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|
;;; ert-tests.el --- ERT's self-tests
;; Copyright (C) 2007-2008, 2010-2011 Free Software Foundation, Inc.
;; Author: Christian Ohler <ohler@gnu.org>
;; 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:
;; This file is part of ERT, the Emacs Lisp Regression Testing tool.
;; See ert.el or the texinfo manual for more details.
;;; Code:
(eval-when-compile
(require 'cl))
(require 'ert)
;;; Self-test that doesn't rely on ERT, for bootstrapping.
;; This is used to test that bodies actually run.
(defvar ert--test-body-was-run)
(ert-deftest ert-test-body-runs ()
(setq ert--test-body-was-run t))
(defun ert-self-test ()
"Run ERT's self-tests and make sure they actually ran."
(let ((window-configuration (current-window-configuration)))
(let ((ert--test-body-was-run nil))
;; The buffer name chosen here should not compete with the default
;; results buffer name for completion in `switch-to-buffer'.
(let ((stats (ert-run-tests-interactively "^ert-" " *ert self-tests*")))
(assert ert--test-body-was-run)
(if (zerop (ert-stats-completed-unexpected stats))
;; Hide results window only when everything went well.
(set-window-configuration window-configuration)
(error "ERT self-test failed"))))))
(defun ert-self-test-and-exit ()
"Run ERT's self-tests and exit Emacs.
The exit code will be zero if the tests passed, nonzero if they
failed or if there was a problem."
(unwind-protect
(progn
(ert-self-test)
(kill-emacs 0))
(unwind-protect
(progn
(message "Error running tests")
(backtrace))
(kill-emacs 1))))
;;; Further tests are defined using ERT.
(ert-deftest ert-test-nested-test-body-runs ()
"Test that nested test bodies run."
(lexical-let ((was-run nil))
(let ((test (make-ert-test :body (lambda ()
(setq was-run t)))))
(assert (not was-run))
(ert-run-test test)
(assert was-run))))
;;; Test that pass/fail works.
(ert-deftest ert-test-pass ()
(let ((test (make-ert-test :body (lambda ()))))
(let ((result (ert-run-test test)))
(assert (ert-test-passed-p result)))))
(ert-deftest ert-test-fail ()
(let ((test (make-ert-test :body (lambda () (ert-fail "failure message")))))
(let ((result (let ((ert-debug-on-error nil))
(ert-run-test test))))
(assert (ert-test-failed-p result) t)
(assert (equal (ert-test-result-with-condition-condition result)
'(ert-test-failed "failure message"))
t))))
(ert-deftest ert-test-fail-debug-with-condition-case ()
(let ((test (make-ert-test :body (lambda () (ert-fail "failure message")))))
(condition-case condition
(progn
(let ((ert-debug-on-error t))
(ert-run-test test))
(assert nil))
((error)
(assert (equal condition '(ert-test-failed "failure message")) t)))))
(ert-deftest ert-test-fail-debug-with-debugger-1 ()
(let ((test (make-ert-test :body (lambda () (ert-fail "failure message")))))
(let ((debugger (lambda (&rest debugger-args)
(assert nil))))
(let ((ert-debug-on-error nil))
(ert-run-test test)))))
(ert-deftest ert-test-fail-debug-with-debugger-2 ()
(let ((test (make-ert-test :body (lambda () (ert-fail "failure message")))))
(block nil
(let ((debugger (lambda (&rest debugger-args)
(return-from nil nil))))
(let ((ert-debug-on-error t))
(ert-run-test test))
(assert nil)))))
(ert-deftest ert-test-fail-debug-nested-with-debugger ()
(let ((test (make-ert-test :body (lambda ()
(let ((ert-debug-on-error t))
(ert-fail "failure message"))))))
(let ((debugger (lambda (&rest debugger-args)
(assert nil nil "Assertion a"))))
(let ((ert-debug-on-error nil))
(ert-run-test test))))
(let ((test (make-ert-test :body (lambda ()
(let ((ert-debug-on-error nil))
(ert-fail "failure message"))))))
(block nil
(let ((debugger (lambda (&rest debugger-args)
(return-from nil nil))))
(let ((ert-debug-on-error t))
(ert-run-test test))
(assert nil nil "Assertion b")))))
(ert-deftest ert-test-error ()
(let ((test (make-ert-test :body (lambda () (error "Error message")))))
(let ((result (let ((ert-debug-on-error nil))
(ert-run-test test))))
(assert (ert-test-failed-p result) t)
(assert (equal (ert-test-result-with-condition-condition result)
'(error "Error message"))
t))))
(ert-deftest ert-test-error-debug ()
(let ((test (make-ert-test :body (lambda () (error "Error message")))))
(condition-case condition
(progn
(let ((ert-debug-on-error t))
(ert-run-test test))
(assert nil))
((error)
(assert (equal condition '(error "Error message")) t)))))
;;; Test that `should' works.
