# frozen_string_literal: true module Qfill module Strategy # Qfill::Manager.new( # :popper => popper, # :strategy_options => { # :window_size => 20, # :window_units => "minutes" # "days", "hours", "minutes", "seconds", # # NOTE: pane_size/units can't be larger than the window_size/units # :pane_size => 2 # :pane_units => "seconds" # "days", "hours", "minutes", "seconds", # }, # ) class TimeSlice < Qfill::Strategy::Sample NAME = :time_slice def on_fill! # NOOP end CONVERSIONS = { %w[seconds seconds] => 1, %w[seconds minutes] => 60, %w[seconds hours] => 60 * 60, %w[seconds days] => 60 * 60 * 24, %w[minutes minutes] => 1, %w[minutes hours] => 60, %w[minutes days] => 60 * 24, %w[hours hours] => 1, %w[hours days] => 24, %w[days days] => 1 }.freeze # If window_units == "minutes" and pane_units == "seconds", and # window_size == 20 and pane_size == 2 # Then there would be (20 * CONVERSIONS[[pane_units, window_units]]) / pane_size # i.e. (20 * 60) / 2 # i.e. 600 individual panes in the (time) window, where each pane is a "result" def default_pusher ratio = 1 / num_panes.to_f array = Range.new(1, num_panes).each_with_object([]) do |pane_num, arr| arr << { name: pane_num.to_s, ratio: ratio } end Qfill::Pusher.from_array_of_hashes(array) end def window_size strategy_options[:window_size] end def window_units strategy_options[:window_units] end def pane_size strategy_options[:pane_size] end def pane_units strategy_options[:pane_units] end def conversion conversion_idx = [pane_units, window_units] conv = CONVERSIONS[conversion_idx] raise ArgumentError, "pane_units: #{pane_units} must not be larger than window_units: #{window_units}" unless conv conv end def num_panes ((window_size * conversion) / pane_size) end def result_max! result.max = Qfill::Result.get_limit_from_max_and_ratio(primary_list_total, result.ratio, remaining) end def fill_up_to_ratio! ratio = 1.0 / popper.primary.length # 1 divided by the number of queues max_from_list = Qfill::Result.get_limit_from_max_and_ratio(result.max, ratio, remaining) while !is_full? && !result.is_full? && !popper.totally_empty? && (origin_list = popper.current_list) array_to_push = popper.next_objects!(origin_list.name, [max_from_list, remaining].min) self.added = result.push(array_to_push, origin_list.name) bump! puts "[fill_up_to_ratio!]#{self}[Added:#{added}][Max List:#{max_from_list}][ratio:#{ratio}][added:#{added}]" if Qfill::VERBOSE popper.set_next_as_current! end end def fill_according_to_list_ratios! # puts "#{!is_full?} && #{result.fill_count} >= #{result.max} && #{!self.popper.totally_empty?} && #{(list_ratio_tuple = result.current_list_ratio)}" while !is_full? && !result.is_full? && !popper.totally_empty? && (list_ratio_tuple = result.current_list_ratio) max_from_list = Qfill::Result.get_limit_from_max_and_ratio(result.max, list_ratio_tuple[1], remaining) array_to_push = popper.next_objects!(list_ratio_tuple[0], max_from_list) self.added = result.push(array_to_push, list_ratio_tuple[0]) bump! puts "[fill_according_to_list_ratios!]#{self}[#{list_ratio_tuple[0]}][added:#{added}]" if Qfill::VERBOSE result.set_next_as_current! break if is_full? end end end end end