;;;; ramap.test --- test array mapping functions -*- scheme -*- ;;;; ;;;; Copyright (C) 2004, 2005, 2006, 2009, 2013 Free Software Foundation, Inc. ;;;; ;;;; This library is free software; you can redistribute it and/or ;;;; modify it under the terms of the GNU Lesser General Public ;;;; License as published by the Free Software Foundation; either ;;;; version 3 of the License, or (at your option) any later version. ;;;; ;;;; This library is distributed in the hope that it will be useful, ;;;; but WITHOUT ANY WARRANTY; without even the implied warranty of ;;;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU ;;;; Lesser General Public License for more details. ;;;; ;;;; You should have received a copy of the GNU Lesser General Public ;;;; License along with this library; if not, write to the Free Software ;;;; Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA (define-module (test-suite test-ramap) #:use-module (test-suite lib)) (define exception:shape-mismatch (cons 'misc-error ".*shape mismatch.*")) (define (array-row a i) (make-shared-array a (lambda (j) (list i j)) (cadr (array-dimensions a)))) (define (array-col a j) (make-shared-array a (lambda (i) (list i j)) (car (array-dimensions a)))) ;;; ;;; array-index-map! ;;; (with-test-prefix "array-index-map!" (pass-if "basic test" (let ((nlst '())) (array-index-map! (make-array #f '(1 1)) (lambda (n) (set! nlst (cons n nlst)))) (equal? nlst '(1)))) (with-test-prefix "empty arrays" (pass-if "all axes empty" (array-index-map! (make-typed-array 'f64 0 0 0) (const 0)) (array-index-map! (make-typed-array 'b #t 0 0) (const #t)) (array-index-map! (make-typed-array #t 0 0 0) (const 0)) #t) (pass-if "last axis empty" (array-index-map! (make-typed-array 'f64 0 2 0) (const 0)) (array-index-map! (make-typed-array 'b #t 2 0) (const #t)) (array-index-map! (make-typed-array #t 0 2 0) (const 0)) #t) ; the 'f64 cases fail in 2.0.9 with out-of-range. (pass-if "axis empty, other than last" (array-index-map! (make-typed-array 'f64 0 0 2) (const 0)) (array-index-map! (make-typed-array 'b #t 0 2) (const #t)) (array-index-map! (make-typed-array #t 0 0 2) (const 0)) #t)) (pass-if "rank 2" (let ((a (make-array 0 2 2)) (b (make-array 0 2 2))) (array-index-map! a (lambda (i j) i)) (array-index-map! b (lambda (i j) j)) (and (array-equal? a #2((0 0) (1 1))) (array-equal? b #2((0 1) (0 1))))))) ;;; ;;; array-copy! ;;; (with-test-prefix "array-copy!" (with-test-prefix "empty arrays" (pass-if "empty other than last, #t" (let* ((b (make-array 0 2 2)) (c (make-shared-array b (lambda (i j) (list i j)) 0 2))) (array-copy! #2:0:2() c) (array-equal? #2:0:2() c))) (pass-if "empty other than last, 'f64" (let* ((b (make-typed-array 'f64 0 2 2)) (c (make-shared-array b (lambda (i j) (list i j)) 0 2))) (array-copy! #2:0:2() c) (array-equal? #2f64:0:2() c))) ;; FIXME add empty, type 'b cases. ) ;; note that it is the opposite of array-map!. This is, unfortunately, ;; documented in the manual. (pass-if "matching behavior I" (let ((a #(1 2)) (b (make-array 0 3))) (array-copy! a b) (equal? b #(1 2 0)))) (pass-if-exception "matching behavior II" exception:shape-mismatch (let ((a #(1 2 3)) (b (make-array 0 2))) (array-copy! a b) (equal? b #(1 2)))) ;; here both a & b are are unrollable down to the first axis, but the ;; size mismatch limits