/[pcre]/code/trunk/pcre_exec.c
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revision 455 by ph10, Sat Sep 26 19:12:32 2009 UTC revision 882 by ph10, Sun Jan 15 18:45:27 2012 UTC
# Line 6  Line 6 
6  and semantics are as close as possible to those of the Perl 5 language.  and semantics are as close as possible to those of the Perl 5 language.
7    
8                         Written by Philip Hazel                         Written by Philip Hazel
9             Copyright (c) 1997-2009 University of Cambridge             Copyright (c) 1997-2012 University of Cambridge
10    
11  -----------------------------------------------------------------------------  -----------------------------------------------------------------------------
12  Redistribution and use in source and binary forms, with or without  Redistribution and use in source and binary forms, with or without
# Line 57  possible. There are also some static sup Line 57  possible. There are also some static sup
57  #undef min  #undef min
58  #undef max  #undef max
59    
60  /* Flag bits for the match() function */  /* Values for setting in md->match_function_type to indicate two special types
61    of call to match(). We do it this way to save on using another stack variable,
62    as stack usage is to be discouraged. */
63    
64  #define match_condassert     0x01  /* Called to check a condition assertion */  #define MATCH_CONDASSERT     1  /* Called to check a condition assertion */
65  #define match_cbegroup       0x02  /* Could-be-empty unlimited repeat group */  #define MATCH_CBEGROUP       2  /* Could-be-empty unlimited repeat group */
66    
67  /* Non-error returns from the match() function. Error returns are externally  /* Non-error returns from the match() function. Error returns are externally
68  defined PCRE_ERROR_xxx codes, which are all negative. */  defined PCRE_ERROR_xxx codes, which are all negative. */
# Line 71  defined PCRE_ERROR_xxx codes, which are Line 73  defined PCRE_ERROR_xxx codes, which are
73  /* Special internal returns from the match() function. Make them sufficiently  /* Special internal returns from the match() function. Make them sufficiently
74  negative to avoid the external error codes. */  negative to avoid the external error codes. */
75    
76  #define MATCH_COMMIT       (-999)  #define MATCH_ACCEPT       (-999)
77  #define MATCH_PRUNE        (-998)  #define MATCH_COMMIT       (-998)
78  #define MATCH_SKIP         (-997)  #define MATCH_KETRPOS      (-997)
79  #define MATCH_THEN         (-996)  #define MATCH_ONCE         (-996)
80    #define MATCH_PRUNE        (-995)
81    #define MATCH_SKIP         (-994)
82    #define MATCH_SKIP_ARG     (-993)
83    #define MATCH_THEN         (-992)
84    
85  /* Maximum number of ints of offset to save on the stack for recursive calls.  /* Maximum number of ints of offset to save on the stack for recursive calls.
86  If the offset vector is bigger, malloc is used. This should be a multiple of 3,  If the offset vector is bigger, malloc is used. This should be a multiple of 3,
# Line 89  static const char rep_max[] = { 0, 0, 0, Line 95  static const char rep_max[] = { 0, 0, 0,
95    
96    
97    
98  #ifdef DEBUG  #ifdef PCRE_DEBUG
99  /*************************************************  /*************************************************
100  *        Debugging function to print chars       *  *        Debugging function to print chars       *
101  *************************************************/  *************************************************/
# Line 107  Returns:     nothing Line 113  Returns:     nothing
113  */  */
114    
115  static void  static void
116  pchars(const uschar *p, int length, BOOL is_subject, match_data *md)  pchars(const pcre_uchar *p, int length, BOOL is_subject, match_data *md)
117  {  {
118  unsigned int c;  unsigned int c;
119  if (is_subject && length > md->end_subject - p) length = md->end_subject - p;  if (is_subject && length > md->end_subject - p) length = md->end_subject - p;
# Line 122  while (length-- > 0) Line 128  while (length-- > 0)
128  *          Match a back-reference                *  *          Match a back-reference                *
129  *************************************************/  *************************************************/
130    
131  /* If a back reference hasn't been set, the length that is passed is greater  /* Normally, if a back reference hasn't been set, the length that is passed is
132  than the number of characters left in the string, so the match fails.  negative, so the match always fails. However, in JavaScript compatibility mode,
133    the length passed is zero. Note that in caseless UTF-8 mode, the number of
134    subject bytes matched may be different to the number of reference bytes.
135    
136  Arguments:  Arguments:
137    offset      index into the offset vector    offset      index into the offset vector
138    eptr        points into the subject    eptr        pointer into the subject
139    length      length to be matched    length      length of reference to be matched (number of bytes)
140    md          points to match data block    md          points to match data block
141    ims         the ims flags    caseless    TRUE if caseless
142    
143  Returns:      TRUE if matched  Returns:      < 0 if not matched, otherwise the number of subject bytes matched
144  */  */
145    
146  static BOOL  static int
147  match_ref(int offset, register USPTR eptr, int length, match_data *md,  match_ref(int offset, register PCRE_PUCHAR eptr, int length, match_data *md,
148    unsigned long int ims)    BOOL caseless)
149  {  {
150  USPTR p = md->start_subject + md->offset_vector[offset];  PCRE_PUCHAR eptr_start = eptr;
151    register PCRE_PUCHAR p = md->start_subject + md->offset_vector[offset];
152    
153  #ifdef DEBUG  #ifdef PCRE_DEBUG
154  if (eptr >= md->end_subject)  if (eptr >= md->end_subject)
155    printf("matching subject <null>");    printf("matching subject <null>");
156  else  else
# Line 154  pchars(p, length, FALSE, md); Line 163  pchars(p, length, FALSE, md);
163  printf("\n");  printf("\n");
164  #endif  #endif
165    
166  /* Always fail if not enough characters left */  /* Always fail if reference not set (and not JavaScript compatible). */
167    
168  if (length > md->end_subject - eptr) return FALSE;  if (length < 0) return -1;
169    
170  /* Separate the caseless case for speed. In UTF-8 mode we can only do this  /* Separate the caseless case for speed. In UTF-8 mode we can only do this
171  properly if Unicode properties are supported. Otherwise, we can check only  properly if Unicode properties are supported. Otherwise, we can check only
172  ASCII characters. */  ASCII characters. */
173    
174  if ((ims & PCRE_CASELESS) != 0)  if (caseless)
175    {    {
176  #ifdef SUPPORT_UTF8  #ifdef SUPPORT_UTF
177  #ifdef SUPPORT_UCP  #ifdef SUPPORT_UCP
178    if (md->utf8)    if (md->utf)
179      {      {
180      USPTR endptr = eptr + length;      /* Match characters up to the end of the reference. NOTE: the number of
181      while (eptr < endptr)      bytes matched may differ, because there are some characters whose upper and
182        lower case versions code as different numbers of bytes. For example, U+023A
183        (2 bytes in UTF-8) is the upper case version of U+2C65 (3 bytes in UTF-8);
184        a sequence of 3 of the former uses 6 bytes, as does a sequence of two of
185        the latter. It is important, therefore, to check the length along the
186        reference, not along the subject (earlier code did this wrong). */
187    
188        PCRE_PUCHAR endptr = p + length;
189        while (p < endptr)
190        {        {
191        int c, d;        int c, d;
192          if (eptr >= md->end_subject) return -1;
193        GETCHARINC(c, eptr);        GETCHARINC(c, eptr);
194        GETCHARINC(d, p);        GETCHARINC(d, p);
195        if (c != d && c != UCD_OTHERCASE(d)) return FALSE;        if (c != d && c != UCD_OTHERCASE(d)) return -1;
196        }        }
197      }      }
198    else    else
# Line 183  if ((ims & PCRE_CASELESS) != 0) Line 201  if ((ims & PCRE_CASELESS) != 0)
201    
202    /* The same code works when not in UTF-8 mode and in UTF-8 mode when there    /* The same code works when not in UTF-8 mode and in UTF-8 mode when there
203    is no UCP support. */    is no UCP support. */
204        {
205    while (length-- > 0)      if (eptr + length > md->end_subject) return -1;
206      { if (md->lcc[*p++] != md->lcc[*eptr++]) return FALSE; }      while (length-- > 0)
207          {
208          if (TABLE_GET(*p, md->lcc, *p) != TABLE_GET(*eptr, md->lcc, *eptr)) return -1;
209          p++;
210          eptr++;
211          }
212        }
213    }    }
214    
215  /* In the caseful case, we can just compare the bytes, whether or not we  /* In the caseful case, we can just compare the bytes, whether or not we
216  are in UTF-8 mode. */  are in UTF-8 mode. */
217    
218  else  else
219    { while (length-- > 0) if (*p++ != *eptr++) return FALSE; }    {
220      if (eptr + length > md->end_subject) return -1;
221      while (length-- > 0) if (*p++ != *eptr++) return -1;
222      }
223    
224  return TRUE;  return (int)(eptr - eptr_start);
225  }  }
226    
227    
# Line 245  enum { RM1=1, RM2,  RM3,  RM4,  RM5,  RM Line 272  enum { RM1=1, RM2,  RM3,  RM4,  RM5,  RM
272         RM21,  RM22, RM23, RM24, RM25, RM26, RM27, RM28, RM29, RM30,         RM21,  RM22, RM23, RM24, RM25, RM26, RM27, RM28, RM29, RM30,
273         RM31,  RM32, RM33, RM34, RM35, RM36, RM37, RM38, RM39, RM40,         RM31,  RM32, RM33, RM34, RM35, RM36, RM37, RM38, RM39, RM40,
274         RM41,  RM42, RM43, RM44, RM45, RM46, RM47, RM48, RM49, RM50,         RM41,  RM42, RM43, RM44, RM45, RM46, RM47, RM48, RM49, RM50,
275         RM51,  RM52, RM53, RM54 };         RM51,  RM52, RM53, RM54, RM55, RM56, RM57, RM58, RM59, RM60,
276           RM61,  RM62, RM63, RM64, RM65, RM66 };
277    
278  /* These versions of the macros use the stack, as normal. There are debugging  /* These versions of the macros use the stack, as normal. There are debugging
279  versions and production versions. Note that the "rw" argument of RMATCH isn't  versions and production versions. Note that the "rw" argument of RMATCH isn't
280  actuall used in this definition. */  actually used in this definition. */
281    
282  #ifndef NO_RECURSE  #ifndef NO_RECURSE
283  #define REGISTER register  #define REGISTER register
284    
285  #ifdef DEBUG  #ifdef PCRE_DEBUG
286  #define RMATCH(ra,rb,rc,rd,re,rf,rg,rw) \  #define RMATCH(ra,rb,rc,rd,re,rw) \
287    { \    { \
288    printf("match() called in line %d\n", __LINE__); \    printf("match() called in line %d\n", __LINE__); \
289    rrc = match(ra,rb,mstart,rc,rd,re,rf,rg,rdepth+1); \    rrc = match(ra,rb,mstart,rc,rd,re,rdepth+1); \
290    printf("to line %d\n", __LINE__); \    printf("to line %d\n", __LINE__); \
291    }    }
292  #define RRETURN(ra) \  #define RRETURN(ra) \
# Line 267  actuall used in this definition. */ Line 295  actuall used in this definition. */
295    return ra; \    return ra; \
296    }    }
297  #else  #else
298  #define RMATCH(ra,rb,rc,rd,re,rf,rg,rw) \  #define RMATCH(ra,rb,rc,rd,re,rw) \
299    rrc = match(ra,rb,mstart,rc,rd,re,rf,rg,rdepth+1)    rrc = match(ra,rb,mstart,rc,rd,re,rdepth+1)
300  #define RRETURN(ra) return ra  #define RRETURN(ra) return ra
301  #endif  #endif
302    
# Line 281  argument of match(), which never changes Line 309  argument of match(), which never changes
309    
310  #define REGISTER  #define REGISTER
311    
312  #define RMATCH(ra,rb,rc,rd,re,rf,rg,rw)\  #define RMATCH(ra,rb,rc,rd,re,rw)\
313    {\    {\
314    heapframe *newframe = (pcre_stack_malloc)(sizeof(heapframe));\    heapframe *newframe = (heapframe *)(PUBL(stack_malloc))(sizeof(heapframe));\
315      if (newframe == NULL) RRETURN(PCRE_ERROR_NOMEMORY);\
316    frame->Xwhere = rw; \    frame->Xwhere = rw; \
317    newframe->Xeptr = ra;\    newframe->Xeptr = ra;\
318    newframe->Xecode = rb;\    newframe->Xecode = rb;\
319    newframe->Xmstart = mstart;\    newframe->Xmstart = mstart;\
320    newframe->Xoffset_top = rc;\    newframe->Xoffset_top = rc;\
321    newframe->Xims = re;\    newframe->Xeptrb = re;\
   newframe->Xeptrb = rf;\  
   newframe->Xflags = rg;\  
322    newframe->Xrdepth = frame->Xrdepth + 1;\    newframe->Xrdepth = frame->Xrdepth + 1;\
323    newframe->Xprevframe = frame;\    newframe->Xprevframe = frame;\
324    frame = newframe;\    frame = newframe;\
# Line 303  argument of match(), which never changes Line 330  argument of match(), which never changes
330    
331  #define RRETURN(ra)\  #define RRETURN(ra)\
332    {\    {\
333    heapframe *newframe = frame;\    heapframe *oldframe = frame;\
334    frame = newframe->Xprevframe;\    frame = oldframe->Xprevframe;\
335    (pcre_stack_free)(newframe);\    (PUBL(stack_free))(oldframe);\
336    if (frame != NULL)\    if (frame != NULL)\
337      {\      {\
338      rrc = ra;\      rrc = ra;\
# Line 322  typedef struct heapframe { Line 349  typedef struct heapframe {
349    
350    /* Function arguments that may change */    /* Function arguments that may change */
351    
352    USPTR Xeptr;    PCRE_PUCHAR Xeptr;
353    const uschar *Xecode;    const pcre_uchar *Xecode;
354    USPTR Xmstart;    PCRE_PUCHAR Xmstart;
355    int Xoffset_top;    int Xoffset_top;
   long int Xims;  
356    eptrblock *Xeptrb;    eptrblock *Xeptrb;
   int Xflags;  
357    unsigned int Xrdepth;    unsigned int Xrdepth;
358    
359    /* Function local variables */    /* Function local variables */
360    
361    USPTR Xcallpat;    PCRE_PUCHAR Xcallpat;
362  #ifdef SUPPORT_UTF8  #ifdef SUPPORT_UTF
363    USPTR Xcharptr;    PCRE_PUCHAR Xcharptr;
364  #endif  #endif
365    USPTR Xdata;    PCRE_PUCHAR Xdata;
366    USPTR Xnext;    PCRE_PUCHAR Xnext;
367    USPTR Xpp;    PCRE_PUCHAR Xpp;
368    USPTR Xprev;    PCRE_PUCHAR Xprev;
369    USPTR Xsaved_eptr;    PCRE_PUCHAR Xsaved_eptr;
370    
371    recursion_info Xnew_recursive;    recursion_info Xnew_recursive;
372    
# Line 349  typedef struct heapframe { Line 374  typedef struct heapframe {
374    BOOL Xcondition;    BOOL Xcondition;
375    BOOL Xprev_is_word;    BOOL Xprev_is_word;
376    
   unsigned long int Xoriginal_ims;  
   
