require 'date'
-class GraphController < ApplicationController
-
+class GraphController < ApplicationController
class GruffGraff
def initialize(options)
# fill in the data with the optional data name
#Check to see if multiple datasets, if so, fill them all!
+ #Sort by biggest first piece of data.
if options[:data].is_a?(Hash)
- options[:data].each_pair do |name, array|
- @graph.data( name, array)
+ options[:data].sort {|a,b| b[1][0] <=> a[1][0]}.each do |dataset|
+ @graph.data(dataset[0], dataset[1])
end
#if each dataset nameless, will have only multiple arrays
elsif options[:data].size > 1 && options[:data].all? {|i| i.is_a?(Array)}
:y_axis_label => "Number of Votes")
send_data(*graph.output)
end
-
+
def borda_bar
@election = Election.find(params[:id])
- #pref_tally = make_preference_tally(@election)
-
- #@borda_result = BordaVote.new(pref_tally).result
@election.results unless @election.borda_result
data, labels = get_borda_points(@election.borda_result)
send_data(*graph.output)
end
#Acording to Tufte, small, concomparitive, highly labeled data sets usually
- # belong in tables. The following is a bar graph...but would it be better
+ #belong in tables. The following is a bar graph...but would it be better
#as a table?
- def choices_positions
+ def choices_positions
@election = Election.find(params[:id])
- pref_tally = make_preference_tally(@election)
-
- fulldata, labels = get_positions_info(@election)
- legend = Hash.new
+ legend = Hash.new
+ alldata, labels = get_positions_info(@election)
+ @election.results unless @election.condorcet_result || @election.ssd_result
+ ranked_candidates = @election.condorcet_result.ranked_candidates.flatten
- @election.candidates.each_with_index do |candidate, index|
- legend[candidate.name] = fulldata[index]
+ names = Hash.new
+ candidates = @election.candidates.sort.collect {|candidate| candidate.id}
+ candidates.each do |candidate|
+ names[candidate]= (Candidate.find(candidate)).name
end
+ ranked_candidates.each_with_index \
+ {|candidate, index| legend[names[candidate]] = alldata[index]}
+
graph = GruffGraff.new( :graph_type => Gruff::Bar,
:data => legend,
:interval_labels => labels,
send_data(*graph.output)
end
+ def plurality_pie
+ @election = Election.find(params[:id])
+ @election.results unless @election.plurality_result || @election.approval_result
+ votes = @election.votes.size
+ data = Hash.new
+ names = @election.names_by_id
+
+ @election.plurality_result.points.each do |candidate, votes|
+ data[names[candidate]] = votes
+ end
+
+ pie = GruffGraff.new ( :graph_type => Gruff::Pie,
+ :title => "Percentage of First Place Votes",
+ :data => data)
+ send_data(*pie.output)
+
+ end
+
private
-
def get_positions_info(election)
buckets = Hash.new
buckets2= Hash.new
rank_labels = Hash.new
-
- election.candidates.each do |candidate|
- buckets[candidate.id] = []
- buckets2[candidate.id] = []
- end
-
+
+ #attach the ranking to the candidate's array to which is belongs
+ #creating a key if necessary
election.votes.each do |vote|
vote.rankings.each do |ranking|
+
+ unless buckets.has_key?(ranking.candidate_id)
+ buckets[ranking.candidate_id] = []
+ end
buckets[ranking.candidate_id] << ranking.rank
+
end
end
-
+
+ #count how many times each candidate has been ranked at a certain level
buckets.each_pair do |id, array|
(1..election.candidates.size).each do |i|
+ buckets2[id] = [] unless buckets2.has_key?(id)
buckets2[id] << (array.find_all {|rank| rank == i}).size
end
end
+ #sort by amount of 1st place votes
+ sorted_data = buckets2.values.sort {|a,b| b[0] <=> a[0]}
+
election.votes.each do |vote|
vote.rankings.size.times do |i|
rank_labels[i] = (i+1).to_s
end
end
- return buckets2.values, rank_labels
-
+ return sorted_data, rank_labels
end
# generate the data and labels for each graph
#Populate points with an sorted array from election.votes hash
#biggest to smallest will go from left to right
- points = result.election.votes.sort do |a, b|
+ points = result.points.sort do |a, b|
b[1] <=> a[1]
end.collect {|i| i[1]}