(ert-deftest ert-test-should ()
(let ((test (make-ert-test :body (lambda () (should nil)))))
(let ((result (let ((ert-debug-on-error nil))
(ert-run-test test))))
(assert (ert-test-failed-p result) t)
(assert (equal (ert-test-result-with-condition-condition result)
'(ert-test-failed ((should nil) :form nil :value nil)))
t)))
(let ((test (make-ert-test :body (lambda () (should t)))))
(let ((result (ert-run-test test)))
(assert (ert-test-passed-p result) t))))
(ert-deftest ert-test-should-value ()
(should (eql (should 'foo) 'foo))
(should (eql (should 'bar) 'bar)))
(ert-deftest ert-test-should-not ()
(let ((test (make-ert-test :body (lambda () (should-not t)))))
(let ((result (let ((ert-debug-on-error nil))
(ert-run-test test))))
(assert (ert-test-failed-p result) t)
(assert (equal (ert-test-result-with-condition-condition result)
'(ert-test-failed ((should-not t) :form t :value t)))
t)))
(let ((test (make-ert-test :body (lambda () (should-not nil)))))
(let ((result (ert-run-test test)))
(assert (ert-test-passed-p result)))))
(ert-deftest ert-test-should-with-macrolet ()
(let ((test (make-ert-test :body (lambda ()
(macrolet ((foo () `(progn t nil)))
(should (foo)))))))
(let ((result (let ((ert-debug-on-error nil))
(ert-run-test test))))
(should (ert-test-failed-p result))
(should (equal
(ert-test-result-with-condition-condition result)
'(ert-test-failed ((should (foo))
:form (progn t nil)
:value nil)))))))
(ert-deftest ert-test-should-error ()
;; No error.
(let ((test (make-ert-test :body (lambda () (should-error (progn))))))
(let ((result (let ((ert-debug-on-error nil))
(ert-run-test test))))
(should (ert-test-failed-p result))
(should (equal (ert-test-result-with-condition-condition result)
'(ert-test-failed
((should-error (progn))
:form (progn)
:value nil
:fail-reason "did not signal an error"))))))
;; A simple error.
(should (equal (should-error (error "Foo"))
'(error "Foo")))
;; Error of unexpected type.
(let ((test (make-ert-test :body (lambda ()
(should-error (error "Foo")
:type 'singularity-error)))))
(let ((result (ert-run-test test)))
(should (ert-test-failed-p result))
(should (equal
(ert-test-result-with-condition-condition result)
'(ert-test-failed
((should-error (error "Foo") :type 'singularity-error)
:form (error "Foo")
:condition (error "Foo")
:fail-reason
"the error signalled did not have the expected type"))))))
;; Error of the expected type.
(let* ((error nil)
(test (make-ert-test
:body (lambda ()
(setq error
(should-error (signal 'singularity-error nil)
:type 'singularity-error))))))
(let ((result (ert-run-test test)))
(should (ert-test-passed-p result))
(should (equal error '(singularity-error))))))
(ert-deftest ert-test-should-error-subtypes ()
(should-error (signal 'singularity-error nil)
:type 'singularity-error
:exclude-subtypes t)
(let ((test (make-ert-test
:body (lambda ()
(should-error (signal 'arith-error nil)
:type 'singularity-error)))))
(let ((result (ert-run-test test)))
(should (ert-test-failed-p result))
(should (equal
(ert-test-result-with-condition-condition result)
'(ert-test-failed
((should-error (signal 'arith-error nil)
:type 'singularity-error)
:form (signal arith-error nil)
:condition (arith-error)
:fail-reason
"the error signalled did not have the expected type"))))))
(let ((test (make-ert-test
:body (lambda ()
(should-error (signal 'arith-error nil)
:type 'singularity-error
:exclude-subtypes t)))))
(let ((result (ert-run-test test)))
(should (ert-test-failed-p result))
(should (equal
(ert-test-result-with-condition-condition result)
'(ert-test-failed
((should-error (signal 'arith-error nil)
:type 'singularity-error
:exclude-subtypes t)
:form (signal arith-error nil)
:condition (arith-error)
:fail-reason
"the error signalled did not have the expected type"))))))
(let ((test (make-ert-test
:body (lambda ()
(should-error (signal 'singularity-error nil)
:type 'arith-error
:exclude-subtypes t)))))
(let ((result (ert-run-test test)))
(should (ert-test-failed-p result))
(should (equal
(ert-test-result-with-condition-condition result)
'(ert-test-failed
((should-error (signal 'singularity-error nil)
:type 'arith-error
:exclude-subtypes t)
:form (signal singularity-error nil)
:condition (singularity-error)
:fail-reason
"the error signalled was a subtype of the expected type")))))
))
(defmacro ert--test-my-list (&rest args)
"Don't use this. Instead, call `list' with ARGS, it does the same thing.
