;;; regex-emacs-tests.el --- tests for regex-emacs.c -*- lexical-binding: t -*-
;; Copyright (C) 2015-2022 Free Software Foundation, Inc.
;; This file is part of GNU Emacs.
;; GNU Emacs 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.
;; GNU Emacs 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 GNU Emacs. If not, see .
;;; Code:
(require 'ert)
(defvar regex-tests--resources-dir
(concat (concat (file-name-directory (or load-file-name buffer-file-name))
"/regex-resources/"))
"Path to regex-resources directory next to the \"regex-emacs-tests.el\" file.")
(ert-deftest regex-word-cc-fallback-test ()
"Test that \"[[:cc:]]*x\" matches \"x\" (bug#24020).
Test that a regex of the form \"[[:cc:]]*x\" where CC is
a character class which matches a multibyte character X, matches
string \"x\".
For example, \"[[:word:]]*\u2620\" regex (note: \u2620 is a word
character) must match a string \"\u2420\"."
(dolist (class '("[[:word:]]" "\\sw"))
(dolist (repeat '("*" "+"))
(dolist (suffix '("" "b" "bar" "\u2620"))
(dolist (string '("" "foo"))
(when (not (and (string-equal repeat "+")
(string-equal string "")))
(should (string-match (concat "^" class repeat suffix "$")
(concat string suffix)))))))))
(defun regex--test-cc (name matching not-matching)
(let (case-fold-search)
(should (string-match-p (concat "^[[:" name ":]]*$") matching))
(should (string-match-p (concat "^[[:" name ":]]*?\u2622$")
(concat matching "\u2622")))
(should (string-match-p (concat "^[^[:" name ":]]*$") not-matching))
(should (string-match-p (concat "^[^[:" name ":]]*\u2622$")
(concat not-matching "\u2622")))
(with-temp-buffer
(insert matching)
(let ((p (point)))
(insert not-matching)
(goto-char (point-min))
(skip-chars-forward (concat "[:" name ":]"))
(should (equal (point) p))
(skip-chars-forward (concat "^[:" name ":]"))
(should (equal (point) (point-max)))
(goto-char (point-min))
(skip-chars-forward (concat "[:" name ":]\u2622"))
(should (or (equal (point) p) (equal (point) (1+ p))))))))
(dolist (test '(("alnum" "abcABC012łąka" "-, \t\n")
("alpha" "abcABCłąka" "-,012 \t\n")
("digit" "012" "abcABCłąka-, \t\n")
("xdigit" "0123aBc" "łąk-, \t\n")
("upper" "ABCŁĄKA" "abc012-, \t\n")
("lower" "abcłąka" "ABC012-, \t\n")
("word" "abcABC012\u2620" "-, \t\n")
("punct" ".,-" "abcABC012\u2620 \t\n")
("cntrl" "\1\2\t\n" ".,-abcABC012\u2620 ")
("graph" "abcłąka\u2620-," " \t\n\1")
("print" "abcłąka\u2620-, " "\t\n\1")
("space" " \t\n\u2001" "abcABCł0123")
("blank" " \t\u2001" "\n")
("ascii" "abcABC012 \t\n\1" "łą\u2620")
("nonascii" "łą\u2622" "abcABC012 \t\n\1")
("unibyte" "abcABC012 \t\n\1" "łą\u2622")
("multibyte" "łą\u2622" "abcABC012 \t\n\1")))
(let ((name (intern (concat "regex-tests-" (car test) "-character-class")))
(doc (concat "Perform sanity test of regexes using " (car test)
" character class.
Go over all the supported character classes and test whether the
classes and their inversions match what they are supposed to
match. The test is done using `string-match-p' as well as
`skip-chars-forward'.")))
(eval `(ert-deftest ,name () ,doc ,(cons 'regex--test-cc test)) t)))
(defmacro regex-tests-generic-line (comment-char test-file whitelist &rest body)
"Reads a line of the test file TEST-FILE, skipping
comments (defined by COMMENT-CHAR), and evaluates the tests in
this line as defined in the BODY. Line numbers in the WHITELIST
are known failures, and are skipped."
