mirror of
https://github.com/antos-rde/antosdk-apps.git
synced 2024-12-29 05:28:21 +01:00
347 lines
9.3 KiB
Lua
347 lines
9.3 KiB
Lua
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local doclassify = {}
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local st = require("stmr")
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doclassify.bow = function(data, stopwords)
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-- first step get a table of worlds that contain
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-- world: occurences
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local bag = {}
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for w in data:gmatch('%w+') do
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local word = w:lower()
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if not stopwords[word] then
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word = st.stmr(word)
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if bag[word] then
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bag[word].count = bag[word].count + 1
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else
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bag[word] = {count=0, tf=0, tfidf=0.0}
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bag[word].count = 1
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end
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end
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end
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-- now calculate the tf of the bag
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for k,v in pairs(bag) do
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bag[k].tf = math.log(1 + bag[k].count)
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end
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return bag
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end
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doclassify.len = function(table)
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local cnt = 0
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for k,v in pairs(table) do cnt = cnt+1 end
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return cnt
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end
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doclassify.tfidf = function(documents)
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-- now for each term in a bag, calculate
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-- the inverse document frequency, which
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-- is a measure of how much information
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-- the word provides, that is, whether the
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-- term is common or rare across all documents
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local ndoc = doclassify.len(documents)
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for k,bag in pairs(documents) do
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-- for eacht term in bag
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-- calculate its idf across all documents
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for term,b in pairs(bag) do
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local n = 0
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for id,doc in pairs(documents) do
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if doc[term] then n = n+1 end
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end
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--echo("term:"..term.." appears in"..n.." documents")
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b.tfidf = b.tf*math.log(ndoc/n)
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end
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end
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end
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doclassify.search = function(term, documents)
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local r = {}
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for id, doc in pairs(documents) do
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if doc[term:lower()] then
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r[id] = doc[term].tfidf
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end
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end
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return r
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end
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doclassify.get_vectors = function(documents)
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-- get a list of vector from documents
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local index = 0
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local vectors = {}
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local maps = {}
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local terms = {}
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local maxv = 0
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for id in pairs(documents) do
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maps[id] = {}
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vectors[id] = {}
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end
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-- first loop, get the term
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for id, doc in pairs(documents) do
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for k,v in pairs(doc) do
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-- get max value
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if v.tfidf > maxv then
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maxv = v.tfidf
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end
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-- get the term
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if not terms[k] then
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index = index + 1
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terms[k] = index
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end
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for pid in pairs(documents) do
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if not maps[pid][k] then
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if id == pid then
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maps[pid][k] = v.tfidf
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else
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maps[pid][k] = 0
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end
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else
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if maps[pid][k] == 0 and id == pid then
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maps[pid][k] = v.tfidf
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end
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end
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end
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end
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end
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-- reindexing the vectors
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for id in pairs(documents) do
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for k,v in pairs(maps[id]) do
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vectors[id][terms[k]] = v
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end
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end
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--echo("Max tfidf "..maxv.." in document #"..maxid.." of term "..term)
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return vectors, maxv, index, terms
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end
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doclassify.similarity = function(va, vb)
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-- using cosin similarity
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local dotp = 0
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local maga = 0
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local magb = 0
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for k = 1,#va do
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dotp = dotp + va[k]*vb[k]
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maga = maga + va[k]*va[k]
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magb = magb + vb[k]*vb[k]
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end
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maga = math.sqrt(maga)
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magb = math.sqrt(magb)
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local d = 0
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if maga ~= 0 and magb ~= 0 then
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d = dotp/ (magb*maga)
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end
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return d
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end
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doclassify.similarities = function(v1, collection)
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local similarities = {}
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assert(#v1 == #(collection[1]), "Incorrect vectors size")
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for i=1,#collection do
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similarities[i] = doclassify.similarity(v1, collection[i])
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end
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return similarities
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end
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doclassify.mean_similarity = function(v1, v2)
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assert(#v1 == #v2, "Incorrect vectors size")
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local similarities = {}
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for i = 1,#v1 do similarities[i] = doclassify.similarity(v1[i], v2[i]) end
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return doclassify.mean(similarities)
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end
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doclassify.similarity_chart = function(id, vectors)
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local vs = {}
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local cnt = 0
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local lut = {}
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for k,v in pairs(vectors) do
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if k ~= id then
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cnt = cnt + 1
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vs[cnt] = v
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lut[cnt] = k
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end
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end
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if not vs[1] then return {} end
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return doclassify.similarities(vectors[id], vs), lut
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end
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doclassify.top_similarity = function(id, vectors, n, th)
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local chart,lut = doclassify.similarity_chart(id,vectors)
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--echo(JSON.encode(chart))
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--echo(JSON.encode(lut))
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if not lut or #lut <= 0 then return nil end
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local top = {}
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local j=0
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local goon = true
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if not th then
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goon = false
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th = 0
