;;; cl-lib.el --- tests for emacs-lisp/cl-lib.el -*- lexical-binding:t -*- ;; Copyright (C) 2013-2017 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: ;; Extracted from ert-tests.el, back when ert used to reimplement some ;; cl functions. ;;; Code: (require 'cl-lib) (require 'ert) (ert-deftest cl-lib-test-remprop () (let ((x (cl-gensym))) (should (equal (symbol-plist x) '())) ;; Remove nonexistent property on empty plist. (cl-remprop x 'b) (should (equal (symbol-plist x) '())) (put x 'a 1) (should (equal (symbol-plist x) '(a 1))) ;; Remove nonexistent property on nonempty plist. (cl-remprop x 'b) (should (equal (symbol-plist x) '(a 1))) (put x 'b 2) (put x 'c 3) (put x 'd 4) (should (equal (symbol-plist x) '(a 1 b 2 c 3 d 4))) ;; Remove property that is neither first nor last. (cl-remprop x 'c) (should (equal (symbol-plist x) '(a 1 b 2 d 4))) ;; Remove last property from a plist of length >1. (cl-remprop x 'd) (should (equal (symbol-plist x) '(a 1 b 2))) ;; Remove first property from a plist of length >1. (cl-remprop x 'a) (should (equal (symbol-plist x) '(b 2))) ;; Remove property when there is only one. (cl-remprop x 'b) (should (equal (symbol-plist x) '())))) (ert-deftest cl-lib-test-remove-if-not () (let ((list (list 'a 'b 'c 'd)) (i 0)) (let ((result (cl-remove-if-not (lambda (x) (should (eql x (nth i list))) (cl-incf i) (member i '(2 3))) list))) (should (equal i 4)) (should (equal result '(b c))) (should (equal list '(a b c d))))) (should (equal '() (cl-remove-if-not (lambda (_x) (should nil)) '())))) (ert-deftest cl-lib-test-remove () (let ((list (list 'a 'b 'c 'd)) (key-index 0) (test-index 0)) (let ((result (cl-remove 'foo list :key (lambda (x) (should (eql x (nth key-index list))) (prog1 (list key-index x) (cl-incf key-index))) :test (lambda (a b) (should (eql a 'foo)) (should (equal b (list test-index (nth test-index list)))) (cl-incf test-index) (member test-index '(2 3)))))) (should (equal key-index 4)) (should (equal test-index 4)) (should (equal result '(a d))) (should (equal list '(a b c d))))) (let ((x (cons nil nil)) (y (cons nil nil))) (should (equal (cl-remove x (list x y)) ;; or (list x), since we use `equal' -- the ;; important thing is that only one element got ;; removed, this proves that the default test is ;; `eql', not `equal' (list y))))) (ert-deftest cl-lib-test-set-functions () (let ((c1 (cons nil nil)) (c2 (cons nil nil)) (sym (make-symbol "a"))) (let ((e '()) (a (list 'a 'b sym nil "" "x" c1 c2)) (b (list c1 'y 'b sym 'x))) (should (equal (cl-set-difference e e) e)) (should (equal (cl-set-difference a e) a)) (should (equal (cl-set-difference e a) e)) (should (equal (cl-set-difference a a) e)) (should (equal (cl-set-difference b e) b)) (should (equal (cl-set-difference e b) e)) (should (equal (cl-set-difference b b) e)) ;; Note: this test (and others) is sensitive to the order of the ;; result, which is not documented. (should (equal (cl-set-difference a b) (list 'a nil "" "x" c2))) (should (equal (cl-set-difference b a) (list 'y 'x))) ;; We aren't testing whether this is really using `eq' rather than `eql'. (should (equal (cl-set-difference e e :test 'eq) e)) (should (equal (cl-set-difference a e :test 'eq) a)) (should (equal (cl-set-difference e a :test 'eq) e)) (should (equal (cl-set-difference a a :test 'eq) e)) (should (equal (cl-set-difference b e :test 'eq) b)) (should (equal (cl-set-difference e b :test 'eq) e)) (should (equal (cl-set-difference b b :test 'eq) e)) (should (equal (cl-set-difference a b :test 'eq) (list 'a nil "" "x" c2))) (should (equal (cl-set-difference b a :test 'eq) (list 'y 'x))) (should (equal (cl-union e e) e)) (should (equal (cl-union a e) a)) (should (equal (cl-union e a) a)) (should (equal (cl-union a a) a)) (should (equal (cl-union b e) b)) (should (equal (cl-union e b) b)) (should (equal (cl-union b b) b)) (should (equal (cl-union a b) (list 'x 'y 'a 'b sym nil "" "x" c1 c2))) (should (equal (cl-union b a) (list 'x 'y 'a 'b sym nil "" "x" c1 c2))) (should (equal (cl-intersection e e) e)) (should (equal (cl-intersection a e) e)) (should (equal (cl-intersection e a) e)) (should (equal (cl-intersection a a) a)) (should (equal (cl-intersection b e) e)) (should (equal (cl-intersection e b) e)) (should (equal (cl-intersection b b) b)) (should (equal (cl-intersection a b) (list sym 'b c1))) (should (equal (cl-intersection b a) (list sym 'b c1)))))) (ert-deftest cl-lib-test-gensym () ;; Since the expansion of `should' calls `cl-gensym' and thus has a ;; side-effect on `cl--gensym-counter', we have to make sure all ;; macros in our test body are expanded before we rebind ;; `cl--gensym-counter' and run the body. Otherwise, the test would ;; fail if run interpreted. (let ((body (byte-compile '(lambda () (should (equal (symbol-name (cl-gensym)) "G0")) (should (equal (symbol-name (cl-gensym)) "G1")) (should (equal (symbol-name (cl-gensym)) "G2")) (should (equal (symbol-name (cl-gensym "foo")) "foo3")) (should (equal (symbol-name (cl-gensym "bar")) "bar4")) (should (equal cl--gensym-counter 5)))))) (let ((cl--gensym-counter 0)) (funcall body)))) (ert-deftest cl-lib-test-coerce-to-vector () (let* ((a (vector)) (b (vector 1 a 3)) (c (list)) (d (list b a))) (should (eql (cl-coerce a 'vector) a)) (should (eql (cl-coerce b 'vector) b)) (should (equal (cl-coerce c 'vector) (vector))) (should (equal (cl-coerce d 'vector) (vector b a))))) (ert-deftest cl-lib-test-string-position () (should (eql (cl-position ?x "") nil)) (should (eql (cl-position ?a "abc") 0)) (should (eql (cl-position ?b "abc") 1)) (should (eql (cl-position ?c "abc") 2)) (should (eql (cl-position ?d "abc") nil)) (should (eql (cl-position ?A "abc") nil))) (ert-deftest cl-lib-test-mismatch () (should (eql (cl-mismatch "" "") nil)) (should (eql (cl-mismatch "" "a") 0)) (should (eql (cl-mismatch "a" "a") nil)) (should (eql (cl-mismatch "ab" "a") 1)) (should (eql (cl-mismatch "Aa" "aA") 0)) (should (eql (cl-mismatch '(a b c) '(a b d)) 2))) (ert-deftest cl-lib-test-loop () (should (eql (cl-loop with (a b c) = '(1 2 3) return (+ a b c)) 6))) (ert-deftest cl-lib-keyword-names-versus-values () (should (equal (funcall (cl-function (lambda (&key a b) (list a b))) :b :a :a 42) '(42 :a)))) (cl-defstruct (mystruct (:constructor cl-lib--con-1 (&aux (abc 1))) (:constructor cl-lib--con-2 (&optional def) "Constructor docstring.")) "General docstring." (abc 5 :readonly t) (def nil)) (ert-deftest cl-lib-struct-accessors () (let ((x (make-mystruct :abc 1 :def 2))) (should (eql (cl-struct-slot-value 'mystruct 'abc x) 1)) (should (eql (cl-struct-slot-value 'mystruct 'def x) 2)) (setf (cl-struct-slot-value 'mystruct 'def x) -1) (should (eql (cl-struct-slot-value 'mystruct 'def x) -1)) (should (eql (cl-struct-slot-offset 'mystruct 'abc) 1)) (should-error (cl-struct-slot-offset 'mystruct 'marypoppins)) (should (pcase (cl-struct-slot-info 'mystruct) (`((cl-tag-slot) (abc 5 :readonly t) (def . ,(or `nil `(nil)))) t))))) (ert-deftest cl-lib-struct-constructors () (should (string-match "\\`Constructor docstring." (documentation 'cl-lib--con-2 t))) (should (mystruct-p (cl-lib--con-1))) (should (mystruct-p (cl-lib--con-2)))) (ert-deftest cl-lib-arglist-performance () ;; An `&aux' should not cause lambda's arglist to be turned into an &rest ;; that's parsed by hand. (should (equal () (help-function-arglist 'cl-lib--con-1))) (should (pcase (help-function-arglist 'cl-lib--con-2) (`(&optional ,_) t)))) (ert-deftest cl-the () (should (eql (cl-the integer 42) 42)) (should-error (cl-the integer "abc")) (let ((side-effect 0)) (should (= (cl-the integer (cl-incf side-effect)) 1)) (should (= side-effect 1)))) (ert-deftest cl-lib-test-plusp () (should-not (cl-plusp -1.0e+INF)) (should-not (cl-plusp -1.5e2)) (should-not (cl-plusp -3.14)) (should-not (cl-plusp -1)) (should-not (cl-plusp -0.0)) (should-not (cl-plusp 0)) (should-not (cl-plusp 0.0)) (should-not (cl-plusp -0.0e+NaN)) (should-not (cl-plusp 0.0e+NaN)) (should (cl-plusp 1)) (should (cl-plusp 3.14)) (should (cl-plusp 1.5e2)) (should (cl-plusp 1.0e+INF)) (should-error (cl-plusp "42") :type 'wrong-type-argument)) (ert-deftest cl-lib-test-minusp () (should (cl-minusp -1.0e+INF)) (should (cl-minusp -1.5e2)) (should (cl-minusp -3.14)) (should (cl-minusp -1)) (should-not (cl-minusp -0.0)) (should-not (cl-minusp 0)) (should-not (cl-minusp 0.0)) (should-not (cl-minusp -0.0e+NaN)) (should-not (cl-minusp 0.0e+NaN)) (should-not (cl-minusp 1)) (should-not (cl-minusp 3.14)) (should-not (cl-minusp 1.5e2)) (should-not (cl-minusp 1.0e+INF)) (should-error (cl-minusp "-42") :type 'wrong-type-argument)) (ert-deftest cl-lib-test-oddp () (should (cl-oddp -3)) (should (cl-oddp 3)) (should-not (cl-oddp -2)) (should-not (cl-oddp 0)) (should-not (cl-oddp 2)) (should-error (cl-oddp 3.0e+NaN) :type 'wrong-type-argument) (should-error (cl-oddp 3.0) :type 'wrong-type-argument) (should-error (cl-oddp "3") :type 'wrong-type-argument)) (ert-deftest cl-lib-test-evenp () (should (cl-evenp -2)) (should (cl-evenp 0)) (should (cl-evenp 2)) (should-not (cl-evenp -3)) (should-not (cl-evenp 3)) (should-error (cl-evenp 2.0e+NaN) :type 'wrong-type-argument) (should-error (cl-evenp 2.0) :type 'wrong-type-argument) (should-error (cl-evenp "2") :type 'wrong-type-argument)) (ert-deftest cl-digit-char-p () (should (eql 3 (cl-digit-char-p ?3))) (should (eql 10 (cl-digit-char-p ?a 11))) (should (eql 10 (cl-digit-char-p ?A 11))) (should-not (cl-digit-char-p ?a)) (should (eql 32 (cl-digit-char-p ?w 36))) (should-error (cl-digit-char-p ?a 37) :type 'args-out-of-range) (should-error (cl-digit-char-p ?a 1) :type 'args-out-of-range)) (ert-deftest cl-lib-test-first () (should (null (cl-first '()))) (should (= 4 (cl-first '(4)))) (should (= 4 (cl-first '(4 2)))) (should-error (cl-first "42") :type 'wrong-type-argument)) (ert-deftest cl-lib-test-second () (should (null (cl-second '()))) (should (null (cl-second '(4)))) (should (= 2 (cl-second '(1 2)))) (should (= 2 (cl-second '(1 2 3)))) (should-error (cl-second "1 2 3") :type 'wrong-type-argument)) (ert-deftest cl-lib-test-third () (should (null (cl-third '()))) (should (null (cl-third '(1 2)))) (should (= 3 (cl-third '(1 2 3)))) (should (= 3 (cl-third '(1 2 3 4)))) (should-error (cl-third "123") :type 'wrong-type-argument)) (ert-deftest cl-lib-test-fourth () (should (null (cl-fourth '()))) (should (null (cl-fourth '(1 2 3)))) (should (= 4 (cl-fourth '(1 2 3 4)))) (should (= 4 (cl-fourth '(1 2 3 4 5)))) (should-error (cl-fourth "1234") :type 'wrong-type-argument)) (ert-deftest cl-lib-test-fifth () (should (null (cl-fifth '()))) (should (null (cl-fifth '(1 2 3 4)))) (should (= 5 (cl-fifth '(1 2 3 4 5)))) (should (= 5 (cl-fifth '(1 2 3 4 5 6)))) (should-error (cl-fifth "12345") :type 'wrong-type-argument)) (ert-deftest cl-lib-test-fifth () (should (null (cl-fifth '()))) (should (null (cl-fifth '(1 2 3 4)))) (should (= 5 (cl-fifth '(1 2 3 4 5)))) (should (= 5 (cl-fifth '(1 2 3 4 5 6)))) (should-error (cl-fifth "12345") :type 'wrong-type-argument)) (ert-deftest cl-lib-test-sixth () (should (null (cl-sixth '()))) (should (null (cl-sixth '(1 2 3 4 5)))) (should (= 6 (cl-sixth '(1 2 3 4 5 6)))) (should (= 6 (cl-sixth '(1 2 3 4 5 6 7)))) (should-error (cl-sixth "123456") :type 'wrong-type-argument)) (ert-deftest cl-lib-test-seventh () (should (null (cl-seventh '()))) (should (null (cl-seventh '(1 2 3 4 5 6)))) (should (= 7 (cl-seventh '(1 2 3 4 5 6 7)))) (should (= 7 (cl-seventh '(1 2 3 4 5 6 7 8)))) (should-error (cl-seventh "1234567") :type 'wrong-type-argument)) (ert-deftest cl-lib-test-eighth () (should (null (cl-eighth '()))) (should (null (cl-eighth '(1 2 3 4 5 6 7)))) (should (= 8 (cl-eighth '(1 2 3 4 5 6 7 8)))) (should (= 8 (cl-eighth '(1 2 3 4 5 6 7 8 9)))) (should-error (cl-eighth "12345678") :type 'wrong-type-argument)) (ert-deftest cl-lib-test-ninth () (should (null (cl-ninth '()))) (should (null (cl-ninth '(1 2 3 4 5 6 7 8)))) (should (= 9 (cl-ninth '(1 2 3 4 5 6 7 8 9)))) (should (= 9 (cl-ninth '(1 2 3 4 5 6 7 8 9 10)))) (should-error (cl-ninth "123456789") :type 'wrong-type-argument)) (ert-deftest cl-lib-test-tenth () (should (null (cl-tenth '()))) (should (null (cl-tenth '(1 2 3 4 5 6 7 8 9)))) (should (= 10 (cl-tenth '(1 2 3 4 5 6 7 8 9 10)))) (should (= 10 (cl-tenth '(1 2 3 4 5 6 7 8 9 10 11)))) (should-error (cl-tenth "1234567890") :type 'wrong-type-argument)) (ert-deftest cl-lib-test-endp () (should (cl-endp '())) (should-not (cl-endp '(1))) (should-error (cl-endp 