Python API¶
Legacy API¶
Warning
This API is still supported while the new API below is worked out, but it’s slated for deprecation and eventual removal. If you don’t need any of the features not yet available with the new API, consider porting as soon as possible.
Compiling files¶
Very basic usage is simple enough:
from scss import Scss
css = Scss()
css.compile("a { color: red + green; }")
Configuration¶
There are several configuration variables in the scss.config
module
that you may wish to change.
PROJECT_ROOT
: Root of your entire project. Used only to construct defaults
for other variables. Defaults to the root of the pyScss installation, which is
probably not what you want.
LOAD_PATHS
: An iterable of paths to search when using``@import``.
STATIC_ROOT
: Used for finding sprite files. Defaults to
$PROJECT_ROOT/static
.
ASSETS_ROOT
: Generated sprites are saved here. Defaults to
$STATIC_ROOT/assets
.
CACHE_ROOT
: Used for storing cached sprite information. Defaults to
ASSETS_ROOT
.
STATIC_URL
: URL equivalent to STATIC_ROOT
. Defaults to static/
.
ASSETS_URL
: URL equivalent to ASSETS_ROOT
. Defaults to static/assets/
.
SPRTE_MAP_DIRECTION
: Direction in which to arrange sprites in a
spritesheet. Defaults to vertical
; may be changed to horizontal
,
diagonal
, or smart
.
VERBOSITY
: Increase spew from the compiler. Defaults to 1
.
DEBUG
: Set to true to make parse errors fatal. Defaults to false.
Django example¶
A rough example of using pyScss with Django:
import os
import fnmatch
import scss
from django.conf import settings
from django.utils.datastructures import SortedDict
from django.contrib.staticfiles import finders
def finder(glob):
"""
Finds all files in the django finders for a given glob,
returns the file path, if available, and the django storage object.
storage objects must implement the File storage API:
https://docs.djangoproject.com/en/dev/ref/files/storage/
"""
for finder in finders.get_finders():
for path, storage in finder.list([]):
if fnmatch.fnmatchcase(path, glob):
yield path, storage
# STATIC_ROOT is where pyScss looks for images and static data.
# STATIC_ROOT can be either a fully qualified path name or a "finder"
# iterable function that receives a filename or glob and returns a tuple
# of the file found and its file storage object for each matching file.
# (https://docs.djangoproject.com/en/dev/ref/files/storage/)
scss.config.STATIC_ROOT = finder
scss.config.STATIC_URL = settings.STATIC_URL
# ASSETS_ROOT is where the pyScss outputs the generated files such as spritemaps
# and compile cache:
scss.config.ASSETS_ROOT = os.path.join(settings.MEDIA_ROOT, 'assets/')
scss.config.ASSETS_URL = settings.MEDIA_URL + 'assets/'
# These are the paths pyScss will look ".scss" files on. This can be the path to
# the compass framework or blueprint or compass-recepies, etc.
scss.config.LOAD_PATHS = [
'/usr/local/www/sass/frameworks/',
'/Library/Ruby/Gems/1.8/gems/compass-0.11.5/frameworks/compass/stylesheets/',
'/Library/Ruby/Gems/1.8/gems/compass-0.11.5/frameworks/blueprint/stylesheets/',
]
# This creates the Scss object used to compile SCSS code. In this example,
# _scss_vars will hold the context variables:
_scss_vars = {}
_scss = scss.Scss(
scss_vars=_scss_vars,
scss_opts={
'compress': True,
'debug_info': True,
}
)
# 1. Compile from a string:
compiled_css_from_string = _scss.compile('@import "file2"; a {color: red + green; }')
# 2. Compile from a file:
compiled_css_from_file = _scss.compile(scss_file='file1.scss')
# 3. Compile from a set of files (use SortedDict or collections.OrderedDict to
# maintain the compile order):
_scss._scss_files = SortedDict((
('file2.scss', open('file2.scss').read()),
('file3.scss', open('file3.scss').read()),
('file4.scss', open('file4.scss').read()),
))
compiled_css_from_files = _scss.compile()
Note
The API here is likely to be improved in 1.3, to avoid the need for calling underscored functions.
New API¶
The simplest example:
from scss.compiler import compile_string
print(compile_string("a { color: red + green; }"))
scss.compiler.compile_string()
is just a simple wrapper around the
scss.compiler.Compiler
class:
from scss.compiler import Compiler
compiler = Compiler()
print(compiler.compile_string("a { color: red + green; }"))
The most common arguments passed to Compiler are:
- search_path
- A list of paths to search for
@import
s. May be either strings orpathlib.Path
objects.
Extending pyScss¶
A significant advantage to using pyScss is that you can inject Python values and code into the Sass compilation process.
Injecting values¶
You can define Sass values by creating and populating a scss.namespace.Namespace
:
from scss.namespace import Namespace
from scss.types import String
namespace = Namespace()
namespace.set_variable('$base-url', String('http://localhost/'))
compiler = Compiler(namespace=namespace)
compiler.compile_string('div { background: url($base-url); }')
Now, $base-url
will be available to the compiled Sass code, just like any
other variable. Note that the value given must be one of the Sass types
defined in scss.types
.
Injecting functions¶
You can inject functions the same way:
def square(x):
return x * x
namespace.set_function('square', 1, square)
This creates a function square
for use in your Sass source. Optional
arguments, keyword arguments, and slurpy arguments are all supported
automatically. The arguments are Sass types, and the return value must be one
as well.
The second argument is the arity — the number of required arguments, or None if
any number of arguments is allowed. Sass functions can be overloaded by arity,
so this is required. For functions with optional arguments, adding the same
function multiple times can be tedious and error-prone, so the declare
decorator is also available:
@namespace.declare
def square(x):
return x * x
This will inspect the arguments for you and register the function with all
arities it accepts. The function name is determined from the Python name:
underscores become hyphens, and trailing underscores are removed. If you’d
prefer to be more explicit, there’s also a declare_alias
:
@namespace.declare_alias('square')
def square(x):
return x * x