;;; fns-tests.el --- tests for src/fns.c ;; Copyright (C) 2014-2017 Free Software Foundation, Inc. ;; This file is part of GNU Emacs. ;; This program is free software: you can redistribute it and/or ;; modify it under the terms of the GNU General Public License as ;; published by the Free Software Foundation, either version 3 of the ;; License, or (at your option) any later version. ;; ;; This program 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 ;; General Public License for more details. ;; ;; You should have received a copy of the GNU General Public License ;; along with this program. If not, see `http://www.gnu.org/licenses/'. ;;; Commentary: ;;; Code: (require 'cl-lib) (ert-deftest fns-tests-reverse () (should-error (reverse)) (should-error (reverse 1)) (should-error (reverse (make-char-table 'foo))) (should (equal [] (reverse []))) (should (equal [0] (reverse [0]))) (should (equal [1 2 3 4] (reverse (reverse [1 2 3 4])))) (should (equal '(a b c d) (reverse (reverse '(a b c d))))) (should (equal "xyzzy" (reverse (reverse "xyzzy")))) (should (equal "こんにちは / コンニチハ" (reverse (reverse "こんにちは / コンニチハ"))))) (ert-deftest fns-tests-nreverse () (should-error (nreverse)) (should-error (nreverse 1)) (should-error (nreverse (make-char-table 'foo))) (should (equal (nreverse "xyzzy") "yzzyx")) (let ((A [])) (nreverse A) (should (equal A []))) (let ((A [0])) (nreverse A) (should (equal A [0]))) (let ((A [1 2 3 4])) (nreverse A) (should (equal A [4 3 2 1]))) (let ((A [1 2 3 4])) (nreverse A) (nreverse A) (should (equal A [1 2 3 4]))) (let* ((A [1 2 3 4]) (B (nreverse (nreverse A)))) (should (equal A B)))) (ert-deftest fns-tests-reverse-bool-vector () (let ((A (make-bool-vector 10 nil))) (dotimes (i 5) (aset A i t)) (should (equal [nil nil nil nil nil t t t t t] (vconcat (reverse A)))) (should (equal A (reverse (reverse A)))))) (ert-deftest fns-tests-nreverse-bool-vector () (let ((A (make-bool-vector 10 nil))) (dotimes (i 5) (aset A i t)) (nreverse A) (should (equal [nil nil nil nil nil t t t t t] (vconcat A))) (should (equal [t t t t t nil nil nil nil nil] (vconcat (nreverse A)))))) (ert-deftest fns-tests-compare-strings () (should-error (compare-strings)) (should-error (compare-strings "xyzzy" "xyzzy")) (should (= (compare-strings "xyzzy" 0 10 "zyxxy" 0 5) -1)) (should-error (compare-strings "xyzzy" 0 5 "zyxxy" -1 2)) (should-error (compare-strings "xyzzy" 'foo nil "zyxxy" 0 1)) (should-error (compare-strings "xyzzy" 0 'foo "zyxxy" 2 3)) (should-error (compare-strings "xyzzy" 0 2 "zyxxy" 'foo 3)) (should-error (compare-strings "xyzzy" nil 3 "zyxxy" 4 'foo)) (should (eq (compare-strings "" nil nil "" nil nil) t)) (should (eq (compare-strings "" 0 0 "" 0 0) t)) (should (eq (compare-strings "test" nil nil "test" nil nil) t)) (should (eq (compare-strings "test" nil nil "test" nil nil t) t)) (should (eq (compare-strings "test" nil nil "test" nil nil nil) t)) (should (eq (compare-strings "Test" nil nil "test" nil nil t) t)) (should (= (compare-strings "Test" nil nil "test" nil nil) -1)) (should (= (compare-strings "Test" nil nil "test" nil nil) -1)) (should (= (compare-strings "test" nil nil "Test" nil nil) 1)) (should (= (compare-strings "foobaz" nil nil "barbaz" nil nil) 1)) (should (= (compare-strings "barbaz" nil nil "foobar" nil nil) -1)) (should (= (compare-strings "foobaz" nil nil "farbaz" nil nil) 2)) (should (= (compare-strings "farbaz" nil nil "foobar" nil nil) -2)) (should (eq (compare-strings "abcxyz" 0 2 "abcprq" 0 2) t)) (should (eq (compare-strings "abcxyz" 0 -3 "abcprq" 0 -3) t)) (should (= (compare-strings "abcxyz" 0 6 "abcprq" 0 6) 4)) (should (= (compare-strings "abcprq" 0 6 "abcxyz" 0 6) -4)) (should (eq (compare-strings "xyzzy" -3 4 "azza" -3 3) t)) (should (eq (compare-strings "こんにちはコンニチハ" nil nil "こんにちはコンニチハ" nil nil) t)) (should (= (compare-strings "んにちはコンニチハこ" nil nil "こんにちはコンニチハ" nil nil) 1)) (should (= (compare-strings "こんにちはコンニチハ" nil nil "んにちはコンニチハこ" nil nil) -1))) (defun fns-tests--collate-enabled-p () "Check whether collation functions are enabled." (and ;; When there is no collation library, collation functions fall back ;; to their lexicographic counterparts. We don't need to test then. (not (ignore-errors (string-collate-equalp "" "" t))) ;; We use a locale, which might not be installed. Check it. (ignore-errors (string-collate-equalp "" "" (if (eq system-type 'windows-nt) "enu_USA" "en_US.UTF-8"))))) (ert-deftest fns-tests-collate-strings () (skip-unless (fns-tests--collate-enabled-p)) (should (string-collate-equalp "xyzzy" "xyzzy")) (should-not (string-collate-equalp "xyzzy" "XYZZY")) ;; In POSIX or C locales, collation order is lexicographic. (should (string-collate-lessp "XYZZY" "xyzzy" "POSIX")) ;; In a language specific locale, collation order is different. (should (string-collate-lessp "xyzzy" "XYZZY" (if (eq system-type 'windows-nt) "enu_USA" "en_US.UTF-8"))) ;; Ignore case. (should (string-collate-equalp "xyzzy" "XYZZY" nil t)) ;; Locale must be valid. (should-error (string-collate-equalp "xyzzy" "xyzzy" "en_DE.UTF-8"))) ;; There must be a check for valid codepoints. (Check not implemented yet) ; (should-error ; (string-collate-equalp (string ?\x00110000) (string ?\x00110000))) ;; Invalid UTF-8 sequences shall be indicated. How to create such strings? (ert-deftest fns-tests-sort () (should (equal (sort '(9 5 2 -1 5 3 8 7 4) (lambda (x y) (< x y))) '(-1 2 3 4 5 5 7 8 9))) (should (equal (sort '(9 5 2 -1 5 3 8 7 4) (lambda (x y) (> x y))) '(9 8 7 5 5 4 3 2 -1))) (should (equal (sort '[9 5 2 -1 5 3 8 7 4] (lambda (x y) (< x y))) [-1 2 3 4 5 5 7 8 9])) (should (equal (sort '[9 5 2 -1 5 3 8 7 4] (lambda (x y) (> x y))) [9 8 7 5 5 4 3 2 -1])) (should (equal (sort (vector '(8 . "xxx") '(9 . "aaa") '(8 . "bbb") '(9 . "zzz") '(9 . "ppp") '(8 . "ttt") '(8 . "eee") '(9 . "fff")) (lambda (x y) (< (car x) (car y)))) [(8 . "xxx") (8 . "bbb") (8 . "ttt") (8 . "eee") (9 . "aaa") (9 . "zzz") (9 . "ppp") (9 . "fff")]))) (ert-deftest fns-tests-collate-sort () ;; See https://lists.gnu.org/archive/html/emacs-devel/2015-10/msg02505.html. :expected-result (if (eq system-type 'cygwin) :failed :passed) (skip-unless (fns-tests--collate-enabled-p)) ;; Punctuation and whitespace characters are relevant for POSIX. (should (equal (sort '("11" "12" "1 1" "1 2" "1.1" "1.2") (lambda (a b) (string-collate-lessp a b "POSIX"))) '("1 1" "1 2" "1.1" "1.2" "11" "12"))) ;; Punctuation and whitespace