# Large number of macros in one regexp (Enhanced BRE) B$H [A-Z]\\d\\s\\?\\d[A-Z]\\{2\\}\\|[A-Z]\\d\\{2\\}\\s\\?\\d[A-Z]\\{2\\}\\|[A-Z]\\{2\\}\\d\\s\\?\\d[A-Z]\\{2\\}\\|[A-Z]\\{2\\}\\d\\{2\\}\\s\\?\\d[A-Z]\\{2\\}\\|[A-Z]\\d[A-Z]\\s\\?\\d[A-Z]\\{2\\}\\|[A-Z]\\{2\\}\\d[A-Z]\\s\\?\\d[A-Z]\\{2\\}\\|[A-Z]\\{3\\}\\s\\?\\d[A-Z]\\{2\\} A12BC (0,5) BH a\{11\}\(b\{2\}c\)\{2\} aaaaaaaaaaabbcbbc (0,17)(14,17) B$H ^!packet [0-9]\\{1,3\\}\\.[0-9]\\{1,3\\}\\.[0-9]\\{1,3\\}\\.[0-9]\\{1,3\\} [0-9]\\+ !packet 127.0.0.1 999 (0,21) B$H ^!pfast [0-9]\\{1,15\\} \\([0-9]\\{1,3\\}\\.\\)\\{3\\}[0-9]\\{1,3\\}\\.[0-9]\\{1,5\\}$ !pfast 1234567890 127.0.0.1.1234 (0,32)(24,26) # Should these match or not? BH \(a\)*-\1b aaa-b NOMATCH BH \(\(.*\)\1\)\{1,\} xxxxxx ESUBREG # Basic string matching BH foobar foobar (0,6) BH SAME xxxfoobarzapzot (3,9) BH aaaa xxaaaaaaaaaaaaaaaaa (2,6) # Test zero length matches BH \(a*\) NULL (0,0)(0,0) BH \(a*\)* NULL (0,0)(0,0) BH \(\(a*\)*\)* NULL (0,0)(0,0)(0,0) BH \(a*bcd\)* aaaaaaaaaaaabcxbcxbcxaabcxaabcx (0,0)(?,?) BH SAME aaaaaaaaaaaabcxbcxbcxaabcxaabc (0,0)(?,?) BH SAME aaaaaaaaaaaabcxbcdbcxaabcxaabc (0,0)(?,?) BH SAME aaaaaaaaaaaabcdbcdbcxaabcxaabc (0,18)(15,18) BH \(a*\)\+ - (0,0)(0,0) #E NULL NULL (0,0) #E SAME foo (0,0) # Test for submatch addressing which requires arbitrary lookahead BH \(a*\)aaaaaa aaaaaaaaaaaaaaax (0,15)(0,9) # Test leftmost and longest matching and some tricky submatches BH \(a*\)\(a*\) aaaa (0,4)(0,4)(4,4) BH \(abcd\|abc\)\(d\?\) abcd (0,4)(0,4)(4,4) BH \(abc\|abcd\)\(d\?\) abcd (0,4)(0,4)(4,4) BH \(abc\|abcd\)\(d\?\)e abcde (0,5)(0,4)(4,4) BH \(abcd\|abc\)\(d\?\)e abcde (0,5)(0,4)(4,4) BH a\(bc\|bcd\)\(d\?\) abcd (0,4)(1,4)(4,4) BH a\(bcd\|bc\)\(d\?\) abcd (0,4)(1,4)(4,4) BH a*\(a\?bc\|bcd\)\(d\?\) aaabcd (0,6)(3,6)(6,6) BH a*\(bcd\|a\?bc\)\(d\?\) aaabcd (0,6)(3,6)(6,6) BH \(a\|\(a*b*\)\)* NULL (0,0)(0,0)(0,0) BH SAME a (0,1)(0,1)(?,?) BH SAME aa (0,2)(0,2)(0,2) BH SAME aaa (0,3)(0,3)(0,3) BH SAME bbb (0,3)(0,3)(0,3) BH SAME aaabbb (0,6)(0,6)(0,6) BH SAME bbbaaa (0,6)(3,6)(3,6) BH \(\(a*b*\)\|a\)* NULL (0,0)(0,0)(0,0) BH SAME a (0,1)(0,1)(0,1) BH SAME aa (0,2)(0,2)(0,2) BH SAME aaa (0,3)(0,3)(0,3) BH SAME bbb (0,3)(0,3)(0,3) BH SAME aaabbb (0,6)(0,6)(0,6) BH SAME bbbaaa (0,6)(3,6)(3,6) BH a.