This macro is used to test if macroexpansion in `should' works."
`(list ,@args))
(ert-deftest ert-test-should-failure-debugging ()
"Test that `should' errors contain the information we expect them to."
(loop for (body expected-condition) in
`((,(lambda () (let ((x nil)) (should x)))
(ert-test-failed ((should x) :form x :value nil)))
(,(lambda () (let ((x t)) (should-not x)))
(ert-test-failed ((should-not x) :form x :value t)))
(,(lambda () (let ((x t)) (should (not x))))
(ert-test-failed ((should (not x)) :form (not t) :value nil)))
(,(lambda () (let ((x nil)) (should-not (not x))))
(ert-test-failed ((should-not (not x)) :form (not nil) :value t)))
(,(lambda () (let ((x t) (y nil)) (should-not
(ert--test-my-list x y))))
(ert-test-failed
((should-not (ert--test-my-list x y))
:form (list t nil)
:value (t nil))))
(,(lambda () (let ((x t)) (should (error "Foo"))))
(error "Foo")))
do
(let ((test (make-ert-test :body body)))
(condition-case actual-condition
(progn
(let ((ert-debug-on-error t))
(ert-run-test test))
(assert nil))
((error)
(should (equal actual-condition expected-condition)))))))
(ert-deftest ert-test-deftest ()
(should (equal (macroexpand '(ert-deftest abc () "foo" :tags '(bar)))
'(progn
(ert-set-test 'abc
(make-ert-test :name 'abc
:documentation "foo"
:tags '(bar)
:body (lambda ())))
(push '(ert-deftest . abc) current-load-list)
'abc)))
(should (equal (macroexpand '(ert-deftest def ()
:expected-result ':passed))
'(progn
(ert-set-test 'def
(make-ert-test :name 'def
:expected-result-type ':passed
:body (lambda ())))
(push '(ert-deftest . def) current-load-list)
'def)))
;; :documentation keyword is forbidden
(should-error (macroexpand '(ert-deftest ghi ()
:documentation "foo"))))
(ert-deftest ert-test-record-backtrace ()
(let ((test (make-ert-test :body (lambda () (ert-fail "foo")))))
(let ((result (ert-run-test test)))
(should (ert-test-failed-p result))
(with-temp-buffer
(ert--print-backtrace (ert-test-failed-backtrace result))
(goto-char (point-min))
(end-of-line)
(let ((first-line (buffer-substring-no-properties (point-min) (point))))
(should (equal first-line " signal(ert-test-failed (\"foo\"))")))))))
(ert-deftest ert-test-messages ()
:tags '(:causes-redisplay)
(let* ((message-string "Test message")
(messages-buffer (get-buffer-create "*Messages*"))
(test (make-ert-test :body (lambda () (message "%s" message-string)))))
(with-current-buffer messages-buffer
(let ((result (ert-run-test test)))
(should (equal (concat message-string "\n")
(ert-test-result-messages result)))))))
(ert-deftest ert-test-running-tests ()
(let ((outer-test (ert-get-test 'ert-test-running-tests)))
(should (equal (ert-running-test) outer-test))
(let (test1 test2 test3)
(setq test1 (make-ert-test
:name "1"
:body (lambda ()
(should (equal (ert-running-test) outer-test))
(should (equal ert--running-tests
(list test1 test2 test3
outer-test)))))
test2 (make-ert-test
:name "2"
:body (lambda ()
(should (equal (ert-running-test) outer-test))
(should (equal ert--running-tests
(list test3 test2 outer-test)))
(ert-run-test test1)))
test3 (make-ert-test
:name "3"
:body (lambda ()
(should (equal (ert-running-test) outer-test))
(should (equal ert--running-tests
(list test3 outer-test)))
(ert-run-test test2))))
(should (ert-test-passed-p (ert-run-test test3))))))
(ert-deftest ert-test-test-result-expected-p ()
"Test `ert-test-result-expected-p' and (implicitly) `ert-test-result-type-p'."
