Annotation of embedaddon/pcre/pcre_jit_test.c, revision 1.1.1.5
1.1 misho 1: /*************************************************
2: * Perl-Compatible Regular Expressions *
3: *************************************************/
4:
5: /* PCRE is a library of functions to support regular expressions whose syntax
6: and semantics are as close as possible to those of the Perl 5 language.
7:
8: Main Library written by Philip Hazel
1.1.1.2 misho 9: Copyright (c) 1997-2012 University of Cambridge
1.1 misho 10:
11: This JIT compiler regression test program was written by Zoltan Herczeg
1.1.1.2 misho 12: Copyright (c) 2010-2012
1.1 misho 13:
14: -----------------------------------------------------------------------------
15: Redistribution and use in source and binary forms, with or without
16: modification, are permitted provided that the following conditions are met:
17:
18: * Redistributions of source code must retain the above copyright notice,
19: this list of conditions and the following disclaimer.
20:
21: * Redistributions in binary form must reproduce the above copyright
22: notice, this list of conditions and the following disclaimer in the
23: documentation and/or other materials provided with the distribution.
24:
25: * Neither the name of the University of Cambridge nor the names of its
26: contributors may be used to endorse or promote products derived from
27: this software without specific prior written permission.
28:
29: THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
30: AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
31: IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
32: ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
33: LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
34: CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
35: SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
36: INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
37: CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
38: ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
39: POSSIBILITY OF SUCH DAMAGE.
40: -----------------------------------------------------------------------------
41: */
42:
43: #ifdef HAVE_CONFIG_H
44: #include "config.h"
45: #endif
46:
47: #include <stdio.h>
48: #include <string.h>
49: #include "pcre.h"
50:
1.1.1.4 misho 51:
52: #include "pcre_internal.h"
53:
1.1 misho 54: #define PCRE_BUG 0x80000000
55:
56: /*
1.1.1.2 misho 57: Letter characters:
58: \xe6\x92\xad = 0x64ad = 25773 (kanji)
59: Non-letter characters:
60: \xc2\xa1 = 0xa1 = (Inverted Exclamation Mark)
61: \xf3\xa9\xb7\x80 = 0xe9dc0 = 957888
62: \xed\xa0\x80 = 55296 = 0xd800 (Invalid UTF character)
63: \xed\xb0\x80 = 56320 = 0xdc00 (Invalid UTF character)
64: Newlines:
65: \xc2\x85 = 0x85 = 133 (NExt Line = NEL)
66: \xe2\x80\xa8 = 0x2028 = 8232 (Line Separator)
67: Othercase pairs:
68: \xc3\xa9 = 0xe9 = 233 (e')
69: \xc3\x89 = 0xc9 = 201 (E')
70: \xc3\xa1 = 0xe1 = 225 (a')
71: \xc3\x81 = 0xc1 = 193 (A')
72: \xc8\xba = 0x23a = 570
73: \xe2\xb1\xa5 = 0x2c65 = 11365
74: \xe1\xbd\xb8 = 0x1f78 = 8056
75: \xe1\xbf\xb8 = 0x1ff8 = 8184
76: \xf0\x90\x90\x80 = 0x10400 = 66560
77: \xf0\x90\x90\xa8 = 0x10428 = 66600
78: Mark property:
79: \xcc\x8d = 0x30d = 781
80: Special:
81: \xdf\xbf = 0x7ff = 2047 (highest 2 byte character)
82: \xe0\xa0\x80 = 0x800 = 2048 (lowest 2 byte character)
83: \xef\xbf\xbf = 0xffff = 65535 (highest 3 byte character)
84: \xf0\x90\x80\x80 = 0x10000 = 65536 (lowest 4 byte character)
85: \xf4\x8f\xbf\xbf = 0x10ffff = 1114111 (highest allowed utf character)
1.1 misho 86: */
87:
88: static int regression_tests(void);
89:
90: int main(void)
91: {
92: int jit = 0;
1.1.1.4 misho 93: #if defined SUPPORT_PCRE8
1.1 misho 94: pcre_config(PCRE_CONFIG_JIT, &jit);
1.1.1.4 misho 95: #elif defined SUPPORT_PCRE16
1.1.1.2 misho 96: pcre16_config(PCRE_CONFIG_JIT, &jit);
1.1.1.4 misho 97: #elif defined SUPPORT_PCRE32
98: pcre32_config(PCRE_CONFIG_JIT, &jit);
1.1.1.2 misho 99: #endif
1.1 misho 100: if (!jit) {
101: printf("JIT must be enabled to run pcre_jit_test\n");
102: return 1;
103: }
104: return regression_tests();
105: }
106:
107: /* --------------------------------------------------------------------------------------- */
108:
1.1.1.4 misho 109: #if !(defined SUPPORT_PCRE8) && !(defined SUPPORT_PCRE16) && !(defined SUPPORT_PCRE32)
110: #error SUPPORT_PCRE8 or SUPPORT_PCRE16 or SUPPORT_PCRE32 must be defined
1.1.1.2 misho 111: #endif
112:
113: #define MUA (PCRE_MULTILINE | PCRE_UTF8 | PCRE_NEWLINE_ANYCRLF)
114: #define MUAP (PCRE_MULTILINE | PCRE_UTF8 | PCRE_NEWLINE_ANYCRLF | PCRE_UCP)
115: #define CMUA (PCRE_CASELESS | PCRE_MULTILINE | PCRE_UTF8 | PCRE_NEWLINE_ANYCRLF)
116: #define CMUAP (PCRE_CASELESS | PCRE_MULTILINE | PCRE_UTF8 | PCRE_NEWLINE_ANYCRLF | PCRE_UCP)
117: #define MA (PCRE_MULTILINE | PCRE_NEWLINE_ANYCRLF)
118: #define MAP (PCRE_MULTILINE | PCRE_NEWLINE_ANYCRLF | PCRE_UCP)
119: #define CMA (PCRE_CASELESS | PCRE_MULTILINE | PCRE_NEWLINE_ANYCRLF)
120:
121: #define OFFSET_MASK 0x00ffff
122: #define F_NO8 0x010000
123: #define F_NO16 0x020000
1.1.1.4 misho 124: #define F_NO32 0x020000
1.1.1.2 misho 125: #define F_NOMATCH 0x040000
126: #define F_DIFF 0x080000
127: #define F_FORCECONV 0x100000
128: #define F_PROPERTY 0x200000
1.1.1.4 misho 129: #define F_STUDY 0x400000
1.1 misho 130:
131: struct regression_test_case {
132: int flags;
133: int start_offset;
134: const char *pattern;
135: const char *input;
136: };
137:
138: static struct regression_test_case regression_test_cases[] = {
139: /* Constant strings. */
140: { MUA, 0, "AbC", "AbAbC" },
141: { MUA, 0, "ACCEPT", "AACACCACCEACCEPACCEPTACCEPTT" },
142: { CMUA, 0, "aA#\xc3\xa9\xc3\x81", "aA#Aa#\xc3\x89\xc3\xa1" },
143: { MA, 0, "[^a]", "aAbB" },
144: { CMA, 0, "[^m]", "mMnN" },
145: { MA, 0, "a[^b][^#]", "abacd" },
146: { CMA, 0, "A[^B][^E]", "abacd" },
147: { CMUA, 0, "[^x][^#]", "XxBll" },
148: { MUA, 0, "[^a]", "aaa\xc3\xa1#Ab" },
149: { CMUA, 0, "[^A]", "aA\xe6\x92\xad" },
150: { MUA, 0, "\\W(\\W)?\\w", "\r\n+bc" },
151: { MUA, 0, "\\W(\\W)?\\w", "\n\r+bc" },
152: { MUA, 0, "\\W(\\W)?\\w", "\r\r+bc" },
153: { MUA, 0, "\\W(\\W)?\\w", "\n\n+bc" },
154: { MUA, 0, "[axd]", "sAXd" },
155: { CMUA, 0, "[axd]", "sAXd" },
1.1.1.2 misho 156: { CMUA, 0 | F_NOMATCH, "[^axd]", "DxA" },
1.1 misho 157: { MUA, 0, "[a-dA-C]", "\xe6\x92\xad\xc3\xa9.B" },
158: { MUA, 0, "[^a-dA-C]", "\xe6\x92\xad\xc3\xa9" },
159: { CMUA, 0, "[^\xc3\xa9]", "\xc3\xa9\xc3\x89." },
160: { MUA, 0, "[^\xc3\xa9]", "\xc3\xa9\xc3\x89." },
161: { MUA, 0, "[^a]", "\xc2\x80[]" },
162: { CMUA, 0, "\xf0\x90\x90\xa7", "\xf0\x90\x91\x8f" },
163: { CMA, 0, "1a2b3c4", "1a2B3c51A2B3C4" },
164: { PCRE_CASELESS, 0, "\xff#a", "\xff#\xff\xfe##\xff#A" },
165: { PCRE_CASELESS, 0, "\xfe", "\xff\xfc#\xfe\xfe" },
166: { PCRE_CASELESS, 0, "a1", "Aa1" },
167: { MA, 0, "\\Ca", "cda" },
168: { CMA, 0, "\\Ca", "CDA" },
1.1.1.2 misho 169: { MA, 0 | F_NOMATCH, "\\Cx", "cda" },
170: { CMA, 0 | F_NOMATCH, "\\Cx", "CDA" },
171: { CMUAP, 0, "\xf0\x90\x90\x80\xf0\x90\x90\xa8", "\xf0\x90\x90\xa8\xf0\x90\x90\x80" },
172: { CMUAP, 0, "\xf0\x90\x90\x80{2}", "\xf0\x90\x90\x80#\xf0\x90\x90\xa8\xf0\x90\x90\x80" },
173: { CMUAP, 0, "\xf0\x90\x90\xa8{2}", "\xf0\x90\x90\x80#\xf0\x90\x90\xa8\xf0\x90\x90\x80" },
174: { CMUAP, 0, "\xe1\xbd\xb8\xe1\xbf\xb8", "\xe1\xbf\xb8\xe1\xbd\xb8" },
1.1 misho 175:
176: /* Assertions. */
177: { MUA, 0, "\\b[^A]", "A_B#" },
1.1.1.2 misho 178: { MA, 0 | F_NOMATCH, "\\b\\W", "\n*" },
1.1 misho 179: { MUA, 0, "\\B[^,]\\b[^s]\\b", "#X" },
180: { MAP, 0, "\\B", "_\xa1" },
181: { MAP, 0, "\\b_\\b[,A]\\B", "_," },
182: { MUAP, 0, "\\b", "\xe6\x92\xad!" },
183: { MUAP, 0, "\\B", "_\xc2\xa1\xc3\xa1\xc2\x85" },
184: { MUAP, 0, "\\b[^A]\\B[^c]\\b[^_]\\B", "_\xc3\xa1\xe2\x80\xa8" },
185: { MUAP, 0, "\\b\\w+\\B", "\xc3\x89\xc2\xa1\xe6\x92\xad\xc3\x81\xc3\xa1" },
1.1.1.2 misho 186: { MUA, 0 | F_NOMATCH, "\\b.", "\xcd\xbe" },
187: { CMUAP, 0, "\\By", "\xf0\x90\x90\xa8y" },
188: { MA, 0 | F_NOMATCH, "\\R^", "\n" },
189: { MA, 1 | F_NOMATCH, "^", "\n" },
1.1 misho 190: { 0, 0, "^ab", "ab" },
1.1.1.2 misho 191: { 0, 0 | F_NOMATCH, "^ab", "aab" },
1.1 misho 192: { PCRE_MULTILINE | PCRE_NEWLINE_CRLF, 0, "^a", "\r\raa\n\naa\r\naa" },
193: { PCRE_MULTILINE | PCRE_UTF8 | PCRE_NEWLINE_ANYCRLF, 0, "^-", "\xe2\x80\xa8--\xc2\x85-\r\n-" },
194: { PCRE_MULTILINE | PCRE_NEWLINE_ANY, 0, "^-", "a--b--\x85--" },
195: { PCRE_MULTILINE | PCRE_UTF8 | PCRE_NEWLINE_ANY, 0, "^-", "a--\xe2\x80\xa8--" },
196: { PCRE_MULTILINE | PCRE_UTF8 | PCRE_NEWLINE_ANY, 0, "^-", "a--\xc2\x85--" },
197: { 0, 0, "ab$", "ab" },
1.1.1.3 misho 198: { 0, 0 | F_NOMATCH, "ab$", "abab\n\n" },
199: { PCRE_DOLLAR_ENDONLY, 0 | F_NOMATCH, "ab$", "abab\r\n" },
1.1 misho 200: { PCRE_MULTILINE | PCRE_NEWLINE_CRLF, 0, "a$", "\r\raa\n\naa\r\naa" },
201: { PCRE_MULTILINE | PCRE_NEWLINE_ANY, 0, "a$", "aaa" },
202: { PCRE_MULTILINE | PCRE_UTF8 | PCRE_NEWLINE_ANYCRLF, 0, "#$", "#\xc2\x85###\r#" },
203: { PCRE_MULTILINE | PCRE_UTF8 | PCRE_NEWLINE_ANY, 0, "#$", "#\xe2\x80\xa9" },
1.1.1.2 misho 204: { PCRE_NOTBOL | PCRE_NEWLINE_ANY, 0 | F_NOMATCH, "^a", "aa\naa" },
1.1 misho 205: { PCRE_NOTBOL | PCRE_MULTILINE | PCRE_NEWLINE_ANY, 0, "^a", "aa\naa" },
1.1.1.2 misho 206: { PCRE_NOTEOL | PCRE_NEWLINE_ANY, 0 | F_NOMATCH, "a$", "aa\naa" },
207: { PCRE_NOTEOL | PCRE_NEWLINE_ANY, 0 | F_NOMATCH, "a$", "aa\r\n" },
208: { PCRE_UTF8 | PCRE_DOLLAR_ENDONLY | PCRE_NEWLINE_ANY, 0 | F_PROPERTY, "\\p{Any}{2,}$", "aa\r\n" },
1.1 misho 209: { PCRE_NOTEOL | PCRE_MULTILINE | PCRE_NEWLINE_ANY, 0, "a$", "aa\naa" },
210: { PCRE_NEWLINE_CR, 0, ".\\Z", "aaa" },