characters are not taken into account ;; for collation in other locales. (should (equal (sort '("11" "12" "1 1" "1 2" "1.1" "1.2") (lambda (a b) (let ((w32-collate-ignore-punctuation t)) (string-collate-lessp a b (if (eq system-type 'windows-nt) "enu_USA" "en_US.UTF-8"))))) '("11" "1 1" "1.1" "12" "1 2" "1.2"))) ;; Diacritics are different letters for POSIX, they sort lexicographical. (should (equal (sort '("Ævar" "Agustín" "Adrian" "Eli") (lambda (a b) (string-collate-lessp a b "POSIX"))) '("Adrian" "Agustín" "Eli" "Ævar"))) ;; Diacritics are sorted between similar letters for other locales. (should (equal (sort '("Ævar" "Agustín" "Adrian" "Eli") (lambda (a b) (let ((w32-collate-ignore-punctuation t)) (string-collate-lessp a b (if (eq system-type 'windows-nt) "enu_USA" "en_US.UTF-8"))))) '("Adrian" "Ævar" "Agustín" "Eli")))) (ert-deftest fns-tests-string-version-lessp () (should (string-version-lessp "foo2.png" "foo12.png")) (should (not (string-version-lessp "foo12.png" "foo2.png"))) (should (string-version-lessp "foo12.png" "foo20000.png")) (should (not (string-version-lessp "foo20000.png" "foo12.png"))) (should (string-version-lessp "foo.png" "foo2.png")) (should (not (string-version-lessp "foo2.png" "foo.png"))) (should (equal (sort '("foo12.png" "foo2.png" "foo1.png") 'string-version-lessp) '("foo1.png" "foo2.png" "foo12.png"))) (should (string-version-lessp "foo2" "foo1234")) (should (not (string-version-lessp "foo1234" "foo2"))) (should (string-version-lessp "foo.png" "foo2")) (should (string-version-lessp "foo1.25.5.png" "foo1.125.5")) (should (string-version-lessp "2" "1245")) (should (not (string-version-lessp "1245" "2")))) (ert-deftest fns-tests-func-arity () (should (equal (func-arity 'car) '(1 . 1))) (should (equal (func-arity 'caar) '(1 . 1))) (should (equal (func-arity 'format) '(1 . many))) (require 'info) (should (equal (func-arity 'Info-goto-node) '(1 . 3))) (should (equal (func-arity (lambda (&rest x))) '(0 . many))) (should (equal (func-arity (eval (lambda (x &optional y)) nil)) '(1 . 2))) (should (equal (func-arity (eval (lambda (x &optional y)) t)) '(1 . 2))) (should (equal (func-arity 'let) '(1 . unevalled)))) (ert-deftest fns-tests-hash-buffer () (should (equal (sha1 "foo") "0beec7b5ea3f0fdbc95d0dd47f3c5bc275da8a33")) (should (equal (with-temp-buffer (insert "foo") (buffer-hash)) (sha1 "foo"))) ;; This tests whether the presence of a gap in the middle of the ;; buffer is handled correctly. (should (equal (with-temp-buffer (insert "foo") (goto-char 2) (insert " ") (backward-delete-char 1) (buffer-hash)) (sha1 "foo")))) (ert-deftest fns-tests-mapcan () (should-error (mapcan)) (should-error (mapcan #'identity)) (should-error (mapcan #'identity (make-char-table 'foo))) (should (equal (mapcan #'list '(1 2 3)) '(1 2 3))) ;; `mapcan' is destructive (let ((data '((foo) (bar)))) (should (equal (mapcan #'identity data) '(foo bar))) (should (equal data '((foo bar) (bar)))))) ;; Test handling of cyclic and dotted lists. (defun cyc1 (a) (let ((ls (make-list 10 a))) (nconc ls ls) ls)) (defun cyc2 (a b) (let ((ls1 (make-list 10 a)) (ls2 (make-list 1000 b))) (nconc ls2 ls2) (nconc ls1 ls2) ls1)) (defun dot1 (a) (let ((ls (make-list 10 