`(with-temp-buffer
(modify-syntax-entry ?_ "w;; ") ; tests expect _ to be a word
(insert-file-contents (concat regex-tests--resources-dir ,test-file))
(let ((case-fold-search nil)
(line-number 1)
(whitelist-idx 0))
(goto-char (point-min))
(while (not (eobp))
(let ((start (point)))
(end-of-line)
(narrow-to-region start (point))
(goto-char (point-min))
(when
(and
;; ignore comments
(save-excursion
(re-search-forward ,(concat "^[^" (string comment-char) "]") nil t))
;; skip lines in the whitelist
(let ((whitelist-next
(condition-case nil
(aref ,whitelist whitelist-idx) (args-out-of-range nil))))
(cond
;; whitelist exhausted. do process this line
((null whitelist-next) t)
;; we're not yet at the next whitelist element. do
;; process this line
((< line-number whitelist-next) t)
;; we're past the next whitelist element. This
;; shouldn't happen
((> line-number whitelist-next)
(error
(format
"We somehow skipped the next whitelist element: line %d" whitelist-next)))
;; we're at the next whitelist element. Skip this
;; line, and advance the whitelist index
(t
(setq whitelist-idx (1+ whitelist-idx)) nil))))
,@body)
(widen)
(forward-line)
(beginning-of-line)
(setq line-number (1+ line-number)))))))
(defun regex-tests-compare (string what-failed bounds-ref &optional substring-ref)
"I just ran a search, looking at STRING. WHAT-FAILED describes
what failed, if anything; valid values are `search-failed',
`compilation-failed' and nil. I compare the beginning/end of each
group with their expected values. This is done with either
BOUNDS-REF or SUBSTRING-REF; one of those should be non-nil.
BOUNDS-REF is a sequence [start-ref0 end-ref0 start-ref1
end-ref1 ....] while SUBSTRING-REF is the expected substring
obtained by indexing the input string by start/end-ref.
If the search was supposed to fail then start-ref0/substring-ref0
is `search-failed'. If the search wasn't even supposed to compile
successfully, then start-ref0/substring-ref0 is
`compilation-failed'. If I only care about a match succeeding,
this can be set to t.
This function returns a string that describes the failure, or nil
on success"
(when (or
(and bounds-ref substring-ref)
(not (or bounds-ref substring-ref)))
(error "Exactly one of bounds-ref and bounds-ref should be non-nil"))
(let ((what-failed-ref (car (or bounds-ref substring-ref))))
(cond
((eq what-failed 'search-failed)
(cond
((eq what-failed-ref 'search-failed)
nil)
((eq what-failed-ref 'compilation-failed)
"Expected pattern failure; but no match")
(t
"Expected match; but no match")))
((eq what-failed 'compilation-failed)
(cond
((eq what-failed-ref 'search-failed)
"Expected no match; but pattern failure")
((eq what-failed-ref 'compilation-failed)
nil)
(t
"Expected match; but pattern failure")))
;; The regex match succeeded
((eq what-failed-ref 'search-failed)
"Expected no match; but match")
((eq what-failed-ref 'compilation-failed)
"Expected pattern failure; but match")
;; The regex match succeeded, as expected. I now check all the
;; bounds
(t
(let ((idx 0)
msg
ref next-ref-function compare-ref-function mismatched-ref-function)
(if bounds-ref
(setq ref bounds-ref
next-ref-function (lambda (x) (cddr x))
compare-ref-function (lambda (ref start-pos end-pos)
(or (eq (car ref) t)
(and (eq start-pos (car ref))
(eq end-pos (cadr ref)))))
mismatched-ref-function (lambda (ref start-pos end-pos)
(format
"beginning/end positions: %d/%s and %d/%s"
start-pos (car ref) end-pos (cadr ref))))
(setq ref substring-ref
next-ref-function (lambda (x) (cdr x))
compare-ref-function (lambda (ref start-pos end-pos)
(or (eq (car ref) t)
(string= (substring string start-pos end-pos) (car ref))))
mismatched-ref-function (lambda (ref start-pos end-pos)
(format
"beginning/end positions: %d/%s and %d/%s"
start-pos (car ref) end-pos (cadr ref)))))
(while (not (or (null ref) msg))
(let ((start (match-beginning idx))
(end (match-end idx)))
(when (not (funcall compare-ref-function ref start end))
(setq msg
(format
"Have expected match, but mismatch in group %d: %s" idx (funcall mismatched-ref-function ref start end))))
(setq ref (funcall next-ref-function ref)
idx (1+ idx))))
(or msg
nil))))))
(defun regex-tests-match (pattern string bounds-ref &optional substring-ref)
"I match the given STRING against PATTERN. I compare the
beginning/end of each group with their expected values.