211: { PCRE_NEWLINE_CR | PCRE_UTF8, 0, "a\\Z", "aaa\r" },
212: { PCRE_NEWLINE_CR, 0, ".\\Z", "aaa\n" },
213: { PCRE_NEWLINE_CRLF, 0, ".\\Z", "aaa\r" },
214: { PCRE_NEWLINE_CRLF | PCRE_UTF8, 0, ".\\Z", "aaa\n" },
215: { PCRE_NEWLINE_CRLF, 0, ".\\Z", "aaa\r\n" },
216: { PCRE_NEWLINE_ANYCRLF | PCRE_UTF8, 0, ".\\Z", "aaa" },
217: { PCRE_NEWLINE_ANYCRLF | PCRE_UTF8, 0, ".\\Z", "aaa\r" },
218: { PCRE_NEWLINE_ANYCRLF | PCRE_UTF8, 0, ".\\Z", "aaa\n" },
219: { PCRE_NEWLINE_ANYCRLF | PCRE_UTF8, 0, ".\\Z", "aaa\r\n" },
220: { PCRE_NEWLINE_ANYCRLF | PCRE_UTF8, 0, ".\\Z", "aaa\xe2\x80\xa8" },
221: { PCRE_NEWLINE_ANYCRLF | PCRE_UTF8, 0, ".\\Z", "aaa" },
222: { PCRE_NEWLINE_ANYCRLF | PCRE_UTF8, 0, ".\\Z", "aaa\r" },
223: { PCRE_NEWLINE_ANYCRLF | PCRE_UTF8, 0, ".\\Z", "aaa\n" },
224: { PCRE_NEWLINE_ANYCRLF | PCRE_UTF8, 0, ".\\Z", "aaa\r\n" },
225: { PCRE_NEWLINE_ANY | PCRE_UTF8, 0, ".\\Z", "aaa\xc2\x85" },
226: { PCRE_NEWLINE_ANY | PCRE_UTF8, 0, ".\\Z", "aaa\xe2\x80\xa8" },
227: { MA, 0, "\\Aa", "aaa" },
1.1.1.2 misho 228: { MA, 1 | F_NOMATCH, "\\Aa", "aaa" },
1.1 misho 229: { MA, 1, "\\Ga", "aaa" },
1.1.1.2 misho 230: { MA, 1 | F_NOMATCH, "\\Ga", "aba" },
1.1 misho 231: { MA, 0, "a\\z", "aaa" },
1.1.1.2 misho 232: { MA, 0 | F_NOMATCH, "a\\z", "aab" },
1.1 misho 233:
234: /* Brackets. */
235: { MUA, 0, "(ab|bb|cd)", "bacde" },
236: { MUA, 0, "(?:ab|a)(bc|c)", "ababc" },
237: { MUA, 0, "((ab|(cc))|(bb)|(?:cd|efg))", "abac" },
238: { CMUA, 0, "((aB|(Cc))|(bB)|(?:cd|EFg))", "AcCe" },
239: { MUA, 0, "((ab|(cc))|(bb)|(?:cd|ebg))", "acebebg" },
240: { MUA, 0, "(?:(a)|(?:b))(cc|(?:d|e))(a|b)k", "accabdbbccbk" },
241:
242: /* Greedy and non-greedy ? operators. */
243: { MUA, 0, "(?:a)?a", "laab" },
244: { CMUA, 0, "(A)?A", "llaab" },
245: { MUA, 0, "(a)?\?a", "aab" }, /* ?? is the prefix of trygraphs in GCC. */
246: { MUA, 0, "(a)?a", "manm" },
247: { CMUA, 0, "(a|b)?\?d((?:e)?)", "ABABdx" },
248: { MUA, 0, "(a|b)?\?d((?:e)?)", "abcde" },
249: { MUA, 0, "((?:ab)?\?g|b(?:g(nn|d)?\?)?)?\?(?:n)?m", "abgnbgnnbgdnmm" },
250:
251: /* Greedy and non-greedy + operators */
252: { MUA, 0, "(aa)+aa", "aaaaaaa" },
253: { MUA, 0, "(aa)+?aa", "aaaaaaa" },
254: { MUA, 0, "(?:aba|ab|a)+l", "ababamababal" },
255: { MUA, 0, "(?:aba|ab|a)+?l", "ababamababal" },
256: { MUA, 0, "(a(?:bc|cb|b|c)+?|ss)+e", "accssabccbcacbccbbXaccssabccbcacbccbbe" },
257: { MUA, 0, "(a(?:bc|cb|b|c)+|ss)+?e", "accssabccbcacbccbbXaccssabccbcacbccbbe" },
258: { MUA, 0, "(?:(b(c)+?)+)?\?(?:(bc)+|(cb)+)+(?:m)+", "bccbcccbcbccbcbPbccbcccbcbccbcbmmn" },
259:
260: /* Greedy and non-greedy * operators */
261: { CMUA, 0, "(?:AA)*AB", "aaaaaaamaaaaaaab" },
262: { MUA, 0, "(?:aa)*?ab", "aaaaaaamaaaaaaab" },
263: { MUA, 0, "(aa|ab)*ab", "aaabaaab" },
264: { CMUA, 0, "(aa|Ab)*?aB", "aaabaaab" },
265: { MUA, 0, "(a|b)*(?:a)*(?:b)*m", "abbbaaababanabbbaaababamm" },
266: { MUA, 0, "(a|b)*?(?:a)*?(?:b)*?m", "abbbaaababanabbbaaababamm" },
267: { MA, 0, "a(a(\\1*)a|(b)b+){0}a", "aa" },
268: { MA, 0, "((?:a|)*){0}a", "a" },
269:
270: /* Combining ? + * operators */
271: { MUA, 0, "((bm)+)?\?(?:a)*(bm)+n|((am)+?)?(?:a)+(am)*n", "bmbmabmamaaamambmaman" },
272: { MUA, 0, "(((ab)?cd)*ef)+g", "abcdcdefcdefefmabcdcdefcdefefgg" },
273: { MUA, 0, "(((ab)?\?cd)*?ef)+?g", "abcdcdefcdefefmabcdcdefcdefefgg" },
274: { MUA, 0, "(?:(ab)?c|(?:ab)+?d)*g", "ababcdccababddg" },
275: { MUA, 0, "(?:(?:ab)?\?c|(ab)+d)*?g", "ababcdccababddg" },
276:
277: /* Single character iterators. */
278: { MUA, 0, "(a+aab)+aaaab", "aaaabcaaaabaabcaabcaaabaaaab" },
279: { MUA, 0, "(a*a*aab)+x", "aaaaabaabaaabmaabx" },
280: { MUA, 0, "(a*?(b|ab)a*?)+x", "aaaabcxbbaabaacbaaabaabax" },
281: { MUA, 0, "(a+(ab|ad)a+)+x", "aaabaaaadaabaaabaaaadaaax" },
282: { MUA, 0, "(a?(a)a?)+(aaa)", "abaaabaaaaaaaa" },
283: { MUA, 0, "(a?\?(a)a?\?)+(b)", "aaaacaaacaacacbaaab" },
284: { MUA, 0, "(a{0,4}(b))+d", "aaaaaabaabcaaaaabaaaaabd" },
285: { MUA, 0, "(a{0,4}?[^b])+d+(a{0,4}[^b])d+", "aaaaadaaaacaadddaaddd" },
286: { MUA, 0, "(ba{2})+c", "baabaaabacbaabaac" },
287: { MUA, 0, "(a*+bc++)+", "aaabbcaaabcccab" },
288: { MUA, 0, "(a?+[^b])+", "babaacacb" },
289: { MUA, 0, "(a{0,3}+b)(a{0,3}+b)(a{0,3}+)[^c]", "abaabaaacbaabaaaac" },
290: { CMUA, 0, "([a-c]+[d-f]+?)+?g", "aBdacdehAbDaFgA" },
291: { CMUA, 0, "[c-f]+k", "DemmFke" },
292: { MUA, 0, "([DGH]{0,4}M)+", "GGDGHDGMMHMDHHGHM" },
293: { MUA, 0, "([a-c]{4,}s)+", "abasabbasbbaabsbba" },
294: { CMUA, 0, "[ace]{3,7}", "AcbDAcEEcEd" },
295: { CMUA, 0, "[ace]{3,7}?", "AcbDAcEEcEd" },
296: { CMUA, 0, "[ace]{3,}", "AcbDAcEEcEd" },
297: { CMUA, 0, "[ace]{3,}?", "AcbDAcEEcEd" },
298: { MUA, 0, "[ckl]{2,}?g", "cdkkmlglglkcg" },
299: { CMUA, 0, "[ace]{5}?", "AcCebDAcEEcEd" },
300: { MUA, 0, "([AbC]{3,5}?d)+", "BACaAbbAEAACCbdCCbdCCAAbb" },
301: { MUA, 0, "([^ab]{0,}s){2}", "abaabcdsABamsDDs" },
302: { MUA, 0, "\\b\\w+\\B", "x,a_cd" },
303: { MUAP, 0, "\\b[^\xc2\xa1]+\\B", "\xc3\x89\xc2\xa1\xe6\x92\xad\xc3\x81\xc3\xa1" },
304: { CMUA, 0, "[^b]+(a*)([^c]?d{3})", "aaaaddd" },
1.1.1.2 misho 305: { CMUAP, 0, "\xe1\xbd\xb8{2}", "\xe1\xbf\xb8#\xe1\xbf\xb8\xe1\xbd\xb8" },
306: { CMUA, 0, "[^\xf0\x90\x90\x80]{2,4}@", "\xf0\x90\x90\xa8\xf0\x90\x90\x80###\xf0\x90\x90\x80@@@" },
307: { CMUA, 0, "[^\xe1\xbd\xb8][^\xc3\xa9]", "\xe1\xbd\xb8\xe1\xbf\xb8\xc3\xa9\xc3\x89#" },
308: { MUA, 0, "[^\xe1\xbd\xb8][^\xc3\xa9]", "\xe1\xbd\xb8\xe1\xbf\xb8\xc3\xa9\xc3\x89#" },
309: { MUA, 0, "[^\xe1\xbd\xb8]{3,}?", "##\xe1\xbd\xb8#\xe1\xbd\xb8#\xc3\x89#\xe1\xbd\xb8" },
1.1 misho 310:
1.1.1.4 misho 311: /* Bracket repeats with limit. */
312: { MUA, 0, "(?:(ab){2}){5}M", "abababababababababababM" },
313: { MUA, 0, "(?:ab|abab){1,5}M", "abababababababababababM" },
314: { MUA, 0, "(?>ab|abab){1,5}M", "abababababababababababM" },
315: { MUA, 0, "(?:ab|abab){1,5}?M", "abababababababababababM" },
316: { MUA, 0, "(?>ab|abab){1,5}?M", "abababababababababababM" },
317: { MUA, 0, "(?:(ab){1,4}?){1,3}?M", "abababababababababababababM" },
318: { MUA, 0, "(?:(ab){1,4}){1,3}abababababababababababM", "ababababababababababababM" },
319: { MUA, 0 | F_NOMATCH, "(?:(ab){1,4}){1,3}abababababababababababM", "abababababababababababM" },
320: { MUA, 0, "(ab){4,6}?M", "abababababababM" },
321:
1.1 misho 322: /* Basic character sets. */
323: { MUA, 0, "(?:\\s)+(?:\\S)+", "ab \t\xc3\xa9\xe6\x92\xad " },
324: { MUA, 0, "(\\w)*(k)(\\W)?\?", "abcdef abck11" },
325: { MUA, 0, "\\((\\d)+\\)\\D", "a() (83 (8)2 (9)ab" },
326: { MUA, 0, "\\w(\\s|(?:\\d)*,)+\\w\\wb", "a 5, 4,, bb 5, 4,, aab" },
327: { MUA, 0, "(\\v+)(\\V+)", "\x0e\xc2\x85\xe2\x80\xa8\x0b\x09\xe2\x80\xa9" },
328: { MUA, 0, "(\\h+)(\\H+)", "\xe2\x80\xa8\xe2\x80\x80\x20\xe2\x80\x8a\xe2\x81\x9f\xe3\x80\x80\x09\x20\xc2\xa0\x0a" },
329:
330: /* Unicode properties. */
331: { MUAP, 0, "[1-5\xc3\xa9\\w]", "\xc3\xa1_" },
1.1.1.2 misho 332: { MUAP, 0 | F_PROPERTY, "[\xc3\x81\\p{Ll}]", "A_\xc3\x89\xc3\xa1" },
1.1 misho 333: { MUAP, 0, "[\\Wd-h_x-z]+", "a\xc2\xa1#_yhzdxi" },
1.1.1.2 misho 334: { MUAP, 0 | F_NOMATCH | F_PROPERTY, "[\\P{Any}]", "abc" },
335: { MUAP, 0 | F_NOMATCH | F_PROPERTY, "[^\\p{Any}]", "abc" },
336: { MUAP, 0 | F_NOMATCH | F_PROPERTY, "[\\P{Any}\xc3\xa1-\xc3\xa8]", "abc" },
337: { MUAP, 0 | F_NOMATCH | F_PROPERTY, "[^\\p{Any}\xc3\xa1-\xc3\xa8]", "abc" },
338: { MUAP, 0 | F_NOMATCH | F_PROPERTY, "[\xc3\xa1-\xc3\xa8\\P{Any}]", "abc" },
339: { MUAP, 0 | F_NOMATCH | F_PROPERTY, "[^\xc3\xa1-\xc3\xa8\\p{Any}]", "abc" },
340: { MUAP, 0 | F_PROPERTY, "[\xc3\xa1-\xc3\xa8\\p{Any}]", "abc" },
341: { MUAP, 0 | F_PROPERTY, "[^\xc3\xa1-\xc3\xa8\\P{Any}]", "abc" },
1.1 misho 342: { MUAP, 0, "[b-\xc3\xa9\\s]", "a\xc\xe6\x92\xad" },
343: { CMUAP, 0, "[\xc2\x85-\xc2\x89\xc3\x89]", "\xc2\x84\xc3\xa9" },
344: { MUAP, 0, "[^b-d^&\\s]{3,}", "db^ !a\xe2\x80\xa8_ae" },
1.1.1.2 misho 345: { MUAP, 0 | F_PROPERTY, "[^\\S\\P{Any}][\\sN]{1,3}[\\P{N}]{4}", "\xe2\x80\xaa\xa N\x9\xc3\xa9_0" },
346: { MUA, 0 | F_PROPERTY, "[^\\P{L}\x9!D-F\xa]{2,3}", "\x9,.DF\xa.CG\xc3\x81" },
1.1 misho 347: { CMUAP, 0, "[\xc3\xa1-\xc3\xa9_\xe2\x80\xa0-\xe2\x80\xaf]{1,5}[^\xe2\x80\xa0-\xe2\x80\xaf]", "\xc2\xa1\xc3\x89\xc3\x89\xe2\x80\xaf_\xe2\x80\xa0" },
1.1.1.2 misho 348: { MUAP, 0 | F_PROPERTY, "[\xc3\xa2-\xc3\xa6\xc3\x81-\xc3\x84\xe2\x80\xa8-\xe2\x80\xa9\xe6\x92\xad\\p{Zs}]{2,}", "\xe2\x80\xa7\xe2\x80\xa9\xe6\x92\xad \xe6\x92\xae" },
349: { MUAP, 0 | F_PROPERTY, "[\\P{L&}]{2}[^\xc2\x85-\xc2\x89\\p{Ll}\\p{Lu}]{2}", "\xc3\xa9\xe6\x92\xad.a\xe6\x92\xad|\xc2\x8a#" },
1.1 misho 350: { PCRE_UCP, 0, "[a-b\\s]{2,5}[^a]", "AB baaa" },
351:
352: /* Possible empty brackets. */
353: { MUA, 0, "(?:|ab||bc|a)+d", "abcxabcabd" },
354: { MUA, 0, "(|ab||bc|a)+d", "abcxabcabd" },
355: { MUA, 0, "(?:|ab||bc|a)*d", "abcxabcabd" },
356: { MUA, 0, "(|ab||bc|a)*d", "abcxabcabd" },
357: { MUA, 0, "(?:|ab||bc|a)+?d", "abcxabcabd" },
358: { MUA, 0, "(|ab||bc|a)+?d", "abcxabcabd" },
359: { MUA, 0, "(?:|ab||bc|a)*?d", "abcxabcabd" },
360: { MUA, 0, "(|ab||bc|a)*?d", "abcxabcabd" },
361: { MUA, 0, "(((a)*?|(?:ba)+)+?|(?:|c|ca)*)*m", "abaacaccabacabalabaacaccabacabamm" },
362: { MUA, 0, "(?:((?:a)*|(ba)+?)+|(|c|ca)*?)*?m", "abaacaccabacabalabaacaccabacabamm" },
363:
364: /* Start offset. */
365: { MUA, 3, "(\\d|(?:\\w)*\\w)+", "0ac01Hb" },
1.1.1.2 misho 366: { MUA, 4 | F_NOMATCH, "(\\w\\W\\w)+", "ab#d" },
367: { MUA, 2 | F_NOMATCH, "(\\w\\W\\w)+", "ab#d" },
1.1 misho 368: { MUA, 1, "(\\w\\W\\w)+", "ab#d" },
369:
370: /* Newline. */
371: { PCRE_MULTILINE | PCRE_NEWLINE_CRLF, 0, "\\W{0,2}[^#]{3}", "\r\n#....." },
372: { PCRE_MULTILINE | PCRE_NEWLINE_CR, 0, "\\W{0,2}[^#]{3}", "\r\n#....." },
373: { PCRE_MULTILINE | PCRE_NEWLINE_CRLF, 0, "\\W{1,3}[^#]", "\r\n##...." },
374:
375: /* Any character except newline or any newline. */