377  #ifdef SUPPORT_UCP  #ifdef SUPPORT_UCP
378    int Xprop_type;    int Xprop_type;
379    int Xprop_value;    int Xprop_value;
380    int Xprop_fail_result;    int Xprop_fail_result;
   int Xprop_category;  
   int Xprop_chartype;  
   int Xprop_script;  
381    int Xoclength;    int Xoclength;
382    uschar Xocchars[8];    pcre_uchar Xocchars[6];
383  #endif  #endif
384    
385    int Xcodelink;    int Xcodelink;
# Line 401  returns a negative (error) response, the Line 421  returns a negative (error) response, the
421  same response. */  same response. */
422    
423  /* These macros pack up tests that are used for partial matching, and which  /* These macros pack up tests that are used for partial matching, and which
424  appears several times in the code. We set the "hit end" flag if the pointer is  appear several times in the code. We set the "hit end" flag if the pointer is
425  at the end of the subject and also past the start of the subject (i.e.  at the end of the subject and also past the start of the subject (i.e.
426  something has been matched). For hard partial matching, we then return  something has been matched). For hard partial matching, we then return
427  immediately. The second one is used when we already know we are past the end of  immediately. The second one is used when we already know we are past the end of
428  the subject. */  the subject. */
429    
430  #define CHECK_PARTIAL()\  #define CHECK_PARTIAL()\
431    if (md->partial != 0 && eptr >= md->end_subject && eptr > mstart)\    if (md->partial != 0 && eptr >= md->end_subject && \
432      {\        eptr > md->start_used_ptr) \
433      md->hitend = TRUE;\      { \
434      if (md->partial > 1) RRETURN(PCRE_ERROR_PARTIAL);\      md->hitend = TRUE; \
435        if (md->partial > 1) RRETURN(PCRE_ERROR_PARTIAL); \
436      }      }
437    
438  #define SCHECK_PARTIAL()\  #define SCHECK_PARTIAL()\
439    if (md->partial && eptr > mstart)\    if (md->partial != 0 && eptr > md->start_used_ptr) \
440      {\      { \
441      md->hitend = TRUE;\      md->hitend = TRUE; \
442      if (md->partial > 1) RRETURN(PCRE_ERROR_PARTIAL);\      if (md->partial > 1) RRETURN(PCRE_ERROR_PARTIAL); \
443      }      }
444    
445    
446  /* Performance note: It might be tempting to extract commonly used fields from  /* Performance note: It might be tempting to extract commonly used fields from
447  the md structure (e.g. utf8, end_subject) into individual variables to improve  the md structure (e.g. utf, end_subject) into individual variables to improve
448  performance. Tests using gcc on a SPARC disproved this; in the first case, it  performance. Tests using gcc on a SPARC disproved this; in the first case, it
449  made performance worse.  made performance worse.
450    
# Line 434  Arguments: Line 455  Arguments:
455                   by encountering \K)                   by encountering \K)
456     offset_top  current top pointer     offset_top  current top pointer
457     md          pointer to "static" info for the match     md          pointer to "static" info for the match
    ims         current /i, /m, and /s options  
458     eptrb       pointer to chain of blocks containing eptr at start of     eptrb       pointer to chain of blocks containing eptr at start of
459                   brackets - for testing for empty matches                   brackets - for testing for empty matches
    flags       can contain  
                  match_condassert - this is an assertion condition  
                  match_cbegroup - this is the start of an unlimited repeat  
                    group that can match an empty string  
460     rdepth      the recursion depth     rdepth      the recursion depth
461    
462  Returns:       MATCH_MATCH if matched            )  these values are >= 0  Returns:       MATCH_MATCH if matched            )  these values are >= 0
463                 MATCH_NOMATCH if failed to match  )                 MATCH_NOMATCH if failed to match  )
464                   a negative MATCH_xxx value for PRUNE, SKIP, etc
465                 a negative PCRE_ERROR_xxx value if aborted by an error condition                 a negative PCRE_ERROR_xxx value if aborted by an error condition
466                   (e.g. stopped by repeated call or recursion limit)                   (e.g. stopped by repeated call or recursion limit)
467  */  */
468    
469  static int  static int
470  match(REGISTER USPTR eptr, REGISTER const uschar *ecode, USPTR mstart,  match(REGISTER PCRE_PUCHAR eptr, REGISTER const pcre_uchar *ecode,
471    int offset_top, match_data *md, unsigned long int ims, eptrblock *eptrb,    PCRE_PUCHAR mstart, int offset_top, match_data *md, eptrblock *eptrb,
472    int flags, unsigned int rdepth)    unsigned int rdepth)
473  {  {
474  /* These variables do not need to be preserved over recursion in this function,  /* These variables do not need to be preserved over recursion in this function,
475  so they can be ordinary variables in all cases. Mark some of them with  so they can be ordinary variables in all cases. Mark some of them with
# Line 461  so they can be ordinary variables in all Line 478  so they can be ordinary variables in all
478  register int  rrc;         /* Returns from recursive calls */  register int  rrc;         /* Returns from recursive calls */
479  register int  i;           /* Used for loops not involving calls to RMATCH() */  register int  i;           /* Used for loops not involving calls to RMATCH() */
480  register unsigned int c;   /* Character values not kept over RMATCH() calls */  register unsigned int c;   /* Character values not kept over RMATCH() calls */
481  register BOOL utf8;        /* Local copy of UTF-8 flag for speed */  register BOOL utf;         /* Local copy of UTF flag for speed */
482    
483  BOOL minimize, possessive; /* Quantifier options */  BOOL minimize, possessive; /* Quantifier options */
484    BOOL caseless;
485  int condcode;  int condcode;
486    
487  /* When recursion is not being used, all "local" variables that have to be  /* When recursion is not being used, all "local" variables that have to be
# Line 472  heap storage. Set up the top-level frame Line 490  heap storage. Set up the top-level frame
490  heap whenever RMATCH() does a "recursion". See the macro definitions above. */  heap whenever RMATCH() does a "recursion". See the macro definitions above. */
491    
492  #ifdef NO_RECURSE  #ifdef NO_RECURSE
493  heapframe *frame = (pcre_stack_malloc)(sizeof(heapframe));  heapframe *frame = (heapframe *)(PUBL(stack_malloc))(sizeof(heapframe));
494    if (frame == NULL) RRETURN(PCRE_ERROR_NOMEMORY);
495  frame->Xprevframe = NULL;            /* Marks the top level */  frame->Xprevframe = NULL;            /* Marks the top level */
496    
497  /* Copy in the original argument variables */  /* Copy in the original argument variables */
# Line 481  frame->Xeptr = eptr; Line 500  frame->Xeptr = eptr;
500  frame->Xecode = ecode;  frame->Xecode = ecode;
501  frame->Xmstart = mstart;  frame->Xmstart = mstart;
502  frame->Xoffset_top = offset_top;  frame->Xoffset_top = offset_top;
 frame->Xims = ims;  
503  frame->Xeptrb = eptrb;  frame->Xeptrb = eptrb;
 frame->Xflags = flags;  
504  frame->Xrdepth = rdepth;  frame->Xrdepth = rdepth;
505    
506  /* This is where control jumps back to to effect "recursion" */  /* This is where control jumps back to to effect "recursion" */
# Line 496  HEAP_RECURSE: Line 513  HEAP_RECURSE:
513  #define ecode              frame->Xecode  #define ecode              frame->Xecode
514  #define mstart             frame->Xmstart  #define mstart             frame->Xmstart
515  #define offset_top         frame->Xoffset_top  #define offset_top         frame->Xoffset_top
 #define ims                frame->Xims  
516  #define eptrb              frame->Xeptrb  #define eptrb              frame->Xeptrb
 #define flags              frame->Xflags  
517  #define rdepth             frame->Xrdepth  #define rdepth             frame->Xrdepth
518    
519  /* Ditto for the local variables */  /* Ditto for the local variables */
520    
521  #ifdef SUPPORT_UTF8  #ifdef SUPPORT_UTF
522  #define charptr            frame->Xcharptr  #define charptr            frame->Xcharptr
523  #endif  #endif
524  #define callpat            frame->Xcallpat  #define callpat            frame->Xcallpat
# Line 520  HEAP_RECURSE: Line 535  HEAP_RECURSE:
535  #define condition          frame->Xcondition  #define condition          frame->Xcondition
536  #define prev_is_word       frame->Xprev_is_word  #define prev_is_word       frame->Xprev_is_word
537    
 #define original_ims       frame->Xoriginal_ims  
   
538  #ifdef SUPPORT_UCP  #ifdef SUPPORT_UCP
539  #define prop_type          frame->Xprop_type  #define prop_type          frame->Xprop_type
540  #define prop_value         frame->Xprop_value  #define prop_value         frame->Xprop_value
541  #define prop_fail_result   frame->Xprop_fail_result  #define prop_fail_result   frame->Xprop_fail_result
 #define prop_category      frame->Xprop_category  
 #define prop_chartype      frame->Xprop_chartype  
 #define prop_script        frame->Xprop_script  
542  #define oclength           frame->Xoclength  #define oclength           frame->Xoclength
543  #define occhars            frame->Xocchars  #define occhars            frame->Xocchars
544  #endif  #endif
# Line 558  i, and fc and c, can be the same variabl Line 568  i, and fc and c, can be the same variabl
568  #define fi i  #define fi i
569  #define fc c  #define fc c
570    
571    /* Many of the following variables are used only in small blocks of the code.
572    My normal style of coding would have declared them within each of those blocks.
573    However, in order to accommodate the version of this code that uses an external
574    "stack" implemented on the heap, it is easier to declare them all here, so the
575    declarations can be cut out in a block. The only declarations within blocks
576    below are for variables that do not have to be preserved over a recursive call
577    to RMATCH(). */
578    
579    #ifdef SUPPORT_UTF
580    const pcre_uchar *charptr;
581    #endif
582    const pcre_uchar *callpat;
583    const pcre_uchar *data;
584    const pcre_uchar *next;
585    PCRE_PUCHAR       pp;
586    const pcre_uchar *prev;
587    PCRE_PUCHAR       saved_eptr;
588    
589    recursion_info new_recursive;
590    
591  #ifdef SUPPORT_UTF8                /* Many of these variables are used only  */  BOOL cur_is_word;
 const uschar *charptr;             /* in small blocks of the code. My normal */  
 #endif                             /* style of coding would have declared    */  
 const uschar *callpat;             /* them within each of those blocks.      */  
 const uschar *data;                /* However, in order to accommodate the   */  
 const uschar *next;                /* version of this code that uses an      */  
 USPTR         pp;                  /* external "stack" implemented on the    */  
 const uschar *prev;                /* heap, it is easier to declare them all */  
 USPTR         saved_eptr;          /* here, so the declarations can be cut   */  
                                    /* out in a block. The only declarations  */  
 recursion_info new_recursive;      /* within blocks below are for variables  */  
                                    /* that do not have to be preserved over  */  
 BOOL cur_is_word;                  /* a recursive call to RMATCH().          */  
592  BOOL condition;  BOOL condition;
593  BOOL prev_is_word;  BOOL prev_is_word;
594    
 unsigned long int original_ims;  
   
595  #ifdef SUPPORT_UCP  #ifdef SUPPORT_UCP
596  int prop_type;  int prop_type;
597  int prop_value;  int prop_value;
598  int prop_fail_result;  int prop_fail_result;
 int prop_category;  
 int prop_chartype;  
 int prop_script;  
599  int oclength;  int oclength;
600  uschar occhars[8];  pcre_uchar occhars[6];
601  #endif  #endif
602    
603  int codelink;  int codelink;
# Line 603  int stacksave[REC_STACK_SAVE_MAX]; Line 615  int stacksave[REC_STACK_SAVE_MAX];
615  eptrblock newptrb;  eptrblock newptrb;
616  #endif     /* NO_RECURSE */  #endif     /* NO_RECURSE */
617    
618    /* To save space on the stack and in the heap frame, I have doubled up on some
619    of the local variables that are used only in localised parts of the code, but
620    still need to be preserved over recursive calls of match(). These macros define
621    the alternative names that are used. */
622    
623    #define allow_zero    cur_is_word
624    #define cbegroup      condition
625    #define code_offset   codelink
626    #define condassert    condition
627    #define matched_once  prev_is_word
628    #define foc           number
629    #define save_mark     data
630    
631  /* These statements are here to stop the compiler complaining about unitialized  /* These statements are here to stop the compiler complaining about unitialized
632  variables. */  variables. */
633    
# Line 622  TAIL_RECURSE: Line 647  TAIL_RECURSE:
647  /* OK, now we can get on with the real code of the function. Recursive calls  /* OK, now we can get on with the real code of the function. Recursive calls
648  are specified by the macro RMATCH and RRETURN is used to return. When  are specified by the macro RMATCH and RRETURN is used to return. When
649  NO_RECURSE is *not* defined, these just turn into a recursive call to match()  NO_RECURSE is *not* defined, these just turn into a recursive call to match()
650  and a "return", respectively (possibly with some debugging if DEBUG is  and a "return", respectively (possibly with some debugging if PCRE_DEBUG is
651  defined). However, RMATCH isn't like a function call because it's quite a  defined). However, RMATCH isn't like a function call because it's quite a
652  complicated macro. It has to be used in one particular way. This shouldn't,  complicated macro. It has to be used in one particular way. This shouldn't,
653  however, impact performance when true recursion is being used. */  however, impact performance when true recursion is being used. */
654    
655  #ifdef SUPPORT_UTF8  #ifdef SUPPORT_UTF
656  utf8 = md->utf8;       /* Local copy of the flag */  utf = md->utf;       /* Local copy of the flag */
657  #else  #else
658  utf8 = FALSE;  utf = FALSE;
659  #endif  #endif
660    
661  /* First check that we haven't called match() too many times, or that we  /* First check that we haven't called match() too many times, or that we
# Line 639  haven't exceeded the recursive call limi Line 664  haven't exceeded the recursive call limi
664  if (md->match_call_count++ >= md->match_limit) RRETURN(PCRE_ERROR_MATCHLIMIT);  if (md->match_call_count++ >= md->match_limit) RRETURN(PCRE_ERROR_MATCHLIMIT);
665  if (rdepth >= md->match_limit_recursion) RRETURN(PCRE_ERROR_RECURSIONLIMIT);  if (rdepth >= md->match_limit_recursion) RRETURN(PCRE_ERROR_RECURSIONLIMIT);
666    
 original_ims = ims;    /* Save for resetting on ')' */  
   
