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Clojure

(require '[clojure.core.reducers :as r])
(require 'clojure.string)
(defn build-scanner-reports
"Splits slurped, split-lines'd input by scanner."
[input-lines]
(loop [scanners [] rem-input input-lines]
(if (empty? rem-input)
scanners
(let [[this nxt] (split-with (comp not empty?) rem-input)]
(recur
(->> (rest this)
(map #(read-string (clojure.string/join ["[" % "]"])))
(conj scanners))
(rest nxt))))))
(defn point-add [[a b c] [d e f]] [(+ a d) (+ b e) (+ c f)])
(defn orient [[x y z] [[a b c] [d e f] [g h i]]]
[(+ (* x a) (* y d) (* z g)) (+ (* x b) (* y e) (* z h)) (+ (* x c) (* y f) (* z i))])
(defn scanner-orientation [report or-index]
(let [or-vec [[[1 0 0] [0 1 0] [0 0 1]]
[[1 0 0] [0 0 -1] [0 1 0]]
[[1 0 0] [0 -1 0] [0 0 -1]]
[[1 0 0] [0 0 1] [0 -1 0]]
[[-1 0 0] [0 -1 0] [0 0 1]]
[[-1 0 0] [0 0 -1] [0 -1 0]]
[[-1 0 0] [0 1 0] [0 0 -1]]
[[-1 0 0] [0 0 1] [0 1 0]]
[[0 0 -1] [1 0 0] [0 -1 0]]
[[0 1 0] [1 0 0] [0 0 -1]]
[[0 0 1] [1 0 0] [0 1 0]]
[[0 -1 0] [1 0 0] [0 0 1]]
[[0 0 1] [-1 0 0] [0 -1 0]]
[[0 1 0] [-1 0 0] [0 0 1]]
[[0 0 -1] [-1 0 0] [0 1 0]]
[[0 -1 0] [-1 0 0] [0 0 -1]]
[[0 -1 0] [0 0 -1] [1 0 0]]
[[0 0 1] [0 -1 0] [1 0 0]]
[[0 1 0] [0 0 1] [1 0 0]]
[[0 0 -1] [0 1 0] [1 0 0]]
[[0 0 1] [0 1 0] [-1 0 0]]
[[0 -1 0] [0 0 1] [-1 0 0]]
[[0 0 -1] [0 -1 0] [-1 0 0]]
[[0 1 0] [0 0 -1] [-1 0 0]]]
chosen (get or-vec or-index)]
(map #(orient (map - %) chosen) report)))
(defn scanner-orientations
"Builds list of scanner reports adjusted for all possible orientations."
[report]
(for [or-vec [[[1 0 0] [0 1 0] [0 0 1]]
[[1 0 0] [0 0 -1] [0 1 0]]
[[1 0 0] [0 -1 0] [0 0 -1]]
[[1 0 0] [0 0 1] [0 -1 0]]
[[-1 0 0] [0 -1 0] [0 0 1]]
[[-1 0 0] [0 0 -1] [0 -1 0]]
[[-1 0 0] [0 1 0] [0 0 -1]]
[[-1 0 0] [0 0 1] [0 1 0]]
[[0 0 -1] [1 0 0] [0 -1 0]]
[[0 1 0] [1 0 0] [0 0 -1]]
[[0 0 1] [1 0 0] [0 1 0]]
[[0 -1 0] [1 0 0] [0 0 1]]
[[0 0 1] [-1 0 0] [0 -1 0]]
[[0 1 0] [-1 0 0] [0 0 1]]
[[0 0 -1] [-1 0 0] [0 1 0]]
[[0 -1 0] [-1 0 0] [0 0 -1]]
[[0 -1 0] [0 0 -1] [1 0 0]]
[[0 0 1] [0 -1 0] [1 0 0]]
[[0 1 0] [0 0 1] [1 0 0]]
[[0 0 -1] [0 1 0] [1 0 0]]
[[0 0 1] [0 1 0] [-1 0 0]]
[[0 -1 0] [0 0 1] [-1 0 0]]
[[0 0 -1] [0 -1 0] [-1 0 0]]
[[0 1 0] [0 0 -1] [-1 0 0]]]]
(map #(orient (map - %) or-vec) report)))
(defn scanner-build-potential-links
"Builds a list for each s2 orientation that contains lists of each s1 point
added to the corresponding s2 point."
[s1 s2]
(for [s2-or (scanner-orientations s2)]
(for [i (range 0 (count s1))]
(for [j (range 0 (count s2-or))]
(point-add (nth s1 i) (nth s2-or j))))))
(defn scanner-find-connection
"Attempt to determine if s1 and s2 are linked through common beacons."
[s1 s2]
(let [potential-links (as-> (scanner-build-potential-links s1 s2) $
(for [i (range 0 (count $))] [i (nth $ i)]))]
(filter some?
(map
(fn [[orientation link]]
(let [distinct-points (into [] (distinct (reduce concat link)))
link-results
(into '()
(r/fold (quot (count distinct-points) 16) r/cat
(fn [pcoll point]
(if-not (empty? pcoll)
pcoll
(let [occurrance-count (reduce
#(cond-> %1
(not (empty? (filter (partial = point) %2)))
inc)
1 link)]
(cond-> pcoll (> occurrance-count 11) (r/append! point)))))
distinct-points))]
(when (not (empty? link-results))
[orientation (first link-results)])))
(into [] potential-links)))))
(defn scanner-merge
"Merges the report of linked scanner s2 into scanner s1."
[s1 s2 s2-or s2-coord]
(let [s2-ored (scanner-orientation s2 s2-or)]
(distinct (concat s1 (map #(point-add s2-coord (map - %)) s2-ored)))))
(def reports (->> (slurp "./in")
(clojure.string/split-lines)
(build-scanner-reports)
(vec)))
(let [[beacon-count scanner-coords]
(loop [new-reps reports sc-coords '([0 0 0]) i (range 1 (count reports))]
(println "Trying" (first i) (map count new-reps))
(if (nil? (first i))
; reached end (uh oh?)
[(count new-reps) sc-coords]
; scan for links to report i
(let [found (scanner-find-connection (first new-reps)
(get new-reps (first i)))]
(if (empty? found)
; no match, move to next i
(recur new-reps sc-coords (rest i))
(do (println " Found" found)
(recur
(-> new-reps
; replace index zero with merged report
(assoc 0 (scanner-merge (first new-reps)
(get new-reps (first i))
(first (first found))
(second (first found))))
; remove report we pulled from
(#(concat (subvec % 0 (first i))
(subvec % (inc (first i)))))
; back to vector
(vec))
(conj sc-coords (second (first found)))
; begin new scan
(range 1 (count new-reps))))))))]
(println "Part 1:" beacon-count)
(println "Part 2:"
(apply max
(for [p1 scanner-coords p2 scanner-coords :when (not= p1 p2)]
(apply + (map #(Math/abs %) (point-add (map - p1) p2)))))))