class StatsController < ApplicationController helper :todos, :projects, :recurring_todos append_before_filter :init def index @page_title = t('stats.index_title') @first_action = current_user.todos.reorder("created_at ASC").first @tags_count = get_total_number_of_tags_of_user @unique_tags_count = get_unique_tags_of_user.size @hidden_contexts = current_user.contexts.hidden get_stats_actions get_stats_contexts get_stats_projects get_stats_tags end def actions_done_last12months_data # get actions created and completed in the past 12+3 months. +3 for running # average @actions_done_last12months = current_user.todos.completed_after(@cut_off_year).select("completed_at" ) @actions_created_last12months = current_user.todos.created_after(@cut_off_year).select("created_at") @actions_done_last12monthsPlus3 = current_user.todos.completed_after(@cut_off_year_plus3).select("completed_at" ) @actions_created_last12monthsPlus3 = current_user.todos.created_after(@cut_off_year_plus3).select("created_at") # convert to array and fill in non-existing months @actions_done_last12months_array = convert_to_months_from_today_array(@actions_done_last12months, 13, :completed_at) @actions_created_last12months_array = convert_to_months_from_today_array(@actions_created_last12months, 13, :created_at) @actions_done_last12monthsPlus3_array = convert_to_months_from_today_array(@actions_done_last12monthsPlus3, 16, :completed_at) @actions_created_last12monthsPlus3_array = convert_to_months_from_today_array(@actions_created_last12monthsPlus3, 16, :created_at) # find max for graph in both arrays @max = [@actions_done_last12months_array.max, @actions_created_last12months_array.max].max # find running avg @actions_done_avg_last12months_array, @actions_created_avg_last12months_array = find_running_avg_array(@actions_done_last12monthsPlus3_array, @actions_created_last12monthsPlus3_array, 13) # interpolate avg for current month. percent_of_month = Time.zone.now.day.to_f / Time.zone.now.end_of_month.day.to_f @interpolated_actions_created_this_month = interpolate_avg(@actions_created_last12months_array, percent_of_month) @interpolated_actions_done_this_month = interpolate_avg(@actions_done_last12months_array, percent_of_month) render :layout => false end def actions_done_last_years @page_title = t('stats.index_title') @chart_width = 900 @chart_height = 400 end def actions_done_lastyears_data @actions_done_last_months = current_user.todos.completed.select("completed_at").reorder("completed_at DESC") @actions_created_last_months = current_user.todos.select("created_at").reorder("created_at DESC" ) # query is sorted, so use last todo to calculate number of months @month_count = [difference_in_months(@today, @actions_created_last_months.last.created_at), difference_in_months(@today, @actions_done_last_months.last.completed_at)].max # convert to array and fill in non-existing months @actions_done_last_months_array = convert_to_months_from_today_array(@actions_done_last_months, @month_count+1, :completed_at) @actions_created_last_months_array = convert_to_months_from_today_array(@actions_created_last_months, @month_count+1, :created_at) # find max for graph in both hashes @max = [@actions_done_last_months_array.max, @actions_created_last_months_array.max].max # find running avg @actions_done_avg_last_months_array, @actions_created_avg_last_months_array = find_running_avg_array(@actions_done_last_months_array, @actions_created_last_months_array, @month_count+1) # correct last two months since the data of last+1 and last+2 are not available for avg correct_last_two_months(@actions_done_avg_last_months_array, @month_count) correct_last_two_months(@actions_created_avg_last_months_array, @month_count) # interpolate avg for this month. percent_of_month = Time.zone.now.day.to_f / Time.zone.now.end_of_month.day.to_f @interpolated_actions_created_this_month = interpolate_avg(@actions_created_last_months_array, percent_of_month) @interpolated_actions_done_this_month = interpolate_avg(@actions_done_last_months_array, percent_of_month) render :layout => false end def actions_done_last30days_data # get actions created and completed in the past 30 days. @actions_done_last30days = current_user.todos.completed_after(@cut_off_month).select("completed_at") @actions_created_last30days = current_user.todos.created_after(@cut_off_month).select("created_at") # convert to array. 