stk/STklos/Examples/complex.stklos

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;;;;
;;;; c o m p l e x . s t k l o s -- The documentation example
;;;;
;;;; Copyright © 1998 Erick Gallesio - I3S-CNRS/ESSI <eg@unice.fr>
;;;;
;;;; Permission to use, copy, and/or distribute this software and its
;;;; documentation for any purpose and without fee is hereby granted, provided
;;;; that both the above copyright notice and this permission notice appear in
;;;; all copies and derived works. Fees for distribution or use of this
;;;; software or derived works may only be charged with express written
;;;; permission of the copyright holder.
;;;; This software is provided ``as is'' without express or implied warranty.
;;;;
;;;; $Id: complex.stklos 1.1 Thu, 22 Jan 1998 15:04:46 +0000 eg $
;;;;
;;;; Author: Erick Gallesio [eg@kaolin.unice.fr]
;;;; Creation date: 20-Jan-1998 17:28
;;;; Last file update: 20-Jan-1998 19:07
;;;;
;;;; This file corresponds to the example shown in the STklos documentation
;;;;
; ==== Class definition
(define-class <complex> (<number>)
(;; True slots use rectangular coordinates
(r :initform 0 :accessor real-part :init-keyword :r)
(i :initform 0 :accessor imag-part :init-keyword :i)
;; Virtual slots access do the conversion
(m :accessor magnitude :init-keyword :magn
:allocation :virtual
:slot-ref (lambda (o)
(let ((r (slot-ref o 'r)) (i (slot-ref o 'i)))
(sqrt (+ (* r r) (* i i)))))
:slot-set! (lambda (o m)
(let ((a (slot-ref o 'a)))
(slot-set! o 'r (* m (cos a)))
(slot-set! o 'i (* m (sin a))))))
(a :accessor angle :init-keyword :angle
:allocation :virtual
:slot-ref (lambda (o)
(atan (slot-ref o 'i) (slot-ref o 'r)))
:slot-set! (lambda(o a)
(let ((m (slot-ref o 'm)))
(slot-set! o 'r (* m (cos a)))
(slot-set! o 'i (* m (sin a))))))))
;==== The scheme MAKE-RECTANGULAR and MAKE-POLAR procedures
(define make-rectangular (lambda (x y) (make <complex> :r x :i y)))
(define make-polar (lambda (x y) (make <complex> :magn x :angle y)))
;==== Define methods to pretty print complex numbers
(define-method write-object ((c <complex>) port)
(format port "#.(make <complex> :r ~S :i ~S)" (real-part c) (imag-part c)))
(define-method display-object ((c <complex>) port)
(format port "~S+~Si" (real-part c) (imag-part c)))
;==== Define methods to compare complex numbers
(define-method object-eqv? ((a <complex>) (b <complex>))
(and (= (real-part a) (real-part b))
(= (imag-part a) (imag-part b))))
(define-method object-equal? ((a <complex>) (b <complex>))
(eqv? a b))
(define-generic new-+)
(let ((+ +))
(define-method new-+ ((a <real>) (b <real>)) (+ a b))
(define-method new-+ ((a <real>) (b <complex>))
(make-rectangular (+ a (real-part b)) (imag-part b)))
(define-method new-+ ((a <complex>) (b <real>))
(make-rectangular (+ (real-part a) b) (imag-part a)))
(define-method new-+ ((a <complex>) (b <complex>))
(make-rectangular (+ (real-part a) (real-part b))
(+ (imag-part a) (imag-part b))))
(define-method new-+ ((a <number>)) a)
(define-method new-+ () 0)
(define-method new-+ args (new-+ (car args) (apply new-+ (cdr args))))
)
(set! + new-+)
(define c1 (make <complex> :r 2 :i 3))
(define c2 (make <complex> :r 3 :i 4))
(define c3 (make-rectangular 3 2))