376: { PCRE_NEWLINE_CRLF, 0, ".", "\r" },
377: { PCRE_NEWLINE_CRLF | PCRE_UTF8, 0, ".(.).", "a\xc3\xa1\r\n\n\r\r" },
378: { PCRE_NEWLINE_ANYCRLF, 0, ".(.)", "a\rb\nc\r\n\xc2\x85\xe2\x80\xa8" },
379: { PCRE_NEWLINE_ANYCRLF | PCRE_UTF8, 0, ".(.)", "a\rb\nc\r\n\xc2\x85\xe2\x80\xa8" },
380: { PCRE_NEWLINE_ANY | PCRE_UTF8, 0, "(.).", "a\rb\nc\r\n\xc2\x85\xe2\x80\xa9$de" },
1.1.1.2 misho 381: { PCRE_NEWLINE_ANYCRLF | PCRE_UTF8, 0 | F_NOMATCH, ".(.).", "\xe2\x80\xa8\nb\r" },
1.1 misho 382: { PCRE_NEWLINE_ANY, 0, "(.)(.)", "#\x85#\r#\n#\r\n#\x84" },
383: { PCRE_NEWLINE_ANY | PCRE_UTF8, 0, "(.+)#", "#\rMn\xc2\x85#\n###" },
384: { PCRE_BSR_ANYCRLF, 0, "\\R", "\r" },
385: { PCRE_BSR_ANYCRLF, 0, "\\R", "\x85#\r\n#" },
386: { PCRE_BSR_UNICODE | PCRE_UTF8, 0, "\\R", "ab\xe2\x80\xa8#c" },
387: { PCRE_BSR_UNICODE | PCRE_UTF8, 0, "\\R", "ab\r\nc" },
388: { PCRE_NEWLINE_CRLF | PCRE_BSR_UNICODE | PCRE_UTF8, 0, "(\\R.)+", "\xc2\x85\r\n#\xe2\x80\xa8\n\r\n\r" },
1.1.1.2 misho 389: { MUA, 0 | F_NOMATCH, "\\R+", "ab" },
1.1 misho 390: { MUA, 0, "\\R+", "ab\r\n\r" },
391: { MUA, 0, "\\R*", "ab\r\n\r" },
392: { MUA, 0, "\\R*", "\r\n\r" },
393: { MUA, 0, "\\R{2,4}", "\r\nab\r\r" },
394: { MUA, 0, "\\R{2,4}", "\r\nab\n\n\n\r\r\r" },
395: { MUA, 0, "\\R{2,}", "\r\nab\n\n\n\r\r\r" },
396: { MUA, 0, "\\R{0,3}", "\r\n\r\n\r\n\r\n\r\n" },
1.1.1.2 misho 397: { MUA, 0 | F_NOMATCH, "\\R+\\R\\R", "\r\n\r\n" },
1.1 misho 398: { MUA, 0, "\\R+\\R\\R", "\r\r\r" },
399: { MUA, 0, "\\R*\\R\\R", "\n\r" },
1.1.1.2 misho 400: { MUA, 0 | F_NOMATCH, "\\R{2,4}\\R\\R", "\r\r\r" },
1.1 misho 401: { MUA, 0, "\\R{2,4}\\R\\R", "\r\r\r\r" },
402:
403: /* Atomic groups (no fallback from "next" direction). */
1.1.1.2 misho 404: { MUA, 0 | F_NOMATCH, "(?>ab)ab", "bab" },
405: { MUA, 0 | F_NOMATCH, "(?>(ab))ab", "bab" },
1.1 misho 406: { MUA, 0, "(?>ab)+abc(?>de)*def(?>gh)?ghe(?>ij)+?k(?>lm)*?n(?>op)?\?op",
407: "bababcdedefgheijijklmlmnop" },
408: { MUA, 0, "(?>a(b)+a|(ab)?\?(b))an", "abban" },
409: { MUA, 0, "(?>ab+a|(?:ab)?\?b)an", "abban" },
410: { MUA, 0, "((?>ab|ad|)*?)(?>|c)*abad", "abababcababad" },
411: { MUA, 0, "(?>(aa|b|)*+(?>(##)|###)*d|(aa)(?>(baa)?)m)", "aabaa#####da" },
412: { MUA, 0, "((?>a|)+?)b", "aaacaaab" },
413: { MUA, 0, "(?>x|)*$", "aaa" },
414: { MUA, 0, "(?>(x)|)*$", "aaa" },
415: { MUA, 0, "(?>x|())*$", "aaa" },
416: { MUA, 0, "((?>[cxy]a|[a-d])*?)b", "aaa+ aaab" },
417: { MUA, 0, "((?>[cxy](a)|[a-d])*?)b", "aaa+ aaab" },
418: { MUA, 0, "(?>((?>(a+))))bab|(?>((?>(a+))))bb", "aaaabaaabaabab" },
419: { MUA, 0, "(?>(?>a+))bab|(?>(?>a+))bb", "aaaabaaabaabab" },
420: { MUA, 0, "(?>(a)c|(?>(c)|(a))a)b*?bab", "aaaabaaabaabab" },
421: { MUA, 0, "(?>ac|(?>c|a)a)b*?bab", "aaaabaaabaabab" },
422: { MUA, 0, "(?>(b)b|(a))*b(?>(c)|d)?x", "ababcaaabdbx" },
423: { MUA, 0, "(?>bb|a)*b(?>c|d)?x", "ababcaaabdbx" },
424: { MUA, 0, "(?>(bb)|a)*b(?>c|(d))?x", "ababcaaabdbx" },
425: { MUA, 0, "(?>(a))*?(?>(a))+?(?>(a))??x", "aaaaaacccaaaaabax" },
426: { MUA, 0, "(?>a)*?(?>a)+?(?>a)??x", "aaaaaacccaaaaabax" },
427: { MUA, 0, "(?>(a)|)*?(?>(a)|)+?(?>(a)|)??x", "aaaaaacccaaaaabax" },
428: { MUA, 0, "(?>a|)*?(?>a|)+?(?>a|)??x", "aaaaaacccaaaaabax" },
429: { MUA, 0, "(?>a(?>(a{0,2}))*?b|aac)+b", "aaaaaaacaaaabaaaaacaaaabaacaaabb" },
430: { CMA, 0, "(?>((?>a{32}|b+|(a*))?(?>c+|d*)?\?)+e)+?f", "aaccebbdde bbdaaaccebbdee bbdaaaccebbdeef" },
431: { MUA, 0, "(?>(?:(?>aa|a||x)+?b|(?>aa|a||(x))+?c)?(?>[ad]{0,2})*?d)+d", "aaacdbaabdcabdbaaacd aacaabdbdcdcaaaadaabcbaadd" },
432: { MUA, 0, "(?>(?:(?>aa|a||(x))+?b|(?>aa|a||x)+?c)?(?>[ad]{0,2})*?d)+d", "aaacdbaabdcabdbaaacd aacaabdbdcdcaaaadaabcbaadd" },
1.1.1.4 misho 433: { MUA, 0 | F_PROPERTY, "\\X", "\xcc\x8d\xcc\x8d" },
1.1.1.2 misho 434: { MUA, 0 | F_PROPERTY, "\\X", "\xcc\x8d\xcc\x8d#\xcc\x8d\xcc\x8d" },
435: { MUA, 0 | F_PROPERTY, "\\X+..", "\xcc\x8d#\xcc\x8d#\xcc\x8d\xcc\x8d" },
436: { MUA, 0 | F_PROPERTY, "\\X{2,4}", "abcdef" },
437: { MUA, 0 | F_PROPERTY, "\\X{2,4}?", "abcdef" },
438: { MUA, 0 | F_NOMATCH | F_PROPERTY, "\\X{2,4}..", "#\xcc\x8d##" },
439: { MUA, 0 | F_PROPERTY, "\\X{2,4}..", "#\xcc\x8d#\xcc\x8d##" },
1.1 misho 440: { MUA, 0, "(c(ab)?+ab)+", "cabcababcab" },
441: { MUA, 0, "(?>(a+)b)+aabab", "aaaabaaabaabab" },
442:
443: /* Possessive quantifiers. */
444: { MUA, 0, "(?:a|b)++m", "mababbaaxababbaam" },
445: { MUA, 0, "(?:a|b)*+m", "mababbaaxababbaam" },
446: { MUA, 0, "(?:a|b)*+m", "ababbaaxababbaam" },
447: { MUA, 0, "(a|b)++m", "mababbaaxababbaam" },
448: { MUA, 0, "(a|b)*+m", "mababbaaxababbaam" },
449: { MUA, 0, "(a|b)*+m", "ababbaaxababbaam" },
450: { MUA, 0, "(a|b(*ACCEPT))++m", "maaxab" },
451: { MUA, 0, "(?:b*)++m", "bxbbxbbbxm" },
452: { MUA, 0, "(?:b*)++m", "bxbbxbbbxbbm" },
453: { MUA, 0, "(?:b*)*+m", "bxbbxbbbxm" },
454: { MUA, 0, "(?:b*)*+m", "bxbbxbbbxbbm" },
455: { MUA, 0, "(b*)++m", "bxbbxbbbxm" },
456: { MUA, 0, "(b*)++m", "bxbbxbbbxbbm" },
457: { MUA, 0, "(b*)*+m", "bxbbxbbbxm" },
458: { MUA, 0, "(b*)*+m", "bxbbxbbbxbbm" },
459: { MUA, 0, "(?:a|(b))++m", "mababbaaxababbaam" },
460: { MUA, 0, "(?:(a)|b)*+m", "mababbaaxababbaam" },
461: { MUA, 0, "(?:(a)|(b))*+m", "ababbaaxababbaam" },
462: { MUA, 0, "(a|(b))++m", "mababbaaxababbaam" },
463: { MUA, 0, "((a)|b)*+m", "mababbaaxababbaam" },
464: { MUA, 0, "((a)|(b))*+m", "ababbaaxababbaam" },
465: { MUA, 0, "(a|(b)(*ACCEPT))++m", "maaxab" },
466: { MUA, 0, "(?:(b*))++m", "bxbbxbbbxm" },
467: { MUA, 0, "(?:(b*))++m", "bxbbxbbbxbbm" },
468: { MUA, 0, "(?:(b*))*+m", "bxbbxbbbxm" },
469: { MUA, 0, "(?:(b*))*+m", "bxbbxbbbxbbm" },
470: { MUA, 0, "((b*))++m", "bxbbxbbbxm" },
471: { MUA, 0, "((b*))++m", "bxbbxbbbxbbm" },
472: { MUA, 0, "((b*))*+m", "bxbbxbbbxm" },
473: { MUA, 0, "((b*))*+m", "bxbbxbbbxbbm" },
1.1.1.2 misho 474: { MUA, 0 | F_NOMATCH, "(?>(b{2,4}))(?:(?:(aa|c))++m|(?:(aa|c))+n)", "bbaacaaccaaaacxbbbmbn" },
1.1 misho 475: { MUA, 0, "((?:b)++a)+(cd)*+m", "bbababbacdcdnbbababbacdcdm" },
476: { MUA, 0, "((?:(b))++a)+((c)d)*+m", "bbababbacdcdnbbababbacdcdm" },
477: { MUA, 0, "(?:(?:(?:ab)*+k)++(?:n(?:cd)++)*+)*+m", "ababkkXababkkabkncXababkkabkncdcdncdXababkkabkncdcdncdkkabkncdXababkkabkncdcdncdkkabkncdm" },
478: { MUA, 0, "(?:((ab)*+(k))++(n(?:c(d))++)*+)*+m", "ababkkXababkkabkncXababkkabkncdcdncdXababkkabkncdcdncdkkabkncdXababkkabkncdcdncdkkabkncdm" },
479:
480: /* Back references. */
481: { MUA, 0, "(aa|bb)(\\1*)(ll|)(\\3*)bbbbbbc", "aaaaaabbbbbbbbc" },
482: { CMUA, 0, "(aa|bb)(\\1+)(ll|)(\\3+)bbbbbbc", "bBbbBbCbBbbbBbbcbbBbbbBBbbC" },
483: { CMA, 0, "(a{2,4})\\1", "AaAaaAaA" },
484: { MUA, 0, "(aa|bb)(\\1?)aa(\\1?)(ll|)(\\4+)bbc", "aaaaaaaabbaabbbbaabbbbc" },
485: { MUA, 0, "(aa|bb)(\\1{0,5})(ll|)(\\3{0,5})cc", "bbxxbbbbxxaaaaaaaaaaaaaaaacc" },
486: { MUA, 0, "(aa|bb)(\\1{3,5})(ll|)(\\3{3,5})cc", "bbbbbbbbbbbbaaaaaaccbbbbbbbbbbbbbbcc" },
487: { MUA, 0, "(aa|bb)(\\1{3,})(ll|)(\\3{3,})cc", "bbbbbbbbbbbbaaaaaaccbbbbbbbbbbbbbbcc" },
488: { MUA, 0, "(\\w+)b(\\1+)c", "GabGaGaDbGaDGaDc" },
489: { MUA, 0, "(?:(aa)|b)\\1?b", "bb" },
490: { CMUA, 0, "(aa|bb)(\\1*?)aa(\\1+?)", "bBBbaaAAaaAAaa" },
491: { MUA, 0, "(aa|bb)(\\1*?)(dd|)cc(\\3+?)", "aaaaaccdd" },
492: { CMUA, 0, "(?:(aa|bb)(\\1?\?)cc){2}(\\1?\?)", "aAaABBbbAAaAcCaAcCaA" },
493: { MUA, 0, "(?:(aa|bb)(\\1{3,5}?)){2}(dd|)(\\3{3,5}?)", "aaaaaabbbbbbbbbbaaaaaaaaaaaaaa" },
494: { CMA, 0, "(?:(aa|bb)(\\1{3,}?)){2}(dd|)(\\3{3,}?)", "aaaaaabbbbbbbbbbaaaaaaaaaaaaaa" },
495: { MUA, 0, "(?:(aa|bb)(\\1{0,3}?)){2}(dd|)(\\3{0,3}?)b(\\1{0,3}?)(\\1{0,3})", "aaaaaaaaaaaaaaabaaaaa" },
496: { MUA, 0, "(a(?:\\1|)a){3}b", "aaaaaaaaaaab" },
497: { MA, 0, "(a?)b(\\1\\1*\\1+\\1?\\1*?\\1+?\\1??\\1*+\\1++\\1?+\\1{4}\\1{3,5}\\1{4,}\\1{0,5}\\1{3,5}?\\1{4,}?\\1{0,5}?\\1{3,5}+\\1{4,}+\\1{0,5}+#){2}d", "bb#b##d" },
1.1.1.2 misho 498: { MUAP, 0 | F_PROPERTY, "(\\P{N})\\1{2,}", ".www." },
499: { MUAP, 0 | F_PROPERTY, "(\\P{N})\\1{0,2}", "wwwww." },
500: { MUAP, 0 | F_PROPERTY, "(\\P{N})\\1{1,2}ww", "wwww" },
501: { MUAP, 0 | F_PROPERTY, "(\\P{N})\\1{1,2}ww", "wwwww" },
502: { PCRE_UCP, 0 | F_PROPERTY, "(\\P{N})\\1{2,}", ".www." },
503: { CMUAP, 0, "(\xf0\x90\x90\x80)\\1", "\xf0\x90\x90\xa8\xf0\x90\x90\xa8" },
1.1.1.5 ! misho 504: { MUA | PCRE_DUPNAMES, 0 | F_NOMATCH, "\\k<A>{1,3}(?<A>aa)(?<A>bb)", "aabb" },
! 505: { MUA | PCRE_DUPNAMES | PCRE_JAVASCRIPT_COMPAT, 0, "\\k<A>{1,3}(?<A>aa)(?<A>bb)", "aabb" },
! 506: { MUA | PCRE_DUPNAMES | PCRE_JAVASCRIPT_COMPAT, 0, "\\k<A>*(?<A>aa)(?<A>bb)", "aabb" },
! 507: { MUA | PCRE_DUPNAMES, 0, "(?<A>aa)(?<A>bb)\\k<A>{0,3}aaaaaa", "aabbaaaaaa" },
! 508: { MUA | PCRE_DUPNAMES, 0, "(?<A>aa)(?<A>bb)\\k<A>{2,5}bb", "aabbaaaabb" },
! 509: { MUA | PCRE_DUPNAMES, 0, "(?:(?<A>aa)|(?<A>bb))\\k<A>{0,3}m", "aaaaaaaabbbbaabbbbm" },
! 510: { MUA | PCRE_DUPNAMES, 0 | F_NOMATCH, "\\k<A>{1,3}?(?<A>aa)(?<A>bb)", "aabb" },
! 511: { MUA | PCRE_DUPNAMES | PCRE_JAVASCRIPT_COMPAT, 0, "\\k<A>{1,3}?(?<A>aa)(?<A>bb)", "aabb" },
! 512: { MUA | PCRE_DUPNAMES, 0, "\\k<A>*?(?<A>aa)(?<A>bb)", "aabb" },
! 513: { MUA | PCRE_DUPNAMES, 0, "(?:(?<A>aa)|(?<A>bb))\\k<A>{0,3}?m", "aaaaaabbbbbbaabbbbbbbbbbm" },
! 514: { MUA | PCRE_DUPNAMES, 0, "(?:(?<A>aa)|(?<A>bb))\\k<A>*?m", "aaaaaabbbbbbaabbbbbbbbbbm" },
! 515: { MUA | PCRE_DUPNAMES, 0, "(?:(?<A>aa)|(?<A>bb))\\k<A>{2,3}?", "aaaabbbbaaaabbbbbbbbbb" },
! 516: { CMUA | PCRE_DUPNAMES, 0, "(?:(?<A>AA)|(?<A>BB))\\k<A>{0,3}M", "aaaaaaaabbbbaabbbbm" },
! 517: { CMUA | PCRE_DUPNAMES, 0, "(?:(?<A>AA)|(?<A>BB))\\k<A>{1,3}M", "aaaaaaaabbbbaabbbbm" },
! 518: { CMUA | PCRE_DUPNAMES, 0, "(?:(?<A>AA)|(?<A>BB))\\k<A>{0,3}?M", "aaaaaabbbbbbaabbbbbbbbbbm" },
! 519: { CMUA | PCRE_DUPNAMES, 0, "(?:(?<A>AA)|(?<A>BB))\\k<A>{2,3}?", "aaaabbbbaaaabbbbbbbbbb" },
1.1 misho 520:
521: /* Assertions. */
522: { MUA, 0, "(?=xx|yy|zz)\\w{4}", "abczzdefg" },
523: { MUA, 0, "(?=((\\w+)b){3}|ab)", "dbbbb ab" },
524: { MUA, 0, "(?!ab|bc|cd)[a-z]{2}", "Xabcdef" },
525: { MUA, 0, "(?<=aaa|aa|a)a", "aaa" },
526: { MUA, 2, "(?<=aaa|aa|a)a", "aaa" },
527: { MA, 0, "(?<=aaa|aa|a)a", "aaa" },
528: { MA, 2, "(?<=aaa|aa|a)a", "aaa" },
529: { MUA, 0, "(\\d{2})(?!\\w+c|(((\\w?)m){2}n)+|\\1)", "x5656" },
530: { MUA, 0, "((?=((\\d{2,6}\\w){2,}))\\w{5,20}K){2,}", "567v09708K12l00M00 567v09708K12l00M00K45K" },
531: { MUA, 0, "(?=(?:(?=\\S+a)\\w*(b)){3})\\w+\\d", "bba bbab nbbkba nbbkba0kl" },
532: { MUA, 0, "(?>a(?>(b+))a(?=(..)))*?k", "acabbcabbaabacabaabbakk" },
533: { MUA, 0, "((?(?=(a))a)+k)", "bbak" },
534: { MUA, 0, "((?(?=a)a)+k)", "bbak" },
1.1.1.2 misho 535: { MUA, 0 | F_NOMATCH, "(?=(?>(a))m)amk", "a k" },
536: { MUA, 0 | F_NOMATCH, "(?!(?>(a))m)amk", "a k" },
537: { MUA, 0 | F_NOMATCH, "(?>(?=(a))am)amk", "a k" },
1.1 misho 538: { MUA, 0, "(?=(?>a|(?=(?>(b+))a|c)[a-c]+)*?m)[a-cm]+k", "aaam bbam baaambaam abbabba baaambaamk" },
539: { MUA, 0, "(?> ?\?\\b(?(?=\\w{1,4}(a))m)\\w{0,8}bc){2,}?", "bca ssbc mabd ssbc mabc" },
540: { MUA, 0, "(?:(?=ab)?[^n][^n])+m", "ababcdabcdcdabnababcdabcdcdabm" },
541: { MUA, 0, "(?:(?=a(b))?[^n][^n])+m", "ababcdabcdcdabnababcdabcdcdabm" },
542: { MUA, 0, "(?:(?=.(.))??\\1.)+m", "aabbbcbacccanaabbbcbacccam" },
543: { MUA, 0, "(?:(?=.)??[a-c])+m", "abacdcbacacdcaccam" },
544: { MUA, 0, "((?!a)?(?!([^a]))?)+$", "acbab" },
545: { MUA, 0, "((?!a)?\?(?!([^a]))?\?)+$", "acbab" },
546:
547: /* Not empty, ACCEPT, FAIL */
1.1.1.2 misho 548: { MUA | PCRE_NOTEMPTY, 0 | F_NOMATCH, "a*", "bcx" },
1.1 misho 549: { MUA | PCRE_NOTEMPTY, 0, "a*", "bcaad" },
550: { MUA | PCRE_NOTEMPTY, 0, "a*?", "bcaad" },
551: { MUA | PCRE_NOTEMPTY_ATSTART, 0, "a*", "bcaad" },
552: { MUA, 0, "a(*ACCEPT)b", "ab" },
1.1.1.2 misho 553: { MUA | PCRE_NOTEMPTY, 0 | F_NOMATCH, "a*(*ACCEPT)b", "bcx" },
1.1 misho 554: { MUA | PCRE_NOTEMPTY, 0, "a*(*ACCEPT)b", "bcaad" },
555: { MUA | PCRE_NOTEMPTY, 0, "a*?(*ACCEPT)b", "bcaad" },
1.1.1.2 misho 556: { MUA | PCRE_NOTEMPTY, 0 | F_NOMATCH, "(?:z|a*(*ACCEPT)b)", "bcx" },
1.1 misho 557: { MUA | PCRE_NOTEMPTY, 0, "(?:z|a*(*ACCEPT)b)", "bcaad" },
558: { MUA | PCRE_NOTEMPTY, 0, "(?:z|a*?(*ACCEPT)b)", "bcaad" },
559: { MUA | PCRE_NOTEMPTY_ATSTART, 0, "a*(*ACCEPT)b", "bcx" },
1.1.1.2 misho 560: { MUA | PCRE_NOTEMPTY_ATSTART, 0 | F_NOMATCH, "a*(*ACCEPT)b", "" },
1.1 misho 561: { MUA, 0, "((a(*ACCEPT)b))", "ab" },
562: { MUA, 0, "(a(*FAIL)a|a)", "aaa" },
563: { MUA, 0, "(?=ab(*ACCEPT)b)a", "ab" },
564: { MUA, 0, "(?=(?:x|ab(*ACCEPT)b))", "ab" },
565: { MUA, 0, "(?=(a(b(*ACCEPT)b)))a", "ab" },
566: { MUA | PCRE_NOTEMPTY, 0, "(?=a*(*ACCEPT))c", "c" },
567:
568: /* Conditional blocks. */
569: { MUA, 0, "(?(?=(a))a|b)+k", "ababbalbbadabak" },
570: { MUA, 0, "(?(?!(b))a|b)+k", "ababbalbbadabak" },
571: { MUA, 0, "(?(?=a)a|b)+k", "ababbalbbadabak" },
572: { MUA, 0, "(?(?!b)a|b)+k", "ababbalbbadabak" },
573: { MUA, 0, "(?(?=(a))a*|b*)+k", "ababbalbbadabak" },
574: { MUA, 0, "(?(?!(b))a*|b*)+k", "ababbalbbadabak" },
575: { MUA, 0, "(?(?!(b))(?:aaaaaa|a)|(?:bbbbbb|b))+aaaak", "aaaaaaaaaaaaaa bbbbbbbbbbbbbbb aaaaaaak" },
576: { MUA, 0, "(?(?!b)(?:aaaaaa|a)|(?:bbbbbb|b))+aaaak", "aaaaaaaaaaaaaa bbbbbbbbbbbbbbb aaaaaaak" },
1.1.1.2 misho 577: { MUA, 0 | F_DIFF, "(?(?!(b))(?:aaaaaa|a)|(?:bbbbbb|b))+bbbbk", "aaaaaaaaaaaaaa bbbbbbbbbbbbbbb bbbbbbbk" },
1.1 misho 578: { MUA, 0, "(?(?!b)(?:aaaaaa|a)|(?:bbbbbb|b))+bbbbk", "aaaaaaaaaaaaaa bbbbbbbbbbbbbbb bbbbbbbk" },
579: { MUA, 0, "(?(?=a)a*|b*)+k", "ababbalbbadabak" },
580: { MUA, 0, "(?(?!b)a*|b*)+k", "ababbalbbadabak" },
581: { MUA, 0, "(?(?=a)ab)", "a" },
582: { MUA, 0, "(?(?<!b)c)", "b" },
583: { MUA, 0, "(?(DEFINE)a(b))", "a" },
584: { MUA, 0, "a(?(DEFINE)(?:b|(?:c?)+)*)", "a" },
585: { MUA, 0, "(?(?=.[a-c])[k-l]|[A-D])", "kdB" },
586: { MUA, 0, "(?(?!.{0,4}[cd])(aa|bb)|(cc|dd))+", "aabbccddaa" },
587: { MUA, 0, "(?(?=[^#@]*@)(aaab|aa|aba)|(aba|aab)){3,}", "aaabaaaba#aaabaaaba#aaabaaaba@" },
588: { MUA, 0, "((?=\\w{5})\\w(?(?=\\w*k)\\d|[a-f_])*\\w\\s)+", "mol m10kk m088k _f_a_ mbkkl" },
589: { MUA, 0, "(c)?\?(?(1)a|b)", "cdcaa" },
590: { MUA, 0, "(c)?\?(?(1)a|b)", "cbb" },
1.1.1.2 misho 591: { MUA, 0 | F_DIFF, "(?(?=(a))(aaaa|a?))+aak", "aaaaab aaaaak" },
1.1 misho 592: { MUA, 0, "(?(?=a)(aaaa|a?))+aak", "aaaaab aaaaak" },
593: { MUA, 0, "(?(?!(b))(aaaa|a?))+aak", "aaaaab aaaaak" },
594: { MUA, 0, "(?(?!b)(aaaa|a?))+aak", "aaaaab aaaaak" },
1.1.1.2 misho 595: { MUA, 0 | F_DIFF, "(?(?=(a))a*)+aak", "aaaaab aaaaak" },
1.1 misho 596: { MUA, 0, "(?(?=a)a*)+aak", "aaaaab aaaaak" },
597: { MUA, 0, "(?(?!(b))a*)+aak", "aaaaab aaaaak" },
598: { MUA, 0, "(?(?!b)a*)+aak", "aaaaab aaaaak" },
599: { MUA, 0, "(?(?=(?=(?!(x))a)aa)aaa|(?(?=(?!y)bb)bbb))*k", "abaabbaaabbbaaabbb abaabbaaabbbaaabbbk" },
600: { MUA, 0, "(?P<Name>a)?(?P<Name2>b)?(?(Name)c|d)*l", "bc ddd abccabccl" },
601: { MUA, 0, "(?P<Name>a)?(?P<Name2>b)?(?(Name)c|d)+?dd", "bcabcacdb bdddd" },
602: { MUA, 0, "(?P<Name>a)?(?P<Name2>b)?(?(Name)c|d)+l", "ababccddabdbccd abcccl" },
1.1.1.4 misho 603: { MUA, 0, "((?:a|aa)(?(1)aaa))x", "aax" },
1.1 misho 604:
605: /* Set start of match. */
606: { MUA, 0, "(?:\\Ka)*aaaab", "aaaaaaaa aaaaaaabb" },
607: { MUA, 0, "(?>\\Ka\\Ka)*aaaab", "aaaaaaaa aaaaaaaaaabb" },
608: { MUA, 0, "a+\\K(?<=\\Gaa)a", "aaaaaa" },
1.1.1.2 misho 609: { MUA | PCRE_NOTEMPTY, 0 | F_NOMATCH, "a\\K(*ACCEPT)b", "aa" },
1.1 misho 610: { MUA | PCRE_NOTEMPTY_ATSTART, 0, "a\\K(*ACCEPT)b", "aa" },
611:
612: /* First line. */
1.1.1.2 misho 613: { MUA | PCRE_FIRSTLINE, 0 | F_PROPERTY, "\\p{Any}a", "bb\naaa" },
614: { MUA | PCRE_FIRSTLINE, 0 | F_NOMATCH | F_PROPERTY, "\\p{Any}a", "bb\r\naaa" },
1.1 misho 615: { MUA | PCRE_FIRSTLINE, 0, "(?<=a)", "a" },
1.1.1.2 misho 616: { MUA | PCRE_FIRSTLINE, 0 | F_NOMATCH, "[^a][^b]", "ab" },
617: { MUA | PCRE_FIRSTLINE, 0 | F_NOMATCH, "a", "\na" },
618: { MUA | PCRE_FIRSTLINE, 0 | F_NOMATCH, "[abc]", "\na" },
619: { MUA | PCRE_FIRSTLINE, 0 | F_NOMATCH, "^a", "\na" },
620: { MUA | PCRE_FIRSTLINE, 0 | F_NOMATCH, "^(?<=\n)", "\na" },
1.1.1.4 misho 621: { MUA | PCRE_FIRSTLINE, 0, "\xf0\x90\x90\x80", "\xf0\x90\x90\x80" },
1.1.1.2 misho 622: { PCRE_MULTILINE | PCRE_UTF8 | PCRE_NEWLINE_ANY | PCRE_FIRSTLINE, 0 | F_NOMATCH, "#", "\xc2\x85#" },
623: { PCRE_MULTILINE | PCRE_NEWLINE_ANY | PCRE_FIRSTLINE, 0 | F_NOMATCH, "#", "\x85#" },
624: { PCRE_MULTILINE | PCRE_UTF8 | PCRE_NEWLINE_ANY | PCRE_FIRSTLINE, 0 | F_NOMATCH, "^#", "\xe2\x80\xa8#" },
625: { PCRE_MULTILINE | PCRE_UTF8 | PCRE_NEWLINE_CRLF | PCRE_FIRSTLINE, 0 | F_PROPERTY, "\\p{Any}", "\r\na" },
1.1 misho 626: { PCRE_MULTILINE | PCRE_UTF8 | PCRE_NEWLINE_CRLF | PCRE_FIRSTLINE, 0, ".", "\r" },
627: { PCRE_MULTILINE | PCRE_UTF8 | PCRE_NEWLINE_CRLF | PCRE_FIRSTLINE, 0, "a", "\ra" },
1.1.1.2 misho 628: { PCRE_MULTILINE | PCRE_UTF8 | PCRE_NEWLINE_CRLF | PCRE_FIRSTLINE, 0 | F_NOMATCH, "ba", "bbb\r\nba" },
629: { PCRE_MULTILINE | PCRE_UTF8 | PCRE_NEWLINE_CRLF | PCRE_FIRSTLINE, 0 | F_NOMATCH | F_PROPERTY, "\\p{Any}{4}|a", "\r\na" },
1.1 misho 630: { PCRE_MULTILINE | PCRE_UTF8 | PCRE_NEWLINE_CRLF | PCRE_FIRSTLINE, 1, ".", "\r\n" },
1.1.1.4 misho 631: { PCRE_FIRSTLINE | PCRE_NEWLINE_LF | PCRE_DOTALL, 0 | F_NOMATCH, "ab.", "ab" },
1.1 misho 632:
633: /* Recurse. */
634: { MUA, 0, "(a)(?1)", "aa" },
635: { MUA, 0, "((a))(?1)", "aa" },
636: { MUA, 0, "(b|a)(?1)", "aa" },
637: { MUA, 0, "(b|(a))(?1)", "aa" },
1.1.1.2 misho 638: { MUA, 0 | F_NOMATCH, "((a)(b)(?:a*))(?1)", "aba" },
1.1 misho 639: { MUA, 0, "((a)(b)(?:a*))(?1)", "abab" },
640: { MUA, 0, "((a+)c(?2))b(?1)", "aacaabaca" },
641: { MUA, 0, "((?2)b|(a)){2}(?1)", "aabab" },
642: { MUA, 0, "(?1)(a)*+(?2)(b(?1))", "aababa" },
643: { MUA, 0, "(?1)(((a(*ACCEPT)))b)", "axaa" },
644: { MUA, 0, "(?1)(?(DEFINE) (((ac(*ACCEPT)))b) )", "akaac" },
645: { MUA, 0, "(a+)b(?1)b\\1", "abaaabaaaaa" },
1.1.1.2 misho 646: { MUA, 0 | F_NOMATCH, "(?(DEFINE)(aa|a))(?1)ab", "aab" },
1.1 misho 647: { MUA, 0, "(?(DEFINE)(a\\Kb))(?1)+ababc", "abababxabababc" },
648: { MUA, 0, "(a\\Kb)(?1)+ababc", "abababxababababc" },
1.1.1.2 misho 649: { MUA, 0 | F_NOMATCH, "(a\\Kb)(?1)+ababc", "abababxababababxc" },
1.1 misho 650: { MUA, 0, "b|<(?R)*>", "<<b>" },
651: { MUA, 0, "(a\\K){0}(?:(?1)b|ac)", "ac" },
652: { MUA, 0, "(?(DEFINE)(a(?2)|b)(b(?1)|(a)))(?:(?1)|(?2))m", "ababababnababababaam" },
653: { MUA, 0, "(a)((?(R)a|b))(?2)", "aabbabaa" },
654: { MUA, 0, "(a)((?(R2)a|b))(?2)", "aabbabaa" },
655: { MUA, 0, "(a)((?(R1)a|b))(?2)", "ababba" },
656: { MUA, 0, "(?(R0)aa|bb(?R))", "abba aabb bbaa" },
657: { MUA, 0, "((?(R)(?:aaaa|a)|(?:(aaaa)|(a)))+)(?1)$", "aaaaaaaaaa aaaa" },
658: { MUA, 0, "(?P<Name>a(?(R&Name)a|b))(?1)", "aab abb abaa" },
1.1.1.4 misho 659: { MUA, 0, "((?(R)a|(?1)){3})", "XaaaaaaaaaX" },
660: { MUA, 0, "((?:(?(R)a|(?1))){3})", "XaaaaaaaaaX" },
661: { MUA, 0, "((?(R)a|(?1)){1,3})aaaaaa", "aaaaaaaaXaaaaaaaaa" },
662: { MUA, 0, "((?(R)a|(?1)){1,3}?)M", "aaaM" },
1.1 misho 663:
1.1.1.2 misho 664: /* 16 bit specific tests. */
665: { CMA, 0 | F_FORCECONV, "\xc3\xa1", "\xc3\x81\xc3\xa1" },
666: { CMA, 0 | F_FORCECONV, "\xe1\xbd\xb8", "\xe1\xbf\xb8\xe1\xbd\xb8" },
667: { CMA, 0 | F_FORCECONV, "[\xc3\xa1]", "\xc3\x81\xc3\xa1" },
668: { CMA, 0 | F_FORCECONV, "[\xe1\xbd\xb8]", "\xe1\xbf\xb8\xe1\xbd\xb8" },
669: { CMA, 0 | F_FORCECONV, "[a-\xed\xb0\x80]", "A" },
670: { CMA, 0 | F_NO8 | F_FORCECONV, "[a-\\x{dc00}]", "B" },
671: { CMA, 0 | F_NO8 | F_NOMATCH | F_FORCECONV, "[b-\\x{dc00}]", "a" },
672: { CMA, 0 | F_NO8 | F_FORCECONV, "\xed\xa0\x80\\x{d800}\xed\xb0\x80\\x{dc00}", "\xed\xa0\x80\xed\xa0\x80\xed\xb0\x80\xed\xb0\x80" },