*\(.*b.*\(.*c.*\).*d.*\).*e.*\(.*f.*\).*g aabbccddeeffgg (0,14)(3,9)(5,7)(11,13) BH \(wee\|week\)\(night\|knights\)s* weeknights (0,10)(0,4)(4,9) BH SAME weeknightss (0,11)(0,4)(4,9) BH a* aaaaaaaaaa (0,10) BH aa* aaaaaaaaaa (0,10) BH aaa* aaaaaaaaaa (0,10) BH aaaa* aaaaaaaaaa (0,10) # Test clearing old submatch data with nesting parentheses and iteration BH \(\(a\)\|\(b\)\)*c aaabc (0,5)(3,4)(?,?)(3,4) BH SAME aaaac (0,5)(3,4)(3,4)(?,?) BH foo\(\(bar\)*\)*zot foozot (0,6)(3,3)(?,?) BH SAME foobarzot (0,9)(3,6)(3,6) BH SAME foobarbarzot (0,12)(3,9)(6,9) BH foo\(\(zup\)*\|\(bar\)*\|\(zap\)*\)*zot foobarzapzot (0,12)(6,9)(?,?)(?,?)(6,9) BH SAME foobarbarzapzot (0,15)(9,12)(?,?)(?,?)(9,12) BH SAME foozupzot (0,9)(3,6)(3,6)(?,?)(?,?) BH SAME foobarzot (0,9)(3,6)(?,?)(3,6)(?,?) BH SAME foozapzot (0,9)(3,6)(?,?)(?,?)(3,6) BH SAME foozot (0,6)(3,3)(?,?)(?,?)(?,?) # Test case where, e.g., Perl and Python regexp functions, and many # other backtracking matchers, fail to produce the longest match. # It is not exactly a bug since Perl does not claim to find the # longest match, but a confusing feature and, in my opinion, a bad # design choice because the union operator is traditionally defined # to be commutative (with respect to the language denoted by the RE). */ BH \(a\|ab\)\(blip\)\? ablip (0,5)(0,1)(1,5) BH SAME ab (0,2)(0,2)(?,?) BH \(ab\|a\)\(blip\)\? ablip (0,5)(0,1)(1,5) BH SAME ab (0,2)(0,2)(?,?) BH \(\(a\|b\)*\)a\(a\|b\)* aaaaabaaaba (0,11)(0,10)(9,10)(?,?) BH SAME aaaaabaaab (0,10)(0,8)(7,8)(9,10) BH SAME caa (1,3)(1,2)(1,2)(?,?) BH \(\(a\|aba\)*\)\(ababbaba\)\(\(a\|b\)*\) aabaababbabaaababbab (0,20)(0,4)(1,4)(4,12)(12,20)(19,20) BH SAME aaaaababbaba (0,12)(0,4)(3,4)(4,12)(12,12)(?,?) BH \(\(a\|aba\|abb\|bba\|bab\)*\)\(ababbababbabbbabbbbbbabbaba\)\(\(a\|b\)*\) aabaabbbbabababaababbababbabbbabbbbbbabbabababbababababbabababa (0,63)(0,16)(13,16)(16,43)(43,63)(62,63) # Test for empty subexpressions #E (a|) a (0,1)(0,1) #E SAME b (0,0)(0,0) #E SAME NULL (0,0)(0,0) #E (|a) a (0,1)(0,1) #E SAME b (0,0)(0,0) #E SAME NULL (0,0)(0,0) #E a| a (0,1) #E SAME b (0,0) #E SAME NULL (0,0) #E |a a (0,1) #E SAME b (0,0) #E SAME NULL (0,0) # Miscellaneous tests BH \(a*\)b\(c*\) abc (0,3)(0,1)(2,3) BH SAME ***abc*** (3,6)(3,4)(5,6) BH \(a\) a (0,1)(0,1) BH \(\(a\)\) a (0,1)(0,1)(0,1) BH \(\(\(\(\(\(\(\(\(\(\(\(\(\(\(\(\(\(\(\(a\)\)\)\)\)\)\)\)\)\)\)\)\)\)\)\)\)\)\)\) a (0,1)(0,1)(0,1)(0,1)(0,1)(0,1)(0,1)(0,1)(0,1)(0,1)(0,1)(0,1)(0,1)(0,1)(0,1)(0,1)(0,1)(0,1)(0,1)(0,1)(0,1) BH ksntoeaiksntoeaikstneoaiksnteoaiksntoeaiskntoeaiskntoekainstoeiaskntoeakisntoeksaitnokesantiksoentaikosentaiksoentaiksnoeaisknteoaksintoekasitnoeksaitkosetniaksoetnaisknoetakistoeksintokesanitksoentaisknoetaisknoetiaksotneaikstoekasitoeskatioksentaiksoenatiksoetnaiksonateiksoteaeskanotisknetaiskntoeasknitoskenatiskonetaisknoteai x NOMATCH BH \(\(aab\)\|\(aac\)\|\(aa*\)\)c aabc (0,4)(0,3)(0,3)(?,?)(?,?) BH SAME aacc (0,4)(0,3)(?,?)(0,3)(?,?) BH SAME aaac (0,4)(0,3)(?,?)(?,?)(0,3) BH ^\(\([^!]\+!\)\?\([^!]\+\)\|.\+!\([^!]\+!\)\([^!]\+\)\)$ foo!bar!bas (0,11)(0,11)(?,?)(?,?)(4,8)(8,11) # For BRE, the first $ is not magic #E ^([^!]+!)?([^!]+)$|^.+!([^!]+!)([^!]+)$ foo!bar!bas (0,11)(?,?)(?,?)(4,8)(8,11) BH ^\(\([^!]\+!\)\?\([^!]\+\)\|.\+!\([^!]\+!\)\([^!]\+\)\)$ foo!bar!bas (0,11)(0,11)(?,?)(?,?)(4,8)(8,11) BH M[ou]'\?am\+[ae]r .*\([AEae]l[- ]\)\?[GKQ]h\?[aeu]\+\([dtz][dhz]\?\)\+af[iy] Muammar Quathafi (0,16)(?,?)(11,13) BHi \(Ab\|cD\)* aBcD (0,4)(2,4) BH a** NULL BADRPT BH a*\+ NULL BADRPT BH a\+* NULL BADRPT BH a\+\+ NULL BADRPT BH a\?\+ NULL BADRPT BH a\?* NULL BADRPT BH a\{1,2\}* NULL BADRPT BH a\{1,2\}\+ a+ (0,2) # Many of the following tests were mostly inspired by (or copied from) the # libhackerlab posix test suite by Tom Lord BH a a (0,1) BH \. . (0,1) BH \[ [ (0,1) BH \\ \ (0,1) BH \* * (0,1) BH \^ ^ (0,1) BH \$ $ (0,1) BH \ NULL EESCAPE BH x\. x. (0,2) BH x\[ x[ (0,2) BH x\\ x\ (0,2) BH x\* x* (0,2) BH x\^ x^ (0,2) BH x\$ x$ (0,2) BH x\ NULL EESCAPE BH . a (0,1) BH$ SAME \n (0,1) #B (+|?) (+|?) (0,5) #B SAME +|? NOMATCH #B SAME (+) NOMATCH #B SAME + NOMATCH # Test bracket expressions BH [ NULL EBRACK BH [] NULL EBRACK BH [^] NULL EBRACK BH []x] ] (0,1) BH []x] x (0,1) BH [.] . (0,1) BH SAME a NOMATCH BH [*] * (0,1) BH [[] [ (0,1) BH [\] \ (0,1) BH [-x] - (0,1) BH SAME x (0,1) BH [x-] - (0,1) BH SAME x (0,1) BH [-] - (0,1) BH [abc] a (0,1) BH SAME b (0,1) BH SAME c (0,1) BH SAME d