;; passing test
(let ((test (make-ert-test :body (lambda ()))))
(should (ert-test-result-expected-p test (ert-run-test test))))
;; unexpected failure
(let ((test (make-ert-test :body (lambda () (ert-fail "failed")))))
(should-not (ert-test-result-expected-p test (ert-run-test test))))
;; expected failure
(let ((test (make-ert-test :body (lambda () (ert-fail "failed"))
:expected-result-type ':failed)))
(should (ert-test-result-expected-p test (ert-run-test test))))
;; `not' expected type
(let ((test (make-ert-test :body (lambda ())
:expected-result-type '(not :failed))))
(should (ert-test-result-expected-p test (ert-run-test test))))
(let ((test (make-ert-test :body (lambda ())
:expected-result-type '(not :passed))))
(should-not (ert-test-result-expected-p test (ert-run-test test))))
;; `and' expected type
(let ((test (make-ert-test :body (lambda ())
:expected-result-type '(and :passed :failed))))
(should-not (ert-test-result-expected-p test (ert-run-test test))))
(let ((test (make-ert-test :body (lambda ())
:expected-result-type '(and :passed
(not :failed)))))
(should (ert-test-result-expected-p test (ert-run-test test))))
;; `or' expected type
(let ((test (make-ert-test :body (lambda ())
:expected-result-type '(or (and :passed :failed)
:passed))))
(should (ert-test-result-expected-p test (ert-run-test test))))
(let ((test (make-ert-test :body (lambda ())
:expected-result-type '(or (and :passed :failed)
nil (not t)))))
(should-not (ert-test-result-expected-p test (ert-run-test test)))))
;;; Test `ert-select-tests'.
(ert-deftest ert-test-select-regexp ()
(should (equal (ert-select-tests "^ert-test-select-regexp$" t)
(list (ert-get-test 'ert-test-select-regexp)))))
(ert-deftest ert-test-test-boundp ()
(should (ert-test-boundp 'ert-test-test-boundp))
(should-not (ert-test-boundp (make-symbol "ert-not-a-test"))))
(ert-deftest ert-test-select-member ()
(should (equal (ert-select-tests '(member ert-test-select-member) t)
(list (ert-get-test 'ert-test-select-member)))))
(ert-deftest ert-test-select-test ()
(should (equal (ert-select-tests (ert-get-test 'ert-test-select-test) t)
(list (ert-get-test 'ert-test-select-test)))))
(ert-deftest ert-test-select-symbol ()
(should (equal (ert-select-tests 'ert-test-select-symbol t)
(list (ert-get-test 'ert-test-select-symbol)))))
(ert-deftest ert-test-select-and ()
(let ((test (make-ert-test
:name nil
:body nil
:most-recent-result (make-ert-test-failed
:condition nil
:backtrace nil
:infos nil))))
(should (equal (ert-select-tests `(and (member ,test) :failed) t)
(list test)))))
(ert-deftest ert-test-select-tag ()
(let ((test (make-ert-test
:name nil
:body nil
:tags '(a b))))
(should (equal (ert-select-tests `(tag a) (list test)) (list test)))
(should (equal (ert-select-tests `(tag b) (list test)) (list test)))
(should (equal (ert-select-tests `(tag c) (list test)) '()))))
;;; Tests for utility functions.