673: { CMA, 0 | F_NO8 | F_FORCECONV, "[\xed\xa0\x80\\x{d800}]{1,2}?[\xed\xb0\x80\\x{dc00}]{1,2}?#", "\xed\xa0\x80\xed\xa0\x80\xed\xb0\x80\xed\xb0\x80#" },
674: { CMA, 0 | F_FORCECONV, "[\xed\xa0\x80\xed\xb0\x80#]{0,3}(?<=\xed\xb0\x80.)", "\xed\xa0\x80#\xed\xa0\x80##\xed\xb0\x80\xed\xa0\x80" },
675: { CMA, 0 | F_FORCECONV, "[\xed\xa0\x80-\xed\xb3\xbf]", "\xed\x9f\xbf\xed\xa0\x83" },
676: { CMA, 0 | F_FORCECONV, "[\xed\xa0\x80-\xed\xb3\xbf]", "\xed\xb4\x80\xed\xb3\xb0" },
677: { CMA, 0 | F_NO8 | F_FORCECONV, "[\\x{d800}-\\x{dcff}]", "\xed\x9f\xbf\xed\xa0\x83" },
678: { CMA, 0 | F_NO8 | F_FORCECONV, "[\\x{d800}-\\x{dcff}]", "\xed\xb4\x80\xed\xb3\xb0" },
679: { CMA, 0 | F_FORCECONV, "[\xed\xa0\x80-\xef\xbf\xbf]+[\x1-\xed\xb0\x80]+#", "\xed\xa0\x85\xc3\x81\xed\xa0\x85\xef\xbf\xb0\xc2\x85\xed\xa9\x89#" },
680: { CMA, 0 | F_FORCECONV, "[\xed\xa0\x80][\xed\xb0\x80]{2,}", "\xed\xa0\x80\xed\xb0\x80\xed\xa0\x80\xed\xb0\x80\xed\xb0\x80\xed\xb0\x80" },
681: { MA, 0 | F_FORCECONV, "[^\xed\xb0\x80]{3,}?", "##\xed\xb0\x80#\xed\xb0\x80#\xc3\x89#\xed\xb0\x80" },
682: { MA, 0 | F_NO8 | F_FORCECONV, "[^\\x{dc00}]{3,}?", "##\xed\xb0\x80#\xed\xb0\x80#\xc3\x89#\xed\xb0\x80" },
683: { CMA, 0 | F_FORCECONV, ".\\B.", "\xed\xa0\x80\xed\xb0\x80" },
684: { CMA, 0 | F_FORCECONV, "\\D+(?:\\d+|.)\\S+(?:\\s+|.)\\W+(?:\\w+|.)\xed\xa0\x80\xed\xa0\x80", "\xed\xa0\x80\xed\xa0\x80\xed\xa0\x80\xed\xa0\x80\xed\xa0\x80\xed\xa0\x80\xed\xa0\x80\xed\xa0\x80" },
685: { CMA, 0 | F_FORCECONV, "\\d*\\s*\\w*\xed\xa0\x80\xed\xa0\x80", "\xed\xa0\x80\xed\xa0\x80" },
686: { CMA, 0 | F_FORCECONV | F_NOMATCH, "\\d*?\\D*?\\s*?\\S*?\\w*?\\W*?##", "\xed\xa0\x80\xed\xa0\x80\xed\xa0\x80\xed\xa0\x80#" },
687: { CMA | PCRE_EXTENDED, 0 | F_FORCECONV, "\xed\xa0\x80 \xed\xb0\x80 !", "\xed\xa0\x80\xed\xb0\x80!" },
688: { CMA, 0 | F_FORCECONV, "\xed\xa0\x80+#[^#]+\xed\xa0\x80", "\xed\xa0\x80#a\xed\xa0\x80" },
689: { CMA, 0 | F_FORCECONV, "(\xed\xa0\x80+)#\\1", "\xed\xa0\x80\xed\xa0\x80#\xed\xa0\x80\xed\xa0\x80" },
690: { PCRE_MULTILINE | PCRE_NEWLINE_ANY, 0 | F_NO8 | F_FORCECONV, "^-", "a--\xe2\x80\xa8--" },
691: { PCRE_BSR_UNICODE, 0 | F_NO8 | F_FORCECONV, "\\R", "ab\xe2\x80\xa8" },
692: { 0, 0 | F_NO8 | F_FORCECONV, "\\v", "ab\xe2\x80\xa9" },
693: { 0, 0 | F_NO8 | F_FORCECONV, "\\h", "ab\xe1\xa0\x8e" },
694: { 0, 0 | F_NO8 | F_FORCECONV, "\\v+?\\V+?#", "\xe2\x80\xa9\xe2\x80\xa9\xef\xbf\xbf\xef\xbf\xbf#" },
695: { 0, 0 | F_NO8 | F_FORCECONV, "\\h+?\\H+?#", "\xe1\xa0\x8e\xe1\xa0\x8e\xef\xbf\xbf\xef\xbf\xbf#" },
696:
1.1.1.3 misho 697: /* Partial matching. */
698: { MUA | PCRE_PARTIAL_SOFT, 0, "ab", "a" },
699: { MUA | PCRE_PARTIAL_SOFT, 0, "ab|a", "a" },
700: { MUA | PCRE_PARTIAL_HARD, 0, "ab|a", "a" },
701: { MUA | PCRE_PARTIAL_SOFT, 0, "\\b#", "a" },
702: { MUA | PCRE_PARTIAL_SOFT, 0, "(?<=a)b", "a" },
703: { MUA | PCRE_PARTIAL_SOFT, 0, "abc|(?<=xxa)bc", "xxab" },
704: { MUA | PCRE_PARTIAL_SOFT, 0, "a\\B", "a" },
705: { MUA | PCRE_PARTIAL_HARD, 0, "a\\b", "a" },
706:
707: /* (*MARK) verb. */
708: { MUA, 0, "a(*MARK:aa)a", "ababaa" },
709: { MUA, 0 | F_NOMATCH, "a(*:aa)a", "abab" },
710: { MUA, 0, "a(*:aa)(b(*:bb)b|bc)", "abc" },
711: { MUA, 0 | F_NOMATCH, "a(*:1)x|b(*:2)y", "abc" },
712: { MUA, 0, "(?>a(*:aa))b|ac", "ac" },
713: { MUA, 0, "(?(DEFINE)(a(*:aa)))(?1)", "a" },
714: { MUA, 0 | F_NOMATCH, "(?(DEFINE)((a)(*:aa)))(?1)b", "aa" },
715: { MUA, 0, "(?(DEFINE)(a(*:aa)))a(?1)b|aac", "aac" },
716: { MUA, 0, "(a(*:aa)){0}(?:b(?1)b|c)+c", "babbab cc" },
717: { MUA, 0, "(a(*:aa)){0}(?:b(?1)b)+", "babba" },
1.1.1.4 misho 718: { MUA, 0 | F_NOMATCH | F_STUDY, "(a(*:aa)){0}(?:b(?1)b)+", "ba" },
1.1.1.3 misho 719: { MUA, 0, "(a\\K(*:aa)){0}(?:b(?1)b|c)+c", "babbab cc" },
720: { MUA, 0, "(a\\K(*:aa)){0}(?:b(?1)b)+", "babba" },
1.1.1.4 misho 721: { MUA, 0 | F_NOMATCH | F_STUDY, "(a\\K(*:aa)){0}(?:b(?1)b)+", "ba" },
722: { MUA, 0 | F_NOMATCH | F_STUDY, "(*:mark)m", "a" },
1.1.1.3 misho 723:
724: /* (*COMMIT) verb. */
725: { MUA, 0 | F_NOMATCH, "a(*COMMIT)b", "ac" },
726: { MUA, 0, "aa(*COMMIT)b", "xaxaab" },
727: { MUA, 0 | F_NOMATCH, "a(*COMMIT)(*:msg)b|ac", "ac" },
1.1.1.4 misho 728: { MUA, 0 | F_NOMATCH, "(a(*COMMIT)b)++", "abac" },
729: { MUA, 0 | F_NOMATCH, "((a)(*COMMIT)b)++", "abac" },
730: { MUA, 0 | F_NOMATCH, "(?=a(*COMMIT)b)ab|ad", "ad" },
731:
732: /* (*PRUNE) verb. */
733: { MUA, 0, "aa\\K(*PRUNE)b", "aaab" },
734: { MUA, 0, "aa(*PRUNE:bb)b|a", "aa" },
735: { MUA, 0, "(a)(a)(*PRUNE)b|(a)", "aa" },
736: { MUA, 0, "(a)(a)(a)(a)(a)(a)(a)(a)(*PRUNE)b|(a)", "aaaaaaaa" },
737: { MUA | PCRE_PARTIAL_SOFT, 0, "a(*PRUNE)a|", "a" },
738: { MUA | PCRE_PARTIAL_SOFT, 0, "a(*PRUNE)a|m", "a" },
739: { MUA, 0 | F_NOMATCH, "(?=a(*PRUNE)b)ab|ad", "ad" },
740: { MUA, 0, "a(*COMMIT)(*PRUNE)d|bc", "abc" },
741: { MUA, 0, "(?=a(*COMMIT)b)a(*PRUNE)c|bc", "abc" },
742: { MUA, 0 | F_NOMATCH, "(*COMMIT)(?=a(*COMMIT)b)a(*PRUNE)c|bc", "abc" },
743: { MUA, 0, "(?=(a)(*COMMIT)b)a(*PRUNE)c|bc", "abc" },
744: { MUA, 0 | F_NOMATCH, "(*COMMIT)(?=(a)(*COMMIT)b)a(*PRUNE)c|bc", "abc" },
745: { MUA, 0, "(a(*COMMIT)b){0}a(?1)(*PRUNE)c|bc", "abc" },
746: { MUA, 0 | F_NOMATCH, "(a(*COMMIT)b){0}a(*COMMIT)(?1)(*PRUNE)c|bc", "abc" },
747: { MUA, 0, "(a(*COMMIT)b)++(*PRUNE)d|c", "ababc" },
748: { MUA, 0 | F_NOMATCH, "(*COMMIT)(a(*COMMIT)b)++(*PRUNE)d|c", "ababc" },
749: { MUA, 0, "((a)(*COMMIT)b)++(*PRUNE)d|c", "ababc" },
750: { MUA, 0 | F_NOMATCH, "(*COMMIT)((a)(*COMMIT)b)++(*PRUNE)d|c", "ababc" },
751: { MUA, 0, "(?>a(*COMMIT)b)*abab(*PRUNE)d|ba", "ababab" },
752: { MUA, 0 | F_NOMATCH, "(*COMMIT)(?>a(*COMMIT)b)*abab(*PRUNE)d|ba", "ababab" },
753: { MUA, 0, "(?>a(*COMMIT)b)+abab(*PRUNE)d|ba", "ababab" },
754: { MUA, 0 | F_NOMATCH, "(*COMMIT)(?>a(*COMMIT)b)+abab(*PRUNE)d|ba", "ababab" },
755: { MUA, 0, "(?>a(*COMMIT)b)?ab(*PRUNE)d|ba", "aba" },
756: { MUA, 0 | F_NOMATCH, "(*COMMIT)(?>a(*COMMIT)b)?ab(*PRUNE)d|ba", "aba" },
757: { MUA, 0, "(?>a(*COMMIT)b)*?n(*PRUNE)d|ba", "abababn" },
758: { MUA, 0 | F_NOMATCH, "(*COMMIT)(?>a(*COMMIT)b)*?n(*PRUNE)d|ba", "abababn" },
759: { MUA, 0, "(?>a(*COMMIT)b)+?n(*PRUNE)d|ba", "abababn" },
760: { MUA, 0 | F_NOMATCH, "(*COMMIT)(?>a(*COMMIT)b)+?n(*PRUNE)d|ba", "abababn" },
761: { MUA, 0, "(?>a(*COMMIT)b)??n(*PRUNE)d|bn", "abn" },
762: { MUA, 0 | F_NOMATCH, "(*COMMIT)(?>a(*COMMIT)b)??n(*PRUNE)d|bn", "abn" },
763:
764: /* (*SKIP) verb. */
765: { MUA, 0 | F_NOMATCH, "(?=a(*SKIP)b)ab|ad", "ad" },
766:
767: /* (*THEN) verb. */
768: { MUA, 0, "((?:a(*THEN)|aab)(*THEN)c|a+)+m", "aabcaabcaabcaabcnacm" },
769: { MUA, 0 | F_NOMATCH, "((?:a(*THEN)|aab)(*THEN)c|a+)+m", "aabcm" },
770: { MUA, 0, "((?:a(*THEN)|aab)c|a+)+m", "aabcaabcnmaabcaabcm" },
771: { MUA, 0, "((?:a|aab)(*THEN)c|a+)+m", "aam" },
772: { MUA, 0, "((?:a(*COMMIT)|aab)(*THEN)c|a+)+m", "aam" },
773: { MUA, 0, "(?(?=a(*THEN)b)ab|ad)", "ad" },
774: { MUA, 0, "(?(?!a(*THEN)b)ad|add)", "add" },
775: { MUA, 0 | F_NOMATCH, "(?(?=a)a(*THEN)b|ad)", "ad" },
776: { MUA, 0, "(?!(?(?=a)ab|b(*THEN)d))bn|bnn", "bnn" },
1.1.1.3 misho 777:
1.1 misho 778: /* Deep recursion. */
779: { MUA, 0, "((((?:(?:(?:\\w)+)?)*|(?>\\w)+?)+|(?>\\w)?\?)*)?\\s", "aaaaa+ " },
780: { MUA, 0, "(?:((?:(?:(?:\\w*?)+)??|(?>\\w)?|\\w*+)*)+)+?\\s", "aa+ " },
1.1.1.3 misho 781: { MUA, 0, "((a?)+)+b", "aaaaaaaaaaaa b" },
1.1 misho 782:
783: /* Deep recursion: Stack limit reached. */
1.1.1.2 misho 784: { MA, 0 | F_NOMATCH, "a?a?a?a?a?a?a?a?a?a?a?a?a?a?a?a?a?a?a?a?a?a?a?aaaaaaaaaaaaaaaaaaaaaaa", "aaaaaaaaaaaaaaaaaaaaaaa" },
785: { MA, 0 | F_NOMATCH, "(?:a+)+b", "aaaaaaaaaaaaaaaaaaaaaaaa b" },
786: { MA, 0 | F_NOMATCH, "(?:a+?)+?b", "aaaaaaaaaaaaaaaaaaaaaaaa b" },
787: { MA, 0 | F_NOMATCH, "(?:a*)*b", "aaaaaaaaaaaaaaaaaaaaaaaa b" },
788: { MA, 0 | F_NOMATCH, "(?:a*?)*?b", "aaaaaaaaaaaaaaaaaaaaaaaa b" },
1.1 misho 789:
790: { 0, 0, NULL, NULL }
791: };
792:
1.1.1.2 misho 793: static const unsigned char *tables(int mode)
794: {
795: /* The purpose of this function to allow valgrind
796: for reporting invalid reads and writes. */
797: static unsigned char *tables_copy;
798: const char *errorptr;
799: int erroroffset;
1.1.1.3 misho 800: unsigned char *default_tables;
1.1.1.4 misho 801: #if defined SUPPORT_PCRE8
1.1.1.2 misho 802: pcre *regex;
803: char null_str[1] = { 0 };
1.1.1.4 misho 804: #elif defined SUPPORT_PCRE16
1.1.1.2 misho 805: pcre16 *regex;
806: PCRE_UCHAR16 null_str[1] = { 0 };
1.1.1.4 misho 807: #elif defined SUPPORT_PCRE32
808: pcre32 *regex;
809: PCRE_UCHAR32 null_str[1] = { 0 };
1.1.1.2 misho 810: #endif
811:
812: if (mode) {
813: if (tables_copy)
814: free(tables_copy);
815: tables_copy = NULL;
816: return NULL;
817: }
818:
819: if (tables_copy)
820: return tables_copy;
821:
822: default_tables = NULL;
1.1.1.4 misho 823: #if defined SUPPORT_PCRE8
1.1.1.2 misho 824: regex = pcre_compile(null_str, 0, &errorptr, &erroroffset, NULL);
825: if (regex) {
826: pcre_fullinfo(regex, NULL, PCRE_INFO_DEFAULT_TABLES, &default_tables);
827: pcre_free(regex);
828: }
1.1.1.4 misho 829: #elif defined SUPPORT_PCRE16
1.1.1.2 misho 830: regex = pcre16_compile(null_str, 0, &errorptr, &erroroffset, NULL);
831: if (regex) {
832: pcre16_fullinfo(regex, NULL, PCRE_INFO_DEFAULT_TABLES, &default_tables);
833: pcre16_free(regex);
834: }
1.1.1.4 misho 835: #elif defined SUPPORT_PCRE32
836: regex = pcre32_compile(null_str, 0, &errorptr, &erroroffset, NULL);
837: if (regex) {
838: pcre32_fullinfo(regex, NULL, PCRE_INFO_DEFAULT_TABLES, &default_tables);
839: pcre32_free(regex);
840: }
1.1.1.2 misho 841: #endif
842: /* Shouldn't ever happen. */
843: if (!default_tables)
844: return NULL;
845:
846: /* Unfortunately this value cannot get from pcre_fullinfo.