BOUNDS-REF is a sequence [start-ref0 end-ref0 start-ref1 end-ref1
....].
If the search was supposed to fail then start-ref0 is
`search-failed'. If the search wasn't even supposed to compile
successfully, then start-ref0 is `compilation-failed'.
This function returns a string that describes the failure, or nil
on success"
(if (string-match "\\[\\([\\.=]\\)..?\\1\\]" pattern)
;; Skipping test: [.x.] and [=x=] forms not supported by emacs
nil
(regex-tests-compare
string
(condition-case nil
(if (string-match pattern string) nil 'search-failed)
('invalid-regexp 'compilation-failed))
bounds-ref substring-ref)))
(defconst regex-tests-re-even-escapes
"\\(?:^\\|[^\\]\\)\\(?:\\\\\\\\\\)*"
"Regex that matches an even number of \\ characters.")
(defconst regex-tests-re-odd-escapes
(concat regex-tests-re-even-escapes "\\\\")
"Regex that matches an odd number of \\ characters.")
(defun regex-tests-unextend (pattern)
"Basic conversion from extended regexes to emacs ones. This is
mostly a hack that adds \\ to () and | and {}, and removes it if
it already exists. We also change \\S (and \\s) to \\S- (and
\\s-) because extended regexes see the former as whitespace, but
emacs requires an extra symbol character"
(with-temp-buffer
(insert pattern)
(goto-char (point-min))
(while (re-search-forward "[()|{}]" nil t)
;; point is past special character. If it is escaped, unescape
;; it
(if (save-excursion
(re-search-backward (concat regex-tests-re-odd-escapes ".\\=") nil t))
;; This special character is preceded by an odd number of \,
;; so I unescape it by removing the last one
(progn
(forward-char -2)
(delete-char 1)
(forward-char 1))
;; This special character is preceded by an even (possibly 0)
;; number of \. I add an escape
(forward-char -1)
(insert "\\")
(forward-char 1)))
;; convert \s to \s-
(goto-char (point-min))
(while (re-search-forward (concat regex-tests-re-odd-escapes "[Ss]") nil t)
(insert "-"))
(buffer-string)))
(defun regex-tests-BOOST-frob-escapes (s ispattern)
"Mangle \\ the way it is done in frob_escapes() in
regex-tests-BOOST.c in glibc: \\t, \\n, \\r are interpreted;
\\\\, \\^, \\{, \\|, \\} are unescaped for the string (not
pattern)"
;; this is all similar to (regex-tests-unextend)
(with-temp-buffer
(insert s)
(let ((interpret-list (list "t" "n" "r")))
(while interpret-list
(goto-char (point-min))
(while (re-search-forward
(concat "\\(" regex-tests-re-even-escapes "\\)"
"\\\\" (car interpret-list))
nil t)
(replace-match (concat "\\1" (car (read-from-string
(concat "\"\\" (car interpret-list) "\""))))))
(setq interpret-list (cdr interpret-list))))
(when (not ispattern)
;; unescape \\, \^, \{, \|, \}
(let ((unescape-list (list "\\\\" "^" "{" "|" "}")))
(while unescape-list
(goto-char (point-min))
(while (re-search-forward
(concat "\\(" regex-tests-re-even-escapes "\\)"
"\\\\" (car unescape-list))
nil t)
(replace-match (concat "\\1" (car unescape-list))))
(setq unescape-list (cdr unescape-list))))
)
(buffer-string)))
(defconst regex-tests-BOOST-whitelist
[
;; emacs is more stringent with regexes involving unbalanced )
63 65 69
;; in emacs, regex . doesn't match \n
91
;; emacs is more forgiving with * and ? that don't apply to
;; characters
107 108 109 122 123 124 140 141 142
;; emacs accepts regexes with {}
161
;; emacs doesn't fail on bogus ranges such as [3-1] or [1-3-5]
222 223
;; emacs doesn't match (ab*)[ab]*\1 greedily: only 4 chars of
;; ababaaa match
284 294
;; ambiguous groupings are ambiguous
443 444 445 446 448 449 450
;; emacs doesn't know how to handle weird ranges such as [a-Z] and
;; [[:alpha:]-a]
539 580 581
;; emacs matches non-greedy regex ab.*? non-greedily
639 677 712
]
"Line numbers in the boost test that should be skipped.
