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# lplp.rb
# norms
def l0(feature_column, n)
if feature_column.size >= n then return 1 else return 0 end
end
def l1(feature_column, n=-1)
return feature_column.map { |i| i.abs }.reduce { |sum,i| sum+i }
end
def l2(feature_column, n=-1)
return Math.sqrt feature_column.map { |i| i.abs2 }.reduce { |sum,i| sum+i }
end
def linfty(feature_column, n=-1)
return feature_column.map { |i| i.abs }.max
end
# stats
def median(feature_column, n)
return feature_column.concat(0.step(n-feature_column.size-1).map{|i|0}).sort[feature_column.size/2]
end
def mean(feature_column, n)
return feature_column.reduce { |sum, i| sum+i } / n
end
# selection
def select_k(weights, norm_fun, n, k=10000)
weights.sort{|a,b| norm_fun.call(b[1], n) <=> norm_fun.call(a[1], n)}.each { |p|
puts "#{p[0]}\t#{mean(p[1], n)}"
k -= 1
if k == 0 then break end
}
end
def cut(weights, norm_fun, n, epsilon=0.0001)
weights.each { |k,v|
if norm_fun.call(v, n).abs >= epsilon
puts "#{k}\t#{mean(v, n)}"
end
}
end
# test
def _test()
puts
w = {}
w["a"] = [1, 2, 3]
w["b"] = [1, 2]
w["c"] = [66]
w["d"] = [10, 20, 30]
n = 3
puts w.to_s
puts
puts "select_k"
puts "l0 expect ad"
select_k(w, method(:l0), n, 2)
puts "l1 expect cd"
select_k(w, method(:l1), n, 2)
puts "l2 expect c"
select_k(w, method(:l2), n, 1)
puts
puts "cut"
puts "l1 expect cd"
cut(w, method(:l1), n, 7)
puts
puts "median"
a = [1,2,3,4,5]
puts a.to_s
puts median(a, 5)
puts
puts "#{median(a, 7)} <- that's because we add missing 0s:"
puts a.concat(0.step(7-a.size-1).map{|i|0}).to_s
puts
puts "mean expect bc"
w.clear
w["a"] = [2]
w["b"] = [2.1]
w["c"] = [2.2]
cut(w, method(:mean), 1, 2.05)
exit
end
#_test()
def usage()
puts "lplp.rb <l0,l1,l2,linfty,mean,median> <cut|select_k> <k|threshold> <#shards> < <input>"
puts " l0...: norms for selection"
puts "select_k: only output top k (according to the norm of their column vector) features"
puts " cut: output features with weight >= threshold"
puts " n: if we do not have a shard count use this number for averaging"
exit 1
end
if ARGV.size < 4 then usage end
norm_fun = method(ARGV[0].to_sym)
type = ARGV[1]
x = ARGV[2].to_f
shard_count = ARGV[3].to_f
STDIN.set_encoding 'utf-8'
STDOUT.set_encoding 'utf-8'
w = {}
while line = STDIN.gets
key, val = line.split /\s+/
if w.has_key? key
w[key].push val.to_f
else
w[key] = [val.to_f]
end
end
if type == 'cut'
cut(w, norm_fun, shard_count, x)
elsif type == 'select_k'
select_k(w, norm_fun, shard_count, x)
else
puts "oh oh"
end
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