src/2019/days/day-14.lisp @ 03d0cc3a648f
2019/14
| author | Steve Losh <steve@stevelosh.com> |
|---|---|
| date | Sat, 14 Dec 2019 12:47:15 -0500 |
| parents | (none) |
| children | 182bdd87fd9e |
(advent:defpackage* :advent/2019/14) (in-package :advent/2019/14) (defun parse-chem (chemicals) (iterate (for ((#'parse-integer amount) (#'symb name)) :matching "(\\d+) (\\w+)" :against chemicals) (collect (cons name amount)))) (defun parse-line (line) (destructuring-bind (inputs output) (ppcre:split "=>" line) (values (first (parse-chem output)) (parse-chem inputs)))) (defun parse-data (data) "Parse `data` into a hash table of reactions and a digraph. The resulting hash table will look like: RESULT ::= {element: REACTION, …} REACTION ::= (amount-produced . INPUTS) INPUTS :: (INPUT*) INPUT ::= (element . amount-required) " (iterate (with graph = (digraph:make-digraph)) (for line :in data) (for (values (out . out-amount) inputs) = (parse-line line)) (iterate (for (in . nil) :in inputs) (ensure-edge graph in out)) (collect-hash (out (cons out-amount inputs)) :into reactions) (returning reactions graph))) (defun requirements (element amount reactions) "Return the requirements to produce `amount` of `element` via `reactions`. The result will be an alist of `(input-element . input-amount)`. " (destructuring-bind (produced-amount . inputs) (gethash element reactions) (let ((n (ceiling amount produced-amount))) (iterate (for (el . amount) :in inputs) (collect (cons el (* n amount))))))) (defun ore-required (reactions graph &optional (fuel 1)) "Return the amount of ore required to produce `fuel` fuel." (iterate (with needed = (make-hash-table)) (initially (setf (gethash 'fuel needed) fuel)) (for next :in (digraph:topological-sort graph)) (for (values el amount found) = (pophash needed next)) (cond ((not found)) ((eql el 'ore) (return amount)) (t (iterate (for (input . in-amount) :in (requirements el amount reactions)) (incf (gethash input needed 0) in-amount)))))) (define-problem (2019 14) (data read-lines) (502491 2944565) (multiple-value-bind (reactions graph) (parse-data data) (values (ore-required reactions graph) (bisect-integers-left (lambda (fuel) (<= (ore-required reactions graph fuel) 1000000000000)) 0 1000000000000)))) #; Scratch -------------------------------------------------------------------- (run '( "10 ORE => 10 A" "1 ORE => 1 B" "7 A, 1 B => 1 C" "7 A, 1 C => 1 D" "7 A, 1 D => 1 E" "7 A, 1 E => 1 FUEL" )) (run '( "2 VPVL, 7 FWMGM, 2 CXFTF, 11 MNCFX => 1 STKFG" "17 NVRVD, 3 JNWZP => 8 VPVL" "53 STKFG, 6 MNCFX, 46 VJHF, 81 HVMC, 68 CXFTF, 25 GNMV => 1 FUEL" "22 VJHF, 37 MNCFX => 5 FWMGM" "139 ORE => 4 NVRVD" "144 ORE => 7 JNWZP" "5 MNCFX, 7 RFSQX, 2 FWMGM, 2 VPVL, 19 CXFTF => 3 HVMC" "5 VJHF, 7 MNCFX, 9 VPVL, 37 CXFTF => 6 GNMV" "145 ORE => 6 MNCFX" "1 NVRVD => 8 CXFTF" "1 VJHF, 6 MNCFX => 4 RFSQX" "176 ORE => 6 VJHF" ))