(ert-deftest ert-test-proper-list-p ()
(should (ert--proper-list-p '()))
(should (ert--proper-list-p '(1)))
(should (ert--proper-list-p '(1 2)))
(should (ert--proper-list-p '(1 2 3)))
(should (ert--proper-list-p '(1 2 3 4)))
(should (not (ert--proper-list-p 'a)))
(should (not (ert--proper-list-p '(1 . a))))
(should (not (ert--proper-list-p '(1 2 . a))))
(should (not (ert--proper-list-p '(1 2 3 . a))))
(should (not (ert--proper-list-p '(1 2 3 4 . a))))
(let ((a (list 1)))
(setf (cdr (last a)) a)
(should (not (ert--proper-list-p a))))
(let ((a (list 1 2)))
(setf (cdr (last a)) a)
(should (not (ert--proper-list-p a))))
(let ((a (list 1 2 3)))
(setf (cdr (last a)) a)
(should (not (ert--proper-list-p a))))
(let ((a (list 1 2 3 4)))
(setf (cdr (last a)) a)
(should (not (ert--proper-list-p a))))
(let ((a (list 1 2)))
(setf (cdr (last a)) (cdr a))
(should (not (ert--proper-list-p a))))
(let ((a (list 1 2 3)))
(setf (cdr (last a)) (cdr a))
(should (not (ert--proper-list-p a))))
(let ((a (list 1 2 3 4)))
(setf (cdr (last a)) (cdr a))
(should (not (ert--proper-list-p a))))
(let ((a (list 1 2 3)))
(setf (cdr (last a)) (cddr a))
(should (not (ert--proper-list-p a))))
(let ((a (list 1 2 3 4)))
(setf (cdr (last a)) (cddr a))
(should (not (ert--proper-list-p a))))
(let ((a (list 1 2 3 4)))
(setf (cdr (last a)) (cdddr a))
(should (not (ert--proper-list-p a)))))
(ert-deftest ert-test-parse-keys-and-body ()
(should (equal (ert--parse-keys-and-body '(foo)) '(nil (foo))))
(should (equal (ert--parse-keys-and-body '(:bar foo)) '((:bar foo) nil)))
(should (equal (ert--parse-keys-and-body '(:bar foo a (b)))
'((:bar foo) (a (b)))))
(should (equal (ert--parse-keys-and-body '(:bar foo :a (b)))
'((:bar foo :a (b)) nil)))
(should (equal (ert--parse-keys-and-body '(bar foo :a (b)))
'(nil (bar foo :a (b)))))
(should-error (ert--parse-keys-and-body '(:bar foo :a))))
(ert-deftest ert-test-run-tests-interactively ()
:tags '(:causes-redisplay)
(let ((passing-test (make-ert-test :name 'passing-test
:body (lambda () (ert-pass))))
(failing-test (make-ert-test :name 'failing-test
:body (lambda () (ert-fail
"failure message")))))
(let ((ert-debug-on-error nil))
(let* ((buffer-name (generate-new-buffer-name " *ert-test-run-tests*"))
(messages nil)
(mock-message-fn
(lambda (format-string &rest args)
(push (apply #'format format-string args) messages))))
(save-window-excursion
(unwind-protect
(let ((case-fold-search nil))
(ert-run-tests-interactively
`(member ,passing-test ,failing-test) buffer-name
mock-message-fn)
(should (equal messages `(,(concat
"Ran 2 tests, 1 results were "
"as expected, 1 unexpected"))))
(with-current-buffer buffer-name
(goto-char (point-min))
(should (equal
(buffer-substring (point-min)
(save-excursion
(forward-line 4)
(point)))
(concat
"Selector: (member <passing-test> <failing-test>)\n"
"Passed: 1\n"
"Failed: 1 (1 unexpected)\n"
"Total: 2/2\n")))))
(when (get-buffer buffer-name)
(kill-buffer buffer-name))))))))
(ert-deftest ert-test-special-operator-p ()
(should (ert--special-operator-p 'if))
(should-not (ert--special-operator-p 'car))
(should-not (ert--special-operator-p 'ert--special-operator-p))
(let ((b (ert--gensym)))
(should-not (ert--special-operator-p b))
(fset b 'if)
(should (ert--special-operator-p b))))
(ert-deftest ert-test-list-of-should-forms ()
(let ((test (make-ert-test :body (lambda ()
(should t)
(should (null '()))
(should nil)
(should t)))))
(let ((result (let ((ert-debug-on-error nil))
(ert-run-test test))))
(should (equal (ert-test-result-should-forms result)
'(((should t) :form t :value t)
((should (null '())) :form (null nil) :value t)
((should nil) :form nil :value nil)))))))
(ert-deftest ert-test-list-of-should-forms-observers-should-not-stack ()
(let ((test (make-ert-test
:body (lambda ()
(let ((test2 (make-ert-test
:body (lambda ()
(should t)))))
(let ((result (ert-run-test test2)))
(should (ert-test-passed-p result))))))))
(let ((result (let ((ert-debug-on-error nil))
(ert-run-test test))))
(should (ert-test-passed-p result))
(should (eql (length (ert-test-result-should-forms result))
1)))))
(ert-deftest ert-test-list-of-should-forms-no-deep-copy ()
(let ((test (make-ert-test :body (lambda ()
(let ((obj (list 'a)))
(should (equal obj '(a)))
(setf (car obj) 'b)
(should (equal obj '(b))))))))
(let ((result (let ((ert-debug-on-error nil))
(ert-run-test test))))
(should (ert-test-passed-p result))
(should (equal (ert-test-result-should-forms result)
'(((should (equal obj '(a))) :form (equal (b) (a)) :value t
:explanation nil)
((should (equal obj '(b))) :form (equal (b) (b)) :value t
:explanation nil)
))))))
(ert-deftest ert-test-remprop ()
(let ((x (ert--gensym)))
(should (equal (symbol-plist x) '()))
;; Remove nonexistent property on empty plist.