667  /* At the start of a group with an unlimited repeat that may match an empty  /* At the start of a group with an unlimited repeat that may match an empty
668  string, the match_cbegroup flag is set. When this is the case, add the current  string, the variable md->match_function_type is set to MATCH_CBEGROUP. It is
669  subject pointer to the chain of such remembered pointers, to be checked when we  done this way to save having to use another function argument, which would take
670  hit the closing ket, in order to break infinite loops that match no characters.  up space on the stack. See also MATCH_CONDASSERT below.
671  When match() is called in other circumstances, don't add to the chain. The  
672  match_cbegroup flag must NOT be used with tail recursion, because the memory  When MATCH_CBEGROUP is set, add the current subject pointer to the chain of
673  block that is used is on the stack, so a new one may be required for each  such remembered pointers, to be checked when we hit the closing ket, in order
674  match(). */  to break infinite loops that match no characters. When match() is called in
675    other circumstances, don't add to the chain. The MATCH_CBEGROUP feature must
676    NOT be used with tail recursion, because the memory block that is used is on
677    the stack, so a new one may be required for each match(). */
678    
679  if ((flags & match_cbegroup) != 0)  if (md->match_function_type == MATCH_CBEGROUP)
680    {    {
681    newptrb.epb_saved_eptr = eptr;    newptrb.epb_saved_eptr = eptr;
682    newptrb.epb_prev = eptrb;    newptrb.epb_prev = eptrb;
683    eptrb = &newptrb;    eptrb = &newptrb;
684      md->match_function_type = 0;
685    }    }
686    
687  /* Now start processing the opcodes. */  /* Now start processing the opcodes. */
# Line 666  for (;;) Line 693  for (;;)
693    
694    switch(op)    switch(op)
695      {      {
696        case OP_MARK:
697        md->nomatch_mark = ecode + 2;
698        md->mark = NULL;    /* In case previously set by assertion */
699        RMATCH(eptr, ecode + PRIV(OP_lengths)[*ecode] + ecode[1], offset_top, md,
700          eptrb, RM55);
701        if ((rrc == MATCH_MATCH || rrc == MATCH_ACCEPT) &&
702             md->mark == NULL) md->mark = ecode + 2;
703    
704        /* A return of MATCH_SKIP_ARG means that matching failed at SKIP with an
705        argument, and we must check whether that argument matches this MARK's
706        argument. It is passed back in md->start_match_ptr (an overloading of that
707        variable). If it does match, we reset that variable to the current subject
708        position and return MATCH_SKIP. Otherwise, pass back the return code
709        unaltered. */
710    
711        else if (rrc == MATCH_SKIP_ARG &&
712            STRCMP_UC_UC(ecode + 2, md->start_match_ptr) == 0)
713          {
714          md->start_match_ptr = eptr;
715          RRETURN(MATCH_SKIP);
716          }
717        RRETURN(rrc);
718    
719      case OP_FAIL:      case OP_FAIL:
720      RRETURN(MATCH_NOMATCH);      RRETURN(MATCH_NOMATCH);
721    
722      case OP_PRUNE:      /* COMMIT overrides PRUNE, SKIP, and THEN */
     RMATCH(eptr, ecode + _pcre_OP_lengths[*ecode], offset_top, md,  
       ims, eptrb, flags, RM51);  
     if (rrc != MATCH_NOMATCH) RRETURN(rrc);  
     RRETURN(MATCH_PRUNE);  
723    
724      case OP_COMMIT:      case OP_COMMIT:
725      RMATCH(eptr, ecode + _pcre_OP_lengths[*ecode], offset_top, md,      RMATCH(eptr, ecode + PRIV(OP_lengths)[*ecode], offset_top, md,
726        ims, eptrb, flags, RM52);        eptrb, RM52);
727      if (rrc != MATCH_NOMATCH) RRETURN(rrc);      if (rrc != MATCH_NOMATCH && rrc != MATCH_PRUNE &&
728            rrc != MATCH_SKIP && rrc != MATCH_SKIP_ARG &&
729            rrc != MATCH_THEN)
730          RRETURN(rrc);
731      RRETURN(MATCH_COMMIT);      RRETURN(MATCH_COMMIT);
732    
733        /* PRUNE overrides THEN */
734    
735        case OP_PRUNE:
736        RMATCH(eptr, ecode + PRIV(OP_lengths)[*ecode], offset_top, md,
737          eptrb, RM51);
738        if (rrc != MATCH_NOMATCH && rrc != MATCH_THEN) RRETURN(rrc);
739        RRETURN(MATCH_PRUNE);
740    
741        case OP_PRUNE_ARG:
742        md->nomatch_mark = ecode + 2;
743        md->mark = NULL;    /* In case previously set by assertion */
744        RMATCH(eptr, ecode + PRIV(OP_lengths)[*ecode] + ecode[1], offset_top, md,
745          eptrb, RM56);
746        if ((rrc == MATCH_MATCH || rrc == MATCH_ACCEPT) &&
747             md->mark == NULL) md->mark = ecode + 2;
748        if (rrc != MATCH_NOMATCH && rrc != MATCH_THEN) RRETURN(rrc);
749        RRETURN(MATCH_PRUNE);
750    
751        /* SKIP overrides PRUNE and THEN */
752    
753      case OP_SKIP:      case OP_SKIP:
754      RMATCH(eptr, ecode + _pcre_OP_lengths[*ecode], offset_top, md,      RMATCH(eptr, ecode + PRIV(OP_lengths)[*ecode], offset_top, md,
755        ims, eptrb, flags, RM53);        eptrb, RM53);
756      if (rrc != MATCH_NOMATCH) RRETURN(rrc);      if (rrc != MATCH_NOMATCH && rrc != MATCH_PRUNE && rrc != MATCH_THEN)
757          RRETURN(rrc);
758      md->start_match_ptr = eptr;   /* Pass back current position */      md->start_match_ptr = eptr;   /* Pass back current position */
759      RRETURN(MATCH_SKIP);      RRETURN(MATCH_SKIP);
760    
761        /* Note that, for Perl compatibility, SKIP with an argument does NOT set
762        nomatch_mark. There is a flag that disables this opcode when re-matching a
763        pattern that ended with a SKIP for which there was not a matching MARK. */
764    
765        case OP_SKIP_ARG:
766        if (md->ignore_skip_arg)
767          {
768          ecode += PRIV(OP_lengths)[*ecode] + ecode[1];
769          break;
770          }
771        RMATCH(eptr, ecode + PRIV(OP_lengths)[*ecode] + ecode[1], offset_top, md,
772          eptrb, RM57);
773        if (rrc != MATCH_NOMATCH && rrc != MATCH_PRUNE && rrc != MATCH_THEN)
774          RRETURN(rrc);
775    
776        /* Pass back the current skip name by overloading md->start_match_ptr and
777        returning the special MATCH_SKIP_ARG return code. This will either be
778        caught by a matching MARK, or get to the top, where it causes a rematch
779        with the md->ignore_skip_arg flag set. */
780    
781        md->start_match_ptr = ecode + 2;
782        RRETURN(MATCH_SKIP_ARG);
783    
784        /* For THEN (and THEN_ARG) we pass back the address of the opcode, so that
785        the branch in which it occurs can be determined. Overload the start of
786        match pointer to do this. */
787    
788      case OP_THEN:      case OP_THEN:
789      RMATCH(eptr, ecode + _pcre_OP_lengths[*ecode], offset_top, md,      RMATCH(eptr, ecode + PRIV(OP_lengths)[*ecode], offset_top, md,
790        ims, eptrb, flags, RM54);        eptrb, RM54);
791      if (rrc != MATCH_NOMATCH) RRETURN(rrc);      if (rrc != MATCH_NOMATCH) RRETURN(rrc);
792        md->start_match_ptr = ecode;
793      RRETURN(MATCH_THEN);      RRETURN(MATCH_THEN);
794    
795      /* Handle a capturing bracket. If there is space in the offset vector, save      case OP_THEN_ARG:
796      the current subject position in the working slot at the top of the vector.      md->nomatch_mark = ecode + 2;
797      We mustn't change the current values of the data slot, because they may be      md->mark = NULL;    /* In case previously set by assertion */
798      set from a previous iteration of this group, and be referred to by a      RMATCH(eptr, ecode + PRIV(OP_lengths)[*ecode] + ecode[1], offset_top,
799      reference inside the group.        md, eptrb, RM58);
800        if ((rrc == MATCH_MATCH || rrc == MATCH_ACCEPT) &&
801      If the bracket fails to match, we need to restore this value and also the           md->mark == NULL) md->mark = ecode + 2;
802      values of the final offsets, in case they were set by a previous iteration      if (rrc != MATCH_NOMATCH) RRETURN(rrc);
803      of the same bracket.      md->start_match_ptr = ecode;
804        RRETURN(MATCH_THEN);
805    
806        /* Handle an atomic group that does not contain any capturing parentheses.
807        This can be handled like an assertion. Prior to 8.13, all atomic groups
808        were handled this way. In 8.13, the code was changed as below for ONCE, so
809        that backups pass through the group and thereby reset captured values.
810        However, this uses a lot more stack, so in 8.20, atomic groups that do not
811        contain any captures generate OP_ONCE_NC, which can be handled in the old,
812        less stack intensive way.
813    
814        Check the alternative branches in turn - the matching won't pass the KET
815        for this kind of subpattern. If any one branch matches, we carry on as at
816        the end of a normal bracket, leaving the subject pointer, but resetting
817        the start-of-match value in case it was changed by \K. */
818    
819        case OP_ONCE_NC:
820        prev = ecode;
821        saved_eptr = eptr;
822        save_mark = md->mark;
823        do
824          {
825          RMATCH(eptr, ecode + 1 + LINK_SIZE, offset_top, md, eptrb, RM64);
826          if (rrc == MATCH_MATCH)  /* Note: _not_ MATCH_ACCEPT */
827            {
828            mstart = md->start_match_ptr;
829            break;
830            }
831          if (rrc == MATCH_THEN)
832            {
833            next = ecode + GET(ecode,1);
834            if (md->start_match_ptr < next &&
835                (*ecode == OP_ALT || *next == OP_ALT))
836              rrc = MATCH_NOMATCH;
837            }
838    
839          if (rrc != MATCH_NOMATCH) RRETURN(rrc);
840          ecode += GET(ecode,1);
841          md->mark = save_mark;
842          }
843        while (*ecode == OP_ALT);
844    
845        /* If hit the end of the group (which could be repeated), fail */
846    
847        if (*ecode != OP_ONCE_NC && *ecode != OP_ALT) RRETURN(MATCH_NOMATCH);
848    
849        /* Continue as from after the group, updating the offsets high water
850        mark, since extracts may have been taken. */
851    
852        do ecode += GET(ecode, 1); while (*ecode == OP_ALT);
853    
854        offset_top = md->end_offset_top;
855        eptr = md->end_match_ptr;
856    
857        /* For a non-repeating ket, just continue at this level. This also
858        happens for a repeating ket if no characters were matched in the group.
859        This is the forcible breaking of infinite loops as implemented in Perl
860        5.005. */
861    
862        if (*ecode == OP_KET || eptr == saved_eptr)
863          {
864          ecode += 1+LINK_SIZE;
865          break;
866          }
867    
868        /* The repeating kets try the rest of the pattern or restart from the
869        preceding bracket, in the appropriate order. The second "call" of match()
870        uses tail recursion, to avoid using another stack frame. */
871    
872        if (*ecode == OP_KETRMIN)
873          {
874          RMATCH(eptr, ecode + 1 + LINK_SIZE, offset_top, md, eptrb, RM65);
875          if (rrc != MATCH_NOMATCH) RRETURN(rrc);
876          ecode = prev;
877          goto TAIL_RECURSE;
878          }
879        else  /* OP_KETRMAX */
880          {
881          md->match_function_type = MATCH_CBEGROUP;
882          RMATCH(eptr, prev, offset_top, md, eptrb, RM66);
883          if (rrc != MATCH_NOMATCH) RRETURN(rrc);
884          ecode += 1 + LINK_SIZE;
885          goto TAIL_RECURSE;
886          }
887        /* Control never gets here */
888    
889        /* Handle a capturing bracket, other than those that are possessive with an
890        unlimited repeat. If there is space in the offset vector, save the current
891        subject position in the working slot at the top of the vector. We mustn't
892        change the current values of the data slot, because they may be set from a
893        previous iteration of this group, and be referred to by a reference inside
894        the group. A failure to match might occur after the group has succeeded,
895        if something later on doesn't match. For this reason, we need to restore
896        the working value and also the values of the final offsets, in case they
897        were set by a previous iteration of the same bracket.
898    
899      If there isn't enough space in the offset vector, treat this as if it were      If there isn't enough space in the offset vector, treat this as if it were
900      a non-capturing bracket. Don't worry about setting the flag for the error      a non-capturing bracket. Don't worry about setting the flag for the error
# Line 713  for (;;) Line 905  for (;;)
905      number = GET2(ecode, 1+LINK_SIZE);      number = GET2(ecode, 1+LINK_SIZE);
906      offset = number << 1;      offset = number << 1;
907    
908  #ifdef DEBUG  #ifdef PCRE_DEBUG
909      printf("start bracket %d\n", number);      printf("start bracket %d\n", number);
910      printf("subject=");      printf("subject=");
911      pchars(eptr, 16, TRUE, md);      pchars(eptr, 16, TRUE, md);
# Line 726  for (;;) Line 918  for (;;)
918        save_offset2 = md->offset_vector[offset+1];        save_offset2 = md->offset_vector[offset+1];
919        save_offset3 = md->offset_vector[md->offset_end - number];        save_offset3 = md->offset_vector[md->offset_end - number];
920        save_capture_last = md->capture_last;        save_capture_last = md->capture_last;
921          save_mark = md->mark;
922    
923        DPRINTF(("saving %d %d %d\n", save_offset1, save_offset2, save_offset3));        DPRINTF(("saving %d %d %d\n", save_offset1, save_offset2, save_offset3));
924        md->offset_vector[md->offset_end - number] = eptr - md->start_subject;        md->offset_vector[md->offset_end - number] =
925            (int)(eptr - md->start_subject);
926    
927        flags = (op == OP_SCBRA)? match_cbegroup : 0;        for (;;)
       do  
928          {          {
929          RMATCH(eptr, ecode + _pcre_OP_lengths[*ecode], offset_top, md,          if (op >= OP_SBRA) md->match_function_type = MATCH_CBEGROUP;
930            ims, eptrb, flags, RM1);          RMATCH(eptr, ecode + PRIV(OP_lengths)[*ecode], offset_top, md,
931          if (rrc != MATCH_NOMATCH && rrc != MATCH_THEN) RRETURN(rrc);            eptrb, RM1);
932            if (rrc == MATCH_ONCE) break;  /* Backing up through an atomic group */
933    
934            /* If we backed up to a THEN, check whether it is within the current
935            branch by comparing the address of the THEN that is passed back with
936            the end of the branch. If it is within the current branch, and the
937            branch is one of two or more alternatives (it either starts or ends
938            with OP_ALT), we have reached the limit of THEN's action, so convert
939            the return code to NOMATCH, which will cause normal backtracking to
940            happen from now on. Otherwise, THEN is passed back to an outer
941            alternative. This implements Perl's treatment of parenthesized groups,
942            where a group not containing | does not affect the current alternative,
943            that is, (X) is NOT the same as (X|(*F)). */
944    
945            if (rrc == MATCH_THEN)
946              {
947              next = ecode + GET(ecode,1);
948              if (md->start_match_ptr < next &&
949                  (*ecode == OP_ALT || *next == OP_ALT))
950                rrc = MATCH_NOMATCH;
951              }
952    
953            /* Anything other than NOMATCH is passed back. */
954    
955            if (rrc != MATCH_NOMATCH) RRETURN(rrc);
956          md->capture_last = save_capture_last;          md->capture_last = save_capture_last;
957          ecode += GET(ecode, 1);          ecode += GET(ecode, 1);
958            md->mark = save_mark;
959            if (*ecode != OP_ALT) break;
960          }          }
       while (*ecode == OP_ALT);  
961    
962        DPRINTF(("bracket %d failed\n", number));        DPRINTF(("bracket %d failed\n", number));
   