NOMATCH BH SAME xa (1,2) BH SAME xb (1,2) BH SAME xc (1,2) BH SAME xd NOMATCH BH x[abc] xa (0,2) BH SAME xb (0,2) BH SAME xc (0,2) BH SAME xd NOMATCH BH [^abc] a NOMATCH BH SAME b NOMATCH BH SAME c NOMATCH BH SAME d (0,1) BH SAME xa (0,1) BH SAME xb (0,1) BH SAME xc (0,1) BH SAME xd (0,1) BH x[^abc] xa NOMATCH BH x[^abc] xb NOMATCH BH x[^abc] xc NOMATCH BH x[^abc] xd (0,2) BH [()+?*\]\+ x\*?+()x (1,7) # Standard character classes BH [[:alnum:]]\+ %abc123890XYZ= (1,13) BH$ [[:cntrl:]]\\+ %\n\t\015\f (1,5) BH [[:lower:]]\+ AbcdE (1,4) BHi [[:lower:]]\+ AbcdE (0,5) BH$ [[:space:]]\\+ x \t\f\nx (1,5) BH [[:alpha:]]\+ %abC123890xyz= (1,4) BH [[:digit:]]\+ %abC123890xyz= (4,10) BH [^[:digit:]]\+ %abC123890xyz= (0,4) BH$ [[:print:]]\\+ \n %abC12\f (1,8) BH$ [[:upper:]]\\+ \n aBCDEFGHIJKLMNOPQRSTUVWXYz (3,27) BHi$ [[:upper:]]\\+ \n aBCDEFGHIJKLMNOPQRSTUVWXYz (2,28) BH$ [[:blank:]]\\+ \na \t b (2,5) BH$ [[:graph:]]\\+ \n %abC12\f (2,8) BH [[:punct:]]\+ a~!@#$%^&*()_+=-`[]{};':"|\,./?>< (1,33) BH [[:xdigit:]]\+ -0123456789ABCDEFabcdef (1,23) BH [[:bogus-character-class-name:] NULL ECTYPE # Range expressions (assuming that the C locale is being used) BH [a-z]\+ ABCabcxyzABC (3,9) BH [z-a]\+ NULL ERANGE BH [a-b-c] NULL ERANGE BH [a-a]\+ zaaaaab (1,6) BH [--Z]\+ !ABC-./XYZ~ (1,10) BH [*--] - (0,1) BH SAME * (0,1) BH [*--Z]\+ !+*,---ABC (1,7) BH [a-]\+ xa-a--a-ay (1,9) # REG_ICASE and character sets BHi [a-c]* cABbage (0,5) BHi [^a-c]* tObAcCo (0,2) BHi [A-C]* cABbage (0,5) BHi [^A-C]* tObAcCo (0,2) # Complex character sets BH [[:digit:]a-z#$%]\+ __abc#lmn012$x%yz789* (2,20) BHi [[:digit:]a-z#$%]\+ __abcLMN012x%#$yz789* (2,20) BH [^[:digit:]a-z#$%]\+ abc#lmn012$x%yz789--@*,abc (18,23) BHi [^[:digit:]a-z#$%]\+ abc#lmn012$x%yz789--@*,abc (18,23) BHi [^[:digit:]#$%[:xdigit:]]\+ abc#lmn012$x%yz789--@*,abc (4,7) BH [^-]\+ ---afd*(&,ml--- (3,12) BH [^--Z]\+ ---AFD*(&,ml--- (6,12) BHi [^--Z]\+ ---AFD*(&,ml--- (6,10) # Miscellaneous tests BH abc\(\(de\)\(fg\)\)hi xabcdefghiy (1,10)(4,8)(4,6)(6,8) BH abc*def xabdefy (1,6) BH SAME xabcdefy (1,7) BH SAME xabcccccccdefy (1,13) BH abc\(def\)*ghi xabcghiy (1,7)(?,?) BH SAME xabcdefghi (1,10)(4,7) BH SAME xabcdefdefdefghi (1,16)(10,13) BH a\? aaaaa (0,1) BH SAME xaaaaa (0,0) BH a\+ aaaaa (0,5) BH SAME xaaaaa (1,6) # Test anchors and their behaviour with the REG_NEWLINE compilation # flag and the REG_NOTBOL, REG_NOTEOL execution flags. # # Normally, `^' matches the empty string at beginning of input. # If REG_NOTBOL is used, `^' won't match the zero length string. BH ^abc abcdef (0,3) BHb SAME abcdef NOMATCH BH SAME xyzabcdef NOMATCH BHb SAME xyzabcdef NOMATCH BH$ SAME \nabcdef NOMATCH BHb$ SAME \nabcdef NOMATCH # Normally, `$' matches the empty string at end of input. # If REG_NOTEOL is used, `$' won't match the zero length string. BH abc$ defabc (3,6) BHe SAME defabc NOMATCH BH SAME defabcxyz NOMATCH BHe SAME defabcxyz NOMATCH BH$ SAME defabc\n NOMATCH BHe$ SAME defabc\n NOMATCH BH ^abc$ abc (0,3) BHb SAME abc NOMATCH BHe SAME abc NOMATCH BHbe SAME abc NOMATCH BH$ SAME \nabc\n NOMATCH BH$ SAME defabc\n NOMATCH BH$ SAME \nabcdef NOMATCH BH SAME abcdef NOMATCH BH SAME defabc NOMATCH BH$ SAME abc\ndef NOMATCH BH$ SAME def\nabc NOMATCH # If REG_NEWLINE is used, `^' matches the empty string immediately after # a newline, regardless of whether execution flags contain REG_NOTBOL. # Similarly, if REG_NEWLINE is used, `$' matches the empty string # immediately before a newline, regardless of execution flags. BHn ^abc abcdef (0,3) BHbn SAME abcdef NOMATCH BHn SAME xyzabcdef NOMATCH BHbn SAME xyzabcdef NOMATCH BHn$ SAME \nabcdef (1,4) BHbn$ SAME \nabcdef (1,4) BHn abc$ defabc (3,6) BHen SAME defabc NOMATCH BHn SAME defabcxyz NOMATCH BHen SAME defabcxyz NOMATCH BHn$ SAME defabc\n (3,6) BHen$ SAME defabc\n (3,6) BHn ^abc$ abc (0,3) BHbn SAME abc NOMATCH BHen SAME abc NOMATCH BHben SAME abc NOMATCH BHn$ SAME \nabc\n (1,4) BHn$ SAME defabc\n NOMATCH BHn$ SAME \nabcdef NOMATCH BHn SAME abcdef NOMATCH BHbn SAME abcdef NOMATCH BHn SAME defabc NOMATCH BHen SAME defabc NOMATCH BHn$ SAME abc\ndef (0,3) BHbn$ SAME abc\ndef NOMATCH BHen$ SAME abc\ndef (0,3) BHbn$ SAME abc\ndef NOMATCH BHn$ SAME def\nabc (4,7) BHbn$ SAME def\nabc (4,7) BHen$ SAME def\nabc NOMATCH BHben$ SAME def\nabc NOMATCH # With BRE syntax, `^' has a special meaning only at the beginning of the # RE or the beginning of a parenthesized subexpression. BH a\{0,1\}^bc bc NOMATCH BH SAME ^bc (0,3) BH SAME abc NOMATCH