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end
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while j < n or goon
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do
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local i,maxv = doclassify.argmax(chart)
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top[lut[i]] = maxv
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chart[i] = 0.0
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j=j+1
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if maxv < th and goon then
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goon = false
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end
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end
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--for j=1,n do
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-- local i,maxv = doclassify.argmax(chart)
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-- top[lut[i]] = maxv
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-- chart[i] = 0.0
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--end
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return top
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end
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doclassify.save_vectors = function(vectors, name)
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local f = io.open(name,"w")
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if f == nil then return false end
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for id, v in pairs(vectors) do
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f:write(id)
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for i=1,#v do f:write(","..v[i]) end
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f:write("\n")
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end
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f:close()
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return true
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end
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doclassify.save_topchart = function(vectors, name,n)
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local f = io.open(name,"w")
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if f == nil then return false end
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for k,v in pairs(vectors) do
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local top = doclassify.top_similarity(k,vectors,n, 0.1)
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for a,b in pairs(top) do
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f:write(k.." "..a.." "..b.."\n")
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end
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end
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f:close()
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return true
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end
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doclassify.kmean = function(nclass, documents, maxstep, ids)
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-- now
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local vectors, maxv, size = doclassify.get_vectors(documents)
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-- random centroids
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local centroids = {}
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local old_centroids = {}
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local clusters = {}
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--for pid in pairs(documents) do clusters[pid] = 0 end
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-- add noise to mean_vector
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for i = 1,nclass do
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if ids == nil then
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centroids[i] = doclassify.random(size,math.floor(maxv))
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else
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centroids[i] = vectors[ids[i]]
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end
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old_centroids[i] = doclassify.zeros(size)
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end
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-- loop until convergence or maxstep reached
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local similarity = doclassify.mean_similarity(centroids, old_centroids)
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local step = maxstep
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while 1.0-similarity > 1e-9 and step > 0 do
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clusters = {}
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--echo(JSON.encode(centroids))
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for id,v in pairs(vectors) do
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local similarities = doclassify.similarities(v, centroids)
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--echo(JSON.encode(similarities))
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local cluster, maxvalue = doclassify.argmax(similarities)
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--echo("doc #"..id.." is in clusters #"..cluster.." max value is "..maxvalue)
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clusters[id] = cluster
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end
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-- storing the old centroids
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old_centroids = centroids
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-- calculate new centroids
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local new_centroids = {}
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for class in pairs(centroids) do
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local cnt = 0
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local cvectors = {}
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for id,v in pairs(vectors) do
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if clusters[id] == class then
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cnt = cnt + 1
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cvectors[cnt] = v
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end
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end
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new_centroids[class] = doclassify.mean_vector(cvectors, size)
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end
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centroids = new_centroids
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--echo(JSON.encode(centroids))
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--echo(JSON.encode(old_centroids))
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similarity = doclassify.mean_similarity(centroids, old_centroids)
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echo("step #"..step..", similarity "..similarity)
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step = step - 1
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end
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local results = {}
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for i = 1,nclass do
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local list = {}
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local cnt = 0
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for id,c in pairs(clusters) do
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if c == i then
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cnt = cnt + 1
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list[cnt] = id
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end
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end
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results[i] = list
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end
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return results, clusters, centroids
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end
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doclassify.zeros = function(n)
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local vector = {}
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for i = 1,n do vector[i] = 0.0 end
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return vector
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end
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doclassify.random = function(n,maxv)
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local vector = {}
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for i=1,n do
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vector[i] = math.random() + math.random(0, maxv)
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end
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return vector
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end
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doclassify.sum = function(v)
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local sum = 0.0
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for i=1,#v do sum = sum + v[i] end
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return sum
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end
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doclassify.mean = function(v)
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return doclassify.sum(v)/#v
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end
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doclassify.mean_vector = function(vectors, size)
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local means = doclassify.zeros(size)
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if not vectors or #vectors == 0 then return means end
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--local size = #(vectors[1])
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local times = 0
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for k,v in pairs(vectors) do
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for i=1,#v do means[i] = means[i] + v[i] end
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times = times + 1
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end
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for i = 1,size do means[i] = means[i]/times end
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return means
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end
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doclassify.argmin = function(v)
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local minv = 0.0
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local mini = 0.0
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for i = 1,#v do
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if v[i] <= minv then
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mini = i
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minv = v[i]
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end
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end
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--echo("min index"..mini.." val "..minv)
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return mini, minv
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end
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doclassify.argmax = function(v)
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local maxv = 0.0
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local maxi = 0.0
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for i = 1,#v do
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if v[i] >= maxv then
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maxi = i
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maxv = v[i]
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end
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end
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return maxi,maxv
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end
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return doclassify
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