847: Since this is a test program, this is acceptable at the moment. */
848: tables_copy = (unsigned char *)malloc(1088);
849: if (!tables_copy)
850: return NULL;
851:
852: memcpy(tables_copy, default_tables, 1088);
853: return tables_copy;
854: }
855:
856: #ifdef SUPPORT_PCRE8
857: static pcre_jit_stack* callback8(void *arg)
858: {
859: return (pcre_jit_stack *)arg;
860: }
861: #endif
862:
863: #ifdef SUPPORT_PCRE16
864: static pcre16_jit_stack* callback16(void *arg)
865: {
866: return (pcre16_jit_stack *)arg;
867: }
868: #endif
869:
1.1.1.4 misho 870: #ifdef SUPPORT_PCRE32
871: static pcre32_jit_stack* callback32(void *arg)
872: {
873: return (pcre32_jit_stack *)arg;
874: }
875: #endif
876:
1.1.1.2 misho 877: #ifdef SUPPORT_PCRE8
1.1.1.4 misho 878: static pcre_jit_stack *stack8;
879:
880: static pcre_jit_stack *getstack8(void)
1.1.1.2 misho 881: {
1.1.1.4 misho 882: if (!stack8)
883: stack8 = pcre_jit_stack_alloc(1, 1024 * 1024);
884: return stack8;
885: }
1.1.1.2 misho 886:
1.1.1.4 misho 887: static void setstack8(pcre_extra *extra)
888: {
1.1.1.2 misho 889: if (!extra) {
1.1.1.4 misho 890: if (stack8)
891: pcre_jit_stack_free(stack8);
892: stack8 = NULL;
1.1.1.2 misho 893: return;
894: }
895:
1.1.1.4 misho 896: pcre_assign_jit_stack(extra, callback8, getstack8());
1.1.1.2 misho 897: }
898: #endif /* SUPPORT_PCRE8 */
899:
900: #ifdef SUPPORT_PCRE16
1.1.1.4 misho 901: static pcre16_jit_stack *stack16;
902:
903: static pcre16_jit_stack *getstack16(void)
904: {
905: if (!stack16)
906: stack16 = pcre16_jit_stack_alloc(1, 1024 * 1024);
907: return stack16;
908: }
909:
1.1.1.2 misho 910: static void setstack16(pcre16_extra *extra)
911: {
1.1.1.4 misho 912: if (!extra) {
913: if (stack16)
914: pcre16_jit_stack_free(stack16);
915: stack16 = NULL;
916: return;
917: }
918:
919: pcre16_assign_jit_stack(extra, callback16, getstack16());
920: }
921: #endif /* SUPPORT_PCRE8 */
1.1.1.2 misho 922:
1.1.1.4 misho 923: #ifdef SUPPORT_PCRE32
924: static pcre32_jit_stack *stack32;
925:
926: static pcre32_jit_stack *getstack32(void)
927: {
928: if (!stack32)
929: stack32 = pcre32_jit_stack_alloc(1, 1024 * 1024);
930: return stack32;
931: }
932:
933: static void setstack32(pcre32_extra *extra)
934: {
1.1.1.2 misho 935: if (!extra) {
1.1.1.4 misho 936: if (stack32)
937: pcre32_jit_stack_free(stack32);
938: stack32 = NULL;
1.1.1.2 misho 939: return;
940: }
941:
1.1.1.4 misho 942: pcre32_assign_jit_stack(extra, callback32, getstack32());
1.1.1.2 misho 943: }
944: #endif /* SUPPORT_PCRE8 */
945:
946: #ifdef SUPPORT_PCRE16
947:
948: static int convert_utf8_to_utf16(const char *input, PCRE_UCHAR16 *output, int *offsetmap, int max_length)
949: {
950: unsigned char *iptr = (unsigned char*)input;
1.1.1.4 misho 951: PCRE_UCHAR16 *optr = output;
1.1.1.2 misho 952: unsigned int c;
953:
954: if (max_length == 0)
955: return 0;
956:
957: while (*iptr && max_length > 1) {
958: c = 0;
959: if (offsetmap)
960: *offsetmap++ = (int)(iptr - (unsigned char*)input);
961:
962: if (!(*iptr & 0x80))
963: c = *iptr++;
964: else if (!(*iptr & 0x20)) {
965: c = ((iptr[0] & 0x1f) << 6) | (iptr[1] & 0x3f);
966: iptr += 2;
967: } else if (!(*iptr & 0x10)) {
968: c = ((iptr[0] & 0x0f) << 12) | ((iptr[1] & 0x3f) << 6) | (iptr[2] & 0x3f);
969: iptr += 3;
970: } else if (!(*iptr & 0x08)) {
971: c = ((iptr[0] & 0x07) << 18) | ((iptr[1] & 0x3f) << 12) | ((iptr[2] & 0x3f) << 6) | (iptr[3] & 0x3f);
972: iptr += 4;
973: }
974:
975: if (c < 65536) {
976: *optr++ = c;
977: max_length--;
978: } else if (max_length <= 2) {
979: *optr = '\0';
1.1.1.4 misho 980: return (int)(optr - output);
1.1.1.2 misho 981: } else {
982: c -= 0x10000;
983: *optr++ = 0xd800 | ((c >> 10) & 0x3ff);
984: *optr++ = 0xdc00 | (c & 0x3ff);
985: max_length -= 2;
986: if (offsetmap)
987: offsetmap++;
988: }
989: }
990: if (offsetmap)
991: *offsetmap = (int)(iptr - (unsigned char*)input);
992: *optr = '\0';
1.1.1.4 misho 993: return (int)(optr - output);
1.1.1.2 misho 994: }
995:
996: static int copy_char8_to_char16(const char *input, PCRE_UCHAR16 *output, int max_length)
997: {
998: unsigned char *iptr = (unsigned char*)input;
1.1.1.4 misho 999: PCRE_UCHAR16 *optr = output;
1.1.1.2 misho 1000:
1001: if (max_length == 0)
1002: return 0;
1003:
1004: while (*iptr && max_length > 1) {
1005: *optr++ = *iptr++;
1006: max_length--;
1007: }
1008: *optr = '\0';
1.1.1.4 misho 1009: return (int)(optr - output);
1.1.1.2 misho 1010: }
1011:
1.1.1.4 misho 1012: #define REGTEST_MAX_LENGTH16 4096
1013: static PCRE_UCHAR16 regtest_buf16[REGTEST_MAX_LENGTH16];
1014: static int regtest_offsetmap16[REGTEST_MAX_LENGTH16];
1.1.1.2 misho 1015:
1016: #endif /* SUPPORT_PCRE16 */
1017:
1.1.1.4 misho 1018: #ifdef SUPPORT_PCRE32
1019:
1020: static int convert_utf8_to_utf32(const char *input, PCRE_UCHAR32 *output, int *offsetmap, int max_length)
1021: {
1022: unsigned char *iptr = (unsigned char*)input;
1023: PCRE_UCHAR32 *optr = output;
1024: unsigned int c;
1025:
1026: if (max_length == 0)
1027: return 0;
1028:
1029: while (*iptr && max_length > 1) {
1030: c = 0;
1031: if (offsetmap)
1032: *offsetmap++ = (int)(iptr - (unsigned char*)input);
1033:
1034: if (!(*iptr & 0x80))
1035: c = *iptr++;
1036: else if (!(*iptr & 0x20)) {
1037: c = ((iptr[0] & 0x1f) << 6) | (iptr[1] & 0x3f);
1038: iptr += 2;
1039: } else if (!(*iptr & 0x10)) {
1040: c = ((iptr[0] & 0x0f) << 12) | ((iptr[1] & 0x3f) << 6) | (iptr[2] & 0x3f);
1041: iptr += 3;
1042: } else if (!(*iptr & 0x08)) {
1043: c = ((iptr[0] & 0x07) << 18) | ((iptr[1] & 0x3f) << 12) | ((iptr[2] & 0x3f) << 6) | (iptr[3] & 0x3f);
1044: iptr += 4;
1045: }
1046:
1047: *optr++ = c;
1048: max_length--;
1049: }
1050: if (offsetmap)
1051: *offsetmap = (int)(iptr - (unsigned char*)input);
1052: *optr = 0;
1053: return (int)(optr - output);
1054: }
1055:
1056: static int copy_char8_to_char32(const char *input, PCRE_UCHAR32 *output, int max_length)
1057: {
1058: unsigned char *iptr = (unsigned char*)input;
1059: PCRE_UCHAR32 *optr = output;
1060:
1061: if (max_length == 0)
1062: return 0;
1063:
1064: while (*iptr && max_length > 1) {
1065: *optr++ = *iptr++;
1066: max_length--;
1067: }
1068: *optr = '\0';
1069: return (int)(optr - output);
1070: }
1071:
1072: #define REGTEST_MAX_LENGTH32 4096
1073: static PCRE_UCHAR32 regtest_buf32[REGTEST_MAX_LENGTH32];
1074: static int regtest_offsetmap32[REGTEST_MAX_LENGTH32];
1075:
1076: #endif /* SUPPORT_PCRE32 */
1077:
1.1.1.2 misho 1078: static int check_ascii(const char *input)
1079: {
1080: const unsigned char *ptr = (unsigned char *)input;
1081: while (*ptr) {
1082: if (*ptr > 127)
1083: return 0;
1084: ptr++;
1085: }
1086: return 1;
1087: }
1088:
1.1 misho 1089: static int regression_tests(void)
1090: {
1091: struct regression_test_case *current = regression_test_cases;
1092: const char *error;
1.1.1.3 misho 1093: char *cpu_info;
1.1 misho 1094: int i, err_offs;
1.1.1.2 misho 1095: int is_successful, is_ascii_pattern, is_ascii_input;
1096: int total = 0;
1097: int successful = 0;
1.1.1.3 misho 1098: int successful_row = 0;
1.1 misho 1099: int counter = 0;
1.1.1.3 misho 1100: int study_mode;
1.1.1.4 misho 1101: int utf = 0, ucp = 0;
1102: int disabled_flags = 0;
1.1.1.2 misho 1103: #ifdef SUPPORT_PCRE8
1104: pcre *re8;
1105: pcre_extra *extra8;
1.1.1.3 misho 1106: pcre_extra dummy_extra8;
1.1.1.2 misho 1107: int ovector8_1[32];
1108: int ovector8_2[32];
1.1.1.4 misho 1109: int return_value8[2];
1.1.1.3 misho 1110: unsigned char *mark8_1, *mark8_2;
1.1.1.2 misho 1111: #endif
1112: #ifdef SUPPORT_PCRE16
1113: pcre16 *re16;
1114: pcre16_extra *extra16;
1.1.1.3 misho 1115: pcre16_extra dummy_extra16;
1.1.1.2 misho 1116: int ovector16_1[32];
1117: int ovector16_2[32];
1.1.1.4 misho 1118: int return_value16[2];
1.1.1.3 misho 1119: PCRE_UCHAR16 *mark16_1, *mark16_2;
1.1.1.2 misho 1120: int length16;
1121: #endif
1.1.1.4 misho 1122: #ifdef SUPPORT_PCRE32
1123: pcre32 *re32;
1124: pcre32_extra *extra32;
1125: pcre32_extra dummy_extra32;
1126: int ovector32_1[32];
1127: int ovector32_2[32];
1128: int return_value32[2];
1129: PCRE_UCHAR32 *mark32_1, *mark32_2;
1130: int length32;
1131: #endif
1.1 misho 1132:
1133: /* This test compares the behaviour of interpreter and JIT. Although disabling
1.1.1.2 misho 1134: utf or ucp may make tests fail, if the pcre_exec result is the SAME, it is
1.1 misho 1135: still considered successful from pcre_jit_test point of view. */
1136:
1.1.1.4 misho 1137: #if defined SUPPORT_PCRE8
1.1.1.2 misho 1138: pcre_config(PCRE_CONFIG_JITTARGET, &cpu_info);
1.1.1.4 misho 1139: #elif defined SUPPORT_PCRE16
1.1.1.2 misho 1140: pcre16_config(PCRE_CONFIG_JITTARGET, &cpu_info);
1.1.1.4 misho 1141: #elif defined SUPPORT_PCRE32
1142: pcre32_config(PCRE_CONFIG_JITTARGET, &cpu_info);
1.1.1.2 misho 1143: #endif
1144:
1145: printf("Running JIT regression tests\n");
1146: printf(" target CPU of SLJIT compiler: %s\n", cpu_info);
1147:
1.1.1.4 misho 1148: #if defined SUPPORT_PCRE8
1149: pcre_config(PCRE_CONFIG_UTF8, &utf);
1150: pcre_config(PCRE_CONFIG_UNICODE_PROPERTIES, &ucp);
1151: #elif defined SUPPORT_PCRE16
1152: pcre16_config(PCRE_CONFIG_UTF16, &utf);
1153: pcre16_config(PCRE_CONFIG_UNICODE_PROPERTIES, &ucp);
1154: #elif defined SUPPORT_PCRE16
1155: pcre32_config(PCRE_CONFIG_UTF32, &utf);
1156: pcre32_config(PCRE_CONFIG_UNICODE_PROPERTIES, &ucp);
1157: #endif
1158:
1159: if (!utf)
1160: disabled_flags |= PCRE_UTF8 | PCRE_UTF16 | PCRE_UTF32;
1161: if (!ucp)
1162: disabled_flags |= PCRE_UCP;
1.1.1.2 misho 1163: #ifdef SUPPORT_PCRE8
1.1.1.4 misho 1164: printf(" in 8 bit mode with UTF-8 %s and ucp %s:\n", utf ? "enabled" : "disabled", ucp ? "enabled" : "disabled");
1.1.1.2 misho 1165: #endif
1166: #ifdef SUPPORT_PCRE16
1.1.1.4 misho 1167: printf(" in 16 bit mode with UTF-16 %s and ucp %s:\n", utf ? "enabled" : "disabled", ucp ? "enabled" : "disabled");
1168: #endif
1169: #ifdef SUPPORT_PCRE32
1170: printf(" in 32 bit mode with UTF-32 %s and ucp %s:\n", utf ? "enabled" : "disabled", ucp ? "enabled" : "disabled");
1.1.1.2 misho 1171: #endif
1.1 misho 1172:
1173: while (current->pattern) {
1174: /* printf("\nPattern: %s :\n", current->pattern); */
1175: total++;
1.1.1.2 misho 1176: if (current->start_offset & F_PROPERTY) {
1177: is_ascii_pattern = 0;
1178: is_ascii_input = 0;
1179: } else {
1180: is_ascii_pattern = check_ascii(current->pattern);
1181: is_ascii_input = check_ascii(current->input);
1182: }
1.1 misho 1183:
1.1.1.3 misho 1184: if (current->flags & PCRE_PARTIAL_SOFT)
1185: study_mode = PCRE_STUDY_JIT_PARTIAL_SOFT_COMPILE;
1186: else if (current->flags & PCRE_PARTIAL_HARD)