These are false-positive test failures that represent
known/benign differences in behavior.")
;; - Format
;; - Comments are lines starting with ;
;; - Lines starting with - set options passed to regcomp() and regexec():
;; - if no "REG_BASIC" is found, with have an extended regex
;; - These set a flag:
;; - REG_ICASE
;; - REG_NEWLINE (ignored by this function)
;; - REG_NOTBOL
;; - REG_NOTEOL
;;
;; - Test lines are
;; pattern string start0 end0 start1 end1 ...
;;
;; - pattern, string can have escapes
;; - string can have whitespace if enclosed in ""
;; - if string is "!", then the pattern is supposed to fail compilation
;; - start/end are of group0, group1, etc. group 0 is the full match
;; - start<0 indicates "no match"
;; - start is the 0-based index of the first character
;; - end is the 0-based index of the first character past the group
(defun regex-tests-BOOST ()
(let (failures
basic icase notbol noteol)
(regex-tests-generic-line
?\; "BOOST.tests" regex-tests-BOOST-whitelist
(if (save-excursion (re-search-forward "^-" nil t))
(setq basic (save-excursion (re-search-forward "REG_BASIC" nil t))
icase (save-excursion (re-search-forward "REG_ICASE" nil t))
notbol (save-excursion (re-search-forward "REG_NOTBOL" nil t))
noteol (save-excursion (re-search-forward "REG_NOTEOL" nil t)))
(save-excursion
(or (re-search-forward "\\(\\S-+\\)\\s-+\"\\(.*\\)\"\\s-+?\\(.+\\)" nil t)
(re-search-forward "\\(\\S-+\\)\\s-+\\(\\S-+\\)\\s-+?\\(.+\\)" nil t)
(re-search-forward "\\(\\S-+\\)\\s-+\\(!\\)" nil t)))
(let* ((pattern-raw (match-string 1))
(string-raw (match-string 2))
(positions-raw (match-string 3))
(pattern (regex-tests-BOOST-frob-escapes pattern-raw t))
(string (regex-tests-BOOST-frob-escapes string-raw nil))
(positions
(if (string= string "!")
(list 'compilation-failed 0)
(mapcar
(lambda (x)
(let ((x (string-to-number x)))
(if (< x 0) nil x)))
(split-string positions-raw)))))
(when (null (car positions))
(setcar positions 'search-failed))
(when (not basic)
(setq pattern (regex-tests-unextend pattern)))
;; great. I now have all the data parsed. Let's use it to do
;; stuff
(let* ((case-fold-search icase)
(msg (regex-tests-match pattern string positions)))
(if (and
;; Skipping test: notbol/noteol not supported
(not notbol) (not noteol)
msg)
;; store failure
(setq failures
(cons (format "line number %d: Regex '%s': %s"
line-number pattern msg)
failures)))))))
failures))
(defconst regex-tests-PCRE-whitelist
[
;; ambiguous groupings are ambiguous
610 611 1154 1157 1160 1168 1171 1176 1179 1182 1185 1188 1193 1196 1203
]
"Line numbers in the PCRE test that should be skipped.
These are false-positive test failures that represent
known/benign differences in behavior.")
;; - Format
;;
;; regex
;; input_string
;; group_num: group_match | "No match"
;; input_string
;; group_num: group_match | "No match"
;; input_string
;; group_num: group_match | "No match"
;; input_string
;; group_num: group_match | "No match"
;; ...