BH SAME a^bc (0,4) BH a\{0,1\}\(^bc\) bc (0,2)(0,2) BH SAME ^bc NOMATCH BH SAME abc NOMATCH BH SAME a^bc NOMATCH BH (^a (^a (0,3) # With BRE syntax, `$' has a special meaning only at the end of the # RE or the end of a parenthesized subexpression. BH ab$c\{0,1\} ab NOMATCH BH SAME ab$ (0,3) BH SAME abc NOMATCH BH SAME ab$c (0,4) BH \(ab$\)c\{0,1\} ab (0,2)(0,2) BH SAME ab$ NOMATCH BH SAME abc NOMATCH BH SAME ab$c NOMATCH BH a$) a$) (0,3) # Miscellaneous tests for `^' and `$' BH foo^$ foo NOMATCH # For BRE, $ and ^ not magic #En$ x$\n^y foo\nybarx\nyes\n (8,11) BH ^$ x NOMATCH BH SAME NULL (0,0) BH$ SAME \n NOMATCH BHn ^$ x NOMATCH BHn SAME NULL (0,0) BHn$ SAME \n (0,0) # REG_NEWLINE causes `.' not to match newlines BH$ .* ab\ncd (0,5) BHn$ .* ab\ncd (0,2) # Tests for nonstandard syntax extensions (Enhanced mode off) # # Zero width assertions BH \ axx xaa (2,3) BH SAME aax (2,3) BH \bx axx xaa (4,5) BH SAME aax NOMATCH BH SAME xax (0,1) BH x\b axx xaa (2,3) BH SAME aax (2,3) BH SAME xaa NOMATCH BH \Bx aax xxa (2,3) BH \Bx\b aax xxx (2,3) BH \<. ;xaa (1,2) # Shorthands for character classes BH \w\{1,\} ,.(a23_Nt-öo) (3,9) BH \d\{1,\} uR120_4=v4 (2,5) BH \D\{1,\} 120d_=vA4s (3,8) BH \w\+ ,.(a23_Nt-öo) (3,9) BH \d\+ uR120_4=v4 (2,5) BH \D\+ 120d_=vA4s (3,8) # Quoted special characters B$H \\t \t (0,1) B$H \\e \033 (0,1) # Test the \x1B and \x{263a} extensions for specifying 8 bit and wide # characters in hexadecimal. BH \x41 ABC (0,1) B$H \\x5 \005 (0,1) B$H \\x5r \005r (0,2) # test_comp("\\x",REG_EXTENDED,0) # test_nexec("\000",1,0,REG_OK,0,1) # test_comp("\\xr",REG_EXTENDED,0) # test_nexec("\000r",2,0,REG_OK,0,2) BH \x{41} ABC (0,1) B$H \\x{5} \005 (0,1) B$H \\x{5}r \005r (0,2) # test_comp("\\x{}",REG_EXTENDED,0) # test_nexec("\000",1,0,REG_OK,0,1) # test_comp("\\x{}r",REG_EXTENDED,0) # test_nexec("\000r",2,0,REG_OK,0,2) # Tests for (?inrU-inrU) and (?inrU-inrU:) (Enhanced mode off) #E foo(?i)bar fooBaR BADRPT #E foo(?i)bar|zap fooBaR BADRPT #E SAME foozap BADRPT #E SAME foozAp BADRPT #E SAME bar BADRPT #E SAME zap BADRPT #Ei foo(?-i:zap)zot FoOzapZOt BADRPT #Ei SAME FoOzApZOt BADRPT #E foo(?i:bar|zap) foozap BADRPT #E SAME foobar BADRPT #E SAME foobAr BADRPT #E SAME fooZaP BADRPT #E foo(?U:o*)(o*) foooo BADRPT # Test comment syntax (Enhanced mode off) #E foo(?