1) :type 'wrong-type-argument) (should-error (cl-endp [1]) :type 'wrong-type-argument)) (ert-deftest cl-lib-test-nth-value () (let ((vals (cl-values 2 3))) (should (= (cl-nth-value 0 vals) 2)) (should (= (cl-nth-value 1 vals) 3)) (should (null (cl-nth-value 2 vals))) (should-error (cl-nth-value 0.0 vals) :type 'wrong-type-argument))) (ert-deftest cl-lib-nth-value-test-multiple-values () "While CL multiple values are an alias to list, these won't work." :expected-result :failed (should (eq (cl-nth-value 0 '(2 3)) '(2 3))) (should (= (cl-nth-value 0 1) 1)) (should (null (cl-nth-value 1 1))) (should-error (cl-nth-value -1 (cl-values 2 3)) :type 'args-out-of-range) (should (string= (cl-nth-value 0 "only lists") "only lists"))) (ert-deftest cl-test-caaar () (should (null (cl-caaar '()))) (should (null (cl-caaar '(() (2))))) (should (null (cl-caaar '((() (2)) (a b))))) (should-error (cl-caaar '(1 2)) :type 'wrong-type-argument) (should-error (cl-caaar '((1 2))) :type 'wrong-type-argument) (should (= 1 (cl-caaar '(((1 2) (3 4)))))) (should (null (cl-caaar '((() (3 4))))))) (ert-deftest cl-test-caadr () (should (null (cl-caadr '()))) (should (null (cl-caadr '(1)))) (should-error (cl-caadr '(1 2)) :type 'wrong-type-argument) (should (= 2 (cl-caadr '(1 (2 3))))) (should (equal '((2) (3)) (cl-caadr '((1) (((2) (3))) (4)))))) (ert-deftest cl-test-ldiff () (let ((l '(1 2 3))) (should (null (cl-ldiff '() '()))) (should (null (cl-ldiff '() l))) (should (null (cl-ldiff l l))) (should (equal l (cl-ldiff l '()))) ;; must be part of the list (should (equal l (cl-ldiff l '(2 3)))) (should (equal '(1) (cl-ldiff l (nthcdr 1 l)))) ;; should return a copy (should-not (eq (cl-ldiff l '()) l)))) (ert-deftest cl-lib-adjoin-test () (let ((nums '(1 2)) (myfn-p '=)) ;; add non-existing item to the front (should (equal '(3 1 2) (cl-adjoin 3 nums))) ;; just add - don't copy rest (should (eq nums (cdr (cl-adjoin 3 nums)))) ;; add only when not already there (should (eq nums (cl-adjoin 2 nums))) (should (equal '(2 1 (2)) (cl-adjoin 2 '(1 (2))))) ;; default test function is eql (should (equal '(1.0 1 2) (cl-adjoin 1.0 nums))) ;; own :test function - returns true if match (should (equal '(1.0 1 2) (cl-adjoin 1.0 nums :test nil))) ;defaults to eql (should (eq nums (cl-adjoin 2 nums :test myfn-p))) ;match (should (equal '(3 1 2) (cl-adjoin 3 nums :test myfn-p))) ;no match ;; own :test-not function - returns false if match (should (equal '(1.0 1 2) (cl-adjoin 1.0 nums :test-not nil))) ;defaults to eql (should (equal '(2 2) (cl-adjoin 2 '(2) :test-not myfn-p))) ; no match (should (eq nums (cl-adjoin 2 nums :test-not myfn-p))) ; 1 matches (should (eq nums (cl-adjoin 3 nums :test-not myfn-p))) ; 1 and 2 matches ;; according to CLtL2 passing both :test and :test-not should signal error ;;(should-error (cl-adjoin 3 nums :test 'myfn-p :test-not myfn-p)) ;; own :key fn (should (eq nums (cl-adjoin 3 nums :key (lambda (x) (if (cl-evenp x) (1+ x) x))))) (should (equal '(3 1 2) (cl-adjoin 3 nums :key (lambda (x) (if (cl-evenp x) (+ 2 x) x))))) ;; convert using :key, then compare with :test (should (eq nums (cl-adjoin 1 nums :key 'int-to-string :test 'string=))) (should (equal '(3 1 2) (cl-adjoin 3 nums :key 'int-to-string :test 'string=))) (should-error (cl-adjoin 3 nums :key 'int-to-string :test myfn-p) :type 'wrong-type-argument) ;; convert using :key, then compare with :test-not (should (eq nums (cl-adjoin 3 nums :key 'int-to-string :test-not 'string=))) (should (equal '(1 1) (cl-adjoin 1 '(1) :key 'int-to-string :test-not 'string=))) (should-error (cl-adjoin 1 nums :key 'int-to-string :test-not myfn-p) :type 'wrong-type-argument))) (ert-deftest cl-parse-integer () (should-error (cl-parse-integer "abc")) (should (null (cl-parse-integer "abc" :junk-allowed t))) (should (null (cl-parse-integer "" :junk-allowed t))) (should (= 342391 (cl-parse-integer "0123456789" :radix 8 :junk-allowed t))) (should-error (cl-parse-integer "0123456789" :radix 8)) (should (= -239 (cl-parse-integer "-efz" :radix 16 :junk-allowed t))) (should-error (cl-parse-integer "efz" :radix 16)) (should (= 239 (cl-parse-integer "zzef" :radix 16 :start 2))) (should (= -123 (cl-parse-integer " -123 ")))) (ert-deftest cl-loop-destructuring-with () (should (equal (cl-loop with (a b c) = '(1 2 3) return (+ a b c)) 6))) (ert-deftest cl-flet-test () (should (equal (cl-flet ((f1 (x) x)) (let ((x #'f1)) (funcall x 5))) 5))) (ert-deftest cl-lib-test-typep () (cl-deftype cl-lib-test-type (&optional x) `(member ,x)) ;; Make sure we correctly implement the rule that deftype's optional args ;; default to `*' rather than to nil. (should (cl-typep '* 'cl-lib-test-type)) (should-not (cl-typep 1 'cl-lib-test-type))) (ert-deftest cl-lib-symbol-macrolet () ;; bug#26325 (should (equal (cl-flet ((f (x) (+ x 5))) (let ((x 5)) (f (+ x 6)))) ;; Go through `eval', otherwise the macro-expansion ;; error prevents running the whole test suite :-( (eval '(cl-symbol-macrolet ((f (+ x 6))) (cl-flet ((f (x) (+ x 5))) (let ((x 5)) (f f)))) t)))) (defmacro cl-lib-symbol-macrolet-4+5 () ;; bug#26068 (let* ((sname "x") (s1 (make-symbol sname)) (s2 (make-symbol sname))) `(cl-symbol-macrolet ((,s1 4) (,s2 5)) (+ ,s1 ,s2)))) (ert-deftest cl-lib-symbol-macrolet-2 () (should (equal (cl-lib-symbol-macrolet-4+5) (+ 4 5)))) (ert-deftest cl-lib-defstruct-record () (cl-defstruct foo x) (let ((x (make-foo :x 42))) (should (recordp x)) (should (eq (type-of x) 'foo)) (should (eql (foo-x x) 42)))) (ert-deftest old-struct () (cl-defstruct foo x) (let ((x [cl-struct-foo]) (saved cl-old-struct-compat-mode)) (cl-old-struct-compat-mode -1) (should (eq (type-of x) 'vector)) (cl-old-struct-compat-mode 1) (let ((cl-struct-foo (cl--struct-get-class 'foo))) (setf (symbol-function 'cl-struct-foo) :quick-object-witness-check) (should (eq (type-of x) 'foo)) (should (eq (type-of [foo]) 'vector))) (cl-old-struct-compat-mode (if saved 1 -1)))) (ert-deftest cl-lib-old-struct () (let ((saved cl-old-struct-compat-mode)) (cl-old-struct-compat-mode -1) (cl-struct-define 'foo "" 'cl-structure-object nil nil nil 'cl-struct-foo-tags 'cl-struct-foo t) (should cl-old-struct-compat-mode) (cl-old-struct-compat-mode (if saved 1 -1)))) ;;; cl-lib.el ends here