# frozen_string_literal: true module Bundler::PubGrub class VersionRange attr_reader :min, :max, :include_min, :include_max alias_method :include_min?, :include_min alias_method :include_max?, :include_max class Empty < VersionRange undef_method :min, :max undef_method :include_min, :include_min? undef_method :include_max, :include_max? def initialize end def empty? true end def eql?(other) other.empty? end def hash [].hash end def intersects?(_) false end def intersect(other) self end def allows_all?(other) other.empty? end def include?(_) false end def any? false end def to_s "(no versions)" end def ==(other) other.class == self.class end def invert VersionRange.any end def select_versions(_) [] end end EMPTY = Empty.new Empty.singleton_class.undef_method(:new) def self.empty EMPTY end def self.any new end def initialize(min: nil, max: nil, include_min: false, include_max: false, name: nil) @min = min @max = max @include_min = include_min @include_max = include_max @name = name end def hash @hash ||= min.hash ^ max.hash ^ include_min.hash ^ include_max.hash end def eql?(other) if other.is_a?(VersionRange) !other.empty? && min.eql?(other.min) && max.eql?(other.max) && include_min.eql?(other.include_min) && include_max.eql?(other.include_max) else ranges.eql?(other.ranges) end end def ranges [self] end def include?(version) compare_version(version) == 0 end # Partitions passed versions into [lower, within, higher] # # versions must be sorted def partition_versions(versions) min_index = if !min || versions.empty? 0 elsif include_min? (0..versions.size).bsearch { |i| versions[i].nil? || versions[i] >= min } else (0..versions.size).bsearch { |i| versions[i].nil? || versions[i] > min } end lower = versions.slice(0, min_index) versions = versions.slice(min_index, versions.size) max_index = if !max || versions.empty? versions.size elsif include_max? (0..versions.size).bsearch { |i| versions[i].nil? || versions[i] > max } else (0..versions.size).bsearch { |i| versions[i].nil? || versions[i] >= max } end [ lower, versions.slice(0, max_index), versions.slice(max_index, versions.size) ] end # Returns versions which are included by this range. # # versions must be sorted def select_versions(versions) return versions if any? partition_versions(versions)[1] end def compare_version(version) if min case version <=> min when -1 return -1 when 0 return -1 if !include_min when 1 end end if max case version <=> max when -1 when 0 return 1 if !include_max when 1 return 1 end end 0 end def strictly_lower?(other) return false if !max || !other.min case max <=> other.min when 0 !include_max || !other.include_min when -1 true when 1 false end end def strictly_higher?(other) other.strictly_lower?(self) end def intersects?(other) return false if other.empty? return other.intersects?(self) if other.is_a?(VersionUnion) !strictly_lower?(other) && !strictly_higher?(other) end alias_method :allows_any?, :intersects? def intersect(other) return other if other.empty? return other.intersect(self) if other.is_a?(VersionUnion) min_range = if !min other elsif !other.min self else case min <=> other.min when 0 include_min ? other : self when -1 other when 1 self end end max_range = if !max other elsif !other.max self else case max <=> other.max when 0 include_max ? other : self when -1 self when 1 other end end if !min_range.equal?(max_range) && min_range.min && max_range.max case min_range.min <=> max_range.max when -1 when 0 if !min_range.include_min || !max_range.include_max return EMPTY end when 1 return EMPTY end end VersionRange.new( min: min_range.min, include_min: min_range.include_min, max: max_range.max, include_max: max_range.include_max ) end # The span covered by two ranges # # If self and other are contiguous, this builds a union of the two ranges. # (if they aren't you are probably calling the wrong method) def span(other) return self if other.empty? min_range = if !min self elsif !other.min other else case min <=> other.min when 0 include_min ? self : other when -1 self when 1 other end end max_range = if !max self elsif !other.max other else case max <=> other.max when 0 include_max ? self : other when -1 other when 1 self end end VersionRange.new( min: min_range.min, include_min: min_range.include_min, max: max_range.max, include_max: max_range.include_max ) end def union(other) return other.union(self) if other.is_a?(VersionUnion) if contiguous_to?(other) span(other) else VersionUnion.union([self, other]) end end def contiguous_to?(other) return false if other.empty? intersects?(other) || (min == other.max && (include_min || other.include_max)) || (max == other.min && (include_max || other.include_min)) end def allows_all?(other) return true if other.empty? if other.is_a?(VersionUnion) return VersionUnion.new([self]).allows_all?(other) end return false if max && !other.max return false if min && !other.min if min case min <=> other.min when -1 when 0 return false if !include_min && other.include_min when 1 return false end end if max case max <=> other.max when -1 return false when 0 return false if !include_max && other.include_max when 1 end end true end def any? !min && !max end def empty? false end def to_s @name ||= constraints.join(", ") end def inspect "#<#{self.class} #{to_s}>" end def upper_invert return self.class.empty unless max VersionRange.new(min: max, include_min: !include_max) end def invert return self.class.empty if any? low = VersionRange.new(max: min, include_max: !include_min) high = VersionRange.new(min: max, include_min: !include_max) if !min high elsif !max low else low.union(high) end end def ==(other) self.class == other.class && min == other.min && max == other.max && include_min == other.include_min && include_max == other.include_max end private def constraints return ["any"] if any? return ["= #{min}"] if min.to_s == max.to_s c = [] c << "#{include_min ? ">=" : ">"} #{min}" if min c << "#{include_max ? "<=" : "<"} #{max}" if max c end end end