sass-site/helpers/sass_helpers.rb
2018-10-22 17:26:00 -07:00

390 lines
11 KiB
Ruby

# coding: utf-8
require "pathname"
require "redcarpet"
require "rouge"
require "rouge/plugins/redcarpet"
module SassHelpers
def page_title
title = "Sass: "
if data.page.title
title << data.page.title
else
title << "Syntactically Awesome Style Sheets"
end
title
end
def copyright_years(start_year)
end_year = Date.today.year
if start_year == end_year
start_year.to_s
else
start_year.to_s + '&ndash;' + end_year.to_s
end
end
def pages_for_group(group_name)
group = data.nav.find do |g|
g.name == group_name
end
pages = []
return pages unless group
if group.directory
pages << sitemap.resources.select { |r|
r.path.match(%r{^#{group.directory}}) && !r.data.hidden
}.map do |r|
::Middleman::Util.recursively_enhance({
:title => r.data.title,
:path => r.url
})
end.sort_by { |p| p.title }
end
pages << group.pages if group.pages
pages.flatten
end
# Renders a code example.
#
# This takes a block of SCSS and/or indented syntax code, and emits HTML that
# (combined with JS) will allow users to choose which to display.
#
# The SCSS should be separated from the Sass with `===`. For example, in Haml:
#
# - example do
# :plain
# .foo {
# color: blue;
# }
# ===
# .foo
# color: blue
#
# Different sections can be separated within one syntax (for example, to
# indicate different files) with `---`. For example, in Haml:
#
# - example do
# :plain
# // _reset.scss
# * {margin: 0}
# ---
# // base.scss
# @import 'reset';
# ===
# // _reset.sass
# *
# margin: 0;
# ---
# // base.sass
# @import reset
#
# Padding is added to the bottom of each section to make it the same length as
# the section in the other language.
#
# A third section may optionally be provided to represent compiled CSS. If
# it's not passed and `autogen_css` is `true`, it's generated from the SCSS
# source. If the autogenerated CSS is empty, it's omitted entirely.
#
# If `syntax` is either `:sass` or `:scss`, the first section will be
# interpreted as that syntax and the second will be interpreted (or
# auto-generated) as the CSS output.
def example(autogen_css: true, syntax: nil, &block)
contents = _capture(&block)
if syntax == :scss
scss, css = contents.split("\n===\n")
elsif syntax == :sass
sass, css = contents.split("\n===\n")
else
scss, sass, css = contents.split("\n===\n")
throw ArgumentError.new("Couldn't find === in:\n#{contents}") if sass.nil?
end
scss_sections = scss ? scss.split("\n---\n").map(&:strip) : []
sass_sections = sass ? sass.split("\n---\n").map(&:strip) : []
if css.nil? && autogen_css
sections = scss ? scss_sections : sass_sections
if sections.length != 1
throw ArgumentError.new(
"Can't auto-generate CSS from more than one SCSS file.")
end
css = Sass::Engine.new(
sections.first,
syntax: syntax || :scss,
style: :expanded
).render
css = nil if css.empty?
end
css_sections = css ? css.split("\n---\n").map(&:strip) : []
# Calculate the lines of padding to add to the bottom of each section so
# that it lines up with the same section in the other syntax.
scss_paddings = []
sass_paddings = []
css_paddings = []
max_num_sections =
[scss_sections, sass_sections, css_sections].map(&:length).max
max_num_sections.times do |i|
scss_section = scss_sections[i]
sass_section = sass_sections[i]
css_section = css_sections[i]
scss_lines = (scss_section || "").lines.count
sass_lines = (sass_section || "").lines.count
css_lines = (css_section || "").lines.count
last_scss_section = i == scss_sections.length - 1
last_sass_section = i == sass_sections.length - 1
last_css_section = i == css_sections.length - 1
max_lines = [
last_scss_section ? 0 : scss_lines,
last_sass_section ? 0 : sass_lines,
last_css_section ? 0 : css_lines
].max
scss_paddings <<
if last_scss_section
# Make sure the last section has as much padding as all the rest of
# the other syntaxes' sections.
_total_padding(sass_sections[i..-1], css_sections[i..-1]) -
scss_lines - 2
elsif max_lines > scss_lines
max_lines - scss_lines
end
sass_paddings <<
if last_sass_section
_total_padding(scss_sections[i..-1], css_sections[i..-1]) -
sass_lines - 2
elsif max_lines > sass_lines
max_lines - sass_lines
end
css_paddings <<
if last_css_section
_total_padding(scss_sections[i..-1], sass_sections[i..-1]) -
css_lines - 2
elsif max_lines > css_lines
max_lines - css_lines
end
end
@unique_id ||= 0
@unique_id += 1
id = @unique_id
contents = []
if scss
contents <<
_syntax_div("SCSS Syntax", "scss", scss_sections, scss_paddings, id)
end
if sass
contents <<
_syntax_div("Sass Syntax", "sass", sass_sections, sass_paddings, id)
end
if css
contents <<
_syntax_div("CSS Output", "css", css_sections, css_paddings, id)
end
text = content_tag(:div, contents,
class: "code-example",
"data-unique-id": @unique_id)
# An extra newline before a closing tag causes Markdown to interpret it as a
# new paragraph.
text = text.gsub(%r{\n</div>}, '</div>')
if block_is_haml?(block)