(ert--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.
(ert--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.
(ert--remprop x 'c)
(should (equal (symbol-plist x) '(a 1 b 2 d 4)))
;; Remove last property from a plist of length >1.
(ert--remprop x 'd)
(should (equal (symbol-plist x) '(a 1 b 2)))
;; Remove first property from a plist of length >1.
(ert--remprop x 'a)
(should (equal (symbol-plist x) '(b 2)))
;; Remove property when there is only one.
(ert--remprop x 'b)
(should (equal (symbol-plist x) '()))))
(ert-deftest ert-test-remove-if-not ()
(let ((list (list 'a 'b 'c 'd))
(i 0))
(let ((result (ert--remove-if-not (lambda (x)
(should (eql x (nth i list)))
(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 '()
(ert--remove-if-not (lambda (x) (should nil)) '()))))
(ert-deftest ert-test-remove* ()
(let ((list (list 'a 'b 'c 'd))
(key-index 0)
(test-index 0))
(let ((result
(ert--remove* 'foo list
:key (lambda (x)
(should (eql x (nth key-index list)))
(prog1
(list key-index x)
(incf key-index)))
:test
(lambda (a b)
(should (eql a 'foo))
(should (equal b (list test-index
(nth test-index list))))
(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 (ert--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 ert-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 (ert--set-difference e e) e))
(should (equal (ert--set-difference a e) a))
(should (equal (ert--set-difference e a) e))
(should (equal (ert--set-difference a a) e))
(should (equal (ert--set-difference b e) b))
(should (equal (ert--set-difference e b) e))
(should (equal (ert--set-difference b b) e))
(should (equal (ert--set-difference a b) (list 'a nil "" "x" c2)))
(should (equal (ert--set-difference b a) (list 'y 'x)))
;; We aren't testing whether this is really using `eq' rather than `eql'.
(should (equal (ert--set-difference-eq e e) e))
(should (equal (ert--set-difference-eq a e) a))
(should (equal (ert--set-difference-eq e a) e))
(should (equal (ert--set-difference-eq a a) e))
(should (equal (ert--set-difference-eq b e) b))
(should (equal (ert--set-difference-eq e b) e))
(should (equal (ert--set-difference-eq b b) e))
(should (equal (ert--set-difference-eq a b) (list 'a nil "" "x" c2)))
(should (equal (ert--set-difference-eq b a) (list 'y 'x)))
(should (equal (ert--union e e) e))
(should (equal (ert--union a e) a))
(should (equal (ert--union e a) a))
(should (equal (ert--union a a) a))
(should (equal (ert--union b e) b))
(should (equal (ert--union e b) b))
(should (equal (ert--union b b) b))
(should (equal (ert--union a b) (list 'a 'b sym nil "" "x" c1 c2 'y 'x)))
(should (equal (ert--union b a) (list c1 'y 'b sym 'x 'a nil "" "x" c2)))
(should (equal (ert--intersection e e) e))
(should (equal (ert--intersection a e) e))
(should (equal (ert--intersection e a) e))
(should (equal (ert--intersection a a) a))
(should (equal (ert--intersection b e) e))
(should (equal (ert--intersection e b) e))
(should (equal (ert--intersection b b) b))
(should (equal (ert--intersection a b) (list 'b sym c1)))
(should (equal (ert--intersection b a) (list c1 'b sym))))))
(ert-deftest ert-test-gensym ()
;; Since the expansion of `should' calls `ert--gensym' and thus has a
;; side-effect on `ert--gensym-counter', we have to make sure all
;; macros in our test body are expanded before we rebind
;; `ert--gensym-counter' and run the body. Otherwise, the test would
;; fail if run interpreted.
