#!/usr/bin/env ruby -w # encoding: UTF-8 # # = Limits.rb -- The TaskJuggler III Project Management Software # # Copyright (c) 2006, 2007, 2008, 2009, 2010, 2011, 2012, 2013, 2014 # by Chris Schlaeger # # This program is free software; you can redistribute it and/or modify # it under the terms of version 2 of the GNU General Public License as # published by the Free Software Foundation. # require 'taskjuggler/Scoreboard' class TaskJuggler # This class holds a set of limits. Each limit can be created individually and # must have unique name. The Limit objects are created when an upper or lower # limit is set. All upper or lower limits can be tested with a single function # call. class Limits # This class implements a mechanism that can be used to limit certain events # within a certain time period. It supports an upper and a lower limit. class Limit attr_accessor :resource attr_reader :name, :interval, :upper # To create a new Limit object, the Interval +interval+ and the # period duration (+period+ in seconds) must be specified. This creates # a counter for each period within the overall interval. +value+ is the # value of the limit. +upper+ specifies whether the limit is an upper or # lower limit. The limit can also be restricted to certain a Resource # specified by +resource+. def initialize(name, interval, period, value, upper, resource) @name = name @interval = interval @period = period @value = value @upper = upper @resource = resource # To avoid multiple resets of untouched scoreboards we keep this dirty # flag. It's set whenever a counter is increased. @dirty = true reset end # Returns a deep copy of the class instance. def copy Limit.new(@name, @interval, @period, @value, @upper, @resource) end # This function can be used to reset the counter for a specific period # specified by +index+ or to reset all counters. def reset(index = nil) return unless @dirty if index.nil? @scoreboard = Scoreboard.new(@interval.startDate, @interval.endDate, @period, 0) else return unless @interval.contains?(index) # The scoreboard may be just a subset of the @interval period. @scoreboard[idxToSbIdx(index)] = 0 end @dirty = false end # Increase the counter if the _index_ matches the @interval. The # relationship between @resource and _resource_ is described below. # @r \ _r_ nil y # nil inc inc # x - if x==y inc else - def inc(index, resource) if @interval.contains?(index) && (@resource.nil? || @resource == resource) # The condition is met, increment the counter for the interval. @dirty = true @scoreboard[idxToSbIdx(index)] += 1 end end # Decrease the counter if the _index_ matches the @interval. The # relationship between @resource and _resource_ is described below. # @r \ _r_ nil y # nil inc inc # x - if x==y inc else - def dec(index, resource) if @interval.contains?(index) && (@resource.nil? || @resource == resource) # The condition is met, decrement the counter for the interval. @dirty = true @scoreboard[idxToSbIdx(index)] -= 1 end end # Returns true if the counter for the time slot specified by +index+ or # all counters are within the limit. If +upper+ is true, only upper # limits are checked. If not, only lower limits are checked. The # dependency between _resource_ and @resource is described in the matrix # below: # @r \ _r_ nil y # nil test true # x true if x==y test else true def ok?(index, upper, resource) # if @upper does not match or the provided resource does not match, # we can ignore this limit. return true if @upper != upper || (@resource && @resource != resource) if index.nil? # No index given. We need to check all counters. @scoreboard.each do |i| return false if @upper ? i >= @value : i < @value end return true else # If the index is outside the interval we don't have to check # anything. Everything is ok. return true if !@interval.contains?(index) sbVal = @scoreboard[idxToSbIdx(index)] return @upper ? (sbVal < @value) : (sbVal >= @value) end end private # The project scoreboard and the Limit scoreboard differ from each # other. The Limit scoreboard may only be a subset of the project # scoreboard interval. And the Limit scoreboard has a larger slot # duration that depends on what kind of limit it is (daily, weekly, # etc.). Therefor, we have to use this method to translate project # scoreboard indexes to Limit scoreboard indexes. def idxToSbIdx(index) (index - @interval.start) * @interval.slotDuration / @period end end attr_reader :project, :limits # Create a new Limits object. If an argument is passed, it acts as a copy # contructor. def initialize(limits = nil) if limits.nil? # Normal initialization @limits = [] @project = nil else # Deep copy content from other instance. @limits = [] limits.limits.each do |name, limit| @limits << limit.copy end @project = limits.project end end # The objects need access to some project specific data like the project # period. def setProject(project) unless @limits.empty? raise "Cannot change project after limits have been set!" end @project = project end # Reset all counter for all limits. def reset @limits.each { |limit| limit.reset } end # Call this function to create or change a limit. The limit is uniquely # identified by the combination of +name+, +interval+ and +resource+. # +value+ is the new limit value (in time slots). In case the interval # is nil, the complete project time frame is used. def setLimit(name, value, interval = nil, resource = nil) iv = interval || ScoreboardInterval.new(@project['start'], @project['scheduleGranularity'], @project['start'], @project['end']) unless iv.is_a?(ScoreboardInterval) raise ArgumentError, "interval must be of class ScoreboardInterval" end # The known ivs are aligned to start at their respective start. iv.start = iv.startDate.midnight iv.end = iv.endDate.midnight case name when 'dailymax' period = 60 * 60 * 24 upper = true when 'dailymin' period = 60 * 60 * 24 upper = false when 'weeklymax' iv.start = iv.startDate.beginOfWeek( @project['weekStartsMonday']) iv.end = iv.endDate.beginOfWeek(@project['weekStartsMonday']) period = 60 * 60 * 24 * 7 upper = true when 'weeklymin' iv.start = iv.startDate.beginOfWeek( @project['weekStartsMonday']) iv.end = iv.endDate.beginOfWeek(@project['weekStartsMonday']) period = 60 * 60 * 24 * 7 upper = false when 'monthlymax' iv.start = iv.startDate.beginOfMonth iv.end = iv.endDate.beginOfMonth # We use 30 days ivs here. This will cause the iv to drift # away from calendar months. But it's better than using 30.4167 which # does not align with day boundaries. period = 60 * 60 * 24 * 30 upper = true when 'monthlymin' iv.start = iv.startDate.beginOfMonth iv.end = iv.endDate.beginOfMonth # We use 30 days ivs here. This will cause the iv to drift # away from calendar months. But it's better than using 30.4167 which # does not align with day boundaries. period = 60 * 60 * 24 * 30 upper = false when 'maximum' period = iv.duration upper = true when 'minimum' period = iv.duration upper = false else raise "Limit period undefined" end # If we have already a limit for the name + interval + resource # combination, we delete it first. @limits.delete_if do |l| l.name == name && l.interval.startDate == iv.startDate && l.interval.endDate == iv.endDate && l.resource == resource end @limits << Limit.new(name, iv, period, value, upper, resource) end # This function increases the counters for all limits for a specific # interval identified by _index_. def inc(index, resource = nil) @limits.each do |limit| limit.inc(index, resource) end end # This function decreases the counters for all limits for a specific # interval identified by _index_. def dec(index, resource = nil) @limits.each do |limit| limit.dec(index, resource) end end # Check all upper limits and return true if none is exceeded. If an # _index_ is specified only the counters for that specific period are # tested. Otherwise all periods are tested. If _resource_ is nil, only # non-resource-specific counters are checked, otherwise only the ones that # match the _resource_. def ok?(index = nil, upper = true, resource = nil) @limits.each do |limit| return false unless limit.ok?(index, upper, resource) end true end end end