(defun regex-tests-PCRE ()
(let (failures
pattern icase string what-failed matches-observed)
(regex-tests-generic-line
?# "PCRE.tests" regex-tests-PCRE-whitelist
(cond
;; pattern
((save-excursion (re-search-forward "^/\\(.*\\)/\\(.*\\)$" nil t))
(setq icase (string= "i" (match-string 2))
pattern (regex-tests-unextend (match-string 1))))
;; string. read it in, match against pattern, and save all the results
((save-excursion (re-search-forward "^ \\(.*\\)" nil t))
(let ((case-fold-search icase))
(setq string (match-string 1)
;; the regex match under test
what-failed
(condition-case nil
(if (string-match pattern string) nil 'search-failed)
('invalid-regexp 'compilation-failed))
matches-observed
(cl-loop for x from 0 to 20
collect (and (not what-failed)
(or (match-string x string) "")))))
nil)
;; verification line: failed match
((save-excursion (re-search-forward "^No match" nil t))
(unless what-failed
(setq failures
(cons (format "line number %d: Regex '%s': Expected no match; but match"
line-number pattern)
failures))))
;; verification line: succeeded match
((save-excursion (re-search-forward "^ *\\([0-9]+\\): \\(.*\\)" nil t))
(let* ((match-ref (match-string 2))
(idx (string-to-number (match-string 1))))
(if what-failed
"Expected match; but no match"
(unless (string= match-ref (elt matches-observed idx))
(setq failures
(cons (format "line number %d: Regex '%s': Have expected match, but group %d is wrong: '%s'/'%s'"
line-number pattern
idx match-ref (elt matches-observed idx))
failures))))))
;; reset
(t (setq pattern nil) nil)))
failures))
(defconst regex-tests-PTESTS-whitelist
[
;; emacs doesn't see DEL (0x7f) as a [:cntrl:] character
138
;; emacs doesn't barf on weird ranges such as [b-a], but simply
;; fails to match
168
]
"Line numbers in the PTESTS test that should be skipped.
These are false-positive test failures that represent
known/benign differences in behavior.")
;; - Format
;; - fields separated by ¦ (note: this is not a |)
;; - start¦end¦pattern¦string
;; - start is the 1-based index of the first character
;; - end is the 1-based index of the last character
(defun regex-tests-PTESTS ()
(let (failures)
(regex-tests-generic-line
?# "PTESTS" regex-tests-PTESTS-whitelist
(let* ((fields (split-string (buffer-string) "¦"))
;; string has 1-based index of first char in the
;; match. -1 means "no match". -2 means "invalid
;; regex".
;;
;; start-ref is 0-based index of first char in the
;; match
;;
;; string==0 is a special case, and I have to treat
;; it as start-ref = 0
(start-ref (let ((raw (string-to-number (elt fields 0))))
(cond
((= raw -2) 'compilation-failed)
((= raw -1) 'search-failed)
((= raw 0) 0)
(t (1- raw)))))
;; string has 1-based index of last char in the
;; match. end-ref is 0-based index of first char past
;; the match
(end-ref (string-to-number (elt fields 1)))
(pattern (elt fields 2))
(string (elt fields 3)))
(let ((msg (regex-tests-match pattern string (list start-ref end-ref))))
(when msg
(setq failures
(cons (format "line number %d: Regex '%s': %s"
line-number pattern msg)
failures))))))
failures))
(defconst regex-tests-TESTS-whitelist
[
;; emacs doesn't barf on weird ranges such as [b-a], but simply
;; fails to match
42
;; emacs is more forgiving with * and ? that don't apply to
;; characters
57 58 59 60
;; emacs is more stringent with regexes involving unbalanced )
67
]
"Line numbers in the TESTS test that should be skipped.
These are false-positive test failures that represent
known/benign differences in behavior.")
