[2637] | 1 | ;;; -*- Mode: Lisp -*-
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| 2 | ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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| 3 | ;;;
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| 4 | ;;; Copyright (C) 1999, 2002, 2009, 2015 Marek Rychlik <rychlik@u.arizona.edu>
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| 5 | ;;;
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| 6 | ;;; This program is free software; you can redistribute it and/or modify
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| 7 | ;;; it under the terms of the GNU General Public License as published by
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| 8 | ;;; the Free Software Foundation; either version 2 of the License, or
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| 9 | ;;; (at your option) any later version.
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| 10 | ;;;
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| 11 | ;;; This program is distributed in the hope that it will be useful,
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| 12 | ;;; but WITHOUT ANY WARRANTY; without even the implied warranty of
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| 13 | ;;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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| 14 | ;;; GNU General Public License for more details.
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| 15 | ;;;
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| 16 | ;;; You should have received a copy of the GNU General Public License
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| 17 | ;;; along with this program; if not, write to the Free Software
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| 18 | ;;; Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
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| 19 | ;;;
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| 20 | ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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| 21 |
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| 22 | ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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| 23 | ;;
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| 24 | ;; Run tests using 5am unit testing framework
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| 25 | ;;
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| 26 | ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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| 27 |
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| 28 | ;; We assume that QuickLisp package manager is installed.
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| 29 | ;; See :
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| 30 | ;; https://www.quicklisp.org/beta/
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| 31 | ;;
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| 32 |
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| 33 | ;; The following is unnecessary after running:
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| 34 | ;; * (ql:add-to-init-file)
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| 35 | ;; at lisp prompt:
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| 36 | ;;(load "~/quicklisp/setup")
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| 37 |
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| 38 | (ql:quickload :fiveam)
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[3756] | 39 |
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[3765] | 40 | ;; Load dependencies
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[3763] | 41 | (require :copy "copy")
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| 42 | (require :monom "monom")
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| 43 | (require :utils "utils")
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[3764] | 44 | (require :polynomial "polynomial")
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[2637] | 45 |
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| 46 | (defpackage #:5am-poly
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[3492] | 47 | (:use :cl :it.bese.fiveam :monom :polynomial))
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[2637] | 48 |
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| 49 | (in-package :5am-poly)
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| 50 |
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[2638] | 51 | (def-suite poly-suite
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[3226] | 52 | :description "Polynomial package suite")
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[2637] | 53 |
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[2638] | 54 | (in-suite poly-suite)
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[2637] | 55 |
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| 56 | ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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| 57 | ;;
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| 58 | ;; POLY class tests
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| 59 | ;;
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| 60 | ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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| 61 |
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[2932] | 62 | (def-fixture poly-add-context ()
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[3266] | 63 | (let ((p (make-instance 'poly))
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[2677] | 64 | (q (make-instance 'poly :order nil))
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[2648] | 65 | (p+q (make-instance 'poly))
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[2688] | 66 | (p-q (make-instance 'poly))
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| 67 | (p-uminus (make-instance 'poly)))
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[2671] | 68 | ;; Populate the polynomials; the lists of (exponents . coefficient) pairs
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[2678] | 69 | ;; must be in increasing order in Q, but Q is unordered (:ORDER NIL)
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| 70 | ;; so it will be automatically sorted.
