module Bundler::PubGrub class Term attr_reader :package, :constraint, :positive def initialize(constraint, positive) @constraint = constraint @package = @constraint.package @positive = positive end def to_s(allow_every: false) if positive @constraint.to_s(allow_every: allow_every) else "not #{@constraint}" end end def hash constraint.hash ^ positive.hash end def eql?(other) positive == other.positive && constraint.eql?(other.constraint) end def invert self.class.new(@constraint, !@positive) end alias_method :inverse, :invert def intersect(other) raise ArgumentError, "packages must match" if package != other.package if positive? && other.positive? self.class.new(constraint.intersect(other.constraint), true) elsif negative? && other.negative? self.class.new(constraint.union(other.constraint), false) else positive = positive? ? self : other negative = negative? ? self : other self.class.new(positive.constraint.intersect(negative.constraint.invert), true) end end def difference(other) intersect(other.invert) end def relation(other) if positive? && other.positive? constraint.relation(other.constraint) elsif negative? && other.positive? if constraint.allows_all?(other.constraint) :disjoint else :overlap end elsif positive? && other.negative? if !other.constraint.allows_any?(constraint) :subset elsif other.constraint.allows_all?(constraint) :disjoint else :overlap end elsif negative? && other.negative? if constraint.allows_all?(other.constraint) :subset else :overlap end else raise end end def normalized_constraint @normalized_constraint ||= positive ? constraint : constraint.invert end def satisfies?(other) raise ArgumentError, "packages must match" unless package == other.package relation(other) == :subset end def positive? @positive end def negative? !positive? end def empty? @empty ||= normalized_constraint.empty? end def inspect "#<#{self.class} #{self}>" end end end