;; - Format
;; - fields separated by :. Watch for [\[:xxx:]]
;; - expected:pattern:string
;;
;; expected:
;; | 0 | successful match |
;; | 1 | failed match |
;; | 2 | regcomp() should fail |
(defun regex-tests-TESTS ()
(let (failures)
(regex-tests-generic-line
?# "TESTS" regex-tests-TESTS-whitelist
(if (save-excursion (re-search-forward "^\\([^:]+\\):\\(.*\\):\\([^:]*\\)$" nil t))
(let* ((what-failed
(let ((raw (string-to-number (match-string 1))))
(cond
((= raw 2) 'compilation-failed)
((= raw 1) 'search-failed)
(t t))))
(string (match-string 3))
(pattern (regex-tests-unextend (match-string 2))))
(let ((msg (regex-tests-match pattern string nil (list what-failed))))
(when msg
(setq failures
(cons (format "line number %d: Regex '%s': %s"
line-number pattern msg)
failures)))))
(error "Error parsing TESTS file line: '%s'" (buffer-string))))
failures))
(ert-deftest regex-tests-BOOST ()
"Tests of the regular expression engine.
This evaluates the BOOST test cases from glibc."
(should-not (regex-tests-BOOST)))
(ert-deftest regex-tests-PCRE ()
"Tests of the regular expression engine.
This evaluates the PCRE test cases from glibc."
(should-not (regex-tests-PCRE)))
(ert-deftest regex-tests-PTESTS ()
"Tests of the regular expression engine.
This evaluates the PTESTS test cases from glibc."
(should-not (regex-tests-PTESTS)))
(ert-deftest regex-tests-TESTS ()
"Tests of the regular expression engine.
This evaluates the TESTS test cases from glibc."
(should-not (regex-tests-TESTS)))
(ert-deftest regex-repeat-limit ()
"Test the #xFFFF repeat limit."
(should (string-match "\\`x\\{65535\\}" (make-string 65535 ?x)))
(should-not (string-match "\\`x\\{65535\\}" (make-string 65534 ?x)))
(should-error (string-match "\\`x\\{65536\\}" "X") :type 'invalid-regexp))
(ert-deftest regexp-unibyte-unibyte ()
"Test matching a unibyte regexp against a unibyte string."
;; Sanity check
(should-not (multibyte-string-p "ab"))
(should-not (multibyte-string-p "\xff"))
;; ASCII
(should (string-match "a[b]" "ab"))
;; Raw
(should (string-match "\xf1" "\xf1"))
(should-not (string-match "\xf1" "\xc1\xb1"))
;; Raw, char alt
(should (string-match "[\xf1]" "\xf1"))
(should-not (string-match "[\xf1]" "\xc1\xb1"))
;; Raw range
(should (string-match "[\x82-\xd3]" "\xbb"))
(should-not (string-match "[\x82-\xd3]" "a"))
(should-not (string-match "[\x82-\xd3]" "\x81"))
(should-not (string-match "[\x82-\xd3]" "\xd4"))
;; ASCII-raw range
(should (string-match "[f-\xd3]" "q"))
(should (string-match "[f-\xd3]" "\xbb"))
(should-not (string-match "[f-\xd3]" "e"))
(should-not (string-match "[f-\xd3]" "\xd4")))
(ert-deftest regexp-multibyte-multibyte ()
"Test matching a multibyte regexp against a multibyte string."
