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#lang racket
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; util
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(define (split-on lst x) ; like splitOn in haskell. couldn't find this in the std lib..
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(foldr (λ (element next)
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(if (equal? element x)
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(cons empty next)
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(cons (cons element (first next)) (rest next))))
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(list empty) lst))
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(define (map-map f lst) ; why tf can't i do (compose map map)
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(map (λ (x) (map (λ (y) (f y)) x)) lst))
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(define (map-map-map f lst) ; (map . map . map)
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(map (λ (x) (map-map f x)) lst))
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(define (transpose xss)
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(apply map list xss))
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(define (all? f list)
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(not (findf (λ (x) (not (f x))) list)))
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; IO and setup
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(define lines
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(file->lines "day4.txt"))
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(define numbers ; grab first line of file, split into a list on ,
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(map string->number (string-split (first lines) ",")))
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(define boards
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(let* ([str-lists (split-on (drop lines 2) "")] ; split on empty lines
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[split-up (map-map string-split str-lists)] ; convert '("1 2 3") to '("1" "2" "3")
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[num-lists (map-map-map string->number split-up)]) ; convert '("1" "2" "3") to '(1 2 3)
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(map-map-map (λ (x) (cons x #f)) num-lists))); change each cell to (<number>, <picked>)
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; part 1
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(define (mark-board board number) ; mark up a board with #t or #f based on the number
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(map-map (λ (cell)
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(match cell
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[(cons num on) (cons num (or on (= num number)))]))
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board))
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(define (mark-boards boards number) ; mark all boards based on the number
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(map (λ (board) (mark-board board number)) boards))
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(define (all-winners? lst) ; check if all pairs in the list are #t
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(all? cdr lst))
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(define (is-winner? board) ; check if any row or column in the board is a winner
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(let ([cols (transpose board)])
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(or
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(findf all-winners? board)
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(findf all-winners? cols))))
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(define (mark-all-until-win boards numbers)
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(foldl (λ (number acc)
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(match acc
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([cons boards last-number]
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(if (findf is-winner? boards) ; if we have any winners
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(cons boards last-number) ; just return the boards
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(cons (mark-boards boards number) number))))) ; otherwise keep marking
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(cons boards 0) numbers))
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(define (sum-unmarked board)
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(let* ([cells (apply append board)] ; flatten it
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[unmarked (filter (λ (x) (not (cdr x))) cells)] ; filter out marked cells
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[nums (map car unmarked)])
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(foldl + 0 nums)))
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(define part1
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(let* ([marked-up (mark-all-until-win boards numbers)] ; get (the final board state . last number)
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[marked-boards (car marked-up)] ; car out the boards
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[last-number (cdr marked-up)] ; cdr out the last number
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[winning-board (findf is-winner? marked-boards)] ; find the winning board
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[unmarked-sum (sum-unmarked winning-board)]) ; sum up the unmarked cells
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(* unmarked-sum last-number)))
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part1
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; part 2
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(define (mark-all-until-one boards numbers)
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(foldl (λ (number acc)
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(match acc
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([cons boards last-number]
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(if (= (length boards) 1) ; if we have only have 1 board left
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(cons boards last-number) ; just return it
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(let ([filtered-boards (filter (λ (x) (not (is-winner? x))) boards)]) ; otherwise filter out the winners
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(cons (mark-boards filtered-boards number) number)))))) ; and then keep marking
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(cons boards 0) numbers))
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(define part2
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(let* ([marked-up (mark-all-until-one boards numbers)] ; get (the final board state . last number)
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[marked-boards (car marked-up)] ; car out the boards
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[last-number (cdr marked-up)] ; cdr out the last number
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[winning-board (findf is-winner? marked-boards)] ; find the winning board
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[unmarked-sum (sum-unmarked winning-board)]) ; sum up the unmarked cells
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(* unmarked-sum last-number)))
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part2
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