30+1 to have 30 complete days and one current day [0] @actions_done_last30days_array = convert_to_days_from_today_array(@actions_done_last30days, 31, :completed_at) @actions_created_last30days_array = convert_to_days_from_today_array(@actions_created_last30days, 31, :created_at) # find max for graph in both hashes @max = [@actions_done_last30days_array.max, @actions_created_last30days_array.max].max render :layout => false end def actions_completion_time_data @actions_completion_time = current_user.todos.completed.select("completed_at, created_at").reorder("completed_at DESC" ) # convert to array and fill in non-existing weeks with 0 @max_weeks = difference_in_weeks(@today, @actions_completion_time.last.completed_at) @actions_completed_per_week_array = convert_to_weeks_running_array(@actions_completion_time, @max_weeks+1) # stop the chart after 10 weeks @count = [10, @max_weeks].min # convert to new array to hold max @cut_off elems + 1 for sum of actions after @cut_off @actions_completion_time_array = cut_off_array_with_sum(@actions_completed_per_week_array, @count) @max_actions = @actions_completion_time_array.max # get percentage done cummulative @cumm_percent_done = convert_to_cummulative_array(@actions_completion_time_array, @actions_completion_time.count) render :layout => false end def actions_running_time_data @actions_running_time = current_user.todos.not_completed.select("created_at").reorder("created_at DESC") # convert to array and fill in non-existing weeks with 0 @max_weeks = difference_in_weeks(@today, @actions_running_time.last.created_at) @actions_running_per_week_array = convert_to_weeks_from_today_array(@actions_running_time, @max_weeks+1, :created_at) # cut off chart at 52 weeks = one year @count = [52, @max_weeks].min # convert to new array to hold max @cut_off elems + 1 for sum of actions after @cut_off @actions_running_time_array = cut_off_array_with_sum(@actions_running_per_week_array, @count) @max_actions = @actions_running_time_array.max # get percentage done cummulative @cumm_percent_done = convert_to_cummulative_array(@actions_running_time_array, @actions_running_time.count ) render :layout => false end def actions_visible_running_time_data # running means # - not completed (completed_at must be null) # visible means # - actions not part of a hidden project # - actions not part of a hidden context # - actions not deferred (show_from must be null) # - actions not pending/blocked @actions_running_time = current_user.todos.not_completed.not_hidden.not_deferred_or_blocked. select("todos.created_at"). reorder("todos.created_at DESC") @max_weeks = difference_in_weeks(@today, @actions_running_time.last.created_at) @actions_running_per_week_array = convert_to_weeks_from_today_array(@actions_running_time, @max_weeks+1, :created_at) # cut off chart at 52 weeks = one year @count = [52, @max_weeks].min # convert to new array to hold max @cut_off elems + 1 for sum of actions after @cut_off @actions_running_time_array = cut_off_array_with_sum(@actions_running_per_week_array, @count) @max_actions = @actions_running_time_array.max # get percentage done cummulative @cumm_percent_done = convert_to_cummulative_array(@actions_running_time_array, @actions_running_time.count ) render :layout => false end def actions_open_per_week_data @actions_started = current_user.todos.created_after(@today-53.weeks). select("todos.created_at, todos.completed_at"). reorder("todos.created_at