(let ((body (byte-compile
'(lambda ()
(should (equal (symbol-name (ert--gensym)) "G0"))
(should (equal (symbol-name (ert--gensym)) "G1"))
(should (equal (symbol-name (ert--gensym)) "G2"))
(should (equal (symbol-name (ert--gensym "foo")) "foo3"))
(should (equal (symbol-name (ert--gensym "bar")) "bar4"))
(should (equal ert--gensym-counter 5))))))
(let ((ert--gensym-counter 0))
(funcall body))))
(ert-deftest ert-test-coerce-to-vector ()
(let* ((a (vector))
(b (vector 1 a 3))
(c (list))
(d (list b a)))
(should (eql (ert--coerce-to-vector a) a))
(should (eql (ert--coerce-to-vector b) b))
(should (equal (ert--coerce-to-vector c) (vector)))
(should (equal (ert--coerce-to-vector d) (vector b a)))))
(ert-deftest ert-test-string-position ()
(should (eql (ert--string-position ?x "") nil))
(should (eql (ert--string-position ?a "abc") 0))
(should (eql (ert--string-position ?b "abc") 1))
(should (eql (ert--string-position ?c "abc") 2))
(should (eql (ert--string-position ?d "abc") nil))
(should (eql (ert--string-position ?A "abc") nil)))
(ert-deftest ert-test-mismatch ()
(should (eql (ert--mismatch "" "") nil))
(should (eql (ert--mismatch "" "a") 0))
(should (eql (ert--mismatch "a" "a") nil))
(should (eql (ert--mismatch "ab" "a") 1))
(should (eql (ert--mismatch "Aa" "aA") 0))
(should (eql (ert--mismatch '(a b c) '(a b d)) 2)))
(ert-deftest ert-test-string-first-line ()
(should (equal (ert--string-first-line "") ""))
(should (equal (ert--string-first-line "abc") "abc"))
(should (equal (ert--string-first-line "abc\n") "abc"))
(should (equal (ert--string-first-line "foo\nbar") "foo"))
(should (equal (ert--string-first-line " foo\nbar\nbaz\n") " foo")))
(ert-deftest ert-test-explain-not-equal ()
(should (equal (ert--explain-not-equal nil 'foo)
'(different-atoms nil foo)))
(should (equal (ert--explain-not-equal '(a a) '(a b))
'(list-elt 1 (different-atoms a b))))
(should (equal (ert--explain-not-equal '(1 48) '(1 49))
'(list-elt 1 (different-atoms (48 "#x30" "?0")
(49 "#x31" "?1")))))
(should (equal (ert--explain-not-equal 'nil '(a))
'(different-types nil (a))))
(should (equal (ert--explain-not-equal '(a b c) '(a b c d))
'(proper-lists-of-different-length 3 4 (a b c) (a b c d)
first-mismatch-at 3)))
(let ((sym (make-symbol "a")))
(should (equal (ert--explain-not-equal 'a sym)
`(different-symbols-with-the-same-name a ,sym)))))
(ert-deftest ert-test-explain-not-equal-improper-list ()
(should (equal (ert--explain-not-equal '(a . b) '(a . c))
'(cdr (different-atoms b c)))))
(ert-deftest ert-test-significant-plist-keys ()
(should (equal (ert--significant-plist-keys '()) '()))
(should (equal (ert--significant-plist-keys '(a b c d e f c g p q r nil s t))
'(a c e p s))))
(ert-deftest ert-test-plist-difference-explanation ()
(should (equal (ert--plist-difference-explanation
'(a b c nil) '(a b))
nil))
(should (equal (ert--plist-difference-explanation
'(a b c t) '(a b))
'(different-properties-for-key c (different-atoms t nil))))
(should (equal (ert--plist-difference-explanation
'(a b c t) '(c nil a b))
'(different-properties-for-key c (different-atoms t nil))))
(should (equal (ert--plist-difference-explanation
'(a b c (foo . bar)) '(c (foo . baz) a b))
'(different-properties-for-key c
(cdr
(different-atoms bar baz))))))
(ert-deftest ert-test-abbreviate-string ()
(should (equal (ert--abbreviate-string "foo" 4 nil) "foo"))
(should (equal (ert--abbreviate-string "foo" 3 nil) "foo"))
(should (equal (ert--abbreviate-string "foo" 3 nil) "foo"))
(should (equal (ert--abbreviate-string "foo" 2 nil) "fo"))
(should (equal (ert--abbreviate-string "foo" 1 nil) "f"))
(should (equal (ert--abbreviate-string "foo" 0 nil) ""))
(should (equal (ert--abbreviate-string "bar" 4 t) "bar"))
(should (equal (ert--abbreviate-string "bar" 3 t) "bar"))
(should (equal (ert--abbreviate-string "bar" 3 t) "bar"))
(should (equal (ert--abbreviate-string "bar" 2 t) "ar"))