unrolling to the last axis only. (pass-if "matching behavior III" (let ((a #3(((1 2) (3 4)) ((5 6) (7 8)))) (b (make-array 0 2 3 2))) (array-copy! a b) (array-equal? b #3(((1 2) (3 4) (0 0)) ((5 6) (7 8) (0 0)))))) (pass-if "rank 0" (let ((a #0(99)) (b (make-array 0))) (array-copy! a b) (equal? b #0(99)))) (pass-if "rank 1" (let* ((a #2((1 2) (3 4))) (b (make-shared-array a (lambda (j) (list 1 j)) 2)) (c (make-shared-array a (lambda (i) (list (- 1 i) 1)) 2)) (d (make-array 0 2)) (e (make-array 0 2))) (array-copy! b d) (array-copy! c e) (and (equal? d #(3 4)) (equal? e #(4 2))))) (pass-if "rank 2" (let ((a #2((1 2) (3 4))) (b (make-array 0 2 2)) (c (make-array 0 2 2)) (d (make-array 0 2 2)) (e (make-array 0 2 2))) (array-copy! a b) (array-copy! a (transpose-array c 1 0)) (array-copy! (transpose-array a 1 0) d) (array-copy! (transpose-array a 1 0) (transpose-array e 1 0)) (and (equal? a #2((1 2) (3 4))) (equal? b #2((1 2) (3 4))) (equal? c #2((1 3) (2 4))) (equal? d #2((1 3) (2 4))) (equal? e #2((1 2) (3 4)))))) (pass-if "rank 2, discontinuous" (let ((A #2((0 1) (2 3) (4 5))) (B #2((10 11) (12 13) (14 15))) (C #2((20) (21) (22))) (X (make-array 0 3 5)) (piece (lambda (X w s) (make-shared-array X (lambda (i j) (list i (+ j s))) 3 w)))) (array-copy! A (piece X 2 0)) (array-copy! B (piece X 2 2)) (array-copy! C (piece X 1 4)) (and (array-equal? X #2((0 1 10 11 20) (2 3 12 13 21) (4 5 14 15 22)))))) (pass-if "null increments, not empty" (let ((a (make-array 0 2 2))) (array-copy! (make-shared-array #0(1) (lambda x '()) 2 2) a) (array-equal? #2((1 1) (1 1)))))) ;;; ;;; array-map! ;;; (with-test-prefix "array-map!" (pass-if-exception "no args" exception:wrong-num-args (array-map!)) (pass-if-exception "one arg" exception:wrong-num-args (array-map! (make-array #f 5))) (with-test-prefix "no sources" (pass-if "closure 0" (array-map! (make-array #f 5) (lambda () #f)) #t) (pass-if-exception "closure 1" exception:wrong-num-args (array-map! (make-array #f 5) (lambda (x) #f))) (pass-if-exception "closure 2" exception:wrong-num-args (array-map! (make-array #f 5) (lambda (x y) #f))) (pass-if-exception "subr_1" exception:wrong-num-args (array-map! (make-array #f 5) length)) (pass-if-exception "subr_2" exception:wrong-num-args (array-map! (make-array #f 5) logtest)) (pass-if-exception "subr_2o" exception:wrong-num-args (array-map! (make-array #f 5) number->string)) (pass-if-exception "dsubr" exception:wrong-num-args (array-map! (make-array #f 5) sqrt)) (pass-if "rpsubr" (let ((a (make-array 'foo 5))) (array-map! a =) (equal? a (make-array #t 5)))) (pass-if "asubr" (let ((a (make-array 'foo 5))) (array-map! a +) (equal? a (make-array 0 5)))) ;; in Guile 1.6.4 and earlier this resulted in a segv (pass-if "noop" (array-map! (make-array #f 5) noop) #t)) (with-test-prefix "one source" (pass-if-exception "closure 0" exception:wrong-num-args (array-map! (make-array #f 5) (lambda () #f) (make-array #f 5))) (pass-if "closure 1" (let ((a (make-array #f 5))) (array-map! a (lambda (x) 'foo) (make-array #f 5)) (equal? a (make-array 'foo 5)))) (pass-if-exception "closure 2" exception:wrong-num-args (array-map! (make-array #f 5) (lambda (x y) #f) (make-array #f 5))) (pass-if "subr_1" (let ((a (make-array #f 5))) (array-map! a length (make-array '(x y z) 5)) (equal? a (make-array 3 