# This here is a comment. )bar foobar BADRPT # Tests for \Q and \E (Enhanced mode off) #E \((\Q)?:\<[^$\E) ()?:\<[^$ EBRACK #E \Qabc\E.* abcdef NOMATCH #E SAME QabcEdef (0,8) #E \Qabc\E.*|foo parabc123wxyz NOMATCH #E SAME fooabc123wxyz (0,3) #E SAME QabcEdef (0,8) # Test bounded repetitions BH a\{0,0\} aaa (0,0) BH a\{0,1\} aaa (0,1) BH a\{1,1\} aaa (0,1) BH a\{1,3\} xaaaaa (1,4) BH a\{0,3\} aaaaa (0,3) BH a\{0,\} NULL (0,0) BH SAME a (0,1) BH SAME aa (0,2) BH SAME aaa (0,3) BH a\{1,\} NULL NOMATCH BH SAME a (0,1) BH SAME aa (0,2) BH SAME aaa (0,3) BH a\{2,\} NULL NOMATCH BH SAME a NOMATCH BH SAME aa (0,2) BH SAME aaa (0,3) BH a\{3,\} NULL NOMATCH BH SAME a NOMATCH BH SAME aa NOMATCH BH SAME aaa (0,3) BH SAME aaaa (0,4) BH SAME aaaaa (0,5) BH SAME aaaaaa (0,6) BH SAME aaaaaaa (0,7) BH a\{5,10\} aaaaaaa (0,7) BH a\{6,6\} aaaaaaaaaaaa (0,6) BH SAME xxaaaaaaaaaaaa (2,8) BH SAME xxaaaaa NOMATCH BH a\{5,6\} aaaaaaaaaaaa (0,6) BH SAME xxaaaaaaaaaaaa (2,8) BH SAME xxaaaaa (2,7) BH SAME xxaaaa NOMATCH # Trickier ones... BH \([ab]\{5,10\}\)*b bbbbbabaaaaab (0,13)(7,12) BH SAME bbbbbbaaaaab (0,12)(6,11) BH SAME bbbbbbaaaab (0,11)(0,10) BH SAME bbbbbbaaab (0,10)(0,9) BH SAME bbbbbbaab (0,9)(0,8) BH SAME bbbbbbab (0,8)(0,7) BH \([ab]*\)\(ab[ab]\{5,10\}\)ba abbabbbabaabbbbbbbbbbbbbabaaaabab (0,10)(0,0)(0,8) BH SAME abbabbbabaabbbbbbbbbbbbabaaaaabab (0,32)(0,23)(23,30) BH SAME abbabbbabaabbbbbbbbbbbbabaaaabab (0,24)(0,10)(10,22) BH SAME abbabbbabaabbbbbbbbbbbba (0,24)(0,10)(10,22) # Test repeating something that has submatches inside BH \(a\)\{0,5\} NULL (0,0)(?,?) BH SAME a (0,1)(0,1) BH SAME aa (0,2)(1,2) BH SAME aaa (0,3)(2,3) BH SAME aaaa (0,4)(3,4) BH SAME aaaaa (0,5)(4,5) BH SAME aaaaaa (0,5)(4,5) BH \(a\)\{2,3\} NULL NOMATCH BH SAME a NOMATCH BH SAME aa (0,2)(1,2) BH SAME aaa (0,3)(2,3) BH SAME aaaa (0,3)(2,3) BH \(a\)\{4\} aaaa (0,4)(3,4) BH \(a*\)\{2\} a (0,1)(1,1) BH \(\(..\)\|\(.\)\)\{2\} aa (0,2)(1,2)(?,?)(1,2) # Nested repeats #E (.){2}{3} xxxxx NOMATCH #E SAME xxxxxx (0,6)(5,6) #E (..){2}{3} xxxxxxxxxxx NOMATCH #E SAME xxxxxxxxxxxx (0,12)(10,12) BH \(\(..\)\{2\}.\)\{3\} xxxxxxxxxxxxxx NOMATCH BH SAME xxxxxxxxxxxxxxx (0,15)(10,15)(12,14) BH \(\(..