1187: study_mode = PCRE_STUDY_JIT_PARTIAL_HARD_COMPILE;
1188: else
1189: study_mode = PCRE_STUDY_JIT_COMPILE;
1.1 misho 1190: error = NULL;
1.1.1.2 misho 1191: #ifdef SUPPORT_PCRE8
1192: re8 = NULL;
1193: if (!(current->start_offset & F_NO8))
1194: re8 = pcre_compile(current->pattern,
1.1.1.4 misho 1195: current->flags & ~(PCRE_NOTBOL | PCRE_NOTEOL | PCRE_NOTEMPTY | PCRE_NOTEMPTY_ATSTART | PCRE_PARTIAL_SOFT | PCRE_PARTIAL_HARD | disabled_flags),
1.1.1.2 misho 1196: &error, &err_offs, tables(0));
1197:
1198: extra8 = NULL;
1199: if (re8) {
1200: error = NULL;
1.1.1.3 misho 1201: extra8 = pcre_study(re8, study_mode, &error);
1.1.1.2 misho 1202: if (!extra8) {
1203: printf("\n8 bit: Cannot study pattern: %s\n", current->pattern);
1204: pcre_free(re8);
1205: re8 = NULL;
1.1 misho 1206: }
1.1.1.4 misho 1207: else if (!(extra8->flags & PCRE_EXTRA_EXECUTABLE_JIT)) {
1.1.1.2 misho 1208: printf("\n8 bit: JIT compiler does not support: %s\n", current->pattern);
1209: pcre_free_study(extra8);
1210: pcre_free(re8);
1211: re8 = NULL;
1212: }
1.1.1.3 misho 1213: extra8->flags |= PCRE_EXTRA_MARK;
1.1.1.4 misho 1214: } else if (((utf && ucp) || is_ascii_pattern) && !(current->start_offset & F_NO8))
1215: printf("\n8 bit: Cannot compile pattern \"%s\": %s\n", current->pattern, error);
1.1.1.2 misho 1216: #endif
1217: #ifdef SUPPORT_PCRE16
1.1.1.4 misho 1218: if ((current->flags & PCRE_UTF16) || (current->start_offset & F_FORCECONV))
1219: convert_utf8_to_utf16(current->pattern, regtest_buf16, NULL, REGTEST_MAX_LENGTH16);
1.1.1.2 misho 1220: else
1.1.1.4 misho 1221: copy_char8_to_char16(current->pattern, regtest_buf16, REGTEST_MAX_LENGTH16);
1.1.1.2 misho 1222:
1223: re16 = NULL;
1224: if (!(current->start_offset & F_NO16))
1.1.1.4 misho 1225: re16 = pcre16_compile(regtest_buf16,
1226: current->flags & ~(PCRE_NOTBOL | PCRE_NOTEOL | PCRE_NOTEMPTY | PCRE_NOTEMPTY_ATSTART | PCRE_PARTIAL_SOFT | PCRE_PARTIAL_HARD | disabled_flags),
1.1.1.2 misho 1227: &error, &err_offs, tables(0));
1228:
1229: extra16 = NULL;
1230: if (re16) {
1231: error = NULL;
1.1.1.3 misho 1232: extra16 = pcre16_study(re16, study_mode, &error);
1.1.1.2 misho 1233: if (!extra16) {
1234: printf("\n16 bit: Cannot study pattern: %s\n", current->pattern);
1235: pcre16_free(re16);
1236: re16 = NULL;
1237: }
1.1.1.4 misho 1238: else if (!(extra16->flags & PCRE_EXTRA_EXECUTABLE_JIT)) {
1.1.1.2 misho 1239: printf("\n16 bit: JIT compiler does not support: %s\n", current->pattern);
1240: pcre16_free_study(extra16);
1241: pcre16_free(re16);
1242: re16 = NULL;
1243: }
1.1.1.3 misho 1244: extra16->flags |= PCRE_EXTRA_MARK;
1.1.1.4 misho 1245: } else if (((utf && ucp) || is_ascii_pattern) && !(current->start_offset & F_NO16))
1246: printf("\n16 bit: Cannot compile pattern \"%s\": %s\n", current->pattern, error);
1247: #endif
1248: #ifdef SUPPORT_PCRE32
1249: if ((current->flags & PCRE_UTF32) || (current->start_offset & F_FORCECONV))
1250: convert_utf8_to_utf32(current->pattern, regtest_buf32, NULL, REGTEST_MAX_LENGTH32);
1251: else
1252: copy_char8_to_char32(current->pattern, regtest_buf32, REGTEST_MAX_LENGTH32);
1253:
1254: re32 = NULL;
1255: if (!(current->start_offset & F_NO32))
1256: re32 = pcre32_compile(regtest_buf32,
1257: current->flags & ~(PCRE_NOTBOL | PCRE_NOTEOL | PCRE_NOTEMPTY | PCRE_NOTEMPTY_ATSTART | PCRE_PARTIAL_SOFT | PCRE_PARTIAL_HARD | disabled_flags),
1258: &error, &err_offs, tables(0));
1259:
1260: extra32 = NULL;
1261: if (re32) {
1262: error = NULL;
1263: extra32 = pcre32_study(re32, study_mode, &error);
1264: if (!extra32) {
1265: printf("\n32 bit: Cannot study pattern: %s\n", current->pattern);
1266: pcre32_free(re32);
1267: re32 = NULL;
1268: }
1269: if (!(extra32->flags & PCRE_EXTRA_EXECUTABLE_JIT)) {
1270: printf("\n32 bit: JIT compiler does not support: %s\n", current->pattern);
1271: pcre32_free_study(extra32);
1272: pcre32_free(re32);
1273: re32 = NULL;
1274: }
1275: extra32->flags |= PCRE_EXTRA_MARK;
1276: } else if (((utf && ucp) || is_ascii_pattern) && !(current->start_offset & F_NO32))
1277: printf("\n32 bit: Cannot compile pattern \"%s\": %s\n", current->pattern, error);
1.1.1.2 misho 1278: #endif
1.1 misho 1279:
1.1.1.2 misho 1280: counter++;
1281: if ((counter & 0x3) != 0) {
1282: #ifdef SUPPORT_PCRE8
1283: setstack8(NULL);
1284: #endif
1285: #ifdef SUPPORT_PCRE16
1286: setstack16(NULL);
1287: #endif
1.1.1.4 misho 1288: #ifdef SUPPORT_PCRE32
1289: setstack32(NULL);
1290: #endif
1.1 misho 1291: }
1292:
1.1.1.2 misho 1293: #ifdef SUPPORT_PCRE8
1.1.1.4 misho 1294: return_value8[0] = -1000;
1295: return_value8[1] = -1000;
1.1.1.2 misho 1296: for (i = 0; i < 32; ++i)
1297: ovector8_1[i] = -2;
1298: for (i = 0; i < 32; ++i)
1299: ovector8_2[i] = -2;
1300: if (re8) {
1.1.1.3 misho 1301: mark8_1 = NULL;
1302: mark8_2 = NULL;
1303: extra8->mark = &mark8_1;
1.1.1.4 misho 1304:
1305: if ((counter & 0x1) != 0) {
1306: setstack8(extra8);
1307: return_value8[0] = pcre_exec(re8, extra8, current->input, strlen(current->input), current->start_offset & OFFSET_MASK,
1308: current->flags & (PCRE_NOTBOL | PCRE_NOTEOL | PCRE_NOTEMPTY | PCRE_NOTEMPTY_ATSTART | PCRE_PARTIAL_SOFT | PCRE_PARTIAL_HARD), ovector8_1, 32);
1309: } else
1310: return_value8[0] = pcre_jit_exec(re8, extra8, current->input, strlen(current->input), current->start_offset & OFFSET_MASK,
1311: current->flags & (PCRE_NOTBOL | PCRE_NOTEOL | PCRE_NOTEMPTY | PCRE_NOTEMPTY_ATSTART | PCRE_PARTIAL_SOFT | PCRE_PARTIAL_HARD), ovector8_1, 32, getstack8());
1.1.1.3 misho 1312: memset(&dummy_extra8, 0, sizeof(pcre_extra));
1313: dummy_extra8.flags = PCRE_EXTRA_MARK;
1.1.1.4 misho 1314: if (current->start_offset & F_STUDY) {
1315: dummy_extra8.flags |= PCRE_EXTRA_STUDY_DATA;
1316: dummy_extra8.study_data = extra8->study_data;
1317: }
1.1.1.3 misho 1318: dummy_extra8.mark = &mark8_2;
1.1.1.4 misho 1319: return_value8[1] = pcre_exec(re8, &dummy_extra8, current->input, strlen(current->input), current->start_offset & OFFSET_MASK,
1.1.1.3 misho 1320: current->flags & (PCRE_NOTBOL | PCRE_NOTEOL | PCRE_NOTEMPTY | PCRE_NOTEMPTY_ATSTART | PCRE_PARTIAL_SOFT | PCRE_PARTIAL_HARD), ovector8_2, 32);
1.1 misho 1321: }
1.1.1.2 misho 1322: #endif
1.1 misho 1323:
1.1.1.2 misho 1324: #ifdef SUPPORT_PCRE16
1.1.1.4 misho 1325: return_value16[0] = -1000;
1326: return_value16[1] = -1000;
1.1 misho 1327: for (i = 0; i < 32; ++i)
1.1.1.2 misho 1328: ovector16_1[i] = -2;
1.1 misho 1329: for (i = 0; i < 32; ++i)
1.1.1.2 misho 1330: ovector16_2[i] = -2;
1331: if (re16) {
1.1.1.3 misho 1332: mark16_1 = NULL;
1333: mark16_2 = NULL;
1.1.1.4 misho 1334: if ((current->flags & PCRE_UTF16) || (current->start_offset & F_FORCECONV))
1335: length16 = convert_utf8_to_utf16(current->input, regtest_buf16, regtest_offsetmap16, REGTEST_MAX_LENGTH16);
1.1.1.2 misho 1336: else
1.1.1.4 misho 1337: length16 = copy_char8_to_char16(current->input, regtest_buf16, REGTEST_MAX_LENGTH16);
1.1.1.3 misho 1338: extra16->mark = &mark16_1;
1.1.1.4 misho 1339: if ((counter & 0x1) != 0) {
1340: setstack16(extra16);
1341: return_value16[0] = pcre16_exec(re16, extra16, regtest_buf16, length16, current->start_offset & OFFSET_MASK,
1342: current->flags & (PCRE_NOTBOL | PCRE_NOTEOL | PCRE_NOTEMPTY | PCRE_NOTEMPTY_ATSTART | PCRE_PARTIAL_SOFT | PCRE_PARTIAL_HARD), ovector16_1, 32);
1343: } else
1344: return_value16[0] = pcre16_jit_exec(re16, extra16, regtest_buf16, length16, current->start_offset & OFFSET_MASK,
1345: current->flags & (PCRE_NOTBOL | PCRE_NOTEOL | PCRE_NOTEMPTY | PCRE_NOTEMPTY_ATSTART | PCRE_PARTIAL_SOFT | PCRE_PARTIAL_HARD), ovector16_1, 32, getstack16());
1.1.1.3 misho 1346: memset(&dummy_extra16, 0, sizeof(pcre16_extra));
1347: dummy_extra16.flags = PCRE_EXTRA_MARK;
1.1.1.4 misho 1348: if (current->start_offset & F_STUDY) {
1349: dummy_extra16.flags |= PCRE_EXTRA_STUDY_DATA;
1350: dummy_extra16.study_data = extra16->study_data;
1351: }
1.1.1.3 misho 1352: dummy_extra16.mark = &mark16_2;
1.1.1.4 misho 1353: return_value16[1] = pcre16_exec(re16, &dummy_extra16, regtest_buf16, length16, current->start_offset & OFFSET_MASK,
1.1.1.3 misho 1354: current->flags & (PCRE_NOTBOL | PCRE_NOTEOL | PCRE_NOTEMPTY | PCRE_NOTEMPTY_ATSTART | PCRE_PARTIAL_SOFT | PCRE_PARTIAL_HARD), ovector16_2, 32);
1.1.1.2 misho 1355: }
1356: #endif
1.1 misho 1357:
1.1.1.4 misho 1358: #ifdef SUPPORT_PCRE32
1359: return_value32[0] = -1000;
1360: return_value32[1] = -1000;
1361: for (i = 0; i < 32; ++i)
1362: ovector32_1[i] = -2;
1363: for (i = 0; i < 32; ++i)
1364: ovector32_2[i] = -2;
1365: if (re32) {
1366: mark32_1 = NULL;
1367: mark32_2 = NULL;
1368: if ((current->flags & PCRE_UTF32) || (current->start_offset & F_FORCECONV))
1369: length32 = convert_utf8_to_utf32(current->input, regtest_buf32, regtest_offsetmap32, REGTEST_MAX_LENGTH32);
1370: else
1371: length32 = copy_char8_to_char32(current->input, regtest_buf32, REGTEST_MAX_LENGTH32);
1372: extra32->mark = &mark32_1;
1373: if ((counter & 0x1) != 0) {
1374: setstack32(extra32);
1375: return_value32[0] = pcre32_exec(re32, extra32, regtest_buf32, length32, current->start_offset & OFFSET_MASK,
1376: current->flags & (PCRE_NOTBOL | PCRE_NOTEOL | PCRE_NOTEMPTY | PCRE_NOTEMPTY_ATSTART | PCRE_PARTIAL_SOFT | PCRE_PARTIAL_HARD), ovector32_1, 32);
1377: } else
1378: return_value32[0] = pcre32_jit_exec(re32, extra32, regtest_buf32, length32, current->start_offset & OFFSET_MASK,
1379: current->flags & (PCRE_NOTBOL | PCRE_NOTEOL | PCRE_NOTEMPTY | PCRE_NOTEMPTY_ATSTART | PCRE_PARTIAL_SOFT | PCRE_PARTIAL_HARD), ovector32_1, 32, getstack32());
1380: memset(&dummy_extra32, 0, sizeof(pcre32_extra));
1381: dummy_extra32.flags = PCRE_EXTRA_MARK;
1382: if (current->start_offset & F_STUDY) {
1383: dummy_extra32.flags |= PCRE_EXTRA_STUDY_DATA;
1384: dummy_extra32.study_data = extra32->study_data;
1385: }
1386: dummy_extra32.mark = &mark32_2;
1387: return_value32[1] = pcre32_exec(re32, &dummy_extra32, regtest_buf32, length32, current->start_offset & OFFSET_MASK,
1388: current->flags & (PCRE_NOTBOL | PCRE_NOTEOL | PCRE_NOTEMPTY | PCRE_NOTEMPTY_ATSTART | PCRE_PARTIAL_SOFT | PCRE_PARTIAL_HARD), ovector32_2, 32);
1389: }
1390: #endif
1391:
1392: /* printf("[%d-%d-%d|%d-%d|%d-%d|%d-%d]%s",
1.1.1.5 ! misho 1393: return_value8[0], return_value16[0], return_value32[0],
1.1.1.4 misho 1394: ovector8_1[0], ovector8_1[1],
1395: ovector16_1[0], ovector16_1[1],
1396: ovector32_1[0], ovector32_1[1],
1397: (current->flags & PCRE_CASELESS) ? "C" : ""); */
1.1.1.3 misho 1398:
1.1.1.2 misho 1399: /* If F_DIFF is set, just run the test, but do not compare the results.