;; Sanity check
(should (multibyte-string-p "åü"))
;; ASCII
(should (string-match (string-to-multibyte "a[b]")
(string-to-multibyte "ab")))
;; Unicode
(should (string-match "å[ü]z" "åüz"))
(should-not (string-match "ü" (string-to-multibyte "\xc3\xbc")))
;; Raw
(should (string-match (string-to-multibyte "\xf1")
(string-to-multibyte "\xf1")))
(should-not (string-match (string-to-multibyte "\xf1")
(string-to-multibyte "\xc1\xb1")))
(should-not (string-match (string-to-multibyte "\xc1\xb1")
(string-to-multibyte "\xf1")))
;; Raw, char alt
(should (string-match (string-to-multibyte "[\xf1]")
(string-to-multibyte "\xf1")))
;; Raw range
(should (string-match (string-to-multibyte "[\x82-\xd3]")
(string-to-multibyte "\xbb")))
(should-not (string-match (string-to-multibyte "[\x82-\xd3]") "a"))
(should-not (string-match (string-to-multibyte "[\x82-\xd3]") "Å"))
(should-not (string-match (string-to-multibyte "[\x82-\xd3]") "ü"))
(should-not (string-match (string-to-multibyte "[\x82-\xd3]") "\x81"))
(should-not (string-match (string-to-multibyte "[\x82-\xd3]") "\xd4"))
;; ASCII-raw range: should exclude U+0100..U+10FFFF
(should (string-match (string-to-multibyte "[f-\xd3]")
(string-to-multibyte "q")))
(should (string-match (string-to-multibyte "[f-\xd3]")
(string-to-multibyte "\xbb")))
(should-not (string-match (string-to-multibyte "[f-\xd3]") "e"))
(should-not (string-match (string-to-multibyte "[f-\xd3]") "Å"))
(should-not (string-match (string-to-multibyte "[f-\xd3]") "ü"))
(should-not (string-match (string-to-multibyte "[f-\xd3]") "\xd4"))
;; Unicode-raw range: should be empty
(should-not (string-match "[å-\xd3]" "å"))
(should-not (string-match "[å-\xd3]" (string-to-multibyte "\xd3")))
(should-not (string-match "[å-\xd3]" (string-to-multibyte "\xbb")))
(should-not (string-match "[å-\xd3]" "ü"))
;; No equivalence between raw bytes and latin-1
(should-not (string-match "å" (string-to-multibyte "\xe5")))
(should-not (string-match "[å]" (string-to-multibyte "\xe5")))
(should-not (string-match "\xe5" "å"))
(should-not (string-match "[\xe5]" "å")))
(ert-deftest regexp-unibyte-multibyte ()
"Test matching a unibyte regexp against a multibyte string."
;; ASCII
(should (string-match "a[b]" (string-to-multibyte "ab")))
;; Unicode
(should (string-match "a.[^b]c" (string-to-multibyte "aåüc")))
;; Raw
(should (string-match "\xf1" (string-to-multibyte "\xf1")))
(should-not (string-match "\xc1\xb1" (string-to-multibyte "\xf1")))
;; Raw, char alt
(should (string-match "[\xf1]" (string-to-multibyte "\xf1")))
(should-not (string-match "[\xc1][\xb1]" (string-to-multibyte "\xf1")))
;; ASCII-raw range: should exclude U+0100..U+10FFFF
(should (string-match "[f-\xd3]" (string-to-multibyte "q")))
(should (string-match "[f-\xd3]" (string-to-multibyte "\xbb")))
(should-not (string-match "[f-\xd3]" "e"))
(should-not (string-match "[f-\xd3]" "Å"))
(should-not (string-match "[f-\xd3]" "ü"))
(should-not (string-match "[f-\xd3]" "\xd4"))
;; No equivalence between raw bytes and latin-1
(should-not (string-match "\xe5" "å"))
(should-not (string-match "[\xe5]" "å")))
(ert-deftest regexp-multibyte-unibyte ()
"Test matching a multibyte regexp against a unibyte string."
;; ASCII
(should (string-match (string-to-multibyte "a[b]") "ab"))
;; Unicode
(should (string-match "a[^ü]c" "abc"))
(should-not (string-match "ü" "\xc3\xbc"))
;; Raw
(should (string-match (string-to-multibyte "\xf1") "\xf1"))
(should-not (string-match (string-to-multibyte "\xf1") "\xc1\xb1"))
;; Raw, char alt
(should (string-match (string-to-multibyte "[\xf1]") "\xf1"))
(should-not (string-match (string-to-multibyte "[\xf1]") "\xc1\xb1"))
;; ASCII-raw range: should exclude U+0100..U+10FFFF
(should (string-match (string-to-multibyte "[f-\xd3]") "q"))
(should (string-match (string-to-multibyte "[f-\xd3]") "\xbb"))
(should-not (string-match (string-to-multibyte "[f-\xd3]") "e"))
(should-not (string-match (string-to-multibyte "[f-\xd3]") "\xd4"))
;; Unicode-raw range: should be empty
(should-not (string-match "[å-\xd3]" "\xd3"))
(should-not (string-match "[å-\xd3]" "\xbb"))
;; No equivalence between raw bytes and latin-1
(should-not (string-match "å" "\xe5"))
(should-not (string-match "[å]" "\xe5")))
(ert-deftest regexp-case-fold ()
"Test case-sensitive and case-insensitive matching."