(should (equal (ert--abbreviate-string "bar" 1 t) "r"))
(should (equal (ert--abbreviate-string "bar" 0 t) "")))
(ert-deftest ert-test-explain-not-equal-string-properties ()
(should
(equal (ert--explain-not-equal-including-properties #("foo" 0 1 (a b))
"foo")
'(char 0 "f"
(different-properties-for-key a (different-atoms b nil))
context-before ""
context-after "oo")))
(should (equal (ert--explain-not-equal-including-properties
#("foo" 1 3 (a b))
#("goo" 0 1 (c d)))
'(array-elt 0 (different-atoms (?f "#x66" "?f")
(?g "#x67" "?g")))))
(should
(equal (ert--explain-not-equal-including-properties
#("foo" 0 1 (a b c d) 1 3 (a b))
#("foo" 0 1 (c d a b) 1 2 (a foo)))
'(char 1 "o" (different-properties-for-key a (different-atoms b foo))
context-before "f" context-after "o"))))
(ert-deftest ert-test-equal-including-properties ()
(should (equal-including-properties "foo" "foo"))
(should (ert-equal-including-properties "foo" "foo"))
(should (equal-including-properties #("foo" 0 3 (a b))
(propertize "foo" 'a 'b)))
(should (ert-equal-including-properties #("foo" 0 3 (a b))
(propertize "foo" 'a 'b)))
(should (equal-including-properties #("foo" 0 3 (a b c d))
(propertize "foo" 'a 'b 'c 'd)))
(should (ert-equal-including-properties #("foo" 0 3 (a b c d))
(propertize "foo" 'a 'b 'c 'd)))
(should-not (equal-including-properties #("foo" 0 3 (a b c e))
(propertize "foo" 'a 'b 'c 'd)))
(should-not (ert-equal-including-properties #("foo" 0 3 (a b c e))
(propertize "foo" 'a 'b 'c 'd)))
;; This is bug 6581.
(should-not (equal-including-properties #("foo" 0 3 (a (t)))
(propertize "foo" 'a (list t))))
(should (ert-equal-including-properties #("foo" 0 3 (a (t)))
(propertize "foo" 'a (list t)))))
(ert-deftest ert-test-stats-set-test-and-result ()
(let* ((test-1 (make-ert-test :name 'test-1
:body (lambda () nil)))
(test-2 (make-ert-test :name 'test-2
:body (lambda () nil)))
(test-3 (make-ert-test :name 'test-2
:body (lambda () nil)))
(stats (ert--make-stats (list test-1 test-2) 't))
(failed (make-ert-test-failed :condition nil
:backtrace nil
:infos nil)))
(should (eql 2 (ert-stats-total stats)))
(should (eql 0 (ert-stats-completed stats)))
(should (eql 0 (ert-stats-completed-expected stats)))
(should (eql 0 (ert-stats-completed-unexpected stats)))
(ert--stats-set-test-and-result stats 0 test-1 (make-ert-test-passed))
(should (eql 2 (ert-stats-total stats)))
(should (eql 1 (ert-stats-completed stats)))
(should (eql 1 (ert-stats-completed-expected stats)))
(should (eql 0 (ert-stats-completed-unexpected stats)))
(ert--stats-set-test-and-result stats 0 test-1 failed)
(should (eql 2 (ert-stats-total stats)))
(should (eql 1 (ert-stats-completed stats)))
(should (eql 0 (ert-stats-completed-expected stats)))
(should (eql 1 (ert-stats-completed-unexpected stats)))
(ert--stats-set-test-and-result stats 0 test-1 nil)
(should (eql 2 (ert-stats-total stats)))
(should (eql 0 (ert-stats-completed stats)))
(should (eql 0 (ert-stats-completed-expected stats)))
(should (eql 0 (ert-stats-completed-unexpected stats)))
(ert--stats-set-test-and-result stats 0 test-3 failed)
(should (eql 2 (ert-stats-total stats)))
(should (eql 1 (ert-stats-completed stats)))
(should (eql 0 (ert-stats-completed-expected stats)))
(should (eql 1 (ert-stats-completed-unexpected stats)))
(ert--stats-set-test-and-result stats 1 test-2 (make-ert-test-passed))
(should (eql 2 (ert-stats-total stats)))
(should (eql 2 (ert-stats-completed stats)))
(should (eql 1 (ert-stats-completed-expected stats)))
(should (eql 1 (ert-stats-completed-unexpected stats)))
(ert--stats-set-test-and-result stats 0 test-1 (make-ert-test-passed))
(should (eql 2 (ert-stats-total stats)))
(should (eql 2 (ert-stats-completed stats)))
(should (eql 2 (ert-stats-completed-expected stats)))
(should (eql 0 (ert-stats-completed-unexpected stats)))))
(provide 'ert-tests)
;;; ert-tests.el ends here
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