(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)))))))) ;;; ;;; 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))))) ;;; ;;; Binomial coefficient with mod ;;; build: O(n) ;;; query: O(1) ;;; ;; TODO: non-global handling (defconstant +binom-size+ 510000) (defconstant +binom-mod+ #.(+ (expt 10 9) 7)) (declaim ((simple-array (unsigned-byte 31) (*)) *fact* *fact-inv* *inv*)) (defparameter *fact* (make-array +binom-size+ :element-type '(unsigned-byte 31)) "table of factorials") (defparameter *fact-inv* (make-array +binom-size+ :element-type '(unsigned-byte 31)) "table of inverses of factorials") (defparameter *inv* (make-array +binom-size+ :element-type '(unsigned-byte 31)) "table of inverses of non-negative integers") (defun initialize-binom () (declare (optimize (speed 3) (safety 0))) (setf (aref *fact* 0) 1 (aref *fact* 1) 1 (aref *fact-inv* 0) 1 (aref *fact-inv* 1) 1 (aref *inv* 1) 1) (loop for i from 2 below +binom-size+ do (setf (aref *fact* i) (mod (* i (aref *fact* (- i 1))) +binom-mod+) (aref *inv* i) (- +binom-mod+ (mod (* (aref *inv* (rem +binom-mod+ i)) (floor +binom-mod+ i)) +binom-mod+)) (aref *fact-inv* i) (mod (* (aref *inv* i) (aref *fact-inv* (- i 1))) +binom-mod+)))) (initialize-binom) (declaim (inline binom)) (defun binom (n k) "Returns nCk." (if (or (< n k) (< n 0) (< k 0)) 0 (mod (* (aref *fact* n) (mod (* (aref *fact-inv* k) (aref *fact-inv* (- n k))) +binom-mod+)) +binom-mod+))) (declaim (inline perm)) (defun perm (n k) "Returns nPk." (if (or (< n k) (< n 0) (< k 0)) 0 (mod (* (aref *fact* n) (aref *fact-inv* (- n k))) +binom-mod+))) ;; TODO: compiler macro or source-transform (declaim (inline multinomial)) (defun multinomial (&rest ks) "Returns the multinomial coefficient K!/k_1!k_2!...k_n! for K = k_1 + k_2 + ... + k_n. K must be equal to or smaller than MOST-POSITIVE-FIXNUM. (multinomial) returns 1." (let ((sum 0) (result 1)) (declare ((integer 0 #.most-positive-fixnum) result sum)) (dolist (k ks) (incf sum k) (setq result (mod (* result (aref *fact-inv* k)) +binom-mod+))) (mod (* result (aref *fact* sum)) +binom-mod+))) (declaim (inline stirling2)) (defun stirling2 (n k) "Returns the stirling number of the second kind S2(n, k). Time complexity is O(klog(n))." (declare ((integer 0 #.most-positive-fixnum) n k)) (labels ((mod-power (base exp) (declare ((integer 0 #.most-positive-fixnum) base exp)) (loop with res of-type (integer 0 #.most-positive-fixnum) = 1 while (> exp 0) when (oddp exp) do (setq res (mod (* res base) +binom-mod+)) do (setq base (mod (* base base) +binom-mod+) exp (ash exp -1)) finally (return res)))) (loop with result of-type fixnum = 0 for i from 0 to k for delta = (mod (* (binom k i) (mod-power i n)) +binom-mod+) when (evenp (- k i)) do (incf result delta) (when (>= result +binom-mod+) (decf result +binom-mod+)) else do (decf result delta) (when (< result 0) (incf result +binom-mod+)) finally (return (mod (* result (aref *fact-inv* k)) +binom-mod+))))) (declaim (inline catalan)) (defun catalan (n) "Returns the N-th Catalan number." (declare ((integer 0 #.most-positive-fixnum) n)) (mod (* (aref *fact* (* 2 n)) (mod (* (aref *fact-inv* (+ n 1)) (aref *fact-inv* n)) +binom-mod+)) +binom-mod+)) (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+ 1000000007) ;;; ;;; Body ;;; (define-mod-operations +mod+) (defun main () (let* ((n (read)) (k (read)) (as (make-array n :element-type 'uint31 :initial-element 0)) (factors1 (make-array n :element-type 'uint31 :initial-element 0)) (factors2 (make-array n :element-type 'uint31 :initial-element 0)) (res 0)) (declare (uint31 res)) (dotimes (i n) (setf (aref as i) (read-fixnum))) (setf (aref factors2 0) 1) (loop for i from 1 below n do (setf (aref factors2 i) (mod* (+ k i) (aref factors2 (- i 1))))) (setf (aref factors1 (- n 1)) 1) (loop for i from (- n 2) downto 0 do (setf (aref factors1 i) (mod* (+ (- n i 1) k) (aref factors1 (+ i 1))))) ;; (dotimes (i n) ;; (incfmod res (mod* (aref as i) ;; (binom (+ (- n i 1) k) k) ;; (binom (+ i k) k)))) (dotimes (i n) (incfmod res (mod* (aref as i) (aref factors1 i) (aref *fact-inv* (- n i 1)) (aref factors2 i) (aref *fact-inv* i)))) (println res))) #-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 "2 2 3 4 " "21 ")) (it.bese.fiveam:is (common-lisp-user::io-equal "4 0 1 2 3 4 " "10 ")) (it.bese.fiveam:is (common-lisp-user::io-equal "5 100000000 1000000000 999999999 888888888 777777777 666666666 " "870870837 ")))