Type selectors
a
,abbr
,address
and more - Pseudo-classes
active
,checked
,disabled
and more - Language and negation pseudo-classes
lang
andnot
- Structural pseudo-classes
nth-child
,nth-last-child
,nth-of-type
andnth-last-of-type
- Pseudo-elements
after
,before
,first-letter
andfirst-line
- Attribute selectors
attr=
,attr-contains
,attr-starts-with
,attr-starts-with*
,attr-ends-with
andattr-matches
- Combinators
descendant
,+
,-
and>
- Special selector
&
and allows to compose complex selectors such as this:
(defselector *)
(defpseudoclass host [x] x)
(defpseudoelement content)
(> (host (attr :flipped)) content (* last-child))
;; => :host([flipped]) > ::content > *:last-child
garden.selectors
namespace also defines a CSS3 selectors's specificity
function:
(specificity "#s12:not(FOO)")
;; => 101
(specificity (a hover))
;; => 10
Clojure maps represent CSS declarations where map keys and values represent CSS properties and values respectively. Garden's declaration syntax is a bit more involved than rules and understanding it is important to make the most of the library.
Declaration map keys should either be a string, keyword, or symbol:
user=> (css [:h1 {"font-weight" "normal"}])
"h1{font-weight:normal}"
user=> (css [:h1 {:font-weight "normal"}])
"h1{font-weight:normal}"
user=> (css [:h1 {'font-weight "normal"}])
"h1{font-weight:normal}"
Be aware, Garden makes no attempt to validate your declarations and will not raise an error if other key types are used.
user=> (css [:h1 {30000 "nom-nom"}])
"h1{30000:nom-nom}"
We've already seen strings used as declaration map values, but Garden also supports keywords, symbols, numbers, maps, vectors, and lists in addition.
Since Garden doesn't have wrappers for all the possible CSS functions,
sometimes you might need to define the function you need yourself.
This is where the defcssfn
macro comes in handy.
Suppose you want to use the url
CSS function, even if it's not available
in Garden directly you can just define it yourself by simply:
(defcssfn url)
;; => #'user/url
Which will render like this:
(css (url "http://fonts.googleapis.com/css?family=Lato"))
;; => url(http://fonts.googleapis.com/css?family=Lato)
Strings, keywords, symbols, and numbers are rendered as literal CSS values:
user=> (css [:body {:font "16px sans-serif"}])
"body{font:16px sans-serif}"
Be warned, you must escape literal string values yourself:
user=> (css [:pre {:font-family "\"Liberation Mono\", Consolas, monospace"}])
"pre{font-family:\"Liberation Mono\", Consolas, monospace}"
Building ClojureScript
lein build-cljs
Starting a Node REPL
lein node-repl
Run Clojure tests, along with a test runner
lein test-clj
Run ClojureScript tests (on Node)
lein test-cljs
Run both Clojure and ClojureScript tests
lein test-cljc
Detailed documentation and a developer guide for Syntax, Rules, Declarations, and Plugins is under the community-contributed wiki.
Please contribute!
This project is looking for team members who can help this project succeed! Specifically of interest are people who can
- help fix bugs,
- answer questions,
- merge pull requests, and
- deploy new versions.
If you are interested in becoming a team member please open an issue and direct message @noprompt, or direct message @noprompt on Clojurians.
The original author, @noprompt, is a busy person with a family, a job, and other projects. Be aware that it may take some time for pull requests to be evaluated.
- #clojurescript or #css channel on Clojurians
Copyright © 2013-2019 Joel Holdbrooks.
Distributed under the Eclipse Public License, the same as Clojure.