結果

問題 No.1068 #いろいろな色 / Red and Blue and more various colors (Hard)
ユーザー sansaquasansaqua
提出日時 2020-05-29 22:33:22
言語 Common Lisp
(sbcl 2.3.8)
結果
RE  
実行時間 -
コード長 11,636 bytes
コンパイル時間 613 ms
コンパイル使用メモリ 61,028 KB
実行使用メモリ 142,028 KB
最終ジャッジ日時 2024-11-06 06:01:29
合計ジャッジ時間 8,273 ms
ジャッジサーバーID
(参考情報)
judge4 / judge3
このコードへのチャレンジ
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テストケース

テストケース表示
入力 結果 実行時間
実行使用メモリ
testcase_00 AC 11 ms
31,012 KB
testcase_01 AC 9 ms
26,792 KB
testcase_02 AC 11 ms
27,048 KB
testcase_03 AC 63 ms
41,672 KB
testcase_04 AC 41 ms
31,736 KB
testcase_05 AC 42 ms
31,356 KB
testcase_06 AC 37 ms
31,612 KB
testcase_07 AC 36 ms
31,476 KB
testcase_08 AC 41 ms
31,480 KB
testcase_09 AC 44 ms
33,516 KB
testcase_10 AC 25 ms
29,676 KB
testcase_11 AC 37 ms
33,516 KB
testcase_12 AC 24 ms
33,480 KB
testcase_13 RE -
testcase_14 RE -
testcase_15 RE -
testcase_16 RE -
testcase_17 RE -
testcase_18 RE -
testcase_19 RE -
testcase_20 RE -
testcase_21 RE -
testcase_22 RE -
testcase_23 RE -
testcase_24 RE -
testcase_25 RE -
testcase_26 RE -
testcase_27 RE -
testcase_28 RE -
testcase_29 AC 2,594 ms
136,292 KB
testcase_30 AC 2,583 ms
142,028 KB
testcase_31 AC 11 ms
26,920 KB
権限があれば一括ダウンロードができます
コンパイルメッセージ
; compiling file "/home/judge/data/code/Main.lisp" (written 06 NOV 2024 06:01:20 AM):

; file: /home/judge/data/code/Main.lisp
; in: DEFUN NTT!
;     (COERCE VECTOR 'NTT-VECTOR)
; 
; note: unable to
;   optimize
; due to type uncertainty:
;   The second argument is a (AND VECTOR
;                                 (NOT
;                                  (SIMPLE-ARRAY (UNSIGNED-BYTE 31)
;                                   (*)))), not a (SIMPLE-ARRAY * (*)).

; in: DEFUN MAIN
;     (MAKE-ARRAY N2 :ELEMENT-TYPE '(SIMPLE-ARRAY UINT31 (*)))
; 
; caught STYLE-WARNING:
;   The default initial element 0 is not a (SIMPLE-ARRAY UINT31 (*)).
;   See also:
;     The ANSI Standard, Function MAKE-ARRAY
;     The ANSI Standard, Function UPGRADED-ARRAY-ELEMENT-TYPE
; 
; compilation unit finished
;   caught 1 STYLE-WARNING condition
;   printed 1 note


; wrote /home/judge/data/code/Main.fasl
; compilation finished in 0:00:00.120

ソースコード

diff #

(eval-when (:compile-toplevel :load-toplevel :execute)
  (sb-int:defconstant-eqx opt
    #+swank '(optimize (speed 3) (safety 2))
    #-swank '(optimize (speed 3) (safety 0) (debug 0))
    #'equal)
  #+swank (ql:quickload '(:cl-debug-print :fiveam) :silent t)
  #-swank (set-dispatch-macro-character
           #\# #\> (lambda (s c p) (declare (ignore c p)) `(values ,(read s nil nil t)))))
#+swank (cl-syntax:use-syntax cl-debug-print:debug-print-syntax)
#-swank (disable-debugger) ; for CS Academy

