Clean up, remove webshit
author |
Steve Losh <steve@stevelosh.com> |
date |
Fri, 28 Feb 2020 20:36:35 -0500 |
parents |
ef33bdcca28e |
children |
33ec50895f68 |
(in-package :cacl)
(defun cube (number) (* number number number))
(defun factorial (number)
(iterate (for i :from 1 :to number)
(multiplying i)))
(defun binomial-coefficient (n k)
"Return `n` choose `k`."
;; See https://en.wikipedia.org/wiki/Binomial_coefficient#Multiplicative_formula
(iterate (for i :from 1 :to k)
(multiplying (/ (- (1+ n) i) i))))
(define-constant-command e (exp 1.0d0))
(define-constant-command pi pi)
(define-constant-command tau tau)
(define-simple-command (!) 1 factorial)
(define-simple-command (*) 2)
(define-simple-command (+) 2)
(define-simple-command (-) 2)
(define-simple-command (/) 2)
(define-simple-command (abs) 1)
(define-simple-command (acos) 1)
(define-simple-command (asin) 1)
(define-simple-command (atan) 1)
(define-simple-command (atan2) 2 atan)
(define-simple-command (ceiling ceil) 1)
(define-simple-command (choose) 2 binomial-coefficient)
(define-simple-command (cos) 1)
(define-simple-command (cs) 1 -)
(define-simple-command (cube) 1)
(define-simple-command (denom) 1 denominator)
(define-simple-command (expt ex) 2)
(define-simple-command (floor) 1)
(define-simple-command (gcd) 2)
(define-simple-command (lcm) 2)
(define-simple-command (mod) 2)
(define-simple-command (numer) 1 numerator)
(define-simple-command (rat) 1 rationalize)
(define-simple-command (rec recip) 1 /)
(define-simple-command (rem) 2)
(define-simple-command (round) 1)
(define-simple-command (sin) 1)
(define-simple-command (sqrt) 1)
(define-simple-command (square sq) 1)
(define-simple-command (tan) 1)
(define-simple-command (truncate trunc tr) 1 truncate)
(define-command (float fl) (x)
"Coerce the top of the stack to a DOUBLE-FLOAT."
(push! (coerce x 'double-float)))
(define-command range (from below)
(map nil #'push! (range from below)))
(define-command irange (from to)
(map nil #'push! (range from (1+ to))))
(define-command base (n)
"Set the print base and read base for numbers to the top element of the stack.
For example, to switch to reading and displaying numbers in binary:
2 base
To switch back to base 10 you can run the command again, but you'll need to
write the 10 in the base you've chosen! It's often easer to `undo`, or use
the provided `base10` command.
"
(let ((pb *print-base*)
(rb *read-base*))
(save-thunk (lambda ()
(setf *print-base* pb
*read-base* rb))))
(setf *print-base* n
*read-base* n))
(define-command base10 ()
"Set the print base and read base for numbers to base 10."
(let ((pb *print-base*)
(rb *read-base*))
(save-thunk (lambda ()
(setf *print-base* pb
*read-base* rb))))
(setf *print-base* 10
*read-base* 10))
(define-command sum ()
"Pop the entire stack, add everything together, and push the result."
(push! (summation (pop-all!))))
(define-command prod ()
"Pop the entire stack, multiply everything together, and push the result."
(push! (product (pop-all!))))
(define-command log (base number)
(push! (log number base)))