963        md->offset_vector[offset] = save_offset1;        md->offset_vector[offset] = save_offset1;
964        md->offset_vector[offset+1] = save_offset2;        md->offset_vector[offset+1] = save_offset2;
965        md->offset_vector[md->offset_end - number] = save_offset3;        md->offset_vector[md->offset_end - number] = save_offset3;
966    
967        RRETURN(MATCH_NOMATCH);        /* At this point, rrc will be one of MATCH_ONCE or MATCH_NOMATCH. */
968    
969          RRETURN(rrc);
970        }        }
971    
972      /* FALL THROUGH ... Insufficient room for saving captured contents. Treat      /* FALL THROUGH ... Insufficient room for saving captured contents. Treat
# Line 761  for (;;) Line 980  for (;;)
980      /* VVVVVVVVVVVVVVVVVVVVVVVVV */      /* VVVVVVVVVVVVVVVVVVVVVVVVV */
981      /* VVVVVVVVVVVVVVVVVVVVVVVVV */      /* VVVVVVVVVVVVVVVVVVVVVVVVV */
982    
983      /* Non-capturing bracket. Loop for all the alternatives. When we get to the      /* Non-capturing or atomic group, except for possessive with unlimited
984      final alternative within the brackets, we would return the result of a      repeat and ONCE group with no captures. Loop for all the alternatives.
     recursive call to match() whatever happened. We can reduce stack usage by  
     turning this into a tail recursion, except in the case when match_cbegroup  
     is set.*/  
985    
986        When we get to the final alternative within the brackets, we used to return
987        the result of a recursive call to match() whatever happened so it was
988        possible to reduce stack usage by turning this into a tail recursion,
989        except in the case of a possibly empty group. However, now that there is
990        the possiblity of (*THEN) occurring in the final alternative, this
991        optimization is no longer always possible.
992    
993        We can optimize if we know there are no (*THEN)s in the pattern; at present
994        this is the best that can be done.
995    
996        MATCH_ONCE is returned when the end of an atomic group is successfully
997        reached, but subsequent matching fails. It passes back up the tree (causing
998        captured values to be reset) until the original atomic group level is
999        reached. This is tested by comparing md->once_target with the start of the
1000        group. At this point, the return is converted into MATCH_NOMATCH so that
1001        previous backup points can be taken. */
1002    
1003        case OP_ONCE:
1004      case OP_BRA:      case OP_BRA:
1005      case OP_SBRA:      case OP_SBRA:
1006      DPRINTF(("start non-capturing bracket\n"));      DPRINTF(("start non-capturing bracket\n"));
1007      flags = (op >= OP_SBRA)? match_cbegroup : 0;  
1008      for (;;)      for (;;)
1009        {        {
1010        if (ecode[GET(ecode, 1)] != OP_ALT)   /* Final alternative */        if (op >= OP_SBRA || op == OP_ONCE) md->match_function_type = MATCH_CBEGROUP;
1011    
1012          /* If this is not a possibly empty group, and there are no (*THEN)s in
1013          the pattern, and this is the final alternative, optimize as described
1014          above. */
1015    
1016          else if (!md->hasthen && ecode[GET(ecode, 1)] != OP_ALT)
1017            {
1018            ecode += PRIV(OP_lengths)[*ecode];
1019            goto TAIL_RECURSE;
1020            }
1021    
1022          /* In all other cases, we have to make another call to match(). */
1023    
1024          save_mark = md->mark;
1025          RMATCH(eptr, ecode + PRIV(OP_lengths)[*ecode], offset_top, md, eptrb,
1026            RM2);
1027    
1028          /* See comment in the code for capturing groups above about handling
1029          THEN. */
1030    
1031          if (rrc == MATCH_THEN)
1032            {
1033            next = ecode + GET(ecode,1);
1034            if (md->start_match_ptr < next &&
1035                (*ecode == OP_ALT || *next == OP_ALT))
1036              rrc = MATCH_NOMATCH;
1037            }
1038    
1039          if (rrc != MATCH_NOMATCH)
1040          {          {
1041          if (flags == 0)    /* Not a possibly empty group */          if (rrc == MATCH_ONCE)
1042            {            {
1043            ecode += _pcre_OP_lengths[*ecode];            const pcre_uchar *scode = ecode;
1044            DPRINTF(("bracket 0 tail recursion\n"));            if (*scode != OP_ONCE)           /* If not at start, find it */
1045            goto TAIL_RECURSE;              {
1046                while (*scode == OP_ALT) scode += GET(scode, 1);
1047                scode -= GET(scode, 1);
1048                }
1049              if (md->once_target == scode) rrc = MATCH_NOMATCH;
1050            }            }
1051            RRETURN(rrc);
1052            }
1053          ecode += GET(ecode, 1);
1054          md->mark = save_mark;
1055          if (*ecode != OP_ALT) break;
1056          }
1057    
1058          /* Possibly empty group; can't use tail recursion. */      RRETURN(MATCH_NOMATCH);
1059    
1060          RMATCH(eptr, ecode + _pcre_OP_lengths[*ecode], offset_top, md, ims,      /* Handle possessive capturing brackets with an unlimited repeat. We come
1061            eptrb, flags, RM48);      here from BRAZERO with allow_zero set TRUE. The offset_vector values are
1062          RRETURN(rrc);      handled similarly to the normal case above. However, the matching is
1063        different. The end of these brackets will always be OP_KETRPOS, which
1064        returns MATCH_KETRPOS without going further in the pattern. By this means
1065        we can handle the group by iteration rather than recursion, thereby
1066        reducing the amount of stack needed. */
1067    
1068        case OP_CBRAPOS:
1069        case OP_SCBRAPOS:
1070        allow_zero = FALSE;
1071    
1072        POSSESSIVE_CAPTURE:
1073        number = GET2(ecode, 1+LINK_SIZE);
1074        offset = number << 1;
1075    
1076    #ifdef PCRE_DEBUG
1077        printf("start possessive bracket %d\n", number);
1078        printf("subject=");
1079        pchars(eptr, 16, TRUE, md);
1080        printf("\n");
1081    #endif
1082    
1083        if (offset < md->offset_max)
1084          {
1085          matched_once = FALSE;
1086          code_offset = (int)(ecode - md->start_code);
1087    
1088          save_offset1 = md->offset_vector[offset];
1089          save_offset2 = md->offset_vector[offset+1];
1090          save_offset3 = md->offset_vector[md->offset_end - number];
1091          save_capture_last = md->capture_last;
1092    
1093          DPRINTF(("saving %d %d %d\n", save_offset1, save_offset2, save_offset3));
1094    
1095          /* Each time round the loop, save the current subject position for use
1096          when the group matches. For MATCH_MATCH, the group has matched, so we
1097          restart it with a new subject starting position, remembering that we had
1098          at least one match. For MATCH_NOMATCH, carry on with the alternatives, as
1099          usual. If we haven't matched any alternatives in any iteration, check to
1100          see if a previous iteration matched. If so, the group has matched;
1101          continue from afterwards. Otherwise it has failed; restore the previous
1102          capture values before returning NOMATCH. */
1103    
1104          for (;;)
1105            {
1106            md->offset_vector[md->offset_end - number] =
1107              (int)(eptr - md->start_subject);
1108            if (op >= OP_SBRA) md->match_function_type = MATCH_CBEGROUP;
1109            RMATCH(eptr, ecode + PRIV(OP_lengths)[*ecode], offset_top, md,
1110              eptrb, RM63);
1111            if (rrc == MATCH_KETRPOS)
1112              {
1113              offset_top = md->end_offset_top;
1114              eptr = md->end_match_ptr;
1115              ecode = md->start_code + code_offset;
1116              save_capture_last = md->capture_last;
1117              matched_once = TRUE;
1118              continue;
1119              }
1120    
1121            /* See comment in the code for capturing groups above about handling
1122            THEN. */
1123    
1124            if (rrc == MATCH_THEN)
1125              {
1126              next = ecode + GET(ecode,1);
1127              if (md->start_match_ptr < next &&
1128                  (*ecode == OP_ALT || *next == OP_ALT))
1129                rrc = MATCH_NOMATCH;
1130              }
1131    
1132            if (rrc != MATCH_NOMATCH) RRETURN(rrc);
1133            md->capture_last = save_capture_last;
1134            ecode += GET(ecode, 1);
1135            if (*ecode != OP_ALT) break;
1136          }          }
1137    
1138        /* For non-final alternatives, continue the loop for a NOMATCH result;        if (!matched_once)
1139        otherwise return. */          {
1140            md->offset_vector[offset] = save_offset1;
1141            md->offset_vector[offset+1] = save_offset2;
1142            md->offset_vector[md->offset_end - number] = save_offset3;
1143            }
1144    
1145        RMATCH(eptr, ecode + _pcre_OP_lengths[*ecode], offset_top, md, ims,        if (allow_zero || matched_once)
1146          eptrb, flags, RM2);          {
1147        if (rrc != MATCH_NOMATCH && rrc != MATCH_THEN) RRETURN(rrc);          ecode += 1 + LINK_SIZE;
1148            break;
1149            }
1150    
1151          RRETURN(MATCH_NOMATCH);
1152          }
1153    
1154        /* FALL THROUGH ... Insufficient room for saving captured contents. Treat
1155        as a non-capturing bracket. */
1156    
1157        /* VVVVVVVVVVVVVVVVVVVVVVVVV */
1158        /* VVVVVVVVVVVVVVVVVVVVVVVVV */
1159    
1160        DPRINTF(("insufficient capture room: treat as non-capturing\n"));
1161    
1162        /* VVVVVVVVVVVVVVVVVVVVVVVVV */
1163        /* VVVVVVVVVVVVVVVVVVVVVVVVV */
1164    
1165        /* Non-capturing possessive bracket with unlimited repeat. We come here
1166        from BRAZERO with allow_zero = TRUE. The code is similar to the above,
1167        without the capturing complication. It is written out separately for speed
1168        and cleanliness. */
1169    
1170        case OP_BRAPOS:
1171        case OP_SBRAPOS:
1172        allow_zero = FALSE;
1173    
1174        POSSESSIVE_NON_CAPTURE:
1175        matched_once = FALSE;
1176        code_offset = (int)(ecode - md->start_code);
1177    
1178        for (;;)
1179          {
1180          if (op >= OP_SBRA) md->match_function_type = MATCH_CBEGROUP;
1181          RMATCH(eptr, ecode + PRIV(OP_lengths)[*ecode], offset_top, md,
1182            eptrb, RM48);
1183          if (rrc == MATCH_KETRPOS)
1184            {
1185            offset_top = md->end_offset_top;
1186            eptr = md->end_match_ptr;
1187            ecode = md->start_code + code_offset;
1188            matched_once = TRUE;
1189            continue;
1190            }
1191    
1192          /* See comment in the code for capturing groups above about handling
1193          THEN. */
1194    
1195          if (rrc == MATCH_THEN)
1196            {
1197            next = ecode + GET(ecode,1);
1198            if (md->start_match_ptr < next &&
1199                (*ecode == OP_ALT || *next == OP_ALT))
1200              rrc = MATCH_NOMATCH;
1201            }
1202    
1203          if (rrc != MATCH_NOMATCH) RRETURN(rrc);
1204        ecode += GET(ecode, 1);        ecode += GET(ecode, 1);
1205          if (*ecode != OP_ALT) break;
1206        }        }
1207    
1208        if (matched_once || allow_zero)
1209          {
1210          ecode += 1 + LINK_SIZE;
1211          break;
1212          }
1213        RRETURN(MATCH_NOMATCH);
1214    
1215      /* Control never reaches here. */      /* Control never reaches here. */
1216    
1217      /* Conditional group: compilation checked that there are no more than      /* Conditional group: compilation checked that there are no more than
1218      two branches. If the condition is false, skipping the first branch takes us      two branches. If the condition is false, skipping the first branch takes us
1219      past the end if there is only one branch, but that's OK because that is      past the end if there is only one branch, but that's OK because that is
1220      exactly what going to the ket would do. As there is only one branch to be      exactly what going to the ket would do. */
     obeyed, we can use tail recursion to avoid using another stack frame. */  
1221    
1222      case OP_COND:      case OP_COND:
1223      case OP_SCOND:      case OP_SCOND:
1224      codelink= GET(ecode, 1);      codelink = GET(ecode, 1);
1225    
1226      /* Because of the way auto-callout works during compile, a callout item is      /* Because of the way auto-callout works during compile, a callout item is
1227      inserted between OP_COND and an assertion condition. */      inserted between OP_COND and an assertion condition. */
1228    
1229      if (ecode[LINK_SIZE+1] == OP_CALLOUT)      if (ecode[LINK_SIZE+1] == OP_CALLOUT)
1230        {        {
1231        if (pcre_callout != NULL)        if (PUBL(callout) != NULL)
1232          {          {
1233          pcre_callout_block cb;          PUBL(callout_block) cb;
1234          cb.version          = 1;   /* Version 1 of the callout block */          cb.version          = 2;   /* Version 1 of the callout block */
1235          cb.callout_number   = ecode[LINK_SIZE+2];          cb.callout_number   = ecode[LINK_SIZE+2];
1236          cb.offset_vector    = md->offset_vector;          cb.offset_vector    = md->offset_vector;
1237    #ifdef COMPILE_PCRE8
1238          cb.subject          = (PCRE_SPTR)md->start_subject;          cb.subject          = (PCRE_SPTR)md->start_subject;
1239          cb.subject_length   = md->end_subject - md->start_subject;  #else
1240          cb.start_match      = mstart - md->start_subject;          cb.subject          = (PCRE_SPTR16)md->start_subject;
1241          cb.current_position = eptr - md->start_subject;  #endif
1242            cb.subject_length   = (int)(md->end_subject - md->start_subject);
1243            cb.start_match      = (int)(mstart - md->start_subject);
1244            cb.current_position = (int)(eptr - md->start_subject);
1245          cb.pattern_position = GET(ecode, LINK_SIZE + 3);          cb.pattern_position = GET(ecode, LINK_SIZE + 3);
1246          cb.next_item_length = GET(ecode, 3 + 2*LINK_SIZE);          cb.next_item_length = GET(ecode, 3 + 2*LINK_SIZE);
1247          cb.capture_top      = offset_top/2;          cb.capture_top      = offset_top/2;
1248          cb.capture_last     = md->capture_last;          cb.capture_last     = md->capture_last;
1249          cb.callout_data     = md->callout_data;          cb.callout_data     = md->callout_data;
1250          if ((rrc = (*pcre_callout)(&cb)) > 0) RRETURN(MATCH_NOMATCH);          cb.mark             = md->nomatch_mark;
1251            if ((rrc = (*PUBL(callout))(&cb)) > 0) RRETURN(MATCH_NOMATCH);
1252          if (rrc < 0) RRETURN(rrc);          if (rrc < 0) RRETURN(rrc);
1253          }          }
1254        ecode += _pcre_OP_lengths[OP_CALLOUT];        ecode += PRIV(OP_lengths)[OP_CALLOUT];
1255        }        }
1256    
1257      condcode = ecode[LINK_SIZE+1];      condcode = ecode[LINK_SIZE+1];
1258    
1259      /* Now see what the actual condition is */      /* Now see what the actual condition is */
1260    
1261      if (condcode == OP_RREF)         /* Recursion test */      if (condcode == OP_RREF || condcode == OP_NRREF)    /* Recursion test */
1262        {        {
1263        offset = GET2(ecode, LINK_SIZE + 2);     /* Recursion group number*/        if (md->recursive == NULL)                /* Not recursing => FALSE */
1264        condition = md->recursive != NULL &&          {
1265          (offset == RREF_ANY || offset == md->recursive->group_num);          condition = FALSE;
1266        ecode += condition? 3 : GET(ecode, 1);          ecode += GET(ecode, 1);
1267            }
1268          else
1269            {
1270            int recno = GET2(ecode, LINK_SIZE + 2);   /* Recursion group number*/
1271            condition = (recno == RREF_ANY || recno == md->recursive->group_num);
1272    
1273            /* If the test is for recursion into a specific subpattern, and it is
1274            false, but the test was set up by name, scan the table to see if the
1275            name refers to any other numbers, and test them. The condition is true
1276            if any one is set. */
1277    
1278            if (!condition && condcode == OP_NRREF)
1279              {
1280              pcre_uchar *slotA = md->name_table;
1281              for (i = 0; i < md->name_count; i++)
1282                {
1283                if (GET2(slotA, 0) == recno) break;
1284                slotA += md->name_entry_size;
1285                }
1286    
1287              /* Found a name for the number - there can be only one; duplicate
1288              names for different numbers are allowed, but not vice versa. First
1289              scan down for duplicates. */
1290    
1291              if (i < md->name_count)
1292                {
1293                pcre_uchar *slotB = slotA;
1294                while (slotB > md->name_table)
1295                  {
1296                  slotB -= md->name_entry_size;
1297                  if (STRCMP_UC_UC(slotA + IMM2_SIZE, slotB + IMM2_SIZE) == 0)
1298                    {
1299                    condition = GET2(slotB, 0) == md->recursive->group_num;
1300                    if (condition) break;
1301                    }
1302                  else break;
1303                  }
1304    
1305                /* Scan up for duplicates */
1306    
1307                if (!condition)
1308                  {
1309                  slotB = slotA;
1310                  for (i++; i < md->name_count; i++)
1311                    {
1312                    slotB += md->name_entry_size;
1313                    if (STRCMP_UC_UC(slotA + IMM2_SIZE, slotB + IMM2_SIZE) == 0)
1314                      {
1315                      condition = GET2(slotB, 0) == md->recursive->group_num;
1316                      if (condition) break;
1317                      }
1318                    else break;
1319                    }
1320                  }
1321                }
1322              }
1323    
1324            /* Chose branch according to the condition */
1325    
1326            ecode += condition? 1 + IMM2_SIZE : GET(ecode, 1);
1327            }
1328        }        }
1329    
1330      else if (condcode == OP_CREF)    /* Group used test */      else if (condcode == OP_CREF || condcode == OP_NCREF)  /* Group used test */
1331        {        {
1332        offset = GET2(ecode, LINK_SIZE+2) << 1;  /* Doubled ref number */        offset = GET2(ecode, LINK_SIZE+2) << 1;  /* Doubled ref number */
1333        condition = offset < offset_top && md->offset_vector[offset] >= 0;        condition = offset < offset_top && md->offset_vector[offset] >= 0;
1334        ecode += condition? 3 : GET(ecode, 1);  
1335          /* If the numbered capture is unset, but the reference was by name,
1336          scan the table to see if the name refers to any other numbers, and test
1337          them. The condition is true if any one is set. This is tediously similar
1338          to the code above, but not close enough to try to amalgamate. */
1339    
1340          if (!condition && condcode == OP_NCREF)
1341            {
1342            int refno = offset >> 1;
1343            pcre_uchar *slotA = md->name_table;
1344    
1345            for (i = 0; i < md->name_count; i++)
1346              {
1347              if (GET2(slotA, 0) == refno) break;
1348              slotA += md->name_entry_size;
1349              }
1350    
1351            /* Found a name for the number - there can be only one; duplicate names
1352            for different numbers are allowed, but not vice versa. First scan down
1353            for duplicates. */
1354    
1355            if (i < md->name_count)
1356              {
1357              pcre_uchar *slotB = slotA;
1358              while (slotB > md->name_table)
1359                {
1360                slotB -= md->name_entry_size;
1361                if (STRCMP_UC_UC(slotA + IMM2_SIZE, slotB + IMM2_SIZE) == 0)
1362                  {
1363                  offset = GET2(slotB, 0) << 1;
1364                  condition = offset < offset_top &&
1365                    md->offset_vector[offset] >= 0;
1366                  if (condition) break;
1367                  }
1368                else break;
1369                }
1370    
1371              /* Scan up for duplicates */
1372    
1373              if (!condition)
1374                {
1375                slotB = slotA;
1376                for (i++; i < md->name_count; i++)
1377                  {
1378                  slotB += md->name_entry_size;
1379                  if (STRCMP_UC_UC(slotA + IMM2_SIZE, slotB + IMM2_SIZE) == 0)
1380                    {
1381                    offset = GET2(slotB, 0) << 1;
1382                    condition = offset < offset_top &&
1383                      md->offset_vector[offset] >= 0;
1384                    if (condition) break;
1385                    }
1386                  else break;
1387                  }
1388                }
1389              }
1390            }
1391    
1392          /* Chose branch according to the condition */
1393    
1394          ecode += condition? 1 + IMM2_SIZE : GET(ecode, 1);
1395        }        }
1396    
1397      else if (condcode == OP_DEF)     /* DEFINE - always false */      else if (condcode == OP_DEF)     /* DEFINE - always false */
# Line 861  for (;;) Line 1401  for (;;)
1401        }        }
1402    
1403      /* The condition is an assertion. Call match() to evaluate it - setting      /* The condition is an assertion. Call match() to evaluate it - setting
1404      the final argument match_condassert causes it to stop at the end of an      md->match_function_type to MATCH_CONDASSERT causes it to stop at the end of
1405      assertion. */      an assertion. */
1406    
1407      else      else
1408        {        {
1409        RMATCH(eptr, ecode + 1 + LINK_SIZE, offset_top, md, ims, NULL,        md->match_function_type = MATCH_CONDASSERT;
1410            match_condassert, RM3);        RMATCH(eptr, ecode + 1 + LINK_SIZE, offset_top, md, NULL, RM3);
1411        if (rrc == MATCH_MATCH)        if (rrc == MATCH_MATCH)
1412          {          {
1413            if (md->end_offset_top > offset_top)
1414              offset_top = md->end_offset_top;  /* Captures may have happened */
1415          condition = TRUE;          condition = TRUE;
1416          ecode += 1 + LINK_SIZE + GET(ecode, LINK_SIZE + 2);          ecode += 1 + LINK_SIZE + GET(ecode, LINK_SIZE + 2);
1417          while (*ecode == OP_ALT) ecode += GET(ecode, 1);          while (*ecode == OP_ALT) ecode += GET(ecode, 1);
1418          }          }
1419    
1420          /* PCRE doesn't allow the effect of (*THEN) to escape beyond an
1421          assertion; it is therefore treated as NOMATCH. */
1422    
1423        else if (rrc != MATCH_NOMATCH && rrc != MATCH_THEN)        else if (rrc != MATCH_NOMATCH && rrc != MATCH_THEN)
1424          {          {
1425          RRETURN(rrc);         /* Need braces because of following else */          RRETURN(rrc);         /* Need braces because of following else */
# Line 885  for (;;) Line 1431  for (;;)
1431          }          }
1432        }        }
1433    
1434      /* We are now at the branch that is to be obeyed. As there is only one,      /* We are now at the branch that is to be obeyed. As there is only one, can
1435      we can use tail recursion to avoid using another stack frame, except when      use tail recursion to avoid using another stack frame, except when there is
1436      match_cbegroup is required for an unlimited repeat of a possibly empty      unlimited repeat of a possibly empty group. In the latter case, a recursive
1437      group. If the second alternative doesn't exist, we can just plough on. */      call to match() is always required, unless the second alternative doesn't
1438        exist, in which case we can just plough on. Note that, for compatibility
1439        with Perl, the | in a conditional group is NOT treated as creating two
1440        alternatives. If a THEN is encountered in the branch, it propagates out to
1441        the enclosing alternative (unless nested in a deeper set of alternatives,
1442        of course). */
1443    
1444      if (condition || *ecode == OP_ALT)      if (condition || *ecode == OP_ALT)
1445        {        {
1446        ecode += 1 + LINK_SIZE;        if (op != OP_SCOND)
       if (op == OP_SCOND)        /* Possibly empty group */  
         {  
         RMATCH(eptr, ecode, offset_top, md, ims, eptrb, match_cbegroup, RM49);  
         RRETURN(rrc);  
         }  
       else                       /* Group must match something */  
1447          {          {
1448          flags = 0;          ecode += 1 + LINK_SIZE;
1449          goto TAIL_RECURSE;          goto TAIL_RECURSE;
1450          }          }
1451    
1452          md->match_function_type = MATCH_CBEGROUP;
1453          RMATCH(eptr, ecode + 1 + LINK_SIZE, offset_top, md, eptrb, RM49);
1454          RRETURN(rrc);
1455        }        }
1456      else                         /* Condition false & no alternative */  
1457         /* Condition false & no alternative; continue after the group. */
1458    
1459        else
1460        {        {
1461        ecode += 1 + LINK_SIZE;        ecode += 1 + LINK_SIZE;
1462        }        }
1463      break;      break;
1464    
1465    
1466      /* Before OP_ACCEPT there may be any number of OP_CLOSE opcodes,      /* Before OP_ACCEPT there may be any number of OP_CLOSE opcodes,
1467      to close any currently open capturing brackets. */      to close any currently open capturing brackets. */
1468    
1469      case OP_CLOSE:      case OP_CLOSE:
1470      number = GET2(ecode, 1);      number = GET2(ecode, 1);
1471      offset = number << 1;      offset = number << 1;
1472    
1473  #ifdef DEBUG  #ifdef PCRE_DEBUG
1474        printf("end bracket %d at *ACCEPT", number);        printf("end bracket %d at *ACCEPT", number);
1475        printf("\n");        printf("\n");
1476  #endif  #endif
# Line 928  for (;;) Line 1480  for (;;)
1480        {        {
1481        md->offset_vector[offset] =        md->offset_vector[offset] =
1482          md->offset_vector[md->offset_end - number];          md->offset_vector[md->offset_end - number];
1483        md->offset_vector[offset+1] = eptr - md->start_subject;        md->offset_vector[offset+1] = (int)(eptr - md->start_subject);
1484        if (offset_top <= offset) offset_top = offset + 2;        if (offset_top <= offset) offset_top = offset + 2;
1485        }        }
1486      ecode += 3;      ecode += 1 + IMM2_SIZE;
1487      break;      break;
1488    
1489    
1490      /* End of the pattern, either real or forced. If we are in a top-level      /* End of the pattern, either real or forced. */
     recursion, we should restore the offsets appropriately and continue from  
     after the call. */  
1491    
     case OP_ACCEPT:  
1492      case OP_END:      case OP_END:
1493      if (md->recursive != NULL && md->recursive->group_num == 0)      case OP_ACCEPT:
1494        {      case OP_ASSERT_ACCEPT:
       recursion_info *rec = md->recursive;  
       DPRINTF(("End of pattern in a (?0) recursion\n"));  
       md->recursive = rec->prevrec;  
       memmove(md->offset_vector, rec->offset_save,  
         rec->saved_max * sizeof(int));  
       offset_top = rec->offset_top;  
       mstart = rec->save_start;  
       ims = original_ims;  
       ecode = rec->after_call;  
       break;  
       }  
1495    
1496      /* Otherwise, if we have matched an empty string, fail if PCRE_NOTEMPTY is      /* If we have matched an empty string, fail if not in an assertion and not
1497      set, or if PCRE_NOTEMPTY_ATSTART is set and we have matched at the start of      in a recursion if either PCRE_NOTEMPTY is set, or if PCRE_NOTEMPTY_ATSTART
1498      the subject. In both cases, backtracking will then try other alternatives,      is set and we have matched at the start of the subject. In both cases,
1499      if any. */      backtracking will then try other alternatives, if any. */
1500    
1501      if (eptr == mstart &&      if (eptr == mstart && op != OP_ASSERT_ACCEPT &&
1502          (md->notempty ||           md->recursive == NULL &&
1503            (md->notempty_atstart &&           (md->notempty ||
1504              mstart == md->start_subject + md->start_offset)))             (md->notempty_atstart &&
1505                 mstart == md->start_subject + md->start_offset)))
1506        RRETURN(MATCH_NOMATCH);        RRETURN(MATCH_NOMATCH);
1507    
1508      /* Otherwise, we have a match. */      /* Otherwise, we have a match. */
# Line 971  for (;;) Line 1510  for (;;)
1510      md->end_match_ptr = eptr;           /* Record where we ended */      md->end_match_ptr = eptr;           /* Record where we ended */
1511      md->end_offset_top = offset_top;    /* and how many extracts were taken */      md->end_offset_top = offset_top;    /* and how many extracts were taken */
1512      md->start_match_ptr = mstart;       /* and the start (\K can modify) */      md->start_match_ptr = mstart;       /* and the start (\K can modify) */
     RRETURN(MATCH_MATCH);  
1513    
1514      /* Change option settings */      /* For some reason, the macros don't work properly if an expression is
1515        given as the argument to RRETURN when the heap is in use. */
1516    
1517      case OP_OPT:      rrc = (op == OP_END)? MATCH_MATCH : MATCH_ACCEPT;
1518      ims = ecode[1];      RRETURN(rrc);
     ecode += 2;  
     DPRINTF(("ims set to %02lx\n", ims));  
     break;  
1519    
1520      /* Assertion brackets. Check the alternative branches in turn - the      /* Assertion brackets. Check the alternative branches in turn - the
1521      matching won't pass the KET for an assertion. If any one branch matches,      matching won't pass the KET for an assertion. If any one branch matches,
1522      the assertion is true. Lookbehind assertions have an OP_REVERSE item at the      the assertion is true. Lookbehind assertions have an OP_REVERSE item at the
1523      start of each branch to move the current point backwards, so the code at      start of each branch to move the current point backwards, so the code at
1524      this level is identical to the lookahead case. */      this level is identical to the lookahead case. When the assertion is part
1525        of a condition, we want to return immediately afterwards. The caller of
1526        this incarnation of the match() function will have set MATCH_CONDASSERT in
1527        md->match_function type, and one of these opcodes will be the first opcode
1528        that is processed. We use a local variable that is preserved over calls to
1529        match() to remember this case. */
1530    
1531      case OP_ASSERT:      case OP_ASSERT:
1532      case OP_ASSERTBACK:      case OP_ASSERTBACK:
1533        if (md->match_function_type == MATCH_CONDASSERT)
1534          {
1535          condassert = TRUE;
1536          md->match_function_type = 0;
1537          }
1538        else condassert = FALSE;
1539    
1540      do      do
1541        {        {
1542        RMATCH(eptr, ecode + 1 + LINK_SIZE, offset_top, md, ims, NULL, 0,        RMATCH(eptr, ecode + 1 + LINK_SIZE, offset_top, md, NULL, RM4);
1543          RM4);        if (rrc == MATCH_MATCH || rrc == MATCH_ACCEPT)
1544        if (rrc == MATCH_MATCH) break;          {
1545            mstart = md->start_match_ptr;   /* In case \K reset it */
1546            break;
1547            }
1548    
1549          /* PCRE does not allow THEN to escape beyond an assertion; it is treated
1550          as NOMATCH. */
1551    
1552        if (rrc != MATCH_NOMATCH && rrc != MATCH_THEN) RRETURN(rrc);        if (rrc != MATCH_NOMATCH && rrc != MATCH_THEN) RRETURN(rrc);
1553        ecode += GET(ecode, 1);        ecode += GET(ecode, 1);
1554        }        }
1555      while (*ecode == OP_ALT);      while (*ecode == OP_ALT);
1556    
1557      if (*ecode == OP_KET) RRETURN(MATCH_NOMATCH);      if (*ecode == OP_KET) RRETURN(MATCH_NOMATCH);
1558    
1559      /* If checking an assertion for a condition, return MATCH_MATCH. */      /* If checking an assertion for a condition, return MATCH_MATCH. */
1560    
1561      if ((flags & match_condassert) != 0) RRETURN(MATCH_MATCH);      if (condassert) RRETURN(MATCH_MATCH);
1562    
1563      /* Continue from after the assertion, updating the offsets high water      /* Continue from after the assertion, updating the offsets high water
1564      mark, since extracts may have been taken during the assertion. */      mark, since extracts may have been taken during the assertion. */
# Line 1012  for (;;) Line 1568  for (;;)
1568      offset_top = md->end_offset_top;      offset_top = md->end_offset_top;
1569      continue;      continue;
1570    
1571      /* Negative assertion: all branches must fail to match */      /* Negative assertion: all branches must fail to match. Encountering SKIP,
1572        PRUNE, or COMMIT means we must assume failure without checking subsequent
1573        branches. */
1574    
1575      case OP_ASSERT_NOT:      case OP_ASSERT_NOT:
1576      case OP_ASSERTBACK_NOT:      case OP_ASSERTBACK_NOT:
1577        if (md->match_function_type == MATCH_CONDASSERT)
1578          {
1579          condassert = TRUE;
1580          md->match_function_type = 0;
1581          }
1582        else condassert = FALSE;
1583    
1584      do      do
1585        {        {
1586        RMATCH(eptr, ecode + 1 + LINK_SIZE, offset_top, md, ims, NULL, 0,        RMATCH(eptr, ecode + 1 + LINK_SIZE, offset_top, md, NULL, RM5);
1587          RM5);        if (rrc == MATCH_MATCH || rrc == MATCH_ACCEPT) RRETURN(MATCH_NOMATCH);
1588        if (rrc == MATCH_MATCH) RRETURN(MATCH_NOMATCH);        if (rrc == MATCH_SKIP || rrc == MATCH_PRUNE || rrc == MATCH_COMMIT)
1589            {
1590            do ecode += GET(ecode,1); while (*ecode == OP_ALT);
1591            break;
1592            }
1593    
1594          /* PCRE does not allow THEN to escape beyond an assertion; it is treated
1595          as NOMATCH. */
1596    
1597        if (rrc != MATCH_NOMATCH && rrc != MATCH_THEN) RRETURN(rrc);        if (rrc != MATCH_NOMATCH && rrc != MATCH_THEN) RRETURN(rrc);
1598        ecode += GET(ecode,1);        ecode += GET(ecode,1);
1599        }        }
1600      while (*ecode == OP_ALT);      while (*ecode == OP_ALT);
1601    
1602      if ((flags & match_condassert) != 0) RRETURN(MATCH_MATCH);      if (condassert) RRETURN(MATCH_MATCH);  /* Condition assertion */
1603    
1604      ecode += 1 + LINK_SIZE;      ecode += 1 + LINK_SIZE;
1605      continue;      continue;
# Line 1037  for (;;) Line 1610  for (;;)
1610      back a number of characters, not bytes. */      back a number of characters, not bytes. */
1611    
1612      case OP_REVERSE:      case OP_REVERSE:
1613  #ifdef SUPPORT_UTF8  #ifdef SUPPORT_UTF
1614      if (utf8)      if (utf)
1615        {        {
1616        i = GET(ecode, 1);        i = GET(ecode, 1);
1617        while (i-- > 0)        while (i-- > 0)
# Line 1069  for (;;) Line 1642  for (;;)
1642      function is able to force a failure. */      function is able to force a failure. */
1643    
1644      case OP_CALLOUT:      case OP_CALLOUT:
1645      if (pcre_callout != NULL)      if (PUBL(callout) != NULL)
1646        {        {
1647        pcre_callout_block cb;        PUBL(callout_block) cb;
1648        cb.version          = 1;   /* Version 1 of the callout block */        cb.version          = 2;   /* Version 1 of the callout block */
1649        cb.callout_number   = ecode[1];        cb.callout_number   = ecode[1];
1650        cb.offset_vector    = md->offset_vector;        cb.offset_vector    = md->offset_vector;
1651    #ifdef COMPILE_PCRE8
1652        cb.subject          = (PCRE_SPTR)md->start_subject;        cb.subject          = (PCRE_SPTR)md->start_subject;
1653        cb.subject_length   = md->end_subject - md->start_subject;  #else
1654        cb.start_match      = mstart - md->start_subject;        cb.subject          = (PCRE_SPTR16)md->start_subject;
1655        cb.current_position = eptr - md->start_subject;  #endif
1656          cb.subject_length   = (int)(md->end_subject - md->start_subject);
1657          cb.start_match      = (int)(mstart - md->start_subject);
1658          cb.current_position = (int)(eptr - md->start_subject);
1659        cb.pattern_position = GET(ecode, 2);        cb.pattern_position = GET(ecode, 2);
1660        cb.next_item_length = GET(ecode, 2 + LINK_SIZE);        cb.next_item_length = GET(ecode, 2 + LINK_SIZE);
1661        cb.capture_top      = offset_top/2;        cb.capture_top      = offset_top/2;
1662        cb.capture_last     = md->capture_last;        cb.capture_last     = md->capture_last;
1663        cb.callout_data     = md->callout_data;        cb.callout_data     = md->callout_data;
1664        if ((rrc = (*pcre_callout)(&cb)) > 0) RRETURN(MATCH_NOMATCH);        cb.mark             = md->nomatch_mark;
1665          if ((rrc = (*PUBL(callout))(&cb)) > 0) RRETURN(MATCH_NOMATCH);
1666        if (rrc < 0) RRETURN(rrc);        if (rrc < 0) RRETURN(rrc);
1667        }        }
1668      ecode += 2 + 2*LINK_SIZE;      ecode += 2 + 2*LINK_SIZE;
# Line 1094  for (;;) Line 1672  for (;;)
1672      offset data is the offset to the starting bracket from the start of the      offset data is the offset to the starting bracket from the start of the
1673      whole pattern. (This is so that it works from duplicated subpatterns.)      whole pattern. (This is so that it works from duplicated subpatterns.)
1674    
1675      If there are any capturing brackets started but not finished, we have to      The state of the capturing groups is preserved over recursion, and
1676      save their starting points and reinstate them after the recursion. However,      re-instated afterwards. We don't know how many are started and not yet
1677      we don't know how many such there are (offset_top records the completed      finished (offset_top records the completed total) so we just have to save
1678      total) so we just have to save all the potential data. There may be up to      all the potential data. There may be up to 65535 such values, which is too
1679      65535 such values, which is too large to put on the stack, but using malloc      large to put on the stack, but using malloc for small numbers seems
1680      for small numbers seems expensive. As a compromise, the stack is used when      expensive. As a compromise, the stack is used when there are no more than
1681      there are no more than REC_STACK_SAVE_MAX values to store; otherwise malloc      REC_STACK_SAVE_MAX values to store; otherwise malloc is used.
     is used. A problem is what to do if the malloc fails ... there is no way of  
     returning to the top level with an error. Save the top REC_STACK_SAVE_MAX  
     values on the stack, and accept that the rest may be wrong.  
1682    
1683      There are also other values that have to be saved. We use a chained      There are also other values that have to be saved. We use a chained
1684      sequence of blocks that actually live on the stack. Thanks to Robin Houston      sequence of blocks that actually live on the stack. Thanks to Robin Houston
1685      for the original version of this logic. */      for the original version of this logic. It has, however, been hacked around
1686        a lot, so he is not to blame for the current way it works. */
1687    
1688      case OP_RECURSE:      case OP_RECURSE:
1689        {        {
1690          recursion_info *ri;
1691          int recno;
1692    
1693        callpat = md->start_code + GET(ecode, 1);        callpat = md->start_code + GET(ecode, 1);
1694        new_recursive.group_num = (callpat == md->start_code)? 0 :        recno = (callpat == md->start_code)? 0 :
1695          GET2(callpat, 1 + LINK_SIZE);          GET2(callpat, 1 + LINK_SIZE);
1696    
1697          /* Check for repeating a recursion without advancing the subject pointer.
1698          This should catch convoluted mutual recursions. (Some simple cases are
1699          caught at compile time.) */
1700    
1701          for (ri = md->recursive; ri != NULL; ri = ri->prevrec)
1702            if (recno == ri->group_num && eptr == ri->subject_position)
1703              RRETURN(PCRE_ERROR_RECURSELOOP);
1704    
1705        /* Add to "recursing stack" */        /* Add to "recursing stack" */
1706    
1707          new_recursive.group_num = recno;
1708          new_recursive.subject_position = eptr;
1709        new_recursive.prevrec = md->recursive;        new_recursive.prevrec = md->recursive;
1710        md->recursive = &new_recursive;        md->recursive = &new_recursive;
1711    
1712        /* Find where to continue from afterwards */        /* Where to continue from afterwards */
1713    
1714        ecode += 1 + LINK_SIZE;        ecode += 1 + LINK_SIZE;
       new_recursive.after_call = ecode;  
1715    
1716        /* Now save the offset data. */        /* Now save the offset data */
1717    
1718        new_recursive.saved_max = md->offset_end;        new_recursive.saved_max = md->offset_end;
1719        if (new_recursive.saved_max <= REC_STACK_SAVE_MAX)        if (new_recursive.saved_max <= REC_STACK_SAVE_MAX)
# Line 1133  for (;;) Line 1721  for (;;)
1721        else        else
1722          {          {
1723          new_recursive.offset_save =          new_recursive.offset_save =
1724            (int *)(pcre_malloc)(new_recursive.saved_max * sizeof(int));            (int *)(PUBL(malloc))(new_recursive.saved_max * sizeof(int));
1725          if (new_recursive.offset_save == NULL) RRETURN(PCRE_ERROR_NOMEMORY);          if (new_recursive.offset_save == NULL) RRETURN(PCRE_ERROR_NOMEMORY);
1726          }          }
   
