aoc-all

My solutions to all Advent of Code
git clone https://git.instinctive.eu/aoc-all.git
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day20.scm (6611B)


      1 ; Copyright (c) 2023, Natacha Porté
      2 ;
      3 ; Permission to use, copy, modify, and distribute this software for any
      4 ; purpose with or without fee is hereby granted, provided that the above
      5 ; copyright notice and this permission notice appear in all copies.
      6 ;
      7 ; THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
      8 ; WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
      9 ; MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
     10 ; ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
     11 ; WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
     12 ; ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
     13 ; OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
     14 
     15 (import (chicken io) (chicken sort) (chicken string)
     16         comparse
     17         trace
     18         srfi-1
     19         srfi-14
     20         srfi-69)
     21 
     22 ;;;;;;;;;;;;;;;;;
     23 ;; Input parsing
     24 
     25 (define letters
     26   (as-string (one-or-more (in char-set:letter))))
     27 
     28 (define operator
     29   (in #\% #\&))
     30 
     31 (define source
     32   (any-of (as-string (char-seq "broadcaster"))
     33           (sequence operator letters)))
     34 
     35 (define data-line
     36   (sequence* ((label source)
     37               (_ (char-seq " -> "))
     38               (first letters)
     39               (rest (zero-or-more (preceded-by (char-seq ", ") letters)))
     40               (_ (is #\newline)))
     41     (result `(,label ,first . ,rest))))
     42 
     43 (define all-data
     44   (one-or-more data-line))
     45 
     46 (define data
     47    (map (lambda (line) (if (pair? (car line))
     48                            (cons (cadar line) (cons (caar line) (cdr line)))
     49                            line))
     50         (parse all-data (read-string))))
     51 (define verbose (< (length data) 10))
     52 (when verbose (write-line (conc "Input: " data)))
     53 
     54 ;;;;;;;;;;;;;;;;;
     55 ;; First Puzzle
     56 
     57 (define node-names (map car data))
     58 
     59 (define node-hash (alist->hash-table data))
     60 
     61 (define back-links
     62   (let ((result (alist->hash-table (map (lambda (name) (list name))
     63                                         node-names))))
     64     (let outer-loop ((todo data))
     65       (if (null? todo)
     66           result
     67           (begin
     68             (let inner-loop ((name (caar todo))
     69                              (dest (if (equal? (caar todo) "broadcaster")
     70                                        (cdar todo)
     71                                        (cddar todo))))
     72               (unless (null? dest)
     73                 (hash-table-set! result (car dest)
     74 ;                    (cons name (hash-table-ref result (car dest))))
     75                      (cons name (hash-table-ref/default result (car dest) '())))
     76                 (inner-loop name (cdr dest))))
     77             (outer-loop (cdr todo)))))))
     78 
     79 (define memories
     80   (alist->hash-table
     81     (filter (lambda (line) (not (null? line)))
     82             (map (lambda (line)
     83                    (cond ((eqv? (cadr line) #\&)
     84                              (cons (car line)
     85                                    (alist->hash-table
     86                                      (map (lambda (dest) (cons dest #f))
     87                                           (hash-table-ref back-links
     88                                                           (car line))))))
     89                          ((eqv? (cadr line) #\%) (cons (car line) #f))
     90                          (else '())))
     91                  data))))
     92 
     93 (define (all? hash)
     94   (let loop ((todo (hash-table->alist hash)))
     95     (cond ((null? todo) #t)
     96           ((not (cdar todo)) #f)
     97           (else (loop (cdr todo))))))
     98 
     99 (define (run-node from high? name)
    100 (if (hash-table-exists? node-hash name)
    101   (let ((def (hash-table-ref node-hash name)))
    102     (cond ((eqv? (car def) #\%)
    103              (if high? '()
    104                  (let ((new-state (not (hash-table-ref memories name))))
    105                    (hash-table-set! memories name new-state)
    106                    (map (lambda (dest) (list name new-state dest)) (cdr def)))))
    107           ((eqv? (car def) #\&)
    108              (let ((mem (hash-table-ref memories name)))
    109                (hash-table-set! mem from high?)
    110                (let ((sent-state (not (all? mem))))
    111                  (map (lambda (dest) (list name sent-state dest)) (cdr def)))))
    112           (else (assert #f "Unrunnable def " def " at node " name))))
    113 '()))
    114 
    115 (define (run-list state-list)
    116   (apply append (map (lambda (args) (apply run-node args)) state-list)))
    117 
    118 (define start-list
    119   (map (lambda (dest) (list "broadcaster" #f dest))
    120        (hash-table-ref node-hash "broadcaster")))
    121 
    122 (define (run-cycle state-list n-low n-high)
    123   (if (null? state-list)
    124       (list n-low n-high)
    125       (run-cycle (run-list state-list)
    126                  (+ n-low (apply + (map (lambda (line) (if (cadr line) 0 1)) state-list)))
    127                  (+ n-high (apply + (map (lambda (line) (if (cadr line) 1 0)) state-list))))))
    128 
    129 (define (run-cycles n n-low n-high)
    130   (if (= 0 n)
    131       (list n-low n-high)
    132       (let ((c (run-cycle start-list (add1 n-low) n-high)))
    133         (run-cycles (sub1 n) (car c) (cadr c)))))
    134 ;(trace run-list)
    135 
    136 (write-line (conc "First puzzle:  " (apply * (run-cycles 1000 0 0))))
    137 
    138 ;;;;;;;;;;;;;;;;;
    139 ;; Second Puzzle
    140 
    141 ; The second puzzle was done with eyes and paper, after having the spoiler
    142 ; that the problem is supposed to be solved using the special structure of
    143 ; the invidual input.
    144 ; I hate this kind of puzzles.
    145 
    146 ;(define memories
    147 ;  (alist->hash-table
    148 ;    (filter (lambda (line) (not (null? line)))
    149 ;            (map (lambda (line)
    150 ;                   (cond ((eqv? (cadr line) #\&)
    151 ;                             (cons (car line)
    152 ;                                   (alist->hash-table
    153 ;                                     (map (lambda (dest) (cons dest #f))
    154 ;                                          (hash-table-ref back-links
    155 ;                                                          (car line))))))
    156 ;                         ((eqv? (cadr line) #\%) (cons (car line) #f))
    157 ;                         (else '())))
    158 ;                 data))))
    159 ;(define (run-cycle-2 state-list n-low n-high n-rx)
    160 ;  (if (null? state-list)
    161 ;      (list n-low n-high n-rx)
    162 ;      (run-cycle-2 (run-list state-list)
    163 ;                   (+ n-low (apply + (map (lambda (line) (if (cadr line) 0 1)) state-list)))
    164 ;                   (+ n-high (apply + (map (lambda (line) (if (cadr line) 1 0)) state-list)))
    165 ;                   (+ n-rx (apply + (map (lambda (line) (if (and (not (cadr line)) (equal? (caddr line) "ln")) 1 0)) state-list)))
    166 ;)))
    167 
    168 ;(define (run-cycles-2 n n-low n-high)
    169 ;      (let ((c (run-cycle-2 start-list (add1 n-low) n-high 0)))
    170 ;(if (> (caddr c) 0)
    171 ;(write-line (conc n " " (caddr c)))
    172 ;        (run-cycles-2 (add1 n) (car c) (cadr c)))))
    173 
    174 ;(write-line (conc "Second puzzle: " (run-cycles-2 1 0 0)))