day15: success, part2 ~88min; trying to improve

master
Clyne 3 years ago
parent aed41aa1f7
commit 9d83aa4f3c

@ -1,3 +1,5 @@
(require '[clojure.core.reducers :as r])
(def input (->> (slurp "./in")
(clojure.string/split-lines)
(mapv (partial mapv (comp read-string str)))
@ -6,13 +8,16 @@
(into {})))
(defn min-distance [dist Q]
(reduce
#(if (and (not= (dist %2) :inf)
(or (= :inf (first %1))
(< (dist %2) (first %1))))
[(dist %2) %2]
%1)
[:inf []] Q))
(r/fold
(r/monoid
#(if (< (first %1) (first %2)) %1 %2)
(constantly [##Inf []]))
(r/monoid
#(if (< (first %1) (dist %2)) %1 [(dist %2) %2])
(constantly [##Inf []]))
(r/filter
(partial contains? dist)
(apply vector Q))))
(defn find-neighbors [Q u]
(filter #(contains? Q %) [(update u 0 inc)
@ -21,22 +26,19 @@
(update u 1 dec)]))
(let [dim (apply max (map first (keys input)))]
(loop [Q (set (keys input))
dist (-> (zipmap Q (repeat :inf)) (update [0 0] #(do % 0)))]
(loop [Q (apply sorted-set (keys input))
dist (assoc (hash-map) [0 0] 0)]
(when (= 0 (rem (count Q) 500)) (println (count Q)))
(if (empty? Q)
(println (dist [dim dim]))
(let [[u vu] (min-distance dist Q)]
(recur
(disj Q vu)
(loop [d dist f (find-neighbors Q vu)]
(if (empty? f)
d
(recur
(let [v (first f) alt (+ u (input v))]
(if (or (= :inf (dist v)) (< alt (dist v)))
(assoc d v alt)
d
))
(rest f)
))))))))
(reduce
#(let [alt (+ u (input %2))]
(cond-> %1
(or (not (contains? dist %2)) (< alt (dist %2)))
(assoc %2 alt)))
dist
(find-neighbors Q vu)))))))

@ -1,3 +1,5 @@
(require '[clojure.core.reducers :as r])
(def input (->> (slurp "./in")
(clojure.string/split-lines)
(mapv (partial mapv (comp read-string str)))
@ -17,15 +19,16 @@
))
(defn min-distance [dist Q]
(reduce
#(if (and (not= (dist %2) :inf)
(or (= :inf (first %1))
(< (dist %2) (first %1))))
[(dist %2) %2]
%1)
[:inf []]
Q
))
(r/fold
(r/monoid
#(if (< (first %1) (first %2)) %1 %2)
(constantly [##Inf []]))
(r/monoid
#(if (< (first %1) (dist %2)) %1 [(dist %2) %2])
(constantly [##Inf []]))
(r/filter
(partial contains? dist)
(apply vector Q))))
(defn find-neighbors [Q u]
(filter #(contains? Q %) [(update u 0 inc)
@ -33,22 +36,19 @@
(update u 1 inc)
(update u 1 dec)]))
(loop [Q (set (keys input))
dist (-> (zipmap Q (repeat :inf)) (update [0 0] #(do % 0)))]
(if (empty? Q)
(println (dist [499 499]))
(let [[u vu] (min-distance dist Q)]
(recur
(disj Q vu)
(loop [d dist f (find-neighbors Q vu)]
(if (empty? f)
d
(recur
(let [v (first f) alt (+ u (input v))]
(if (or (= :inf (dist v)) (< alt (dist v)))
(assoc d v alt)
d
))
(rest f)
)))))))
(let [dim (apply max (map first (keys input)))]
(loop [Q (apply sorted-set (keys input))
dist (assoc (hash-map) [0 0] 0)]
(when (= 0 (rem (count Q) 500)) (println (count Q)))
(if (empty? Q)
(println (dist [dim dim]))
(let [[u vu] (min-distance dist Q)]
(recur
(disj Q vu)
(reduce
#(let [alt (+ u (input %2))]
(cond-> %1
(or (not (contains? dist %2)) (< alt (dist %2)))
(assoc %2 alt)))
dist
(find-neighbors Q vu)))))))

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