1727        memcpy(new_recursive.offset_save, md->offset_vector,        memcpy(new_recursive.offset_save, md->offset_vector,
1728              new_recursive.saved_max * sizeof(int));              new_recursive.saved_max * sizeof(int));
       new_recursive.save_start = mstart;  
       new_recursive.offset_top = offset_top;  
       mstart = eptr;  
1729    
1730        /* OK, now we can do the recursion. For each top-level alternative we        /* OK, now we can do the recursion. After processing each alternative,
1731        restore the offset and recursion data. */        restore the offset data. If there were nested recursions, md->recursive
1732          might be changed, so reset it before looping. */
1733    
1734        DPRINTF(("Recursing into group %d\n", new_recursive.group_num));        DPRINTF(("Recursing into group %d\n", new_recursive.group_num));
1735        flags = (*callpat >= OP_SBRA)? match_cbegroup : 0;        cbegroup = (*callpat >= OP_SBRA);
1736        do        do
1737          {          {
1738          RMATCH(eptr, callpat + _pcre_OP_lengths[*callpat], offset_top,          if (cbegroup) md->match_function_type = MATCH_CBEGROUP;
1739            md, ims, eptrb, flags, RM6);          RMATCH(eptr, callpat + PRIV(OP_lengths)[*callpat], offset_top,
1740          if (rrc == MATCH_MATCH)            md, eptrb, RM6);
1741            memcpy(md->offset_vector, new_recursive.offset_save,
1742                new_recursive.saved_max * sizeof(int));
1743            md->recursive = new_recursive.prevrec;
1744            if (rrc == MATCH_MATCH || rrc == MATCH_ACCEPT)
1745            {            {
1746            DPRINTF(("Recursion matched\n"));            DPRINTF(("Recursion matched\n"));
           md->recursive = new_recursive.prevrec;  
1747            if (new_recursive.offset_save != stacksave)            if (new_recursive.offset_save != stacksave)
1748              (pcre_free)(new_recursive.offset_save);              (PUBL(free))(new_recursive.offset_save);
1749            RRETURN(MATCH_MATCH);  
1750              /* Set where we got to in the subject, and reset the start in case
1751              it was changed by \K. This *is* propagated back out of a recursion,
1752              for Perl compatibility. */
1753    
1754              eptr = md->end_match_ptr;
1755              mstart = md->start_match_ptr;
1756              goto RECURSION_MATCHED;        /* Exit loop; end processing */
1757            }            }
1758    
1759            /* PCRE does not allow THEN to escape beyond a recursion; it is treated
1760            as NOMATCH. */
1761    
1762          else if (rrc != MATCH_NOMATCH && rrc != MATCH_THEN)          else if (rrc != MATCH_NOMATCH && rrc != MATCH_THEN)
1763            {            {
1764            DPRINTF(("Recursion gave error %d\n", rrc));            DPRINTF(("Recursion gave error %d\n", rrc));
1765            if (new_recursive.offset_save != stacksave)            if (new_recursive.offset_save != stacksave)
1766              (pcre_free)(new_recursive.offset_save);              (PUBL(free))(new_recursive.offset_save);
1767            RRETURN(rrc);            RRETURN(rrc);
1768            }            }
1769    
1770          md->recursive = &new_recursive;          md->recursive = &new_recursive;
         memcpy(md->offset_vector, new_recursive.offset_save,  
             new_recursive.saved_max * sizeof(int));  
1771          callpat += GET(callpat, 1);          callpat += GET(callpat, 1);
1772          }          }
1773        while (*callpat == OP_ALT);        while (*callpat == OP_ALT);
# Line 1178  for (;;) Line 1775  for (;;)
1775        DPRINTF(("Recursion didn't match\n"));        DPRINTF(("Recursion didn't match\n"));
1776        md->recursive = new_recursive.prevrec;        md->recursive = new_recursive.prevrec;
1777        if (new_recursive.offset_save != stacksave)        if (new_recursive.offset_save != stacksave)
1778          (pcre_free)(new_recursive.offset_save);          (PUBL(free))(new_recursive.offset_save);
1779        RRETURN(MATCH_NOMATCH);        RRETURN(MATCH_NOMATCH);
1780        }        }
     /* Control never reaches here */  
   
