require 'yaml' module Linguist # A collection of simple heuristics that can be used to better analyze languages. class Heuristics HEURISTICS_CONSIDER_BYTES = 50 * 1024 # Public: Use heuristics to detect language of the blob. # # blob - An object that quacks like a blob. # possible_languages - Array of Language objects # # Examples # # Heuristics.call(FileBlob.new("path/to/file"), [ # Language["Ruby"], Language["Python"] # ]) # # Returns an Array of languages, or empty if none matched or were inconclusive. def self.call(blob, candidates) return [] if blob.symlink? self.load() data = blob.data[0...HEURISTICS_CONSIDER_BYTES] @heuristics.each do |heuristic| if heuristic.matches?(blob.name, candidates) return Array(heuristic.call(data)) end end [] # No heuristics matched end # Public: Get all heuristic definitions # # Returns an Array of heuristic objects. def self.all self.load() @heuristics end # Internal: Load heuristics from 'heuristics.yml'. def self.load() if @heuristics.any? return end data = self.load_config named_patterns = data['named_patterns'].map { |k,v| [k, self.to_regex(v)] }.to_h data['disambiguations'].each do |disambiguation| exts = disambiguation['extensions'] rules = disambiguation['rules'] rules.map! do |rule| rule['pattern'] = self.parse_rule(named_patterns, rule) rule end @heuristics << new(exts, rules) end end def self.load_config YAML.load_file(File.expand_path("../heuristics.yml", __FILE__)) end def self.parse_rule(named_patterns, rule) if !rule['and'].nil? rules = rule['and'].map { |block| self.parse_rule(named_patterns, block) } return And.new(rules) elsif !rule['pattern'].nil? return self.to_regex(rule['pattern']) elsif !rule['negative_pattern'].nil? pat = self.to_regex(rule['negative_pattern']) return NegativePattern.new(pat) elsif !rule['named_pattern'].nil? return named_patterns[rule['named_pattern']] else return AlwaysMatch.new() end end # Internal: Converts a string or array of strings to regexp # # str: string or array of strings. If it is an array of strings, # Regexp.union will be used. def self.to_regex(str) if str.kind_of?(Array) Regexp.union(str.map { |s| Regexp.new(s) }) else Regexp.new(str) end end # Internal: Array of defined heuristics @heuristics = [] # Internal def initialize(exts, rules) @exts = exts @rules = rules end # Internal: Return the heuristic's target extensions def extensions @exts end # Internal: Return the heuristic's candidate languages def languages @rules.map do |rule| [rule['language']].flatten(2).map { |name| Language[name] } end.flatten.uniq end # Internal: Check if this heuristic matches the candidate filenames or # languages. def matches?(filename, candidates) filename = filename.downcase candidates = candidates.compact.map(&:name) @exts.any? { |ext| filename.end_with?(ext) } end # Internal: Perform the heuristic def call(data) matched = @rules.find do |rule| rule['pattern'].match(data) end if !matched.nil? languages = matched['language'] if languages.is_a?(Array) languages.map{ |l| Language[l] } else Language[languages] end end end end class And def initialize(pats) @pats = pats end def match(input) return !@pats.any? { |pat| !pat.match(input) } end end class AlwaysMatch def match(input) return true end end class NegativePattern def initialize(pat) @pat = pat end def match(input) return !@pat.match(input) end end end