(let ((case-fold-search nil))
(should (equal (string-match "aB" "ABaB") 2))
(should (equal (string-match "åÄ" "ÅäåäÅÄåÄ") 6))
(should (equal (string-match "λΛ" "lΛλλΛ") 3))
(should (equal (string-match "шШ" "zШшшШ") 3))
(should (equal (string-match "[[:alpha:]]+" ".3aBåÄßλΛшШ中﷽") 2))
(should (equal (match-end 0) 12))
(should (equal (string-match "[[:alnum:]]+" ".3aBåÄßλΛшШ中﷽") 1))
(should (equal (match-end 0) 12))
(should (equal (string-match "[[:upper:]]+" ".3aåλшBÄΛШ中﷽") 6))
(should (equal (match-end 0) 10))
(should (equal (string-match "[[:lower:]]+" ".3BÄΛШaåλш中﷽") 6))
(should (equal (match-end 0) 10)))
(let ((case-fold-search t))
(should (equal (string-match "aB" "ABaB") 0))
(should (equal (string-match "åÄ" "ÅäåäÅÄåÄ") 0))
(should (equal (string-match "λΛ" "lΛλλΛ") 1))
(should (equal (string-match "шШ" "zШшшШ") 1))
(should (equal (string-match "[[:alpha:]]+" ".3aBåÄßλΛшШ中﷽") 2))
(should (equal (match-end 0) 12))
(should (equal (string-match "[[:alnum:]]+" ".3aBåÄßλΛшШ中﷽") 1))
(should (equal (match-end 0) 12))
(should (equal (string-match "[[:upper:]]+" ".3aåλшBÄΛШ中﷽") 2))
(should (equal (match-end 0) 10))
(should (equal (string-match "[[:lower:]]+" ".3BÄΛШaåλш中﷽") 2))
(should (equal (match-end 0) 10))))
(ert-deftest regexp-eszett ()
"Test matching of ß and ẞ."
;; Sanity checks.
(should (equal (upcase "ß") "SS"))
(should (equal (downcase "ß") "ß"))
(should (equal (capitalize "ß") "Ss")) ; undeutsch...
(should (equal (upcase "ẞ") "ẞ"))
(should (equal (downcase "ẞ") "ß"))
(should (equal (capitalize "ẞ") "ẞ"))
;; ß is a lower-case letter (Ll); ẞ is an upper-case letter (Lu).
(let ((case-fold-search nil))
(should (equal (string-match "ß" "ß") 0))
(should (equal (string-match "ß" "ẞ") nil))
(should (equal (string-match "ẞ" "ß") nil))
(should (equal (string-match "ẞ" "ẞ") 0))
(should (equal (string-match "[[:alpha:]]" "ß") 0))
;; bug#11309
(should (equal (string-match "[[:lower:]]" "ß") 0))
(should (equal (string-match "[[:upper:]]" "ß") nil))
(should (equal (string-match "[[:alpha:]]" "ẞ") 0))
(should (equal (string-match "[[:lower:]]" "ẞ") nil))
(should (equal (string-match "[[:upper:]]" "ẞ") 0)))
(let ((case-fold-search t))
(should (equal (string-match "ß" "ß") 0))
(should (equal (string-match "ß" "ẞ") 0))
(should (equal (string-match "ẞ" "ß") 0))
(should (equal (string-match "ẞ" "ẞ") 0))
(should (equal (string-match "[[:alpha:]]" "ß") 0))
;; bug#11309
(should (equal (string-match "[[:lower:]]" "ß") 0))
(should (equal (string-match "[[:upper:]]" "ß") 0))
(should (equal (string-match "[[:alpha:]]" "ẞ") 0))
(should (equal (string-match "[[:lower:]]" "ẞ") 0))
(should (equal (string-match "[[:upper:]]" "ẞ") 0))))
;;; regex-emacs-tests.el ends here