;; BEGIN_INSERTED_CONTENTS
(declaim (ftype (function * (values fixnum &optional)) read-fixnum))
(defun read-fixnum (&optional (in *standard-input*))
  "NOTE: cannot read -2^62"
  (macrolet ((%read-byte ()
               `(the (unsigned-byte 8)
                     #+swank (char-code (read-char in nil #\Nul))
                     #-swank (sb-impl::ansi-stream-read-byte in nil #.(char-code #\Nul) nil))))
    (let* ((minus nil)
           (result (loop (let ((byte (%read-byte)))
                           (cond ((<= 48 byte 57)
                                  (return (- byte 48)))
                                 ((zerop byte) ; #\Nul
                                  (error "Read EOF or #\Nul."))
                                 ((= byte #.(char-code #\-))
                                  (setq minus t)))))))
      (declare ((integer 0 #.most-positive-fixnum) result))
      (loop
        (let* ((byte (%read-byte)))
          (if (<= 48 byte 57)
              (setq result (+ (- byte 48)
                              (* 10 (the (integer 0 #.(floor most-positive-fixnum 10))
                                         result))))
              (return (if minus (- result) result))))))))

;;;
;;; Fast Number Theoretic Transform
;;; Reference: https://kopricky.github.io/code/FFTs/ntt.html
;;;

(defconstant +ntt-mod+ 998244353)
(defconstant +ntt-root+ 3)
(deftype ntt-int () '(unsigned-byte 31))
(deftype ntt-vector () '(simple-array ntt-int (*)))

(eval-when (:compile-toplevel :load-toplevel :execute)
  (assert (typep +ntt-mod+ 'ntt-int)))

;; FIXME: Here I resort to SBCL's behaviour. Actually ADJUST-ARRAY isn't
;; guaranteed to preserve the given VECTOR.
(declaim (ftype (function * (values ntt-vector &optional)) %adjust-array))
(defun %adjust-array (vector length)
  (declare (vector vector))
  (let ((vector (coerce vector 'ntt-vector)))
    (if (= (length vector) length)
        (copy-seq vector)
        (adjust-array vector length :initial-element 0))))

(declaim (ftype (function * (values ntt-vector &optional)) ntt!))
(defun ntt! (vector &optional inverse)
  (declare #.OPT
           (vector vector))
  (labels ((power2-p (x)
             "Returns true iff X is a power of 2"
             (zerop (logand x (- x 1))))
           (mod* (x y)
             (declare (ntt-int x y))
             (mod (* x y) +ntt-mod+))
           (mod+ (x y)
             (declare (ntt-int x y))
             (let ((res (+ x y)))
               (if (>= res +ntt-mod+)
                   (- res +ntt-mod+)
                   res)))
           (mod- (x y)
             (declare (ntt-int x y))
             (mod+ x (- +ntt-mod+ y)))
           (mod-power (base exp)
             (declare (ntt-int base)
                      ((integer 0 #.most-positive-fixnum) exp))
             (let ((res 1))
               (declare (ntt-int res))
               (loop while (> exp 0)
                     when (oddp exp)
                     do (setq res (mod* res base))
                     do (setq base (mod* base base)
                              exp (ash exp -1)))
               res))
           (mod-inverse (x)
             (mod-power x (- +ntt-mod+ 2))))
    (declare (inline mod* mod+ mod-))
    (let ((len (length vector)))
      (assert (power2-p len))
      (check-type len ntt-int))
    (let* ((vector (coerce vector 'ntt-vector))
           (len (length vector))
           (roots (make-array (+ 1 (ash len -1)) :element-type 'ntt-int :initial-element 1))
           (tmp (make-array len :element-type 'ntt-int)))
      (declare ((simple-array ntt-int (*)) vector tmp)
               (ntt-int len))
      (when (<= len 1)
        (return-from ntt! vector))
      (let ((root (mod-power +ntt-root+
                              (if inverse
                                  (- +ntt-mod+ 1 (floor (- +ntt-mod+ 1) len))
                                  (floor (- +ntt-mod+ 1) len)))))
        (dotimes (i (ash len -1))
          (setf (aref roots (+ i 1))
                (mod* (aref roots i) root))))
      (loop for i of-type ntt-int = 1 then (ash i 1)
            for l of-type ntt-int = (ash len -1) then (ash l -1)
            while (< i len)
            do (loop for j from 0 below l
                     for r of-type ntt-int = 0 then (+ r i)
                     do (loop for k below i
                              for root = (aref roots (* i j))
                              for p = (aref vector (+ k r))
                              for q = (aref vector (+ k r (ash len -1)))
                              do (setf (aref tmp (+ k (* 2 r)))
                                       (mod+ p q)
                                       (aref tmp (+ k (* 2 r) i))
                                       (mod* (mod- p q) root))))
               (rotatef vector tmp))
      (when inverse
        (let ((inv (mod-inverse len)))
          (dotimes (i len)
            (setf (aref vector i) (mod* (aref vector i) inv)))))
      vector)))

