From 1fbb07c54523c7a576bfff1cb689e155dd55f15a Mon Sep 17 00:00:00 2001 From: Prefetch Date: Sat, 2 Mar 2024 19:36:12 +0100 Subject: Add first five days --- 02/lib.scm | 74 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 74 insertions(+) create mode 100644 02/lib.scm (limited to '02/lib.scm') diff --git a/02/lib.scm b/02/lib.scm new file mode 100644 index 0000000..0274dad --- /dev/null +++ b/02/lib.scm @@ -0,0 +1,74 @@ +(library (lib) + (export solve-part1 solve-part2) + (import (chezscheme)) + + ; Split list at first delimiter into `prefix' and `suffix' + ; Return value is a pair like `((p r e f i x) s u f f i x)' + (define (list-split-left delimiter? xs) + (let loop ((prefix '()) + (suffix xs)) + (if (null? suffix) + (cons prefix suffix) + (let ((x (car suffix))) + (if (delimiter? x) + ; Found first delimiter, so return immediately + (cons prefix (cdr suffix)) + ; `x' isn't a delimiter, so append it to `prefix' + (loop (append prefix (list x)) (cdr suffix))))))) + + ; Split list at given delimiter into list of sublists + (define (list-split delimiter? xs) + (let loop ((pieces '()) + (rest xs)) + (if (null? rest) + ; Fix order and remove all empty sublists from output + ; (which are caused by consecutive delimiters in `xs') + (reverse (remp null? pieces)) + ; Extract next piece from `rest' and prepend it to `pieces' + (let ((next (list-split-left delimiter? rest))) + (loop (cons (car next) pieces) (cdr next)))))) + + ; Split string at whitespace into list of words + (define (string-split str) + (map list->string (list-split char-whitespace? (string->list str)))) + + ; Partially applied divisibility check + (define (check-divisor? x) + (lambda (y) + (and (not (= y 0)) ; Don't try dividing by zero + (not (= x y)) ; Disallow trivial solution + (= (mod x y) 0)))) + + ; Find minimum and maximum in row, return difference + (define (find-range row) + (- (apply max row) (apply min row))) + + ; Find `x' and `y' where `y' is divisor of `x', return quotient + (define (find-quotient row) + ; Note: we don't check if we've reached the end of `xs', + ; because we're guaranteed success before that happens. + ; We're also guaranteed only one non-trivial solution. + (let loop ((xs row)) + (let* ((x (car xs)) + (y (find (check-divisor? x) row))) + ; Is this the (`x',`y') combination we're looking for, + ; i.e. have we found a valid divisor `y' for this `x'? + (if y + (div x y) + (loop (cdr xs)))))) + + ; Add up result of `proc' for each `row' of numbers in `lines' + (define (solve-puzzle proc lines) + (fold-left + (lambda (accum row) + (+ accum (proc (map string->number row)))) + 0 + (map string-split lines))) + + (define (solve-part1 lines) + (solve-puzzle find-range lines)) + + (define (solve-part2 lines) + (solve-puzzle find-quotient lines)) + +) -- cgit v1.2.3