     /* "Once" brackets are like assertion brackets except that after a match,  
     the point in the subject string is not moved back. Thus there can never be  
     a move back into the brackets. Friedl calls these "atomic" subpatterns.  
     Check the alternative branches in turn - the matching won't pass the KET  
     for this kind of subpattern. If any one branch matches, we carry on as at  
     the end of a normal bracket, leaving the subject pointer. */  
   
     case OP_ONCE:  
     prev = ecode;  
     saved_eptr = eptr;  
   
     do  
       {  
       RMATCH(eptr, ecode + 1 + LINK_SIZE, offset_top, md, ims, eptrb, 0, RM7);  
       if (rrc == MATCH_MATCH) break;  
       if (rrc != MATCH_NOMATCH && rrc != MATCH_THEN) RRETURN(rrc);  
       ecode += GET(ecode,1);  
       }  
     while (*ecode == OP_ALT);  
   
     /* If hit the end of the group (which could be repeated), fail */  
   
     if (*ecode != OP_ONCE && *ecode != OP_ALT) RRETURN(MATCH_NOMATCH);  
   
     /* Continue as from after the assertion, updating the offsets high water  
     mark, since extracts may have been taken. */  
   
     do ecode += GET(ecode, 1); while (*ecode == OP_ALT);  
   
     offset_top = md->end_offset_top;  
     eptr = md->end_match_ptr;  
   
     /* For a non-repeating ket, just continue at this level. This also  
     happens for a repeating ket if no characters were matched in the group.  
     This is the forcible breaking of infinite loops as implemented in Perl  
     5.005. If there is an options reset, it will get obeyed in the normal  
     course of events. */  
   
     if (*ecode == OP_KET || eptr == saved_eptr)  
       {  
       ecode += 1+LINK_SIZE;  
       break;  
       }  
   
     /* The repeating kets try the rest of the pattern or restart from the  
     preceding bracket, in the appropriate order. The second "call" of match()  
     uses tail recursion, to avoid using another stack frame. We need to reset  
     any options that changed within the bracket before re-running it, so  
     check the next opcode. */  
   