a))) (nconc ls 'tail) ls)) (defun dot2 (a b) (let ((ls1 (make-list 10 a)) (ls2 (make-list 10 b))) (nconc ls1 ls2) (nconc ls2 'tail) ls1)) (ert-deftest test-cycle-length () (should-error (length (cyc1 1)) :type 'circular-list) (should-error (length (cyc2 1 2)) :type 'circular-list) (should-error (length (dot1 1)) :type 'wrong-type-argument) (should-error (length (dot2 1 2)) :type 'wrong-type-argument)) (ert-deftest test-cycle-safe-length () (should (<= 10 (safe-length (cyc1 1)))) (should (<= 1010 (safe-length (cyc2 1 2)))) (should (= 10 (safe-length (dot1 1)))) (should (= 20 (safe-length (dot2 1 2))))) (ert-deftest test-cycle-member () (let ((c1 (cyc1 1)) (c2 (cyc2 1 2)) (d1 (dot1 1)) (d2 (dot2 1 2))) (should (member 1 c1)) (should (member 1 c2)) (should (member 1 d1)) (should (member 1 d2)) (should-error (member 2 c1) :type 'circular-list) (should (member 2 c2)) (should-error (member 2 d1) :type 'wrong-type-argument) (should (member 2 d2)) (should-error (member 3 c1) :type 'circular-list) (should-error (member 3 c2) :type 'circular-list) (should-error (member 3 d1) :type 'wrong-type-argument) (should-error (member 3 d2) :type 'wrong-type-argument))) (ert-deftest test-cycle-memq () (let ((c1 (cyc1 1)) (c2 (cyc2 1 2)) (d1 (dot1 1)) (d2 (dot2 1 2))) (should (memq 1 c1)) (should (memq 1 c2)) (should (memq 1 d1)) (should (memq 1 d2)) (should-error (memq 2 c1) :type 'circular-list) (should (memq 2 c2)) (should-error (memq 2 d1) :type 'wrong-type-argument) (should (memq 2 d2)) (should-error (memq 3 c1) :type 'circular-list) (should-error (memq 3 c2) :type 'circular-list) (should-error (memq 3 d1) :type 'wrong-type-argument) (should-error (memq 3 d2) :type 'wrong-type-argument))) (ert-deftest test-cycle-memql () (let ((c1 (cyc1 1)) (c2 (cyc2 1 2)) (d1 (dot1 1)) (d2 (dot2 1 2))) (should (memql 1 c1)) (should (memql 1 c2)) (should (memql 1 d1)) (should (memql 1 d2)) (should-error (memql 2 c1) :type 'circular-list) (should (memql 2 c2)) (should-error (memql 2 d1) :type 'wrong-type-argument) (should (memql 2 d2)) (should-error (memql 3 c1) :type 'circular-list) (should-error (memql 3 c2) :type 'circular-list) (should-error (memql 3 d1) :type 'wrong-type-argument) (should-error (memql 3 d2) :type 'wrong-type-argument))) (ert-deftest test-cycle-assq () (let ((c1 (cyc1 '(1))) (c2 (cyc2 '(1) '(2))) (d1 (dot1 '(1))) (d2 (dot2 '(1) '(2)))) (should (assq 1 c1)) (should (assq 1 c2)) (should (assq 1 d1)) (should (assq 1 d2)) (should-error (assq 2 c1) :type 'circular-list) (should (assq 2 c2)) (should-error (assq 2 d1) :type 'wrong-type-argument) (should (assq 2 d2)) (should-error (assq 3 c1) :type 'circular-list) (should-error (assq 3 c2) :type 'circular-list) (should-error (assq 3 d1) :type 'wrong-type-argument) (should-error (assq 3 d2) :type 'wrong-type-argument))) (ert-deftest test-cycle-assoc () (let ((c1 (cyc1 '(1))) (c2 (cyc2 '(1) '(2))) (d1 (dot1 '(1))) (d2 (dot2 '(1) '(2)))) (should (assoc 1 c1)) (should (assoc 1 c2)) (should (assoc 1 d1)) (should (assoc 1 d2)) (should-error (assoc 2 c1) :type 'circular-list) (should (assoc 2 c2)) (should-error (assoc 2 d1) :type 'wrong-type-argument) (should (assoc 2 d2)) (should-error (assoc 3 c1) :type 'circular-list) (should-error (assoc 3 c2) :type 'circular-list) (should-error (assoc 3 d1) :type 'wrong-type-argument) (should-error (assoc 3 d2) :type 'wrong-type-argument))) (ert-deftest test-cycle-rassq () (let ((c1 (cyc1 '(0 . 