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[2670] | 71 | (dolist (x '( ((2) . 22) ((4) . 44) ((5) . 55) ((8) . 88) ((9) . 99) ))
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[3635] | 72 | (poly-insert-term p (make-instance 'term :exponents (car x) :coeff (cdr x))))
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[2679] | 73 | (dolist (x '( ((9) . 90) ((0) . 11) ((2) . 20) ((3) . 33) ((4) . -44) ((7) . 77) ((8) . 88) ))
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[3635] | 74 | (poly-insert-term q (make-instance 'term :exponents (car x) :coeff (cdr x))))
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[2737] | 75 | ;; P+Q
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[2734] | 76 | (dolist (x '(((0) . 11) ((2) . 42) ((3) . 33) ((5) . 55) ((7) . 77) ((8) . 176) ((9) . 189) ))
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[3635] | 77 | (poly-insert-term p+q (make-instance 'term :exponents (car x) :coeff (cdr x))))
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[2737] | 78 | ;; P-Q
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[2670] | 79 | (dolist (x '(((0) . -11) ((2) . 2) ((3) . -33) ((4) . 88) ((5) . 55) ((7) . -77) ((9) . 9)))
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[3635] | 80 | (poly-insert-term p-q (make-instance 'term :exponents (car x) :coeff (cdr x))))
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[2737] | 81 | ;; -P
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[3494] | 82 | (dolist (x '( ((2) . -22) ((4) . -44) ((5) . -55) ((8) . -88) ((9) . -99)))
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[3635] | 83 | (poly-insert-term p-uminus (make-instance 'term :exponents (car x) :coeff (cdr x))))
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[2664] | 84 | ;;(print p) (print q) (print p+q) (print p-q)
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[2637] | 85 | (&body)))
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| 86 |
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[2931] | 87 | (test poly-add
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[2637] | 88 | "Polynomial addition"
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[3637] | 89 | (with-fixture poly-add-context () (is (universal-equalp (add-to p q) p+q)))
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[3638] | 90 | (with-fixture poly-add-context () (is (universal-equalp (add p q) p+q)))
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[3637] | 91 | (with-fixture poly-add-context () (is (universal-equalp (subtract-from p q) p-q)))
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[3638] | 92 | (with-fixture poly-add-context () (is (universal-equalp (subtract p q) p-q)))
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[3637] | 93 | (with-fixture poly-add-context () (is (universal-equalp (unary-minus p) p-uminus)))
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[2652] | 94 | )
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[2637] | 95 |
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[2934] | 96 | (def-fixture poly-multiply-context ()
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[3266] | 97 | (let ((p (make-instance 'poly))
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[2934] | 98 | (q (make-instance 'poly :order nil))
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| 99 | (p*q (make-instance 'poly)))
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| 100 | ;; Populate the polynomials; the lists of (exponents . coefficient) pairs
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| 101 | ;; must be in increasing order in Q, but Q is unordered (:ORDER NIL)
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| 102 | ;; so it will be automatically sorted.
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| 103 | (dolist (x '( ((0) . 1) ((1) . 2) ))
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[3636] | 104 | (poly-insert-term p (make-instance 'term :exponents (car x) :coeff (cdr x))))
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[2934] | 105 | (dolist (x '( ((0) . 1) ((1) . 3) ))
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[3636] | 106 | (poly-insert-term q (make-instance 'term :exponents (car x) :coeff (cdr x))))
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[2934] | 107 | ;; P*Q
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| 108 | (dolist (x '( ((0) . 1) ((1) . 5) ((2) . 6)))
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[3636] | 109 | (poly-insert-term p*q (make-instance 'term :exponents (car x) :coeff (cdr x))))
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[2934] | 110 | (&body)))
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| 111 |
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| 112 |
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[2935] | 113 | (test poly-multiply
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| 114 | "Polynomial multiplication"
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[3638] | 115 | (with-fixture poly-multiply-context () (is (universal-equalp (multiply p q) p*q)))
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[2935] | 116 | )
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| 117 |
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[3097] | 118 | (test poly-standard-extension
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| 119 | "Standard extension"
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[3266] | 120 | (let* ((p (alist->poly '( ((0) . 1) ((1) . 2))))
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[3098] | 121 | (q (alist->poly '( ((0) . 1) ((2) . 3))))
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[3097] | 122 | (plist (list p q))
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| 123 | (p-ext (alist->poly '( ((1 0 0) . 1) ((1 0 1) . 2))))
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| 124 | (q-ext (alist->poly '( ((0 1 0) . 1) ((0 1 2) . 3))))
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[3098] | 125 | (plist-st-ext (list p-ext q-ext)))
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[3637] | 126 | (is (universal-equalp (standard-extension plist) plist-st-ext))))
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[2935] | 127 |
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[3102] | 128 | (test poly-standard-extension-1
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| 129 | "Standard extension 1"
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[3266] | 130 | (let* ((p (alist->poly '( ((0) . 1) ((1) . 2))))
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[3102] | 131 | (q (alist->poly '( ((0) . 1) ((2) . 3))))
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| 132 | (plist (list p q))
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| 133 | (p-ext (alist->poly '( ((0 0 0) . -1) ((1 0 0) . 1) ((1 0 1) . 2))))