     if (ecode[1+LINK_SIZE] == OP_OPT)  
       {  
       ims = (ims & ~PCRE_IMS) | ecode[4];  
       DPRINTF(("ims set to %02lx at group repeat\n", ims));  
       }  
1781    
1782      if (*ecode == OP_KETRMIN)      RECURSION_MATCHED:
1783        {      break;
       RMATCH(eptr, ecode + 1 + LINK_SIZE, offset_top, md, ims, eptrb, 0, RM8);  
       if (rrc != MATCH_NOMATCH) RRETURN(rrc);  
       ecode = prev;  
       flags = 0;  
       goto TAIL_RECURSE;  
       }  
     else  /* OP_KETRMAX */  
       {  
       RMATCH(eptr, prev, offset_top, md, ims, eptrb, match_cbegroup, RM9);  
       if (rrc != MATCH_NOMATCH) RRETURN(rrc);  
       ecode += 1 + LINK_SIZE;  
       flags = 0;  
       goto TAIL_RECURSE;  
       }  
     /* Control never gets here */  
1784    
1785      /* An alternation is the end of a branch; scan along to find the end of the      /* An alternation is the end of a branch; scan along to find the end of the
1786      bracketed group and go to there. */      bracketed group and go to there. */
# Line 1271  for (;;) Line 1796  for (;;)
1796      optional ones preceded by BRAZERO or BRAMINZERO. */      optional ones preceded by BRAZERO or BRAMINZERO. */
1797    
1798      case OP_BRAZERO:      case OP_BRAZERO:
1799        {      next = ecode + 1;
1800        next = ecode+1;      RMATCH(eptr, next, offset_top, md, eptrb, RM10);
1801        RMATCH(eptr, next, offset_top, md, ims, eptrb, 0, RM10);      if (rrc != MATCH_NOMATCH) RRETURN(rrc);
1802        if (rrc != MATCH_NOMATCH) RRETURN(rrc);      do next += GET(next, 1); while (*next == OP_ALT);
1803        do next += GET(next,1); while (*next == OP_ALT);      ecode = next + 1 + LINK_SIZE;
       ecode = next + 1 + LINK_SIZE;  
       }  
1804      break;      break;
1805    
1806      case OP_BRAMINZERO:      case OP_BRAMINZERO:
1807        {      next = ecode + 1;
1808        next = ecode+1;      do next += GET(next, 1); while (*next == OP_ALT);
1809        do next += GET(next, 1); while (*next == OP_ALT);      RMATCH(eptr, next + 1+LINK_SIZE, offset_top, md, eptrb, RM11);
1810        RMATCH(eptr, next + 1+LINK_SIZE, offset_top, md, ims, eptrb, 0, RM11);      if (rrc != MATCH_NOMATCH) RRETURN(rrc);
1811        if (rrc != MATCH_NOMATCH) RRETURN(rrc);      ecode++;
       ecode++;  
       }  
1812      break;      break;
1813    
1814      case OP_SKIPZERO:      case OP_SKIPZERO:
1815        {      next = ecode+1;
1816        next = ecode+1;      do next += GET(next,1); while (*next == OP_ALT);
1817        do next += GET(next,1); while (*next == OP_ALT);      ecode = next + 1 + LINK_SIZE;
       ecode = next + 1 + LINK_SIZE;  
       }  
1818      break;      break;
1819    
1820        /* BRAPOSZERO occurs before a possessive bracket group. Don't do anything
1821        here; just jump to the group, with allow_zero set TRUE. */
1822    
1823        case OP_BRAPOSZERO:
1824        op = *(++ecode);
1825        allow_zero = TRUE;
1826        if (op == OP_CBRAPOS || op == OP_SCBRAPOS) goto POSSESSIVE_CAPTURE;
1827          goto POSSESSIVE_NON_CAPTURE;
1828    
1829      /* End of a group, repeated or non-repeating. */      /* End of a group, repeated or non-repeating. */
1830    
1831      case OP_KET:      case OP_KET:
1832      case OP_KETRMIN:      case OP_KETRMIN:
1833      case OP_KETRMAX:      case OP_KETRMAX:
1834        case OP_KETRPOS:
1835      prev = ecode - GET(ecode, 1);      prev = ecode - GET(ecode, 1);
1836    
1837      /* If this was a group that remembered the subject start, in order to break      /* If this was a group that remembered the subject start, in order to break
1838      infinite repeats of empty string matches, retrieve the subject start from      infinite repeats of empty string matches, retrieve the subject start from
1839      the chain. Otherwise, set it NULL. */      the chain. Otherwise, set it NULL. */
1840    
1841      if (*prev >= OP_SBRA)      if (*prev >= OP_SBRA || *prev == OP_ONCE)
1842        {        {
1843        saved_eptr = eptrb->epb_saved_eptr;   /* Value at start of group */        saved_eptr = eptrb->epb_saved_eptr;   /* Value at start of group */
1844        eptrb = eptrb->epb_prev;              /* Backup to previous group */        eptrb = eptrb->epb_prev;              /* Backup to previous group */
1845        }        }
1846      else saved_eptr = NULL;      else saved_eptr = NULL;
1847    
1848      /* If we are at the end of an assertion group, stop matching and return      /* If we are at the end of an assertion group or a non-capturing atomic
1849      MATCH_MATCH, but record the current high water mark for use by positive      group, stop matching and return MATCH_MATCH, but record the current high
1850      assertions. Do this also for the "once" (atomic) groups. */      water mark for use by positive assertions. We also need to record the match
1851        start in case it was changed by \K. */
1852      if (*prev == OP_ASSERT || *prev == OP_ASSERT_NOT ||  
1853          *prev == OP_ASSERTBACK || *prev == OP_ASSERTBACK_NOT ||      if ((*prev >= OP_ASSERT && *prev <= OP_ASSERTBACK_NOT) ||
1854          *prev == OP_ONCE)           *prev == OP_ONCE_NC)
1855        {        {
1856        md->end_match_ptr = eptr;      /* For ONCE */        md->end_match_ptr = eptr;      /* For ONCE_NC */
1857        md->end_offset_top = offset_top;        md->end_offset_top = offset_top;
1858        RRETURN(MATCH_MATCH);        md->start_match_ptr = mstart;
1859          RRETURN(MATCH_MATCH);         /* Sets md->mark */
1860        }        }
1861    
1862      /* For capturing groups we have to check the group number back at the start      /* For capturing groups we have to check the group number back at the start
1863      and if necessary complete handling an extraction by setting the offsets and      and if necessary complete handling an extraction by setting the offsets and
1864      bumping the high water mark. Note that whole-pattern recursion is coded as      bumping the high water mark. Whole-pattern recursion is coded as a recurse
1865      a recurse into group 0, so it won't be picked up here. Instead, we catch it      into group 0, so it won't be picked up here. Instead, we catch it when the
1866      when the OP_END is reached. Other recursion is handled here. */      OP_END is reached. Other recursion is handled here. We just have to record
1867        the current subject position and start match pointer and give a MATCH
1868        return. */
1869    
1870      if (*prev == OP_CBRA || *prev == OP_SCBRA)      if (*prev == OP_CBRA || *prev == OP_SCBRA ||
1871            *prev == OP_CBRAPOS || *prev == OP_SCBRAPOS)
1872        {        {
1873        number = GET2(prev, 1+LINK_SIZE);        number = GET2(prev, 1+LINK_SIZE);
1874        offset = number << 1;        offset = number << 1;
1875    
1876  #ifdef DEBUG  #ifdef PCRE_DEBUG
1877        printf("end bracket %d", number);        printf("end bracket %d", number);
1878        printf("\n");        printf("\n");
1879  #endif  #endif
1880    
1881          /* Handle a recursively called group. */
1882    
1883          if (md->recursive != NULL && md->recursive->group_num == number)
1884            {
1885            md->end_match_ptr = eptr;
1886            md->start_match_ptr = mstart;
1887            RRETURN(MATCH_MATCH);
1888            }
1889    
1890          /* Deal with capturing */
1891    
1892        md->capture_last = number;        md->capture_last = number;
1893        if (offset >= md->offset_max) md->offset_overflow = TRUE; else        if (offset >= md->offset_max) md->offset_overflow = TRUE; else
1894          {          {
1895            /* If offset is greater than offset_top, it means that we are
1896            "skipping" a capturing group, and that group's offsets must be marked
1897            unset. In earlier versions of PCRE, all the offsets were unset at the
1898            start of matching, but this doesn't work because atomic groups and
1899            assertions can cause a value to be set that should later be unset.
1900            Example: matching /(?>(a))b|(a)c/ against "ac". This sets group 1 as
1901            part of the atomic group, but this is not on the final matching path,
1902            so must be unset when 2 is set. (If there is no group 2, there is no
1903            problem, because offset_top will then be 2, indicating no capture.) */
1904    
1905            if (offset > offset_top)
1906              {
1907              register int *iptr = md->offset_vector + offset_top;
1908              register int *iend = md->offset_vector + offset;
1909              while (iptr < iend) *iptr++ = -1;
1910              }
1911    
1912            /* Now make the extraction */
1913    
1914          md->offset_vector[offset] =          md->offset_vector[offset] =
1915            md->offset_vector[md->offset_end - number];            md->offset_vector[md->offset_end - number];
1916          md->offset_vector[offset+1] = eptr - md->start_subject;          md->offset_vector[offset+1] = (int)(eptr - md->start_subject);
1917          if (offset_top <= offset) offset_top = offset + 2;          if (offset_top <= offset) offset_top = offset + 2;
1918          }          }
1919          }
1920    
1921        /* Handle a recursively called group. Restore the offsets      /* For an ordinary non-repeating ket, just continue at this level. This
1922        appropriately and continue from after the call. */      also happens for a repeating ket if no characters were matched in the
1923        group. This is the forcible breaking of infinite loops as implemented in
1924        Perl 5.005. For a non-repeating atomic group that includes captures,
1925        establish a backup point by processing the rest of the pattern at a lower
1926        level. If this results in a NOMATCH return, pass MATCH_ONCE back to the
1927        original OP_ONCE level, thereby bypassing intermediate backup points, but
1928        resetting any captures that happened along the way. */
1929    
1930        if (md->recursive != NULL && md->recursive->group_num == number)      if (*ecode == OP_KET || eptr == saved_eptr)
1931          {
1932          if (*prev == OP_ONCE)
1933          {          {
1934          recursion_info *rec = md->recursive;          RMATCH(eptr, ecode + 1 + LINK_SIZE, offset_top, md, eptrb, RM12);
1935          DPRINTF(("Recursion (%d) succeeded - continuing\n", number));          if (rrc != MATCH_NOMATCH) RRETURN(rrc);
1936          md->recursive = rec->prevrec;          md->once_target = prev;  /* Level at which to change to MATCH_NOMATCH */
1937          mstart = rec->save_start;          RRETURN(MATCH_ONCE);
         memcpy(md->offset_vector, rec->offset_save,  
           rec->saved_max * sizeof(int));  
         offset_top = rec->offset_top;  
         ecode = rec->after_call;  
         ims = original_ims;  
         break;  
1938          }          }
1939          ecode += 1 + LINK_SIZE;    /* Carry on at this level */
1940          break;
1941        }        }
1942    
1943      /* For both capturing and non-capturing groups, reset the value of the ims      /* OP_KETRPOS is a possessive repeating ket. Remember the current position,
1944      flags, in case they got changed during the group. */      and return the MATCH_KETRPOS. This makes it possible to do the repeats one
1945        at a time from the outer level, thus saving stack. */
     ims = original_ims;  
     DPRINTF(("ims reset to %02lx\n", ims));  
   