DESC") @max_weeks = difference_in_weeks(@today, @actions_started.last.created_at) # cut off chart at 52 weeks = one year @count = [52, @max_weeks].min @actions_open_per_week_array = convert_to_weeks_running_from_today_array(@actions_started, @max_weeks+1) @actions_open_per_week_array = cut_off_array(@actions_open_per_week_array, @count) @max_actions = @actions_open_per_week_array.max render :layout => false end def context_total_actions_data # get total action count per context Went from GROUP BY c.id to c.name for # compatibility with postgresql. Since the name is forced to be unique, this # should work. @all_actions_per_context = current_user.contexts.find_by_sql( "SELECT c.name AS name, c.id as id, count(*) AS total "+ "FROM contexts c, todos t "+ "WHERE t.context_id=c.id "+ "AND c.user_id = #{current_user.id} " + "GROUP BY c.name, c.id "+ "ORDER BY total DESC" ) @sum = @all_actions_per_context.inject(0){|sum, apc| sum += apc['total'].to_i } pie_cutoff=10 size = [@all_actions_per_context.size, pie_cutoff].min # explicitely copy contents of hash to avoid ending up with two arrays pointing to same hashes @actions_per_context = Array.new(size){|i| { 'name' => @all_actions_per_context[i][:name], 'total' => @all_actions_per_context[i][:total].to_i, 'id' => @all_actions_per_context[i][:id] } } if size==pie_cutoff @actions_per_context[size-1]['name']=t('stats.other_actions_label') @actions_per_context[size-1]['total']=@actions_per_context[size-1]['total'] @actions_per_context[size-1]['id']=-1 size.upto(@all_actions_per_context.size-1){ |i| @actions_per_context[size-1]['total']+=(@all_actions_per_context[i]['total'].to_i) } end @truncate_chars = 15 render :layout => false end def context_running_actions_data # get incomplete action count per visible context # # Went from GROUP BY c.id to c.name for compatibility with postgresql. Since # the name is forced to be unique, this should work. @all_actions_per_context = current_user.contexts.find_by_sql( "SELECT c.name AS name, c.id as id, count(*) AS total "+ "FROM contexts c, todos t "+ "WHERE t.context_id=c.id AND t.completed_at IS NULL AND NOT c.hide "+ "AND c.user_id = #{current_user.id} " + "GROUP BY c.name, c.id "+ "ORDER BY total DESC" ) @sum = @all_actions_per_context.inject(0){|sum, apc| sum += apc['total'].to_i } pie_cutoff=10 size = [@all_actions_per_context.size, pie_cutoff].min # explicitely copy contents of hash to avoid ending up with two arrays pointing to same hashes @actions_per_context = Array.new(size){|i| { 'name' => @all_actions_per_context[i][:name], 'total' => @all_actions_per_context[i][:total].to_i, 'id' => @all_actions_per_context[i][:id] } } if size==pie_cutoff @actions_per_context[size-1]['name']=t('stats.other_actions_label') @actions_per_context[size-1]['total']=@actions_per_context[size-1]['total'] @actions_per_context[size-1]['id']=-1 (size).upto(@all_actions_per_context.size()-1){|i| @actions_per_context[size-1]['total']+=@all_actions_per_context[i]['total'].to_i } end @truncate_chars = 15 render :layout => false end def actions_day_of_week_all_data @actions_creation_day = current_user.todos.select("created_at") @actions_completion_day = current_user.todos.completed.select("completed_at") # convert to array and fill in non-existing days @actions_creation_day_array = Array.new(7) { |i| 0} @actions_creation_day.each { |t| @actions_creation_day_array[ t.created_at.wday ] += 1 } @max = @actions_creation_day_array.max # convert to array and fill in non-existing days @actions_completion_day_array = Array.new(7) { |i| 0} @actions_completion_day.each { |t| @actions_completion_day_array[ t.completed_at.wday ] += 1 } @max = @actions_completion_day_array.max render :layout => false end def actions_day_of_week_30days_data @actions_creation_day = current_user.todos.created_after(@cut_off_month).select("created_at") @actions_completion_day = current_user.todos.completed_after(@cut_off_month).select("completed_at") # convert to hash to be able to fill in non-existing days @max=0 @actions_creation_day_array = Array.new(7) { |i| 0} @actions_creation_day.each { |r| @actions_creation_day_array[ r.created_at.wday ] += 1 } # convert to hash to be able to fill in non-existing days @actions_completion_day_array = Array.new(7) { |i| 0} @actions_completion_day.each { |r| @actions_completion_day_array[r.completed_at.wday] += 1 } @max = [@actions_creation_day_array.max, @actions_completion_day_array.max].max render :layout => false end def actions_time_of_day_all_data @actions_creation_hour = current_user.todos.select("created_at") @actions_completion_hour = current_user.todos.completed.select("completed_at") # convert to hash to be able to fill in non-existing days @actions_creation_hour_array = Array.new(24) { |i| 0} @actions_creation_hour.each{|r| @actions_creation_hour_array[r.created_at.hour] += 1 } # convert to hash to be able to fill in non-existing days @actions_completion_hour_array = Array.new(24) { |i| 0} @actions_completion_hour.each{|r| @actions_completion_hour_array[r.completed_at.hour] += 1 } @max = [@actions_creation_hour_array.max, @actions_completion_hour_array.max].max render :layout => false end def actions_time_of_day_30days_data @actions_creation_hour = current_user.todos.created_after(@cut_off_month).select("created_at") @actions_completion_hour = current_user.todos.completed_after(@cut_off_month).select("completed_at") # convert to hash to be able to fill in non-existing days @actions_creation_hour_array = Array.new(24) { |i| 0} @actions_creation_hour.each{|r| @actions_creation_hour_array[r.created_at.hour] += 1 } # convert to hash to be able to fill in non-existing days @actions_completion_hour_array = Array.new(24) { |i| 0} @actions_completion_hour.each{|r| @actions_completion_hour_array[r.completed_at.hour] += 1 } @max = [@actions_creation_hour_array.max, @max = @actions_completion_hour_array.max].max render :layout => false end def show_selected_actions_from_chart @page_title = t('stats.action_selection_title') @count = 99 @source_view = 'stats' case params['id'] when 'avrt', 'avrt_end' # actions_visible_running_time # HACK: because open flash chart uses & to denote the end of a parameter, # we cannot use URLs with multiple parameters (that would use &). So we # revert to using two id's for the same selection. avtr_end means that the # last bar of the chart is selected. avtr is used for all other bars week_from = params['index'].to_i week_to = week_from+1 @chart_name = "actions_visible_running_time_data" @page_title = t('stats.actions_selected_from_week') @further = false if params['id'] == 'avrt_end' @page_title += week_from.to_s + t('stats.actions_further') @further = true else @page_title += week_from.to_s + " - " + week_to.to_s + "" end # get all running actions that are visible @actions_running_time = current_user.todos.not_completed.not_hidden.not_deferred_or_blocked. select("todos.id, todos.created_at"). reorder("todos.created_at DESC") selected_todo_ids = get_ids_from(@actions_running_time, week_from, week_to, params['id']== 'avrt_end') @selected_actions = selected_todo_ids.size == 0 ? [] : current_user.todos.where("id in (" + selected_todo_ids.join(",") + ")") @count = @selected_actions.size render :action => "show_selection_from_chart" when 'art', 'art_end' week_from = params['index'].to_i week_to = week_from+1 @chart_name = "actions_running_time_data" @page_title = "Actions selected from week " @further = false if params['id'] == 'art_end' @page_title += week_from.to_s + " and further" @further = true else @page_title += week_from.to_s + " - " + week_to.to_s + "" end # get all running actions @actions_running_time = current_user.todos.not_completed.select("id, created_at") selected_todo_ids = get_ids_from(@actions_running_time, week_from, week_to, params['id']=='art_end') @selected_actions = selected_todo_ids.size == 0 ? [] : current_user.todos.where("id in (#{selected_todo_ids.join(",")})") @count = @selected_actions.size render :action => "show_selection_from_chart" else # render error render_failure "404 NOT FOUND. Unknown query selected" end end def done @source_view = 'done' init_not_done_counts @done_recently = current_user.todos.completed.limit(10).reorder('completed_at DESC').includes(Todo::DEFAULT_INCLUDES) @last_completed_projects = current_user.projects.completed.limit(10).reorder('completed_at DESC').includes(:todos, :notes) @last_completed_contexts = [] @last_completed_recurring_todos = current_user.recurring_todos.completed.limit(10).reorder('completed_at DESC').includes(:tags, :taggings) #TODO: @last_completed_contexts = current_user.contexts.completed.all(:limit => 10, :order => 'completed_at DESC') end private def get_unique_tags_of_user tag_ids = current_user.todos.find_by_sql([ "SELECT DISTINCT tags.id as id "+ "FROM tags, taggings, todos "+ "WHERE tags.id = taggings.tag_id " + "AND taggings.taggable_id = todos.id "+ "AND todos.user_id = #{current_user.id}"]) tags_ids_s = tag_ids.map(&:id).sort.join(",") return {} if tags_ids_s.blank? # return empty hash for .size to work return Tag.where("id in (#{tags_ids_s})") end def get_total_number_of_tags_of_user # same query as get_unique_tags_of_user except for the DISTINCT return current_user.todos.find_by_sql([ "SELECT tags.id as id "+ "FROM tags, taggings, todos "+ "WHERE tags.id = taggings.tag_id " + "AND taggings.taggable_id = todos.id " + "AND todos.user_id = #{current_user.id}"]).size end def init @me = self # for meta programming # default chart dimensions @chart_width=460 @chart_height=250 @pie_width=@chart_width @pie_height=325 # get the current date wih time set to 0:0 @today = Time.zone.now.utc.beginning_of_day # define the number of seconds in a day @seconds_per_day = 60*60*24 # define cut_off date and discard the time for a month, 3 months and a year @cut_off_year = 12.months.ago.beginning_of_day @cut_off_year_plus3 = 15.months.ago.beginning_of_day @cut_off_month = 1.month.ago.beginning_of_day @cut_off_3months = 3.months.ago.beginning_of_day end def get_stats_actions # time to complete @completed_actions = current_user.todos.completed.select("completed_at, created_at") actions_sum, actions_max = 0,0 actions_min = @completed_actions.first ? @completed_actions.first.completed_at - @completed_actions.first.created_at : 0 @completed_actions.each do |r| actions_sum += (r.completed_at - r.created_at) actions_max = [(r.completed_at - r.created_at), actions_max].max actions_min = [(r.completed_at - r.created_at), actions_min].min end sum_actions = @completed_actions.size sum_actions = 1 if sum_actions==0 # to prevent dividing by zero @actions_avg_ttc = (actions_sum/sum_actions)/@seconds_per_day @actions_max_ttc = actions_max/@seconds_per_day @actions_min_ttc = actions_min/@seconds_per_day min_ttc_sec = Time.utc(2000,1,1,0,0)+actions_min # convert to a datetime @actions_min_ttc_sec = (min_ttc_sec).strftime("%H:%M:%S") @actions_min_ttc_sec = (actions_min / @seconds_per_day).round.to_s + " days " + @actions_min_ttc_sec if actions_min > @seconds_per_day # get count of actions created and actions done in the past 30 days. @sum_actions_done_last30days = current_user.todos.completed.completed_after(@cut_off_month).count @sum_actions_created_last30days = current_user.todos.created_after(@cut_off_month).count # get count of actions done in the past 12 months. @sum_actions_done_last12months = current_user.todos.completed.completed_after(@cut_off_year).count @sum_actions_created_last12months = current_user.todos.created_after(@cut_off_year).count end def get_stats_contexts # get action count per context for TOP 5 # # Went from GROUP BY c.id to c.id, c.name for compatibility with postgresql. # Since the name is forced to be unique, this