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| 134 | (q-ext (alist->poly '( ((0 0 0) . -1) ((0 1 0) . 1) ((0 1 2) . 3))))
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| 135 | (plist-st-ext (list p-ext q-ext)))
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[3637] | 136 | (is (universal-equalp (standard-extension-1 plist) plist-st-ext))))
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[3102] | 137 |
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[3111] | 138 | (test poly-standard-sum
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| 139 | "Standard sum"
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[3266] | 140 | (let* ((p (alist->poly '( ((0) . 1) ((1) . 2))))
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[3111] | 141 | (q (alist->poly '( ((0) . 1) ((2) . 3))))
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| 142 | (plist (list p q))
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[3114] | 143 | (std-sum (alist->poly '(((0 0 0) . -1) ((0 1 0) . 1) ((0 1 2) . 3)
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| 144 | ((1 0 0) . 1) ((1 0 1) . 2)))))
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[3637] | 145 | (is (universal-equalp (standard-sum plist) std-sum))))
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[3111] | 146 |
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[3658] | 147 | (test poly-s-polynomial
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| 148 | "S-Polynomial"
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| 149 | (let* ((f (alist->poly '( ((1 0 0) . 1) ((1 0 1) . 2)))) ;x+2*x*z |*y*z
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[3674] | 150 | (g (alist->poly '( ((0 1 0) . 1) ((0 1 2) . 2)))) ;y+2*y*z^2 |*x
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[3675] | 151 | (s-poly (alist->poly '( ((1 1 0) . -1) ((1 1 1) . 1)))); x*y*z - x*y
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[3658] | 152 | )
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| 153 | (is (universal-equalp (s-polynomial f g) s-poly))))
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| 154 |
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[3680] | 155 | (test poly-content
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| 156 | "Poly-content"
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| 157 | (let* ((p (alist->poly '( ((1 0 0) . 12) ((1 0 1) . 15))))
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| 158 | (pc 3))
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| 159 | (is (universal-equalp (poly-content p) pc))))
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[3658] | 160 |
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[3687] | 161 | (test poly-primitive-part
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| 162 | "Poly-primitive-part"
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| 163 | (let* ((p (alist->poly '( ((1 0 0) . 12) ((1 0 1) . 15))))
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| 164 | (pp (alist->poly '( ((1 0 0) . 4) ((1 0 1) . 5)))))
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| 165 | (is (universal-equalp (poly-primitive-part p) pp))))
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[3680] | 166 |
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[3702] | 167 | (test saturation-extension
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| 168 | "Saturation-extension"
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| 169 | (let* ((f (list (alist->poly '( ((1 0 0) . 2) ((1 0 1) . 3))) ;2*x+3*x*z
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| 170 | (alist->poly '( ((1 0 0) . 5) ((0 1 2) . 7)))) ;5*x+7*y*z^2
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| 171 | )
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| 172 | (p (alist->poly '( ((1 1 1) . 11) ((2 3 4) . 13)))) ;11*x*y*z+13*x^2*y^3*z^4
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| 173 | (sat-ext (list (alist->poly '( ((0 1 0 0) . 2) ((0 1 0 1) . 3)))
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[3706] | 174 | (alist->poly '( ((0 1 0 0) . 5) ((0 0 1 2) . 7)))
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[3707] | 175 | (alist->poly '( ((0 0 0 0) . -1) ((1 1 1 1) . 11) ((1 2 3 4) . 13) )))))
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[3702] | 176 | (is (universal-equalp (saturation-extension f (list p)) sat-ext))))
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| 177 |
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| 178 | (test saturation-extension-1
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| 179 | "Saturation-extension-1"
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| 180 | (let* ((f (list (alist->poly '( ((1 0 0) . 2) ((1 0 1) . 3))) ;2*x+3*x*z
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| 181 | (alist->poly '( ((1 0 0) . 5) ((0 1 2) . 7)))) ;5*x+7*y*z^2
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| 182 | )
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| 183 | (p (alist->poly '( ((1 1 1) . 11) ((2 3 4) . 13)))) ;11*x*y*z+13*x^2*y^3*z^4
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| 184 | (sat-ext-1 (list (alist->poly '( ((0 1 0 0) . 2) ((0 1 0 1) . 3)))
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[3706] | 185 | (alist->poly '( ((0 1 0 0) . 5) ((0 0 1 2) . 7)))
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| 186 | (alist->poly '( ((0 0 0 0) . -1) ((1 1 1 1) . 11) ((1 2 3 4) . 13) )))))
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[3702] | 187 | (is (universal-equalp (saturation-extension-1 f p) sat-ext-1))))
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| 188 |
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[3715] | 189 | (test universal-expt
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| 190 | "Universal-expt"
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| 191 | (let ((f (alist->poly '( ((0) . 1) ((1) . 1))))
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| 192 | (f2 (alist->poly '( ((0) . 1) ((1) . 2) ((2) . 1))))
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| 193 | (f3 (alist->poly '( ((0) . 1) ((1) . 3) ((2) . 3) ((3) . 1)))))
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| 194 | (is (universal-equalp (universal-expt f 2) f2))
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| 195 | (is (universal-equalp (universal-expt f 3) f3))))
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| 196 |
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[2638] | 197 | (run! 'poly-suite)
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[2637] | 198 | (format t "All tests done!~%")
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| 199 |
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| 200 |
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