Combined generation grammar and n-gram

main
Eric Ihli 4 years ago
parent acd22d9b2d
commit 2c06413a93

@ -3,6 +3,7 @@
[clojure.string :as string] [clojure.string :as string]
[taoensso.timbre :as timbre] [taoensso.timbre :as timbre]
[com.owoga.prhyme.util.math :as math] [com.owoga.prhyme.util.math :as math]
[com.owoga.tightly-packed-trie.encoding :as encoding]
[examples.core :as examples] [examples.core :as examples]
[taoensso.nippy :as nippy] [taoensso.nippy :as nippy]
[com.owoga.prhyme.nlp.core :as nlp] [com.owoga.prhyme.nlp.core :as nlp]
@ -10,7 +11,8 @@
[com.owoga.prhyme.data-transform :as df] [com.owoga.prhyme.data-transform :as df]
[com.owoga.trie :as trie] [com.owoga.trie :as trie]
[com.owoga.prhyme.util.weighted-rand :as weighted-rand] [com.owoga.prhyme.util.weighted-rand :as weighted-rand]
[clojure.set :as set])) [clojure.set :as set]
[com.owoga.tightly-packed-trie :as tpt]))
(defn update-values [m f & args] (defn update-values [m f & args]
(reduce (reduce
@ -511,7 +513,12 @@
(zip/vector-zip))))) (zip/vector-zip)))))
(comment (comment
(markov-generate-grammar test-trie @test-database (zip/vector-zip [1])) (->> (markov-generate-grammar test-trie @test-database (zip/vector-zip [1]))
(zip/vector-zip)
(nlp/iter-zip)
(reverse)
(map zip/node)
())
) )
@ -585,3 +592,194 @@
(filter string?))) (filter string?)))
) )
(defn visitor
"Visit every node in a zipper traversing it
with next-fn and applying apply-fn to every loc."
[zipper next-fn apply-fn]
(loop [loc zipper]
(if (nil? (next-fn loc))
(zip/vector-zip
(zip/root (apply-fn loc)))
(recur (next-fn (apply-fn loc))))))
(defn zipper-last
[zipper]
(->> zipper
(iterate zip/next)
(take-while (complement zip/end?))
last))
(defn decode-fn
"Decodes a variable-length encoded number from a byte-buffer.
Zero gets decoded to nil."
[byte-buffer]
(let [value (encoding/decode byte-buffer)]
(if (zero? value)
nil
value)))
(defn rest-leafs
[zipper]
(->> (nlp/iter-zip zipper)
(filter (complement zip/branch?))
(map zip/node)))
(defn choose-with-n-gram-markov
[zipper
grammar-trie
grammar-database
n-gram-trie
n-gram-database]
(let [prev-pos (previous-leaf-part-of-speech zipper)
prev-pos' (map grammar-database prev-pos)
n-gram (filter string? (rest-leafs zipper))
n-gram' (mapv tpt-db n-gram)
part-of-speech-children (->> (children grammar-trie grammar-database (take-last 1 prev-pos'))
(map #(vector (grammar-database (first %))
(second %))))
grammar-children (->> (children grammar-trie grammar-database prev-pos')
(map #(vector (grammar-database (first %))
(second %))))
n-gram-children (->> n-gram'
(take 2)
(reverse)
(trie/lookup n-gram-trie)
(trie/children)
(map #(vector (n-gram-database (.key %)) (get % []))))
combined-choices (reduce
(fn [acc [k v]]
(update acc k (fnil * v)))
(into {} grammar-children)
n-gram-children)
intersection (set/intersection
(into #{} (map first part-of-speech-children))
(into #{} (map first n-gram-children)))
combined-choices (if (empty? intersection)
combined-choices
(select-keys combined-choices intersection))
choice (math/weighted-selection
second
(seq combined-choices))]
[n-gram
n-gram'
prev-pos
prev-pos'
part-of-speech-children
grammar-children
n-gram-children
combined-choices
choice]
))
(defn previous-leaf-part-of-speech
[zipper]
(->> zipper
(iterate zip/prev)
(take-while (complement nil?))
(filter #(and (symbol? (zip/node %))