should work. @actions_per_context = current_user.contexts.find_by_sql( "SELECT c.id AS id, c.name AS name, count(*) AS total "+ "FROM contexts c, todos t "+ "WHERE t.context_id=c.id "+ "AND t.user_id=#{current_user.id} " + "GROUP BY c.id, c.name ORDER BY total DESC " + "LIMIT 5" ) # get incomplete action count per visible context for TOP 5 # # Went from GROUP BY c.id to c.id, c.name for compatibility with postgresql. # Since the name is forced to be unique, this should work. @running_actions_per_context = current_user.contexts.find_by_sql( "SELECT c.id AS id, c.name AS name, count(*) AS total "+ "FROM contexts c, todos t "+ "WHERE t.context_id=c.id AND t.completed_at IS NULL AND NOT c.hide "+ "AND t.user_id=#{current_user.id} " + "GROUP BY c.id, c.name ORDER BY total DESC " + "LIMIT 5" ) end def get_stats_projects # get the first 10 projects and their action count (all actions) # # Went from GROUP BY p.id to p.name for compatibility with postgresql. Since # the name is forced to be unique, this should work. @projects_and_actions = current_user.projects.find_by_sql( "SELECT p.id, p.name, count(*) AS count "+ "FROM projects p, todos t "+ "WHERE p.id = t.project_id "+ "AND t.user_id=#{current_user.id} " + "GROUP BY p.id, p.name "+ "ORDER BY count DESC " + "LIMIT 10" ) # get the first 10 projects with their actions count of actions that have # been created or completed the past 30 days # using GROUP BY p.name (was: p.id) for compatibility with Postgresql. Since # you cannot create two contexts with the same name, this will work. @projects_and_actions_last30days = current_user.projects.find_by_sql([ "SELECT p.id, p.name, count(*) AS count "+ "FROM todos t, projects p "+ "WHERE t.project_id = p.id AND "+ " (t.created_at > ? OR t.completed_at > ?) "+ "AND t.user_id=#{current_user.id} " + "GROUP BY p.id, p.name "+ "ORDER BY count DESC " + "LIMIT 10", @cut_off_month, @cut_off_month] ) # get the first 10 projects and their running time (creation date versus # now()) @projects_and_runtime_sql = current_user.projects.find_by_sql( "SELECT id, name, created_at "+ "FROM projects "+ "WHERE state='active' "+ "AND user_id=#{current_user.id} "+ "ORDER BY created_at ASC "+ "LIMIT 10" ) i=0 @projects_and_runtime = Array.new(10, [-1, t('common.not_available_abbr'), t('common.not_available_abbr')]) @projects_and_runtime_sql.each do |r| days = difference_in_days(@today, r.created_at) # add one so that a project that you just created returns 1 day @projects_and_runtime[i]=[r.id, r.name, days.to_i+1] i += 1 end end def get_stats_tags # tag cloud code inspired by this article # http://www.juixe.com/techknow/index.php/2006/07/15/acts-as-taggable-tag-cloud/ levels=10 # TODO: parameterize limit # Get the tag cloud for all tags for actions query = "SELECT tags.id, name, count(*) AS count" query << " FROM taggings, tags, todos" query << " WHERE tags.id = tag_id" query << " AND taggings.taggable_id = todos.id" query << " AND todos.user_id="+current_user.id.to_s+" " query << " AND taggings.taggable_type='Todo' " query << " GROUP BY tags.id, tags.name" query << " ORDER BY count DESC, name" query << " LIMIT 100" @tags_for_cloud = Tag.find_by_sql(query).sort_by { |tag| tag.name.downcase } max, @tags_min = 0, 0 @tags_for_cloud.each { |t| max = [t.count.to_i, max].max @tags_min = [t.count.to_i, @tags_min].min } @tags_divisor = ((max - @tags_min) / levels) + 1 # Get the tag cloud for all tags for actions query = "SELECT tags.id, tags.name AS name, count(*) AS count" query << " FROM taggings, tags, todos" query << " WHERE tags.id = tag_id" query << " AND todos.user_id=? " query << " AND taggings.taggable_type='Todo' " query << " AND taggings.taggable_id=todos.id " query << " AND (todos.created_at > ? OR " query << " todos.completed_at > ?) " query << " GROUP BY tags.id, tags.name" query << " ORDER BY count DESC, name" query << " LIMIT 100" @tags_for_cloud_90days = Tag.find_by_sql( [query, current_user.id, @cut_off_3months, @cut_off_3months] ).sort_by { |tag| tag.name.downcase } max_90days, @tags_min_90days = 0, 0 @tags_for_cloud_90days.each { |t| max_90days = [t.count.to_i, max_90days].max @tags_min_90days = [t.count.to_i, @tags_min_90days].min } @tags_divisor_90days = ((max_90days - @tags_min_90days) / levels) + 1 end def get_ids_from (actions, week_from, week_to, at_end) selected_todo_ids = [] actions.each do |r| weeks = difference_in_weeks(@today, r.created_at) if at_end selected_todo_ids << r.id.to_s if weeks >= week_from else selected_todo_ids << r.id.to_s if weeks.between?(week_from, week_to-1) end end return selected_todo_ids end # uses the supplied block to determine array of indexes in hash # the block should return an array of indexes each is added to the hash and summed def convert_to_array(records, upper_bound) # use 0 to initialise action count to zero a = Array.new(upper_bound){|i| 0 } records.each { |r| (yield r).each { |i| a[i] += 1 } } return a end def convert_to_months_from_today_array(records, array_size, date_method_on_todo) return convert_to_array(records, array_size){ |r| [difference_in_months(@today, r.send(date_method_on_todo))]} end def convert_to_days_from_today_array(records, array_size, date_method_on_todo) return convert_to_array(records, array_size){ |r| [difference_in_days(@today, r.send(date_method_on_todo))]} end def convert_to_weeks_from_today_array(records, array_size, date_method_on_todo) return convert_to_array(records, array_size) { |r| [difference_in_weeks(@today, r.send(date_method_on_todo))]} end def convert_to_weeks_running_array(records, array_size) return convert_to_array(records, array_size) { |r| [difference_in_weeks(r.completed_at, r.created_at)]} end def convert_to_weeks_running_from_today_array(records, array_size) return convert_to_array(records, array_size) { |r| week_indexes_of(r) } end def week_indexes_of(record) a = [] start_week = difference_in_weeks(@today, record.created_at) end_week = record.completed_at ? difference_in_weeks(@today, record.completed_at) : 0 end_week.upto(start_week) { |i| a << i }; return a end # returns a new array containing all elems of array up to cut_off and # adds the sum of the rest of array to the last elem def cut_off_array_with_sum(array, cut_off) # +1 to hold sum of rest a = Array.new(cut_off+1){|i| array[i]||0} # add rest of array to last elem a[cut_off] += array.inject(:+) - a.inject(:+) return a end def cut_off_array(array, cut_off) return Array.new(cut_off){|i| array[i]||0} end def convert_to_cummulative_array(array, max) # calculate fractions a = Array.new(array.size){|i| array[i]*100.0/max} # make cummulative 1.upto(array.size-1){ |i| a[i] += a[i-1] } return a end # assumes date1 > date2 # this results in the number of months before the month of date1, not taking days into account, so diff of 31-dec and 1-jan is 1 month! def difference_in_months(date1, date2) return (date1.utc.year - date2.utc.year)*12 + (date1.utc.month - date2.utc.month) end # assumes date1 > date2 def difference_in_days(date1, date2) return ((date1.utc.at_midnight-date2.utc.at_midnight)/@seconds_per_day).to_i end # assumes date1 > date2 def difference_in_weeks(date1, date2) return difference_in_days(date1, date2) / 7 end def three_month_avg(set, i) return ( (set[i]||0) + (set[i+1]||0) + (set[i+2]||0) ) / 3.0 end def interpolate_avg(set, percent) return (set[0]*(1/percent) + set[1] + set[2]) / 3.0 end def correct_last_two_months(month_data, count) month_data[count] = month_data[count] * 3 month_data[count-1] = month_data[count-1] * 3 / 2 if count > 1 end def find_running_avg_array(done_array, created_array, upper_bound) avg_done = Array.new(upper_bound){ |i| three_month_avg(done_array,i) } avg_created = Array.new(upper_bound){ |i| three_month_avg(created_array,i) } avg_done[0] = avg_created[0] = "null" return avg_done, avg_created end end