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1 (ns adventofcode2019.intcode
2 [:require [adventofcode2019.lib :refer :all]])
3
4 ;; 0: function args&mem -> [mem (ctr -> ctr)]
5 ;; 1: number of args
6 (defn- decode-op [opcode]
7 (let [str-code (format "%05d" opcode)
8 flags (reverse (take 3 str-code))
9 op (vec (drop 3 str-code))
10 apply-flag (fn [flag arg]
11 (case flag
12 ;; ORs avoid returning nil
13 \0 (fn ([S] (or (get-in S [:memory arg]) 0))
14 ([_ _] arg))
15 \1 (constantly arg)
16 \2 (fn ([S] (or (get-in S [:memory (+ arg (:relctr S))]) 0))
17 ([S _] (+ arg (:relctr S))))))
18 with-flags (fn [f]
19 (fn [S & args]
20 (apply f S (map apply-flag flags args))))]
21 (with-flags
22 (case op
23 [\0 \1] (fn [S a b c] ; ADD
24 (-> S
25 (assoc-in [:memory (c S true)] (+' (a S) (b S)))
26 (update :ctr + 4)))
27 [\0 \2] (fn [S a b c] ; MULT
28 (-> S
29 (assoc-in [:memory (c S true)] (*' (a S) (b S)))
30 (update :ctr + 4)))
31 [\0 \3] (fn [S a _ _] ; IN
32 (-> S
33 (assoc-in [:memory (a S true)] (first (:input S)))
34 (update :input rest)
35 (update :ctr + 2)))
36 [\0 \4] (fn [S a _ _] ; OUT
37 (-> S
38 (update :output conj (a S))
39 (update :ctr + 2)))
40 [\0 \5] (fn [S a b _] ; BNEQ
41 (update S :ctr (if (not= (a S) 0) (constantly (b S)) #(+ % 3))))
42 [\0 \6] (fn [S a b _] ; BEQ
43 (update S :ctr (if (= (a S) 0) (constantly (b S)) #(+ % 3))))
44 [\0 \7] (fn [S a b c] ; SLT
45 (-> S
46 (assoc-in [:memory (c S true)] (if (< (a S) (b S)) 1 0))
47 (update :ctr + 4)))
48 [\0 \8] (fn [S a b c] ; SEQ
49 (-> S
50 (assoc-in [:memory (c S true)] (if (= (a S) (b S)) 1 0))
51 (update :ctr + 4)))
52 [\0 \9] (fn [S a _ _] ; SREL
53 (-> S
54 (update :relctr + (a S))
55 (update :ctr + 2)))
56 [\9 \9] (fn [S _ _ _] ; EXIT
57 (assoc S :exit 1))))))
58
59 (defn- perform-operation [{:keys [memory ctr] :as state}]
60 (let [operation (decode-op (memory ctr))
61 args (map memory [(+ 1 ctr) (+ 2 ctr) (+ 3 ctr)])]
62 (apply operation state args)))
63
64 (defn build-state
65 ([program]
66 (let [memory (into {} (map-indexed #(vector %1 %2) program))]
67 {:memory memory :ctr 0 :input [] :output [] :relctr 0}))
68 ([program settings]
69 (merge (build-state program) settings)))
70
71 (defn intcode [{:as state :keys [memory output]}]
72 (cond ; quit if :exit, step and return state if :step, else loop
73 (get state :exit) {:memory memory :output output :exit true}
74 (get state :step) (perform-operation state)
75 :else (recur (perform-operation state))))
76
77 (defn intcode-until [pred state]
78 (as-> (assoc state :step true) it
79 (iterate intcode it)
80 (drop-while #(not (or (:exit %) (pred %))) it)
81 (first it)
82 (dissoc it :step)))