(declaim (ftype (function * (values ntt-vector &optional)) ntt-convolute!))
(defun ntt-convolute (vector1 vector2 &optional fixed)
  (declare (optimize (speed 3))
           (vector vector1 vector2))
  (let ((len1 (length vector1))
        (len2 (length vector1)))
    (when fixed
      (assert (= len1 len2)))
    (let* ((mul-len (max 0 (- (+ len1 len2) 1)))
           ;; power of two ceiling
           (required-len (if fixed
                             len1
                             (ash 1 (integer-length (max 0 (- mul-len 1))))))
           (vector1 (ntt! (%adjust-array vector1 required-len)))
           (vector2 (ntt! (%adjust-array vector2 required-len)))
           (res (make-array required-len :element-type 'ntt-int :initial-element 0)))
      (dotimes (i required-len)
        (setf (aref res i)
              (mod (* (aref vector1 i) (aref vector2 i)) +ntt-mod+)))
      (ntt! res t))))

;;;
;;; Arithmetic operations with static modulus
;;;

;; FIXME: Currently MOD* and MOD+ doesn't apply MOD when the number of
;; parameters is one.
(defmacro define-mod-operations (divisor)
  `(progn
     (defun mod* (&rest args)
       (reduce (lambda (x y) (mod (* x y) ,divisor)) args))

     (defun mod+ (&rest args)
       (reduce (lambda (x y) (mod (+ x y) ,divisor)) args))

     #+sbcl
     (eval-when (:compile-toplevel :load-toplevel :execute)
       (locally (declare (muffle-conditions warning))
         (sb-c:define-source-transform mod* (&rest args)
           (if (null args)
               1
               (reduce (lambda (x y) `(mod (* ,x ,y) ,',divisor)) args)))
         (sb-c:define-source-transform mod+ (&rest args)
           (if (null args)
               0
               (reduce (lambda (x y) `(mod (+ ,x ,y) ,',divisor)) args)))))

     (define-modify-macro incfmod (delta)
       (lambda (x y) (mod (+ x y) ,divisor)))

     (define-modify-macro decfmod (delta)
       (lambda (x y) (mod (- x y) ,divisor)))

     (define-modify-macro mulfmod (multiplier)
       (lambda (x y) (mod (* x y) ,divisor)))))


(in-package :cl-user)

(defmacro dbg (&rest forms)
  #+swank
  (if (= (length forms) 1)
      `(format *error-output* "~A => ~A~%" ',(car forms) ,(car forms))
      `(format *error-output* "~A => ~A~%" ',forms `(,,@forms)))
  #-swank (declare (ignore forms)))

(defmacro define-int-types (&rest bits)
  `(progn
     ,@(mapcar (lambda (b) `(deftype ,(intern (format nil "UINT~A" b)) () '(unsigned-byte ,b))) bits)
     ,@(mapcar (lambda (b) `(deftype ,(intern (format nil "INT~A" b)) () '(signed-byte ,b))) bits)))
(define-int-types 2 4 7 8 15 16 31 32 62 63 64)

