add day 23

master
Clyne 3 years ago
parent f89005009a
commit d13c4e6b07

@ -0,0 +1,108 @@
;
; Place in new leiningen 'app' template project
;
; Run with `java -Xmx8G -jar ...`
;
(ns hah.core
(:gen-class))
(require '[clojure.core.reducers :as r])
(def init-field
[nil
nil
(seq [:b :d :d :d])
nil
(seq [:b :c :b :a])
nil
(seq [:c :b :a :a])
nil
(seq [:d :a :c :c])
nil
nil])
(defn do-slot [[field q s] idx]
(let [slot (get field idx)]
(cond
; Moving value out of a room
(and (seq? slot) (not (empty? slot)) (not (every? #(= % ({2 :a 4 :b 6 :c 8 :d} idx)) slot)))
(let [open-slots
(filterv
#(contains? #{0 1 3 5 7 9 10} %)
(concat
(for [i (reverse (range 0 idx)) :while (or (nil? (get field i)) (seq? (get field i)))] i)
(for [i (range idx (count field)) :while (or (nil? (get field i)) (seq? (get field i)))] i)))]
(when-not (empty? open-slots)
(map
(fn [os]
[(-> field
(assoc os (first slot))
(update idx rest))
(conj q [idx os])
(+ s (* ({:a 1 :b 10 :c 100 :d 1000} (first slot)) (+ (inc (- 4 (count slot))) (Math/abs (- os idx)))))])
open-slots)))
; Moving value into a room
(and (not (seq? slot)) (some? slot))
(let [our-room ({:a 2 :b 4 :c 6 :d 8} slot)]
(if (every? #(or (nil? (get field %)) (seq? (get field %)))
(range (inc (min our-room idx)) (max our-room idx)))
(let [room (get field our-room)]
(when (or (empty? room) (every? #(= slot %) room))
[(-> field
(assoc idx nil)
(update our-room conj slot))
(conj q [idx our-room])
(+ s (* ({:a 1 :b 10 :c 100 :d 1000} slot) (+ (Math/abs (- idx our-room)) (- 4 (count room)))))])))))))
(defn winner? [[field q s]]
(= field
[nil
nil
(seq [:a :a :a :a])
nil
(seq [:b :b :b :b])
nil
(seq [:c :c :c :c])
nil
(seq [:d :d :d :d])
nil
nil]))
(defn do-turns [fields]
(into []
(r/fold
1024
r/cat
#(if-let [t (apply do-slot %2)]
(if (seq? t)
(reduce r/append! %1 t)
(r/append! %1 t))
%1)
(into [] (for [f fields i (range 0 11)] [f i])))))
(def wins (atom #{}))
(defn play-games [turns tc]
(println "Games:" (count turns) "Turn:" tc)
(if (< 500000 (count turns))
(do
(println "Splitting...")
(doseq [p (partition 100000 turns)
:let [r (play-games (into [] p) tc)]] nil))
(do
(let [new-turns (do-turns turns)
winners (filter winner? new-turns)]
(if (pos? (count winners))
(do
(println "Winner! Turns:" tc)
(swap! wins #(reduce conj % (map last winners))))
(when (pos? (count new-turns))
(recur new-turns (inc tc))))))))
(defn -main
"I don't do a whole lot ... yet."
[& args]
(play-games [[init-field [] 0]] 0)
(println (first (sort @wins))))
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