73 lines
3.1 KiB
Common Lisp
73 lines
3.1 KiB
Common Lisp
;;; Copyright 2013 Google Inc.
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;;;
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;;; Licensed under the Apache License, Version 2.0 (the "License");
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;;; you may not use this file except in compliance with the License.
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;;; You may obtain a copy of the License at
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;;;
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;;; http://www.apache.org/licenses/LICENSE-2.0
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;;;
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;;; Unless required by applicable law or agreed to in writing, software
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;;; distributed under the License is distributed on an "AS IS" BASIS,
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;;; WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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;;; See the License for the specific language governing permissions and
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;;; limitations under the License.
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(define-test basic-array-stuff
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;; We make an 8x8 array and then fill it with a checkerboard pattern.
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(let ((chess-board (make-array '(8 8))))
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;; (DOTIMES (X 8) ...) will iterate with X taking values from 0 to 7.
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(dotimes (x 8)
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(dotimes (y 8)
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;; AREF stands for "array reference".
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(setf (aref chess-board x y) (if (evenp (+ x y)) :black :white))))
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(assert-true (typep chess-board 'array))
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(assert-equal :black (aref chess-board 0 0))
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(assert-equal :white (aref chess-board 2 3))
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;; The function ARRAY-RANK returns the number of dimensions of the array.
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(assert-equal 2 (array-rank chess-board))
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;; The function ARRAY-DIMENSIONS returns a list of the cardinality of the
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;; array dimensions.
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(assert-equal '(8 8) (array-dimensions chess-board))
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;; ARRAY-TOTAL-SIZE returns the total number of elements in the array.
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(assert-equal 64 (array-total-size chess-board))))
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(define-test make-your-own-array
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;; Make your own array that satisfies the test.
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(let ((color-cube (make-array '(3 3 3))))
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;; You may need to modify your array after you create it.
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(setf (aref color-cube 0 1 2) :red
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(aref color-cube 2 1 0) :white)
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(if (typep color-cube '(simple-array T (3 3 3)))
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(progn
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(assert-equal 3 (array-rank color-cube))
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(assert-equal '(3 3 3) (array-dimensions color-cube))
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(assert-equal 27 (array-total-size color-cube))
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(assert-equal (aref color-cube 0 1 2) :red)
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(assert-equal (aref color-cube 2 1 0) :white))
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(assert-true nil))))
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(define-test adjustable-array
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;; The size of an array does not need to be constant.
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(let ((x (make-array '(2 2) :initial-element 5 :adjustable t)))
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(assert-equal 5 (aref x 1 0))
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(assert-equal '(2 2) (array-dimensions x))
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(adjust-array x '(3 4))
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(assert-equal '(3 4) (array-dimensions x))))
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(define-test make-array-from-list
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;; One can create arrays with initial contents.
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(let ((x (make-array '(4) :initial-contents '(:one :two :three :four))))
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(assert-equal '(4) (array-dimensions x))
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(assert-equal :one (aref x 0))))
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(define-test row-major-index
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;; Row major indexing is a way to access elements with a single integer,
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;; rather than a list of integers.
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(let ((my-array (make-array '(2 2 2 2))))
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(dotimes (i (* 2 2 2 2))
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(setf (row-major-aref my-array i) i))
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(assert-equal 0 (aref my-array 0 0 0 0))
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(assert-equal 2 (aref my-array 0 0 1 0))
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(assert-equal 4 (aref my-array 0 1 0 0))
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(assert-equal 15 (aref my-array 1 1 1 1))))
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