(declaim (inline println))
(defun println (obj &optional (stream *standard-output*))
  (let ((*read-default-float-format* 'double-float))
    (prog1 (princ obj stream) (terpri stream))))

(defconstant +mod+ 998244353)

;;;
;;; Body
;;;

(define-mod-operations +mod+)
(defun main ()
  (let* ((n (read))
         (n2 (sb-int:power-of-two-ceiling n))
         (q (read))
         (polys (make-array n2 :element-type '(simple-array uint31 (*)))))
    (declare (uint31 n q))
    (dotimes (i n2)
      (if (< i n)
          (let ((a (read))
                (poly (make-array 2 :element-type 'uint31)))
            (setf (aref poly 1) (- a 1)
                  (aref poly 0) 1)
            (setf (aref polys i) poly))
          (let ((poly (make-array 2 :element-type 'uint31)))
            (setf (aref poly 1) 0
                  (aref poly 0) 1)
            (setf (aref polys i) poly))))
    (loop for width = 1 then (ash width 1)
          while (< width n2)
          do (loop for i from 0 below n2 by (* width 2)
                   do (setf (aref polys i)
                            (ntt-convolute
                             (aref polys i)
                             (aref polys (+ i width))))))
    (let ((poly (aref polys 0)))
      (dotimes (i q)
        (let ((b (read-fixnum)))
          (println (aref poly (- n b))))))))

#-swank (main)

;;;
;;; Test and benchmark
;;;

#+swank
(defun io-equal (in-string out-string &key (function #'main) (test #'equal))
  "Passes IN-STRING to *STANDARD-INPUT*, executes FUNCTION, and returns true if
the string output to *STANDARD-OUTPUT* is equal to OUT-STRING."
  (labels ((ensure-last-lf (s)
             (if (eql (uiop:last-char s) #\Linefeed)
                 s
                 (uiop:strcat s uiop:+lf+))))
    (funcall test
             (ensure-last-lf out-string)
             (with-output-to-string (out)
               (let ((*standard-output* out))
                 (with-input-from-string (*standard-input* (ensure-last-lf in-string))
                   (funcall function)))))))

#+swank
(defun get-clipbrd ()
  (with-output-to-string (out)
    (run-program "powershell.exe" '("-Command" "Get-Clipboard") :output out :search t)))

#+swank (defparameter *this-pathname* (uiop:current-lisp-file-pathname))
#+swank (defparameter *dat-pathname* (uiop:merge-pathnames* "test.dat" *this-pathname*))

#+swank
(defun run (&optional thing (out *standard-output*))
  "THING := null | string | symbol | pathname

null: run #'MAIN using the text on clipboard as input.
string: run #'MAIN using the string as input.
symbol: alias of FIVEAM:RUN!.
pathname: run #'MAIN using the text file as input."
  (let ((*standard-output* out))
    (etypecase thing
      (null
       (with-input-from-string (*standard-input* (delete #\Return (get-clipbrd)))
         (main)))
      (string
       (with-input-from-string (*standard-input* (delete #\Return thing))
         (main)))
      (symbol (5am:run! thing))
      (pathname
       (with-open-file (*standard-input* thing)
         (main))))))

#+swank
(defun gen-dat ()
  (uiop:with-output-file (out *dat-pathname* :if-exists :supersede)
    (format out "")))

#+swank
(defun bench (&optional (out (make-broadcast-stream)))
  (time (run *dat-pathname* out)))

;; To run: (5am:run! :sample)
#+swank
(it.bese.fiveam:test :sample
  (it.bese.fiveam:is
   (common-lisp-user::io-equal "3 4
3 4 5
0 1 2 3
"
    "24
26
9
1
"))
  (it.bese.fiveam:is
   (common-lisp-user::io-equal "4 3
1 3 3 3
3 1 4
"
    "6
8
1
"))
  (it.bese.fiveam:is
   (common-lisp-user::io-equal "3 2
5 7 5
1 3
"
    "64
1
")))
0