(zip/up %)
(= 1 (count (zip/node (zip/up %))))))
(first)
(zip/path)
(map first)
(filter symbol?)))
(comment
;; Working backwards from a completed grammar tree that has
;; been partially filled in with words, choose the next likely word
;; based off the grammar and an n-gram trie.
(let [zipper (zip/vector-zip
'[[TOP
[[VP
[[[VBN]]
[PP [[[TO]] [NP [[[NN ["storm"]]]]]]]
[PP [[[IN ["into"]]] [NP [[[PRP$ ["my"]]] [[NNS ["answers"]]]]]]]]]]]])
loc (->> zipper
(iterate zip/next)
(filter #(= "storm" (zip/node %)))
(first))
prev-pos (previous-leaf-part-of-speech loc)
prev-pos' (map @test-database prev-pos)
n-gram (filter string? (rest-leafs loc))
n-gram' (mapv tpt-db n-gram)
grammar-children (->> (children test-trie @test-database prev-pos')
(map first)
(map @test-database))
n-gram-children (->> n-gram'
(take 2)
(reverse)
(trie/lookup tpt)
(trie/children)
(map #(vector (tpt-db (.key %)) (get % []))))]
(choose-with-n-gram-markov
loc test-trie @test-database tpt tpt-db))
(let [zipper (zip/vector-zip
'[[TOP
[[VP
[[[VBN]]
[PP [[[TO]] [NP [[[NN]]]]]]
[PP [[[IN]] [NP [[[PRP$]] [[NNS]]]]]]]]]]])
loc (->> zipper
(iterate zip/next)
(take-while (complement zip/end?))
(last))
prev-pos (previous-leaf-part-of-speech loc)
prev-pos' (map @test-database prev-pos)
n-gram (filter string? (rest-leafs loc))
n-gram' (mapv tpt-db n-gram)
grammar-children (->> (children test-trie @test-database prev-pos')
(map first)
(map @test-database))
n-gram-children (->> n-gram'
(take 2)
(reverse)
(trie/lookup tpt)
(trie/children)
(map #(vector (tpt-db (.key %)) (get % []))))]
(let [[n-gram
n-gram'
prev-pos
prev-pos'
grammar-children
n-gram-children
combined-choices
choice]
(choose-with-n-gram-markov
loc test-trie @test-database tpt tpt-db)]
[
choice]))
(trie/lookup test-trie [1 59 3 5 5 17])
(@test-database 1911)
(def tpt (tpt/load-tightly-packed-trie-from-file
(io/resource "dark-corpus-4-gram-backwards-tpt.bin")
decode-fn))
(def tpt-db (nippy/thaw-from-file (io/resource "dark-corpus-4-gram-backwards-db.bin")))
(markov-generate-grammar test-trie @test-database (zip/vector-zip [1]))
(-> (markov-generate-grammar test-trie @test-database (zip/vector-zip [1]))
zip/vector-zip
(zipper-last)
(visitor
zip/prev
(fn [loc]
(let [k (filter symbol? (map first (zip/path loc)))]
(if (and (symbol? (zip/node loc))
(zip/up loc)
(= 1 (count (zip/node (zip/up loc))))
(not-empty k))
(let [k' (map @test-database k)
choice (@test-database (first (choose test-trie @test-database k')))]
(println k')
(zip/replace
loc
[(zip/node loc)
[choice]]))
loc)))))
(@test-database 497)
)

@ -1274,6 +1274,7 @@
(->> text (->> text
(-split-text-into-sentences) (-split-text-into-sentences)
(map string/trim) (map string/trim)
(filter english?)
(remove empty?) (remove empty?)
(mapv treebank-zipper) (mapv treebank-zipper)
(remove nil?) (remove nil?)
@ -1285,6 +1286,14 @@
(mapv (fn [[k v]] (mapv (fn [[k v]]
(clojure.lang.MapEntry. (into (vec k) [v]) v))))) (clojure.lang.MapEntry. (into (vec k) [v]) v)))))
(comment
(let [text "Hi my name. Is Eric? \n What is yours? Fooaba brosaet"]
(text->grammar-trie-map-entry text)
#_(->> text
-split-text-into-sentences
))
)
(defn -new-key (defn -new-key
"Associates key with an auto-incrementing ID "Associates key with an auto-incrementing ID
and the ID with the key. and the ID with the key.

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