haml_concat text
else
# Padrino's concat helper doesn't play nice with nested captures.
@_out_buf << text
end
end
# Returns the number of lines of padding that's needed to match the height of
# the `<pre>`s generated for `sections1` and `sections2`.
def _total_padding(sections1, sections2)
sections1 ||= []
sections2 ||= []
[sections1, sections1].map(&:length).max.times.sum do |i|
# Add 2 lines to each additional section: 1 for the extra padding, and 1
# for the extra margin.
[
(sections1[i] || "").lines.count,
(sections2[i] || "").lines.count
].max + 2
end
end
# Returns the text of an example div for a single syntax.
def _syntax_div(name, syntax, sections, paddings, id)
content_tag(:div, [
content_tag(:h3, name),
*sections.zip(paddings).map do |section, padding|
html = _render_markdown("```#{syntax}\n#{section}\n```")
# Multiply the lines of padding by 2em, and add 1em to compensate for
# the existing padding that we're overriding.
if padding
html.sub("<pre ", "<pre style='padding-bottom: #{padding * 2 + 1}em'")
else
html
end
end
], id: "example-#{id}-#{syntax}", class: syntax)
end
# Returns the version for the given implementation (`:dart`, `:ruby`, or
# `:libsass`), or `nil` if it hasn't been made available yet.
def impl_version(impl)
data.version && data.version[impl]
end
# Returns the URL tag for the latest release of the given implementation.
def release_url(impl)
version = impl_version(impl)
repo =
case impl
when :dart; "dart-sass"
when :libsass; "libsass"
when :ruby; "sass"
end
if version
"https://github.com/sass/#{repo}/releases/tag/#{version}"
else
"https://github.com/sass/#{repo}/releases"
end
end
# Returns HTML for a warning.
#
# The contents should be supplied as a block.
def heads_up
concat(content_tag :aside, [
content_tag(:i, 'TODO(jina): style this div'),
content_tag(:strong, 'Heads up!'),
_render_markdown(capture {yield})
], class: 'warning')
end
# Returns HTML for a fun fact that's not directly relevant to the main
# documentation.
#
# The contents should be supplied as a block.
def fun_fact
concat(content_tag :aside, [
content_tag(:i, 'TODO(jina): style this div'),
content_tag(:strong, 'Fun fact:'),
_render_markdown(capture {yield})
], class: 'fun-fact')
end
# Renders a status dashboard for each implementation's support for a feature.
#
# Each implementation's value can be `true`, indicating that that
# implementation fully supports the feature; `false`, indicating that it does
# not yet support the feature; or a string, indicating the version it started
# supporting the feature.
#
# When possible, prefer using the start version rather than `true`.
#
# This takes a Markdown block that should provide more information about the
# implementation differences or the old behavior.
def impl_status(dart: nil, libsass: nil, ruby: nil)
raise ArgumentError.new("Missing argument dart.") if dart.nil?
raise ArgumentError.new("Missing argument libsass.") if libsass.nil?
raise ArgumentError.new("Missing argument ruby.") if ruby.nil?
contents = [
_impl_status_row('Dart Sass', dart),
_impl_status_row('LibSass', libsass),
_impl_status_row('Ruby Sass', ruby),
]
if block_given?
contents.unshift(content_tag(:caption, [
_render_markdown(capture {yield})
]))
end
concat(content_tag :table, contents, class: 'impl-status')
end
# Renders a single row for `impl_status`.
def _impl_status_row(name, status)
status_text =
if status == true
""
elsif status == false
""
else
"since #{status}"
end
content_tag :tr, [
content_tag(:th, name, class: 'name'),
content_tag(:th, status_text, class: 'status'),
], class: status ? 'supported' : 'unsupported'
end
# Renders API docs for a Sass function.
#
# The function's name is parsed from the signature. The API description is
# passed as a Markdown block. If `returns` is passed, it's included as the
# function's return type.
#
# Multiple signatures may be passed, in which case they're all included in
# sequence.
def function(*signatures, returns: nil)
names = []
highlighted_signatures = signatures.map do |signature|
name = signature.split("(").first
names << name
html = Nokogiri::HTML(_render_markdown(<<MARKDOWN))
```scss
@function #{signature}
{}
```
MARKDOWN
highlighted_signature = html.css("pre code").children.
drop_while {|el| el.text != "@function"}.
take_while {|el| el.text != "{}"}[1...-1].
map(&:to_html).join.strip
end
html = content_tag :div, [
content_tag(:pre, [
content_tag(:code, highlighted_signatures.join("\n"))
], class: 'signature highlight scss'),
returns ? content_tag(:div, returns, class: 'return-type') : '',
_render_markdown(capture {yield})
], class: 'function', id: names.first
concat(names[1..-1].inject(html) {|h, n| content_tag(:div, h, id: n)})
end
# A helper method that renders a chunk of Markdown text.
def _render_markdown(content)
@redcarpet ||= Redcarpet::Markdown.new(
Class.new(Redcarpet::Render::HTML) { include Rouge::Plugins::Redcarpet },
markdown
)
find_and_preserve(@redcarpet.render(content))
end
# Captures the contents of `block` from ERB or Haml.
def _capture(&block)
block_is_haml?(block) ? capture_haml(&block) : capture(&block)
end
end