# frozen_string_literal: true require_all "jekyll/filters" module Jekyll module Filters include URLFilters include GroupingFilters include DateFilters # Convert a Markdown string into HTML output. # # input - The Markdown String to convert. # # Returns the HTML formatted String. def markdownify(input) @context.registers[:site].find_converter_instance( Jekyll::Converters::Markdown ).convert(input.to_s) end # Convert quotes into smart quotes. # # input - The String to convert. # # Returns the smart-quotified String. def smartify(input) @context.registers[:site].find_converter_instance( Jekyll::Converters::SmartyPants ).convert(input.to_s) end # Convert a Sass string into CSS output. # # input - The Sass String to convert. # # Returns the CSS formatted String. def sassify(input) @context.registers[:site].find_converter_instance( Jekyll::Converters::Sass ).convert(input) end # Convert a Scss string into CSS output. # # input - The Scss String to convert. # # Returns the CSS formatted String. def scssify(input) @context.registers[:site].find_converter_instance( Jekyll::Converters::Scss ).convert(input) end # Slugify a filename or title. # # input - The filename or title to slugify. # mode - how string is slugified # # Returns the given filename or title as a lowercase URL String. # See Utils.slugify for more detail. def slugify(input, mode = nil) Utils.slugify(input, :mode => mode) end # XML escape a string for use. Replaces any special characters with # appropriate HTML entity replacements. # # input - The String to escape. # # Examples # # xml_escape('foo "bar" ') # # => "foo "bar" <baz>" # # Returns the escaped String. def xml_escape(input) input.to_s.encode(:xml => :attr).gsub(%r!\A"|"\Z!, "") end # CGI escape a string for use in a URL. Replaces any special characters # with appropriate %XX replacements. # # input - The String to escape. # # Examples # # cgi_escape('foo,bar;baz?') # # => "foo%2Cbar%3Bbaz%3F" # # Returns the escaped String. def cgi_escape(input) CGI.escape(input) end # URI escape a string. # # input - The String to escape. # # Examples # # uri_escape('foo, bar \\baz?') # # => "foo,%20bar%20%5Cbaz?" # # Returns the escaped String. def uri_escape(input) Addressable::URI.normalize_component(input) end # Replace any whitespace in the input string with a single space # # input - The String on which to operate. # # Returns the formatted String def normalize_whitespace(input) input.to_s.gsub(%r!\s+!, " ").strip end # Count the number of words in the input string. # # input - The String on which to operate. # # Returns the Integer word count. def number_of_words(input) input.split.length end # Join an array of things into a string by separating with commas and the # word "and" for the last one. # # array - The Array of Strings to join. # connector - Word used to connect the last 2 items in the array # # Examples # # array_to_sentence_string(["apples", "oranges", "grapes"]) # # => "apples, oranges, and grapes" # # Returns the formatted String. def array_to_sentence_string(array, connector = "and") case array.length when 0 "" when 1 array[0].to_s when 2 "#{array[0]} #{connector} #{array[1]}" else "#{array[0...-1].join(", ")}, #{connector} #{array[-1]}" end end # Convert the input into json string # # input - The Array or Hash to be converted # # Returns the converted json string def jsonify(input) as_liquid(input).to_json end # Filter an array of objects # # input - the object array. # property - the property within each object to filter by. # value - the desired value. # Cannot be an instance of Array nor Hash since calling #to_s on them returns # their `#inspect` string object. # # Returns the filtered array of objects def where(input, property, value) return input if !property || value.is_a?(Array) || value.is_a?(Hash) return input unless input.respond_to?(:select) input = input.values if input.is_a?(Hash) input_id = input.hash # implement a hash based on method parameters to cache the end-result # for given parameters. @where_filter_cache ||= {} @where_filter_cache[input_id] ||= {} @where_filter_cache[input_id][property] ||= {} # stash or retrive results to return @where_filter_cache[input_id][property][value] ||= begin input.select do |object| compare_property_vs_target(item_property(object, property), value) end.to_a end end # Filters an array of objects against an expression # # input - the object array # variable - the variable to assign each item to in the expression # expression - a Liquid comparison expression passed in as a string # # Returns the filtered array of objects def where_exp(input, variable, expression) return input unless input.respond_to?(:select) input = input.values if input.is_a?(Hash) # FIXME condition = parse_condition(expression) @context.stack do input.select do |object| @context[variable] = object condition.evaluate(@context) end end || [] end # Convert the input into integer # # input - the object string # # Returns the integer value def to_integer(input) return 1 if input == true return 0 if input == false input.to_i end # Sort an array of objects # # input - the object array # property - property within each object to filter by # nils ('first' | 'last') - nils appear before or after non-nil values # # Returns the filtered array of objects def sort(input, property = nil, nils = "first") raise ArgumentError, "Cannot sort a null object." if input.nil? if property.nil? input.sort else if nils == "first" order = - 1 elsif nils == "last" order = + 1 else raise ArgumentError, "Invalid nils order: " \ "'#{nils}' is not a valid nils order. It must be 'first' or 'last'." end sort_input(input, property, order) end end def pop(array, num = 1) return array unless array.is_a?