\)\{1,2\}.\)\{3\} xxxxxxxx NOMATCH BH SAME xxxxxxxxx (0,9)(6,9)(6,8) BH SAME xxxxxxxxxx (0,9)(6,9)(6,8) BH SAME xxxxxxxxxxx (0,11)(8,11)(8,10) #E a{2}{2}x NULL NOMATCH #E SAME x NOMATCH #E SAME ax NOMATCH #E SAME aax NOMATCH #E SAME aaax NOMATCH #E SAME aaaax (0,5) #E SAME aaaaax (1,6) #E SAME aaaaaax (2,7) #E SAME aaaaaaax (3,8) #E SAME aaaaaaaax (4,9) # Repeats with iterations inside BH$ \\([a-z]\\+\\)\\{2,5\\} a\n NOMATCH BH$ SAME aa\n (0,2)(1,2) # Multiple repeats in one regexp BH a\{3\}b\{3\} aaabbb (0,6) BH SAME aaabbbb (0,6) BH SAME aaaabbb (1,7) BH SAME aabbb NOMATCH BH SAME aaabb NOMATCH # Test that different types of repetitions work correctly when used # in the same regexp. #E a{2}{2}xb+xc*xd?x aaaaxbxcxdx (0,11) #E SAME aaaxbxcxdx NOMATCH #E SAME aabxcxdx NOMATCH #E SAME aaaacxdx NOMATCH #E SAME aaaaxbdx NOMATCH BH ^!packet [0-9]\{1,3\}\.[0-9]\{1,3\}\.[0-9]\{1,3\}\.[0-9]\{1,3\} [0-9]\+ !packet 10.0.2.4 12765 ei voittoa (0,22) # Back referencing tests BH \([a-z]*\) \1 foobar foobar (0,13)(0,6) # Searching for a leftmost longest square (repeated string) BH \(.*\)\1 foobarfoobar (0,12)(0,6) BH a\(b\)*c\1 acb NOMATCH BH SAME abbcbbb (0,5)(2,3) BH SAME abbdbd NOMATCH BH \([a-c]*\)\1 abcacdef (0,0)(0,0) BH SAME abcabcabcd (0,6)(0,3) BH \(a*\)*\(x\)\(\1\) x (0,1)(0,0)(0,1)(1,1) BH SAME ax (0,2)(1,1)(1,2)(2,2) BH \(a\)\1\{1,2\} aabc (0,2)(0,1) BH \(\)\(\1\1\)* NULL (0,0)(0,0)(0,0) # Check that back references work with REG_NOSUB BHw \(o\)\1 foobar NULL BH \(o\)\1 foobar (1,3)(1,2) BH SAME fobar NOMATCH BH \1foo NULL ESUBREG BH \1foo\(bar\) x ESUBREG # Back reference with zero-width assertion BH \(.\)\1$ foox NOMATCH BH SAME foo (1,3)(1,2) # Back references together with {} BH \([0-9]\{5\}\)\1 12345 NOMATCH BH SAME 1234512345 (0,10)(0,5) BH \([0-9]\{4\}\)\1 1234 NOMATCH BH SAME 12341234 (0,8)(0,4) # Test lack of minimal repetitions (non-greedy repetitions) # # Basic BH .*\? ab?d (0,3) BH .\+\? ab?d (0,3) BH .\?\? a?cd (0,2) BH .\{2,5\}\? ab?d (0,3) # More complicated #E (.*?) text1text2 BADRPT #E a(.*?)(foo|bar|zap) hubba wooga-booga zabar gafoo wazap BADRPT ##### Extras # ^ magic after \| BH \(a\|^b\) bas (0,1)(0,1) # Lack of minimal repetition BH a*? a? (0,2)