1.1 misho 1400: Segfaults can still be captured. */
1401:
1.1.1.2 misho 1402: is_successful = 1;
1403: if (!(current->start_offset & F_DIFF)) {
1.1.1.4 misho 1404: #if defined SUPPORT_UTF && ((defined(SUPPORT_PCRE8) + defined(SUPPORT_PCRE16) + defined(SUPPORT_PCRE32)) >= 2)
1405: if (!(current->start_offset & F_FORCECONV)) {
1406: int return_value;
1407:
1.1.1.2 misho 1408: /* All results must be the same. */
1.1.1.4 misho 1409: #ifdef SUPPORT_PCRE8
1410: if ((return_value = return_value8[0]) != return_value8[1]) {
1411: printf("\n8 bit: Return value differs(J8:%d,I8:%d): [%d] '%s' @ '%s'\n",
1412: return_value8[0], return_value8[1], total, current->pattern, current->input);
1413: is_successful = 0;
1414: } else
1415: #endif
1416: #ifdef SUPPORT_PCRE16
1417: if ((return_value = return_value16[0]) != return_value16[1]) {
1418: printf("\n16 bit: Return value differs(J16:%d,I16:%d): [%d] '%s' @ '%s'\n",
1419: return_value16[0], return_value16[1], total, current->pattern, current->input);
1420: is_successful = 0;
1421: } else
1422: #endif
1423: #ifdef SUPPORT_PCRE32
1424: if ((return_value = return_value32[0]) != return_value32[1]) {
1425: printf("\n32 bit: Return value differs(J32:%d,I32:%d): [%d] '%s' @ '%s'\n",
1426: return_value32[0], return_value32[1], total, current->pattern, current->input);
1427: is_successful = 0;
1428: } else
1429: #endif
1430: #if defined SUPPORT_PCRE8 && defined SUPPORT_PCRE16
1431: if (return_value8[0] != return_value16[0]) {
1432: printf("\n8 and 16 bit: Return value differs(J8:%d,J16:%d): [%d] '%s' @ '%s'\n",
1433: return_value8[0], return_value16[0],
1.1.1.2 misho 1434: total, current->pattern, current->input);
1435: is_successful = 0;
1.1.1.4 misho 1436: } else
1437: #endif
1438: #if defined SUPPORT_PCRE8 && defined SUPPORT_PCRE32
1439: if (return_value8[0] != return_value32[0]) {
1440: printf("\n8 and 32 bit: Return value differs(J8:%d,J32:%d): [%d] '%s' @ '%s'\n",
1441: return_value8[0], return_value32[0],
1442: total, current->pattern, current->input);
1443: is_successful = 0;
1444: } else
1445: #endif
1446: #if defined SUPPORT_PCRE16 && defined SUPPORT_PCRE32
1447: if (return_value16[0] != return_value32[0]) {
1448: printf("\n16 and 32 bit: Return value differs(J16:%d,J32:%d): [%d] '%s' @ '%s'\n",
1449: return_value16[0], return_value32[0],
1450: total, current->pattern, current->input);
1451: is_successful = 0;
1452: } else
1453: #endif
1454: if (return_value >= 0 || return_value == PCRE_ERROR_PARTIAL) {
1455: if (return_value == PCRE_ERROR_PARTIAL) {
1456: return_value = 2;
1.1.1.3 misho 1457: } else {
1.1.1.4 misho 1458: return_value *= 2;
1.1.1.3 misho 1459: }
1.1.1.4 misho 1460: #ifdef SUPPORT_PCRE8
1461: return_value8[0] = return_value;
1462: #endif
1463: #ifdef SUPPORT_PCRE16
1464: return_value16[0] = return_value;
1465: #endif
1466: #ifdef SUPPORT_PCRE32
1467: return_value32[0] = return_value;
1468: #endif
1.1.1.2 misho 1469: /* Transform back the results. */
1470: if (current->flags & PCRE_UTF8) {
1.1.1.4 misho 1471: #ifdef SUPPORT_PCRE16
1472: for (i = 0; i < return_value; ++i) {
1.1.1.2 misho 1473: if (ovector16_1[i] >= 0)
1.1.1.4 misho 1474: ovector16_1[i] = regtest_offsetmap16[ovector16_1[i]];
1.1.1.2 misho 1475: if (ovector16_2[i] >= 0)
1.1.1.4 misho 1476: ovector16_2[i] = regtest_offsetmap16[ovector16_2[i]];
1.1.1.2 misho 1477: }
1.1.1.4 misho 1478: #endif
1479: #ifdef SUPPORT_PCRE32
1480: for (i = 0; i < return_value; ++i) {
1481: if (ovector32_1[i] >= 0)
1482: ovector32_1[i] = regtest_offsetmap32[ovector32_1[i]];
1483: if (ovector32_2[i] >= 0)
1484: ovector32_2[i] = regtest_offsetmap32[ovector32_2[i]];
1485: }
1486: #endif
1.1 misho 1487: }
1.1.1.2 misho 1488:
1.1.1.4 misho 1489: for (i = 0; i < return_value; ++i) {
1490: #if defined SUPPORT_PCRE8 && defined SUPPORT_PCRE16
1.1.1.2 misho 1491: if (ovector8_1[i] != ovector8_2[i] || ovector8_1[i] != ovector16_1[i] || ovector8_1[i] != ovector16_2[i]) {
1.1.1.4 misho 1492: printf("\n8 and 16 bit: Ovector[%d] value differs(J8:%d,I8:%d,J16:%d,I16:%d): [%d] '%s' @ '%s' \n",
1.1.1.2 misho 1493: i, ovector8_1[i], ovector8_2[i], ovector16_1[i], ovector16_2[i],
1494: total, current->pattern, current->input);
1495: is_successful = 0;
1496: }
1.1.1.4 misho 1497: #endif
1498: #if defined SUPPORT_PCRE8 && defined SUPPORT_PCRE32
1499: if (ovector8_1[i] != ovector8_2[i] || ovector8_1[i] != ovector32_1[i] || ovector8_1[i] != ovector32_2[i]) {
1500: printf("\n8 and 32 bit: Ovector[%d] value differs(J8:%d,I8:%d,J32:%d,I32:%d): [%d] '%s' @ '%s' \n",
1501: i, ovector8_1[i], ovector8_2[i], ovector32_1[i], ovector32_2[i],
1502: total, current->pattern, current->input);
1503: is_successful = 0;
1504: }
1505: #endif
1506: #if defined SUPPORT_PCRE16 && defined SUPPORT_PCRE16
1507: if (ovector16_1[i] != ovector16_2[i] || ovector16_1[i] != ovector16_1[i] || ovector16_1[i] != ovector16_2[i]) {
1508: printf("\n16 and 16 bit: Ovector[%d] value differs(J16:%d,I16:%d,J32:%d,I32:%d): [%d] '%s' @ '%s' \n",
1509: i, ovector16_1[i], ovector16_2[i], ovector16_1[i], ovector16_2[i],
1510: total, current->pattern, current->input);
1511: is_successful = 0;
1512: }
1513: #endif
1514: }
1.1.1.2 misho 1515: }
1.1.1.4 misho 1516: } else
1517: #endif /* more than one of SUPPORT_PCRE8, SUPPORT_PCRE16 and SUPPORT_PCRE32 */
1518: {
1.1.1.2 misho 1519: /* Only the 8 bit and 16 bit results must be equal. */
1520: #ifdef SUPPORT_PCRE8
1.1.1.4 misho 1521: if (return_value8[0] != return_value8[1]) {
1.1.1.2 misho 1522: printf("\n8 bit: Return value differs(%d:%d): [%d] '%s' @ '%s'\n",
1.1.1.4 misho 1523: return_value8[0], return_value8[1], total, current->pattern, current->input);
1.1.1.2 misho 1524: is_successful = 0;
1.1.1.4 misho 1525: } else if (return_value8[0] >= 0 || return_value8[0] == PCRE_ERROR_PARTIAL) {
1526: if (return_value8[0] == PCRE_ERROR_PARTIAL)
1527: return_value8[0] = 2;
1.1.1.3 misho 1528: else
1.1.1.4 misho 1529: return_value8[0] *= 2;
1.1.1.3 misho 1530:
1.1.1.4 misho 1531: for (i = 0; i < return_value8[0]; ++i)
1.1.1.2 misho 1532: if (ovector8_1[i] != ovector8_2[i]) {
1533: printf("\n8 bit: Ovector[%d] value differs(%d:%d): [%d] '%s' @ '%s'\n",
1534: i, ovector8_1[i], ovector8_2[i], total, current->pattern, current->input);
1535: is_successful = 0;
1536: }
1537: }
1538: #endif
1539:
1540: #ifdef SUPPORT_PCRE16
1.1.1.4 misho 1541: if (return_value16[0] != return_value16[1]) {
1.1.1.2 misho 1542: printf("\n16 bit: Return value differs(%d:%d): [%d] '%s' @ '%s'\n",
1.1.1.4 misho 1543: return_value16[0], return_value16[1], total, current->pattern, current->input);
1.1.1.2 misho 1544: is_successful = 0;
1.1.1.4 misho 1545: } else if (return_value16[0] >= 0 || return_value16[0] == PCRE_ERROR_PARTIAL) {
1546: if (return_value16[0] == PCRE_ERROR_PARTIAL)
1547: return_value16[0] = 2;
1.1.1.3 misho 1548: else
1.1.1.4 misho 1549: return_value16[0] *= 2;
1.1.1.3 misho 1550:
1.1.1.4 misho 1551: for (i = 0; i < return_value16[0]; ++i)
1.1.1.2 misho 1552: if (ovector16_1[i] != ovector16_2[i]) {
1553: printf("\n16 bit: Ovector[%d] value differs(%d:%d): [%d] '%s' @ '%s'\n",
1554: i, ovector16_1[i], ovector16_2[i], total, current->pattern, current->input);
1555: is_successful = 0;
1556: }
1.1 misho 1557: }
1.1.1.2 misho 1558: #endif
1559:
1.1.1.4 misho 1560: #ifdef SUPPORT_PCRE32
1561: if (return_value32[0] != return_value32[1]) {
1562: printf("\n32 bit: Return value differs(%d:%d): [%d] '%s' @ '%s'\n",
1563: return_value32[0], return_value32[1], total, current->pattern, current->input);
1564: is_successful = 0;
1565: } else if (return_value32[0] >= 0 || return_value32[0] == PCRE_ERROR_PARTIAL) {
1566: if (return_value32[0] == PCRE_ERROR_PARTIAL)
1567: return_value32[0] = 2;
1568: else
1569: return_value32[0] *= 2;
1570:
1571: for (i = 0; i < return_value32[0]; ++i)
1572: if (ovector32_1[i] != ovector32_2[i]) {
1573: printf("\n32 bit: Ovector[%d] value differs(%d:%d): [%d] '%s' @ '%s'\n",
1574: i, ovector32_1[i], ovector32_2[i], total, current->pattern, current->input);
1575: is_successful = 0;
1576: }
1577: }
1578: #endif
1.1 misho 1579: }
1580: }
1581:
1.1.1.2 misho 1582: if (is_successful) {
1583: #ifdef SUPPORT_PCRE8
1.1.1.4 misho 1584: if (!(current->start_offset & F_NO8) && ((utf && ucp) || is_ascii_input)) {
1585: if (return_value8[0] < 0 && !(current->start_offset & F_NOMATCH)) {
1.1.1.2 misho 1586: printf("8 bit: Test should match: [%d] '%s' @ '%s'\n",
1587: total, current->pattern, current->input);
1588: is_successful = 0;
1589: }
1.1 misho 1590:
1.1.1.4 misho 1591: if (return_value8[0] >= 0 && (current->start_offset & F_NOMATCH)) {
1.1.1.2 misho 1592: printf("8 bit: Test should not match: [%d] '%s' @ '%s'\n",
1593: total, current->pattern, current->input);
1594: is_successful = 0;
1595: }
1596: }
1597: #endif
1598: #ifdef SUPPORT_PCRE16
1.1.1.4 misho 1599: if (!(current->start_offset & F_NO16) && ((utf && ucp) || is_ascii_input)) {
1600: if (return_value16[0] < 0 && !(current->start_offset & F_NOMATCH)) {
1.1.1.2 misho 1601: printf("16 bit: Test should match: [%d] '%s' @ '%s'\n",
1602: total, current->pattern, current->input);
1603: is_successful = 0;
1604: }
1605:
1.1.1.4 misho 1606: if (return_value16[0] >= 0 && (current->start_offset & F_NOMATCH)) {
1.1.1.2 misho 1607: printf("16 bit: Test should not match: [%d] '%s' @ '%s'\n",
1608: total, current->pattern, current->input);
1609: is_successful = 0;
1610: }
1611: }
1612: #endif
1.1.1.4 misho 1613: #ifdef SUPPORT_PCRE32
1614: if (!(current->start_offset & F_NO32) && ((utf && ucp) || is_ascii_input)) {
1615: if (return_value32[0] < 0 && !(current->start_offset & F_NOMATCH)) {
1616: printf("32 bit: Test should match: [%d] '%s' @ '%s'\n",
1617: total, current->pattern, current->input);
1618: is_successful = 0;
1619: }
1620:
1621: if (return_value32[0] >= 0 && (current->start_offset & F_NOMATCH)) {
1622: printf("32 bit: Test should not match: [%d] '%s' @ '%s'\n",
1623: total, current->pattern, current->input);
1624: is_successful = 0;
1625: }
1626: }
1627: #endif
1.1.1.2 misho 1628: }
1629:
1.1.1.3 misho 1630: if (is_successful) {
1631: #ifdef SUPPORT_PCRE8
1632: if (mark8_1 != mark8_2) {
1633: printf("8 bit: Mark value mismatch: [%d] '%s' @ '%s'\n",
1634: total, current->pattern, current->input);
1635: is_successful = 0;
1636: }
1637: #endif
1638: #ifdef SUPPORT_PCRE16
1639: if (mark16_1 != mark16_2) {
1640: printf("16 bit: Mark value mismatch: [%d] '%s' @ '%s'\n",
1641: total, current->pattern, current->input);
1642: is_successful = 0;
1643: }
1644: #endif
1.1.1.4 misho 1645: #ifdef SUPPORT_PCRE32
1646: if (mark32_1 != mark32_2) {
1647: printf("32 bit: Mark value mismatch: [%d] '%s' @ '%s'\n",
1648: total, current->pattern, current->input);
1649: is_successful = 0;
1650: }
1651: #endif
1.1.1.3 misho 1652: }
1.1.1.2 misho 1653:
1654: #ifdef SUPPORT_PCRE8
1655: if (re8) {
1656: pcre_free_study(extra8);
1657: pcre_free(re8);
1658: }
1659: #endif
1660: #ifdef SUPPORT_PCRE16
1661: if (re16) {
1662: pcre16_free_study(extra16);
1663: pcre16_free(re16);
1664: }
1665: #endif
1.1.1.4 misho 1666: #ifdef SUPPORT_PCRE32
1667: if (re32) {
1668: pcre32_free_study(extra32);
1669: pcre32_free(re32);
1670: }
1671: #endif
1.1.1.2 misho 1672:
1.1.1.3 misho 1673: if (is_successful) {
1674: successful++;
1675: successful_row++;
1676: printf(".");
1677: if (successful_row >= 60) {
1678: successful_row = 0;
1679: printf("\n");
1680: }
1681: } else
1682: successful_row = 0;
1683:
1.1 misho 1684: fflush(stdout);
1685: current++;
1686: }
1.1.1.2 misho 1687: tables(1);
1688: #ifdef SUPPORT_PCRE8
1689: setstack8(NULL);
1690: #endif
1691: #ifdef SUPPORT_PCRE16
1692: setstack16(NULL);
1693: #endif
1.1.1.4 misho 1694: #ifdef SUPPORT_PCRE32
1695: setstack32(NULL);
1696: #endif
1.1 misho 1697:
1.1.1.2 misho 1698: if (total == successful) {
1.1 misho 1699: printf("\nAll JIT regression tests are successfully passed.\n");
1700: return 0;
1701: } else {
1.1.1.2 misho 1702: printf("\nSuccessful test ratio: %d%% (%d failed)\n", successful * 100 / total, total - successful);
1.1 misho 1703: return 1;
1704: }
1705: }
1706:
1707: /* End of pcre_jit_test.c */
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