5)))) (pass-if-exception "subr_2" exception:wrong-num-args (array-map! (make-array #f 5) logtest (make-array 999 5))) (pass-if "subr_2o" (let ((a (make-array #f 5))) (array-map! a number->string (make-array 99 5)) (equal? a (make-array "99" 5)))) (pass-if "dsubr" (let ((a (make-array #f 5))) (array-map! a sqrt (make-array 16.0 5)) (equal? a (make-array 4.0 5)))) (pass-if "rpsubr" (let ((a (make-array 'foo 5))) (array-map! a = (make-array 0 5)) (equal? a (make-array #t 5)))) (pass-if "asubr" (let ((a (make-array 'foo 5))) (array-map! a - (make-array 99 5)) (equal? a (make-array -99 5)))) ;; in Guile 1.6.5 and 1.6.6 this was an error (pass-if "1+" (let ((a (make-array #f 5))) (array-map! a 1+ (make-array 123 5)) (equal? a (make-array 124 5)))) (pass-if "rank 0" (let ((a #0(99)) (b (make-array 0))) (array-map! b values a) (equal? b #0(99)))) (pass-if "rank 2, discontinuous" (let ((A #2((0 1) (2 3) (4 5))) (B #2((10 11) (12 13) (14 15))) (C #2((20) (21) (22))) (X (make-array 0 3 5)) (piece (lambda (X w s) (make-shared-array X (lambda (i j) (list i (+ j s))) 3 w)))) (array-map! (piece X 2 0) values A) (array-map! (piece X 2 2) values B) (array-map! (piece X 1 4) values C) (and (array-equal? X #2((0 1 10 11 20) (2 3 12 13 21) (4 5 14 15 22)))))) (pass-if "null increments, not empty" (let ((a (make-array 0 2 2))) (array-map! a values (make-shared-array #0(1) (lambda x '()) 2 2)) (array-equal? a #2((1 1) (1 1)))))) (with-test-prefix "two sources" (pass-if-exception "closure 0" exception:wrong-num-args (array-map! (make-array #f 5) (lambda () #f) (make-array #f 5) (make-array #f 5))) (pass-if-exception "closure 1" exception:wrong-num-args (array-map! (make-array #f 5) (lambda (x) #f) (make-array #f 5) (make-array #f 5))) (pass-if "closure 2" (let ((a (make-array #f 5))) (array-map! a (lambda (x y) 'foo) (make-array #f 5) (make-array #f 5)) (equal? a (make-array 'foo 5)))) (pass-if-exception "subr_1" exception:wrong-num-args (array-map! (make-array #f 5) length (make-array #f 5) (make-array #f 5))) (pass-if "subr_2" (let ((a (make-array 'foo 5))) (array-map! a logtest (make-array 999 5) (make-array 999 5)) (equal? a (make-array #t 5)))) (pass-if "subr_2o" (let ((a (make-array #f 5))) (array-map! a number->string (make-array 32 5) (make-array 16 5)) (equal? a (make-array "20" 5)))) (pass-if-exception "dsubr" exception:wrong-num-args (let ((a (make-array #f 5))) (array-map! a sqrt (make-array 16.0 5) (make-array 16.0 5)) (equal? a (make-array 4.0 5)))) (pass-if "rpsubr" (let ((a (make-array 'foo 5))) (array-map! a = (make-array 99 5) (make-array 77 5)) (equal? a (make-array #f 5)))) (pass-if "asubr" (let ((a (make-array 'foo 5))) (array-map! a - (make-array 99 5) (make-array 11 5)) (equal? a (make-array 88 5)))) (pass-if "+" (let ((a (make-array #f 4))) (array-map! a + #(1 2 3 4) #(5 6 7 8)) (equal? a #(6 8 10 12)))) (pass-if "noncompact arrays 1" (let ((a #2((0 1) (2 3))) (c (make-array 0 2))) (begin (array-map! c + (array-row a 1) (array-row a 1)) (array-equal? c #(4 6))))) (pass-if "noncompact arrays 2" (let ((a #2((0 1) (2 3))) (c (make-array 0 2))) (begin (array-map! c + (array-col a 1) (array-col a 1)) (array-equal? c #(2 6))))) (pass-if "noncompact arrays 3" (let ((a #2((0 1) (2 3))) (c (make-array 0 2))) (begin (array-map! c + (array-col a 1) (array-row a 1)) (array-equal? c #(3 6))))) (pass-if "noncompact arrays 4" (let ((a #2((0 1) (2 3))) (c (make-array 0 2))) (begin (array-map! c + (array-col a 1) (array-row a 1)) (array-equal? c #(3 6))))) (pass-if "offset arrays 1" (let ((a #2@1@-3((0 1) (2 3))) (c (make-array 0 '(1 2) '(-3 -2)))) (begin (array-map! c + a a) (array-equal? c #2@1@-3((0 2) (4 6))))))) ;; note that array-copy! has the opposite behavior. (pass-if-exception "matching behavior I" exception:shape-mismatch (let ((a #(1 2)) (b (make-array 0 3))) (array-map! b values a) (equal? b #(1 2 0)))) (pass-if "matching behavior II" (let ((a #(1 2 3)) (b (make-array 0 2))) (array-map! b values a) (equal? b #(1 2)))) ;; here both a & b are are unrollable down to the first axis, but the ;; size mismatch limits unrolling to the last axis only. (pass-if "matching behavior III" (let ((a #3(((1 2) (3 4) (5 6)) ((7 8) (9 10) (11 12)))) (b (make-array 0 2 2 2))) (array-map! b values a) (array-equal? b #3(((1 2) (3 4)) ((7 8) (9 10))))))) ;;; ;;; array-for-each ;;; (with-test-prefix "array-for-each" (with-test-prefix "1 source" (pass-if-equal "rank 0" '(99) (let* ((a #0(99)) (l '()) (p (lambda (x) (set! l (cons x l))))) (array-for-each p a) l)) (pass-if-equal "noncompact array" '(3 2 1 0) (let* ((a #2((0 1) (2 3))) (l '()) (p (lambda (x) (set! l (cons x l))))) (array-for-each p a) l)) (pass-if-equal "vector" '(3 2 1 0) (let* ((a #(0 1 2 3)) (l '()) (p (lambda (x) (set! l (cons x l))))) (array-for-each p a) l)) (pass-if-equal "shared array" '(3 2 1 0) (let* ((a #2((0 1) (2 3))) (a' (make-shared-array a (lambda (x) (list (quotient x 4) (modulo x 4))) 4)) (l '()) (p (lambda (x) (set! l (cons x l))))) (array-for-each p a') l))) (with-test-prefix "3 sources" (pass-if-equal "noncompact arrays 1" '((3 3 3) (2 2 2)) (let* ((a #2((0 1) (2 3))) (l '()) (rec (lambda args (set! l (cons args l))))) (array-for-each rec (array-row a 1) (array-row a 1) (array-row a 1)) l)) (pass-if-equal "noncompact arrays 2" '((3 3 3) (2 2 1)) (let* ((a #2((0 1) (2 3))) (l '()) (rec (lambda args (set! l (cons args l))))) (array-for-each rec (array-row a 1) (array-row a 1) (array-col a 1)) l)) (pass-if-equal "noncompact arrays 3" '((3 3 3) (2 1 1)) (let* ((a #2((0 1) (2 3))) (l '()) (rec (lambda args (set! l (cons args l))))) (array-for-each rec (array-row a 1) (array-col a 1) (array-col a 1)) l)) (pass-if-equal "noncompact arrays 4" '((3 2 3) (1 0 2)) (let* ((a #2((0 1) (2 3))) (l '()) (rec (lambda args (set! l (cons args l))))) (array-for-each rec (array-col a 1) (array-col a 0) (array-row a 1)) l))) (with-test-prefix "empty arrays" (pass-if "empty other than last, #t" ; fails in 2.0.9 with bad a. (let* ((a (list)) (b (make-array 0 2 2)) (c (make-shared-array b (lambda (i j) (list i j)) 0 2))) (array-for-each (lambda (c) (set! a (cons c a))) c) (equal? a '()))) (pass-if "empty other than last, f64" ; fails in 2.0.9 with out of range. (let* ((a (list)) (b (make-typed-array 'f64 0 2 2)) (c (make-shared-array b (lambda (i j) (list i j)) 0 2))) (array-for-each (lambda (c) (set! a (cons c a))) c) (equal? a '()))) ;; FIXME add type 'b cases. (pass-if-exception "empty arrays shape check" exception:shape-mismatch (let* ((a (list)) (b (make-typed-array 'f64 0 0 2)) (c (make-typed-array 'f64 0 2 0))) (array-for-each (lambda (b c) (set! a (cons* b c a))) b c)))))