# frozen_string_literal: true
require 'multi_range/version'
require 'roulette-wheel-selection'
require 'interval_tree'
if not Range.method_defined?(:size)
warn "Please backports Range#size method to use multi_range gem.\n" \
"You can use backports gem and add the following lines to your program:\n" \
"require 'backports/1.9.2/float/infinity'\n" \
"require 'backports/2.0.0/range/size'"
end
if not Enumerable.method_defined?(:to_h)
warn "Please backports Enumerable#to_h method to use multi_range gem.\n" \
"You can use backports gem and add the following lines to your program:\n" \
"require 'backports/2.1.0/enumerable/to_h'"
end
class MultiRange
INDEX_WITH_DEFAULT = Object.new
attr_reader :ranges
def initialize(ranges)
if ranges.is_a? MultiRange
@ranges = ranges.ranges
@is_float = ranges.is_float?
else
@ranges = ranges.map{|s| s.is_a?(Numeric) ? s..s : s }.sort_by(&:begin).freeze
@is_float = @ranges.any?{|range| range.begin.is_a?(Float) || range.end.is_a?(Float) }
end
end
def is_float?
@is_float
end
def merge_overlaps(merge_same_value = true)
return MultiRange.new([]) if @ranges.size == 0
new_ranges = []
current_range = nil
@ranges.each do |range|
next current_range = range if current_range == nil
next if range.end <= current_range.end
if can_combine?(current_range, range, merge_same_value)
current_range = range.exclude_end? ? current_range.begin...range.end : current_range.begin..range.end
else
new_ranges << current_range
current_range = range
end
end
new_ranges << current_range
return MultiRange.new(new_ranges)
end
def &(other)
other_ranges = MultiRange.new(other).merge_overlaps.ranges
tree = IntervalTree::Tree.new(other_ranges)
intersected_ranges = merge_overlaps.ranges.flat_map do |range|
matching_ranges_converted_to_exclusive = tree.search(range) || []
# The interval tree converts interval endings to exclusive, so we need to restore the original
matching_ranges = matching_ranges_converted_to_exclusive.map do |matching_range_converted_to_exclusive|
other_ranges.find do |other_range|
# Having merged overlaps in each multi_range, there's no need to check the endings,
# since there will only be one range with each beginning
other_range.begin == matching_range_converted_to_exclusive.begin
end
end
matching_ranges.map do |matching_range|
intersect_two_ranges(range, matching_range)
end
end
MultiRange.new(intersected_ranges)
end
alias intersection &
def -(other)
return difference_with_other_multi_range(other) if other.is_a?(MultiRange)
new_ranges = @ranges.dup
return MultiRange.new(new_ranges) if not overlaps_with_range?(other)
changed_size = 0
@ranges.each_with_index do |range, idx|
# when this range is smaller than and not overlaps with `other`
# range other
# |---------| |---------|
next if other.begin > range.end
# when this range is larger than and not overlaps with `other`
# other range
# |---------| |---------|
break if other.end < range.begin
sub_ranges = possible_sub_ranges_of(range, other)
new_ranges[idx + changed_size, 1] = sub_ranges
changed_size += sub_ranges.size - 1
# when the maximum value of this range is larger than that of `other`
# range
# -------------|
# other
# ---------|
break if other.end <= range.end
end
return MultiRange.new(new_ranges)
end
alias difference -
def |(other)
other_ranges = other.is_a?(MultiRange) ? other.ranges : [other]
return MultiRange.new(@ranges + other_ranges).merge_overlaps
end
alias union |
def overlaps?(other)
multi_range = merge_overlaps
return multi_range.ranges != (multi_range - other).ranges
end
def sample
range = RouletteWheelSelection.sample(@ranges.map{|s| [s, s.size] }.to_h)
return nil if range == nil
return rand(range)
end
def size
@ranges.inject(0){|sum, v| sum + v.size }
end
def any?
@ranges.any?
end
def index_with(default = INDEX_WITH_DEFAULT)
if block_given?
fail ArgumentError, 'wrong number of arguments (given 1, expected 0)' if default != INDEX_WITH_DEFAULT
return map{|s| [s, yield(s)] }.to_h
end
return to_enum(:index_with){ size } if default == INDEX_WITH_DEFAULT
return map{|s| [s, default] }.to_h
end
def each
return to_enum(:each){ size } if !block_given?
ranges.each do |range|
range.each{|s| yield(s) }
end
end
def map
return to_enum(:map){ size } if !block_given?
return each.map{|s| yield(s) }
end
def to_a
each.to_a
end
def min
range = @ranges.first
return range.min if range
end
def max
range = @ranges.last
return range.max if range
end
def contain_overlaps?
merge_overlaps(false).ranges != ranges
end
private
# make sure that range1.begin <= range2.begin
def can_combine?(range1, range2, merge_same_value)
return merge_same_value if range1.end == range2.begin and range1.exclude_end?
return range1.end >= range2.begin if @is_float
return range1.end + 1 >= range2.begin
end
def difference_with_other_multi_range(other)
new_multi_range = dup
other.ranges.each{|range| new_multi_range -= range }
return new_multi_range
end
def possible_sub_ranges_of(range, other)
sub_range1 = range.begin...other.begin
sub_range2_begin = if other.exclude_end?
other.end
else
other.end + (other.end.is_a?(Float) ? Float::EPSILON : 1)
end
sub_range2 = range.exclude_end? ? sub_range2_begin...range.end : sub_range2_begin..range.end
sub_ranges = []
sub_ranges << sub_range1 if sub_range1.begin < sub_range1.end
sub_ranges << sub_range2 if sub_range2.begin < sub_range2.end
return sub_ranges
end
def overlaps_with_range?(range)
return false if @ranges.empty?
return false if range.begin > @ranges.last.end # larger than maximum
return false if range.end < @ranges.first.begin # smaller than minimum
return true
end
def intersect_two_ranges(range_a, range_b)
ranges = [range_a, range_b]
start = ranges.map(&:begin).max
finish = ranges.map(&:end).min
if ranges.sort_by { |range| [range.end, range.exclude_end? ? 1 : 0] }.first.exclude_end?
start...finish
else
start..finish
end
end
end