1))) (c2 (cyc2 '(0 . 1) '(0 . 2))) (d1 (dot1 '(0 . 1))) (d2 (dot2 '(0 . 1) '(0 . 2)))) (should (rassq 1 c1)) (should (rassq 1 c2)) (should (rassq 1 d1)) (should (rassq 1 d2)) (should-error (rassq 2 c1) :type 'circular-list) (should (rassq 2 c2)) (should-error (rassq 2 d1) :type 'wrong-type-argument) (should (rassq 2 d2)) (should-error (rassq 3 c1) :type 'circular-list) (should-error (rassq 3 c2) :type 'circular-list) (should-error (rassq 3 d1) :type 'wrong-type-argument) (should-error (rassq 3 d2) :type 'wrong-type-argument))) (ert-deftest test-cycle-rassoc () (let ((c1 (cyc1 '(0 . 1))) (c2 (cyc2 '(0 . 1) '(0 . 2))) (d1 (dot1 '(0 . 1))) (d2 (dot2 '(0 . 1) '(0 . 2)))) (should (rassoc 1 c1)) (should (rassoc 1 c2)) (should (rassoc 1 d1)) (should (rassoc 1 d2)) (should-error (rassoc 2 c1) :type 'circular-list) (should (rassoc 2 c2)) (should-error (rassoc 2 d1) :type 'wrong-type-argument) (should (rassoc 2 d2)) (should-error (rassoc 3 c1) :type 'circular-list) (should-error (rassoc 3 c2) :type 'circular-list) (should-error (rassoc 3 d1) :type 'wrong-type-argument) (should-error (rassoc 3 d2) :type 'wrong-type-argument))) (ert-deftest test-cycle-delq () (should-error (delq 1 (cyc1 1)) :type 'circular-list) (should-error (delq 1 (cyc2 1 2)) :type 'circular-list) (should-error (delq 1 (dot1 1)) :type 'wrong-type-argument) (should-error (delq 1 (dot2 1 2)) :type 'wrong-type-argument) (should-error (delq 2 (cyc1 1)) :type 'circular-list) (should-error (delq 2 (cyc2 1 2)) :type 'circular-list) (should-error (delq 2 (dot1 1)) :type 'wrong-type-argument) (should-error (delq 2 (dot2 1 2)) :type 'wrong-type-argument) (should-error (delq 3 (cyc1 1)) :type 'circular-list) (should-error (delq 3 (cyc2 1 2)) :type 'circular-list) (should-error (delq 3 (dot1 1)) :type 'wrong-type-argument) (should-error (delq 3 (dot2 1 2)) :type 'wrong-type-argument)) (ert-deftest test-cycle-delete () (should-error (delete 1 (cyc1 1)) :type 'circular-list) (should-error (delete 1 (cyc2 1 2)) :type 'circular-list) (should-error (delete 1 (dot1 1)) :type 'wrong-type-argument) (should-error (delete 1 (dot2 1 2)) :type 'wrong-type-argument) (should-error (delete 2 (cyc1 1)) :type 'circular-list) (should-error (delete 2 (cyc2 1 2)) :type 'circular-list) (should-error (delete 2 (dot1 1)) :type 'wrong-type-argument) (should-error (delete 2 (dot2 1 2)) :type 'wrong-type-argument) (should-error (delete 3 (cyc1 1)) :type 'circular-list) (should-error (delete 3 (cyc2 1 2)) :type 'circular-list) (should-error (delete 3 (dot1 1)) :type 'wrong-type-argument) (should-error (delete 3 (dot2 1 2)) :type 'wrong-type-argument)) (ert-deftest test-cycle-reverse () (should-error (reverse (cyc1 1)) :type 'circular-list) (should-error (reverse (cyc2 1 2)) :type 'circular-list) (should-error (reverse (dot1 1)) :type 'wrong-type-argument) (should-error (reverse (dot2 1 2)) :type 'wrong-type-argument)) (ert-deftest test-cycle-plist-get () (let ((c1 (cyc1 1)) (c2 (cyc2 1 2)) (d1 (dot1 1)) (d2 (dot2 1 2))) (should (plist-get c1 1)) (should (plist-get c2 1)) (should (plist-get d1 1)) (should (plist-get d2 1)) (should-not (plist-get c1 2)) (should (plist-get c2 2)) (should-not (plist-get d1 2)) (should (plist-get d2 2)) (should-not (plist-get c1 3)) (should-not (plist-get c2 3)) (should-not (plist-get d1 3)) (should-not (plist-get d2 3)))) (ert-deftest test-cycle-lax-plist-get () (let ((c1 (cyc1 1)) (c2 (cyc2 1 2)) (d1 (dot1 1)) (d2 (dot2 1 2))) (should (lax-plist-get c1 1)) (should (lax-plist-get c2 1)) (should (lax-plist-get d1 1)) (should (lax-plist-get d2 1)) (should-error (lax-plist-get c1 2) :type 'circular-list) (should (lax-plist-get c2 2)) (should-error (lax-plist-get d1 2) :type 'wrong-type-argument) (should (lax-plist-get d2 2)) (should-error (lax-plist-get c1 3) :type 'circular-list) (should-error (lax-plist-get c2 3) :type 'circular-list) (should-error (lax-plist-get d1 3) :type 'wrong-type-argument) (should-error (lax-plist-get d2 3) :type 'wrong-type-argument))) (ert-deftest test-cycle-plist-member () (let ((c1 (cyc1 1)) (c2 (cyc2 1 2)) (d1 (dot1 1)) (d2 (dot2 1 2))) (should (plist-member c1 1)) (should (plist-member c2 1)) (should (plist-member d1 1)) (should (plist-member d2 1)) (should-error (plist-member c1 2) :type 'circular-list) (should (plist-member c2 2)) (should-error (plist-member d1 2) :type 'wrong-type-argument) (should (plist-member d2 2)) (should-error (plist-member c1 3) :type 'circular-list) (should-error (plist-member c2 3) :type 'circular-list) (should-error (plist-member d1 3) :type 'wrong-type-argument) (should-error (plist-member d2 3) :type 'wrong-type-argument))) (ert-deftest test-cycle-plist-put () (let ((c1 (cyc1 1)) (c2 (cyc2 1 2)) (d1 (dot1 1)) (d2 (dot2 1 2))) (should (plist-put c1 1 1)) (should (plist-put c2 1 1)) (should (plist-put d1 1 1)) (should (plist-put d2 1 1)) (should-error (plist-put c1 2 2) :type 'circular-list) (should (plist-put c2 2 2)) (should-error (plist-put d1 2 2) :type 'wrong-type-argument) (should (plist-put d2 2 2)) (should-error (plist-put c1 3 3) :type 'circular-list) (should-error (plist-put c2 3 3) :type 'circular-list) (should-error (plist-put d1 3 3) :type 'wrong-type-argument) (should-error (plist-put d2 3 3) :type 'wrong-type-argument))) (ert-deftest test-cycle-lax-plist-put () (let ((c1 (cyc1 1)) (c2 (cyc2 1 2)) (d1 (dot1 1)) (d2 (dot2 1 2))) (should (lax-plist-put c1 1 1)) (should (lax-plist-put c2 1 1)) (should (lax-plist-put d1 1 1)) (should (lax-plist-put d2 1 1)) (should-error (lax-plist-put c1 2 2) :type 'circular-list) (should (lax-plist-put c2 2 2)) (should-error (lax-plist-put d1 2 2) :type 'wrong-type-argument) (should (lax-plist-put d2 2 2)) (should-error (lax-plist-put c1 3 3) :type 'circular-list) (should-error (lax-plist-put c2 3 3) :type 'circular-list) (should-error (lax-plist-put d1 3 3) :type 'wrong-type-argument) (should-error (lax-plist-put d2 3 3) :type 'wrong-type-argument))) (ert-deftest test-cycle-equal () (should-error (equal (cyc1 1) (cyc1 1))) (should-error (equal (cyc2 1 2) (cyc2 1 2)))) (ert-deftest test-cycle-nconc () (should-error (nconc (cyc1 1) 'tail) :type 'circular-list) (should-error (nconc (cyc2 1 2) 'tail) :type 'circular-list)) (provide 'fns-tests)