(Array) num = Liquid::Utils.to_integer(num) new_ary = array.dup new_ary.pop(num) new_ary end def push(array, input) return array unless array.is_a?(Array) new_ary = array.dup new_ary.push(input) new_ary end def shift(array, num = 1) return array unless array.is_a?(Array) num = Liquid::Utils.to_integer(num) new_ary = array.dup new_ary.shift(num) new_ary end def unshift(array, input) return array unless array.is_a?(Array) new_ary = array.dup new_ary.unshift(input) new_ary end def sample(input, num = 1) return input unless input.respond_to?(:sample) num = Liquid::Utils.to_integer(num) rescue 1 if num == 1 input.sample else input.sample(num) end end # Convert an object into its String representation for debugging # # input - The Object to be converted # # Returns a String representation of the object. def inspect(input) xml_escape(input.inspect) end private # Sort the input Enumerable by the given property. # If the property doesn't exist, return the sort order respective of # which item doesn't have the property. # We also utilize the Schwartzian transform to make this more efficient. def sort_input(input, property, order) input.map { |item| [item_property(item, property), item] } .sort! do |a_info, b_info| a_property = a_info.first b_property = b_info.first if !a_property.nil? && b_property.nil? - order elsif a_property.nil? && !b_property.nil? + order else a_property <=> b_property || a_property.to_s <=> b_property.to_s end end .map!(&:last) end # `where` filter helper # # rubocop:disable Metrics/CyclomaticComplexity # rubocop:disable Metrics/PerceivedComplexity def compare_property_vs_target(property, target) case target when NilClass return true if property.nil? when Liquid::Expression::MethodLiteral # `empty` or `blank` target = target.to_s return true if property == target || Array(property).join == target else target = target.to_s if property.is_a? String return true if property == target else Array(property).each do |prop| return true if prop.to_s == target end end end false end # rubocop:enable Metrics/CyclomaticComplexity # rubocop:enable Metrics/PerceivedComplexity def item_property(item, property) @item_property_cache ||= {} @item_property_cache[property] ||= {} @item_property_cache[property][item] ||= begin if item.respond_to?(:to_liquid) property.to_s.split(".").reduce(item.to_liquid) do |subvalue, attribute| parse_sort_input(subvalue[attribute]) end elsif item.respond_to?(:data) parse_sort_input(item.data[property.to_s]) else parse_sort_input(item[property.to_s]) end end end FLOAT_LIKE = %r!\A\s*-?(?:\d+\.?\d*|\.\d+)\s*\Z!.freeze INTEGER_LIKE = %r!\A\s*-?\d+\s*\Z!.freeze private_constant :FLOAT_LIKE, :INTEGER_LIKE # return numeric values as numbers for proper sorting def parse_sort_input(property) stringified = property.to_s return property.to_i if INTEGER_LIKE.match?(stringified) return property.to_f if FLOAT_LIKE.match?(stringified) property end def as_liquid(item) case item when Hash pairs = item.map { |k, v| as_liquid([k, v]) } Hash[pairs] when Array item.map { |i| as_liquid(i) } else if item.respond_to?(:to_liquid) liquidated = item.to_liquid # prevent infinite recursion for simple types (which return `self`) if liquidated == item item else as_liquid(liquidated) end else item end end end # ----------- The following set of code was *adapted* from Liquid::If # ----------- ref: https://git.io/vp6K6 # Parse a string to a Liquid Condition def parse_condition(exp) parser = Liquid::Parser.new(exp) condition = parse_binary_comparison(parser) parser.consume(:end_of_string) condition end # Generate a Liquid::Condition object from a Liquid::Parser object additionally processing # the parsed expression based on whether the expression consists of binary operations with # Liquid operators `and` or `or` # # - parser: an instance of Liquid::Parser # # Returns an instance of Liquid::Condition def parse_binary_comparison(parser) parse_comparison(parser).tap do |condition| binary_operator = parser.id?("and") || parser.id?("or") condition.send(binary_operator, parse_comparison(parser)) if binary_operator end end # Generates a Liquid::Condition object from a Liquid::Parser object based on whether the parsed # expression involves a "comparison" operator (e.g. <, ==, >, !=, etc) # # - parser: an instance of Liquid::Parser # # Returns an instance of Liquid::Condition def parse_comparison(parser) left_operand = Liquid::Expression.parse(parser.expression) operator = parser.consume?(:comparison) # No comparison-operator detected. Initialize a Liquid::Condition using only left operand return Liquid::Condition.new(left_operand) unless operator # Parse what remained after extracting the left operand and the `:comparison` operator # and initialize a Liquid::Condition object using the operands and the comparison-operator Liquid::Condition.new(left_operand, operator, Liquid::Expression.parse(parser.expression)) end end end Liquid::Template.register_filter( Jekyll::Filters )