     /* For a non-repeating ket, just continue at this level. This also  
     happens for a repeating ket if no characters were matched in the group.  
     This is the forcible breaking of infinite loops as implemented in Perl  
     5.005. If there is an options reset, it will get obeyed in the normal  
     course of events. */  
1946    
1947      if (*ecode == OP_KET || eptr == saved_eptr)      if (*ecode == OP_KETRPOS)
1948        {        {
1949        ecode += 1 + LINK_SIZE;        md->end_match_ptr = eptr;
1950        break;        md->end_offset_top = offset_top;
1951          RRETURN(MATCH_KETRPOS);
1952        }        }
1953    
1954      /* The repeating kets try the rest of the pattern or restart from the      /* The normal repeating kets try the rest of the pattern or restart from
1955      preceding bracket, in the appropriate order. In the second case, we can use      the preceding bracket, in the appropriate order. In the second case, we can
1956      tail recursion to avoid using another stack frame, unless we have an      use tail recursion to avoid using another stack frame, unless we have an
1957      unlimited repeat of a group that can match an empty string. */      an atomic group or an unlimited repeat of a group that can match an empty
1958        string. */
     flags = (*prev >= OP_SBRA)? match_cbegroup : 0;  
1959    
1960      if (*ecode == OP_KETRMIN)      if (*ecode == OP_KETRMIN)
1961        {        {
1962        RMATCH(eptr, ecode + 1 + LINK_SIZE, offset_top, md, ims, eptrb, 0, RM12);        RMATCH(eptr, ecode + 1 + LINK_SIZE, offset_top, md, eptrb, RM7);
1963        if (rrc != MATCH_NOMATCH) RRETURN(rrc);        if (rrc != MATCH_NOMATCH) RRETURN(rrc);
1964        if (flags != 0)    /* Could match an empty string */        if (*prev == OP_ONCE)
1965          {          {
1966          RMATCH(eptr, prev, offset_top, md, ims, eptrb, flags, RM50);          RMATCH(eptr, prev, offset_top, md, eptrb, RM8);
1967            if (rrc != MATCH_NOMATCH) RRETURN(rrc);
1968            md->once_target = prev;  /* Level at which to change to MATCH_NOMATCH */
1969            RRETURN(MATCH_ONCE);
1970            }
1971          if (*prev >= OP_SBRA)    /* Could match an empty string */
1972            {
1973            md->match_function_type = MATCH_CBEGROUP;
1974            RMATCH(eptr, prev, offset_top, md, eptrb, RM50);
1975          RRETURN(rrc);          RRETURN(rrc);
1976          }          }
1977        ecode = prev;        ecode = prev;
# Line 1411  for (;;) Line 1979  for (;;)
1979        }        }
1980      else  /* OP_KETRMAX */      else  /* OP_KETRMAX */
1981        {        {
1982        RMATCH(eptr, prev, offset_top, md, ims, eptrb, flags, RM13);        if (*prev >= OP_SBRA) md->match_function_type = MATCH_CBEGROUP;
1983          RMATCH(eptr, prev, offset_top, md, eptrb, RM13);
1984          if (rrc == MATCH_ONCE && md->once_target == prev) rrc = MATCH_NOMATCH;
1985        if (rrc != MATCH_NOMATCH) RRETURN(rrc);        if (rrc != MATCH_NOMATCH) RRETURN(rrc);
1986          if (*prev == OP_ONCE)
1987            {
1988            RMATCH(eptr, ecode + 1 + LINK_SIZE, offset_top, md, eptrb, RM9);
1989            if (rrc != MATCH_NOMATCH) RRETURN(rrc);
1990            md->once_target = prev;
1991            RRETURN(MATCH_ONCE);
1992            }
1993        ecode += 1 + LINK_SIZE;        ecode += 1 + LINK_SIZE;
       flags = 0;  
1994        goto TAIL_RECURSE;        goto TAIL_RECURSE;
1995        }        }
1996      /* Control never gets here */      /* Control never gets here */
1997    
1998      /* Start of subject unless notbol, or after internal newline if multiline */      /* Not multiline mode: start of subject assertion, unless notbol. */
1999    
2000      case OP_CIRC:      case OP_CIRC:
2001      if (md->notbol && eptr == md->start_subject) RRETURN(MATCH_NOMATCH);      if (md->notbol && eptr == md->start_subject) RRETURN(MATCH_NOMATCH);
     if ((ims & PCRE_MULTILINE) != 0)  
       {  
       if (eptr != md->start_subject &&  
           (eptr == md->end_subject || !WAS_NEWLINE(eptr)))  
         RRETURN(MATCH_NOMATCH);  
       ecode++;  
       break;  
       }  
     /* ... else fall through */  
2002    
2003      /* Start of subject assertion */      /* Start of subject assertion */
2004    
# Line 1440  for (;;) Line 2007  for (;;)
2007      ecode++;      ecode++;
2008      break;      break;
2009    
2010        /* Multiline mode: start of subject unless notbol, or after any newline. */
2011    
2012        case OP_CIRCM:
2013        if (md->notbol && eptr == md->start_subject) RRETURN(MATCH_NOMATCH);
2014        if (eptr != md->start_subject &&
2015            (eptr == md->end_subject || !WAS_NEWLINE(eptr)))
2016          RRETURN(MATCH_NOMATCH);
2017        ecode++;
2018        break;
2019    
2020      /* Start of match assertion */      /* Start of match assertion */
2021    
2022      case OP_SOM:      case OP_SOM:
# Line 1454  for (;;) Line 2031  for (;;)
2031      ecode++;      ecode++;
2032      break;      break;
2033    
2034      /* Assert before internal newline if multiline, or before a terminating      /* Multiline mode: assert before any newline, or before end of subject
2035      newline unless endonly is set, else end of subject unless noteol is set. */      unless noteol is set. */
2036    
2037      case OP_DOLL:      case OP_DOLLM:
2038      if ((ims & PCRE_MULTILINE) != 0)      if (eptr < md->end_subject)
2039        {        { if (!IS_NEWLINE(eptr)) RRETURN(MATCH_NOMATCH); }
       if (eptr < md->end_subject)  
         { if (!IS_NEWLINE(eptr)) RRETURN(MATCH_NOMATCH); }  
       else  
         { if (md->noteol) RRETURN(MATCH_NOMATCH); }  
       ecode++;  
       break;  
       }  
2040      else      else
2041        {        {
2042        if (md->noteol) RRETURN(MATCH_NOMATCH);        if (md->noteol) RRETURN(MATCH_NOMATCH);
2043        if (!md->endonly)        SCHECK_PARTIAL();
         {  
         if (eptr != md->end_subject &&  
             (!IS_NEWLINE(eptr) || eptr != md->end_subject - md->nllen))  
           RRETURN(MATCH_NOMATCH);  
         ecode++;  
         break;  
         }  
2044        }        }
2045        ecode++;
2046        break;
2047    
2048        /* Not multiline mode: assert before a terminating newline or before end of
2049        subject unless noteol is set. */
2050    
2051        case OP_DOLL:
2052        if (md->noteol) RRETURN(MATCH_NOMATCH);
2053        if (!md->endonly) goto ASSERT_NL_OR_EOS;
2054    
2055      /* ... else fall through for endonly */      /* ... else fall through for endonly */
2056    
2057      /* End of subject assertion (\z) */      /* End of subject assertion (\z) */
2058    
2059      case OP_EOD:      case OP_EOD:
2060      if (eptr < md->end_subject) RRETURN(MATCH_NOMATCH);      if (eptr < md->end_subject) RRETURN(MATCH_NOMATCH);
2061        SCHECK_PARTIAL();
2062      ecode++;      ecode++;
2063      break;      break;
2064    
2065      /* End of subject or ending \n assertion (\Z) */      /* End of subject or ending \n assertion (\Z) */
2066    
2067      case OP_EODN:      case OP_EODN:
2068      if (eptr != md->end_subject &&      ASSERT_NL_OR_EOS:
2069        if (eptr < md->end_subject &&
2070          (!IS_NEWLINE(eptr) || eptr != md->end_subject - md->nllen))          (!IS_NEWLINE(eptr) || eptr != md->end_subject - md->nllen))
2071        RRETURN(MATCH_NOMATCH);        RRETURN(MATCH_NOMATCH);
2072    
2073        /* Either at end of string or \n before end. */
2074    
2075        SCHECK_PARTIAL();
2076      ecode++;      ecode++;
2077      break;      break;
2078    
# Line 1508  for (;;) Line 2087  for (;;)
2087        be "non-word" characters. Remember the earliest consulted character for        be "non-word" characters. Remember the earliest consulted character for
2088        partial matching. */        partial matching. */
2089    
2090  #ifdef SUPPORT_UTF8  #ifdef SUPPORT_UTF
2091        if (utf8)        if (utf)
2092          {          {
2093            /* Get status of previous character */
2094    
2095          if (eptr == md->start_subject) prev_is_word = FALSE; else          if (eptr == md->start_subject) prev_is_word = FALSE; else
2096            {            {
2097            USPTR lastptr = eptr - 1;            PCRE_PUCHAR lastptr = eptr - 1;
2098            while((*lastptr & 0xc0) == 0x80) lastptr--;            BACKCHAR(lastptr);
2099            if (lastptr < md->start_used_ptr) md->start_used_ptr = lastptr;            if (lastptr < md->start_used_ptr) md->start_used_ptr = lastptr;
2100            GETCHAR(c, lastptr);            GETCHAR(c, lastptr);
2101    #ifdef SUPPORT_UCP
2102              if (md->use_ucp)
2103                {
2104                if (c == '_') prev_is_word = TRUE; else
2105                  {
2106                  int cat = UCD_CATEGORY(c);
2107                  prev_is_word = (cat == ucp_L || cat == ucp_N);
2108                  }
2109                }
2110              else
2111    #endif
2112            prev_is_word = c < 256 && (md->ctypes[c] & ctype_word) != 0;            prev_is_word = c < 256 && (md->ctypes[c] & ctype_word) != 0;
2113            }            }
2114    
2115            /* Get status of next character */
2116    
2117          if (eptr >= md->end_subject)          if (eptr >= md->end_subject)
2118            {            {
2119            SCHECK_PARTIAL();            SCHECK_PARTIAL();
# Line 1527  for (;;) Line 2122  for (;;)
2122          else          else
2123            {            {
2124            GETCHAR(c, eptr);            GETCHAR(c, eptr);
2125    #ifdef SUPPORT_UCP
2126              if (md->use_ucp)
2127                {
2128                if (c == '_') cur_is_word = TRUE; else
2129                  {
2130                  int cat = UCD_CATEGORY(c);
2131                  cur_is_word = (cat == ucp_L || cat == ucp_N);
2132                  }
2133                }
2134              else
2135    #endif
2136            cur_is_word = c < 256 && (md->ctypes[c] & ctype_word) != 0;            cur_is_word = c < 256 && (md->ctypes[c] & ctype_word) != 0;
2137            }            }
2138          }          }
2139        else        else
2140  #endif  #endif
2141    
2142        /* Not in UTF-8 mode */        /* Not in UTF-8 mode, but we may still have PCRE_UCP set, and for
2143          consistency with the behaviour of \w we do use it in this case. */
2144    
2145          {          {
2146            /* Get status of previous character */
2147    
2148          if (eptr == md->start_subject) prev_is_word = FALSE; else          if (eptr == md->start_subject) prev_is_word = FALSE; else
2149            {            {
2150            if (eptr <= md->start_used_ptr) md->start_used_ptr = eptr - 1;            if (eptr <= md->start_used_ptr) md->start_used_ptr = eptr - 1;
2151            prev_is_word = ((md->ctypes[eptr[-1]] & ctype_word) != 0);  #ifdef SUPPORT_UCP
2152              if (md->use_ucp)
2153                {
2154                c = eptr[-1];
2155                if (c == '_') prev_is_word = TRUE; else
2156                  {
2157                  int cat = UCD_CATEGORY(c);
2158                  prev_is_word = (cat == ucp_L || cat == ucp_N);
2159                  }
2160                }
2161              else
2162    #endif
2163              prev_is_word = MAX_255(eptr[-1])
2164                && ((md->ctypes[eptr[-1]] & ctype_word) != 0);
2165            }            }
2166    
2167            /* Get status of next character */
2168    
2169          if (eptr >= md->end_subject)          if (eptr >= md->end_subject)
2170            {            {
2171            SCHECK_PARTIAL();            SCHECK_PARTIAL();
2172            cur_is_word = FALSE;            cur_is_word = FALSE;
2173            }            }
2174          else cur_is_word = ((md->ctypes[*eptr] & ctype_word) != 0);          else
2175    #ifdef SUPPORT_UCP
2176            if (md->use_ucp)
2177              {
2178              c = *eptr;
2179              if (c == '_') cur_is_word = TRUE; else
2180                {
2181                int cat = UCD_CATEGORY(c);
2182                cur_is_word = (cat == ucp_L || cat == ucp_N);
2183                }
2184              }
2185            else
2186    #endif
2187            cur_is_word = MAX_255(*eptr)
2188              && ((md->ctypes[*eptr] & ctype_word) != 0);
2189          }          }
2190    
2191        /* Now see if the situation is what we want */        /* Now see if the situation is what we want */
# Line 1564  for (;;) Line 2203  for (;;)
2203      /* Fall through */      /* Fall through */
2204    
2205      case OP_ALLANY:      case OP_ALLANY:
2206      if (eptr++ >= md->end_subject)      if (eptr >= md->end_subject)   /* DO NOT merge the eptr++ here; it must */
2207        {        {                            /* not be updated before SCHECK_PARTIAL. */
2208        SCHECK_PARTIAL();        SCHECK_PARTIAL();
2209        RRETURN(MATCH_NOMATCH);        RRETURN(MATCH_NOMATCH);
2210        }        }
2211      if (utf8) while (eptr < md->end_subject && (*eptr & 0xc0) == 0x80) eptr++;      eptr++;
2212    #ifdef SUPPORT_UTF
2213        if (utf) ACROSSCHAR(eptr < md->end_subject, *eptr, eptr++);
2214    #endif
2215      ecode++;      ecode++;
2216      break;      break;
2217    
# Line 1577  for (;;) Line 2219  for (;;)
2219      any byte, even newline, independent of the setting of PCRE_DOTALL. */      any byte, even newline, independent of the setting of PCRE_DOTALL. */
2220    
2221      case OP_ANYBYTE:      case OP_ANYBYTE:
2222      if (eptr++ >= md->end_subject)      if (eptr >= md->end_subject)   /* DO NOT merge the eptr++ here; it must */
2223        {        {                            /* not be updated before SCHECK_PARTIAL. */
2224        SCHECK_PARTIAL();        SCHECK_PARTIAL();
2225        RRETURN(MATCH_NOMATCH);        RRETURN(MATCH_NOMATCH);
2226        }        }
2227        eptr++;
2228      ecode++;      ecode++;
2229      break;      break;
2230    
# Line 1593  for (;;) Line 2236  for (;;)
2236        }        }
2237      GETCHARINCTEST(c, eptr);      GETCHARINCTEST(c, eptr);
2238      if (      if (
2239  #ifdef SUPPORT_UTF8  #if defined SUPPORT_UTF || !(defined COMPILE_PCRE8)
2240         c < 256 &&         c < 256 &&
2241  #endif  #endif
2242         (md->ctypes[c] & ctype_digit) != 0         (md->ctypes[c] & ctype_digit) != 0
# Line 1610  for (;;) Line 2253  for (;;)
2253        }        }
2254      GETCHARINCTEST(c, eptr);      GETCHARINCTEST(c, eptr);
2255      if (      if (
2256  #ifdef SUPPORT_UTF8  #if defined SUPPORT_UTF || !(defined COMPILE_PCRE8)
2257         c >= 256 ||         c > 255 ||
2258  #endif  #endif
2259         (md->ctypes[c] & ctype_digit) == 0         (md->ctypes[c] & ctype_digit) == 0
2260         )         )
# Line 1627  for (;;) Line 2270  for (;;)
2270        }        }
2271      GETCHARINCTEST(c, eptr);      GETCHARINCTEST(c, eptr);
2272      if (      if (
2273  #ifdef SUPPORT_UTF8  #if defined SUPPORT_UTF || !(defined COMPILE_PCRE8)
2274         c < 256 &&         c < 256 &&
2275  #endif  #endif
2276         (md->ctypes[c] & ctype_space) != 0         (md->ctypes[c] & ctype_space) != 0
# Line 1644  for (;;) Line 2287  for (;;)
2287        }        }
2288      GETCHARINCTEST(c, eptr);      GETCHARINCTEST(c, eptr);
2289      if (      if (
2290  #ifdef SUPPORT_UTF8  #if defined SUPPORT_UTF || !(defined COMPILE_PCRE8)
2291         c >= 256 ||         c > 255 ||
2292  #endif  #endif
2293         (md->ctypes[c] & ctype_space) == 0         (md->ctypes[c] & ctype_space) == 0
2294         )         )
# Line 1661  for (;;) Line 2304  for (;;)
2304        }        }
2305      GETCHARINCTEST(c, eptr);      GETCHARINCTEST(c, eptr);
2306      if (      if (
2307  #ifdef SUPPORT_UTF8  #if defined SUPPORT_UTF || !(defined COMPILE_PCRE8)
2308         c < 256 &&         c < 256 &&
2309  #endif  #endif
2310         (md->ctypes[c] & ctype_word) != 0         (md->ctypes[c] & ctype_word) != 0
# Line 1678  for (;;) Line 2321  for (;;)
2321        }        }
2322      GETCHARINCTEST(c, eptr);      GETCHARINCTEST(c, eptr);
2323      if (      if (
2324  #ifdef SUPPORT_UTF8  #if defined SUPPORT_UTF || !(defined COMPILE_PCRE8)
2325         c >= 256 ||         c > 255 ||
2326  #endif  #endif
2327         (md->ctypes[c] & ctype_word) == 0         (md->ctypes[c] & ctype_word) == 0
2328         )         )
# Line 1697  for (;;) Line 2340  for (;;)
2340      switch(c)      switch(c)
2341        {        {
2342        default: RRETURN(MATCH_NOMATCH);        default: RRETURN(MATCH_NOMATCH);
2343    
2344        case 0x000d:        case 0x000d:
2345        if (eptr < md->end_subject && *eptr == 0x0a) eptr++;        if (eptr < md->end_subject && *eptr == 0x0a) eptr++;
2346        break;        break;
# Line 1853  for (;;) Line 2497  for (;;)
2497               prop->chartype == ucp_Ll ||               prop->chartype == ucp_Ll ||
2498               prop->chartype == ucp_Lt) == (op == OP_NOTPROP))               prop->chartype == ucp_Lt) == (op == OP_NOTPROP))
2499            RRETURN(MATCH_NOMATCH);            RRETURN(MATCH_NOMATCH);
2500           break;          break;
2501    
2502            case PT_GC:
2503            if ((ecode[2] != PRIV(ucp_gentype)[prop->chartype]) == (op == OP_PROP))
2504              RRETURN(MATCH_NOMATCH);
2505            break;
2506    
2507            case PT_PC:
2508            if ((ecode[2] != prop->chartype) == (op == OP_PROP))
2509              RRETURN(MATCH_NOMATCH);
2510            break;
2511    
2512            case PT_SC:
2513            if ((ecode[2] != prop->script) == (op == OP_PROP))
2514              RRETURN(MATCH_NOMATCH);
2515            break;
2516    
2517            /* These are specials */
2518    
2519            case PT_ALNUM:
2520            if ((PRIV(ucp_gentype)[prop->chartype] == ucp_L ||
2521                 PRIV(ucp_gentype)[prop->chartype] == ucp_N) == (op == OP_NOTPROP))
2522              RRETURN(MATCH_NOMATCH);
2523            break;
2524    
2525          case PT_GC:          case PT_SPACE:    /* Perl space */
2526          if ((ecode[2] != _pcre_ucp_gentype[prop->chartype]) == (op == OP_PROP))          if ((PRIV(ucp_gentype)[prop->chartype] == ucp_Z ||
2527                 c == CHAR_HT || c == CHAR_NL || c == CHAR_FF || c == CHAR_CR)
2528                   == (op == OP_NOTPROP))
2529            RRETURN(MATCH_NOMATCH);            RRETURN(MATCH_NOMATCH);
2530          break;          break;
2531    
2532          case PT_PC:          case PT_PXSPACE:  /* POSIX space */
2533          if ((ecode[2] != prop->chartype) == (op == OP_PROP))          if ((PRIV(ucp_gentype)[prop->chartype] == ucp_Z ||
2534                 c == CHAR_HT || c == CHAR_NL || c == CHAR_VT ||
2535                 c == CHAR_FF || c == CHAR_CR)
2536                   == (op == OP_NOTPROP))
2537            RRETURN(MATCH_NOMATCH);            RRETURN(MATCH_NOMATCH);
2538          break;          break;
2539    
2540          case PT_SC:          case PT_WORD:
2541          if ((ecode[2] != prop->script) == (op == OP_PROP))          if ((PRIV(ucp_gentype)[prop->chartype] == ucp_L ||
2542                 PRIV(ucp_gentype)[prop->chartype] == ucp_N ||
2543                 c == CHAR_UNDERSCORE) == (op == OP_NOTPROP))
2544            RRETURN(MATCH_NOMATCH);            RRETURN(MATCH_NOMATCH);
2545          break;          break;
2546    
2547            /* This should never occur */
2548    
2549          default:          default:
2550          RRETURN(PCRE_ERROR_INTERNAL);          RRETURN(PCRE_ERROR_INTERNAL);
2551          }          }
# Line 1888  for (;;) Line 2564  for (;;)
2564        RRETURN(MATCH_NOMATCH);        RRETURN(MATCH_NOMATCH);
2565        }        }
2566      GETCHARINCTEST(c, eptr);      GETCHARINCTEST(c, eptr);
2567        if (UCD_CATEGORY(c) == ucp_M) RRETURN(MATCH_NOMATCH);
2568        while (eptr < md->end_subject)
2569        {        {
2570        int category = UCD_CATEGORY(c);        int len = 1;
2571        if (category == ucp_M) RRETURN(MATCH_NOMATCH);        if (!utf) c = *eptr; else { GETCHARLEN(c, eptr, len); }
2572        while (eptr < md->end_subject)        if (UCD_CATEGORY(c) != ucp_M) break;
2573          {        eptr += len;
         int len = 1;  
         if (!utf8) c = *eptr; else  
           {  
           GETCHARLEN(c, eptr, len);  
           }  
         category = UCD_CATEGORY(c);  
         if (category != ucp_M) break;  
         eptr += len;  
         }  
2574        }        }
2575      ecode++;      ecode++;
2576      break;      break;
# Line 1917  for (;;) Line 2586  for (;;)
2586      loops). */      loops). */
2587    
2588      case OP_REF:      case OP_REF:
2589        {      case OP_REFI:
2590        offset = GET2(ecode, 1) << 1;               /* Doubled ref number */      caseless = op == OP_REFI;
2591        ecode += 3;      offset = GET2(ecode, 1) << 1;               /* Doubled ref number */
2592        ecode += 1 + IMM2_SIZE;
2593    
2594        /* If the reference is unset, there are two possibilities:      /* If the reference is unset, there are two possibilities:
2595    
2596        (a) In the default, Perl-compatible state, set the length to be longer      (a) In the default, Perl-compatible state, set the length negative;
2597        than the amount of subject left; this ensures that every attempt at a      this ensures that every attempt at a match fails. We can't just fail
2598        match fails. We can't just fail here, because of the possibility of      here, because of the possibility of quantifiers with zero minima.
       quantifiers with zero minima.  
2599    
2600        (b) If the JavaScript compatibility flag is set, set the length to zero      (b) If the JavaScript compatibility flag is set, set the length to zero
2601        so that the back reference matches an empty string.      so that the back reference matches an empty string.
2602    
2603        Otherwise, set the length to the length of what was matched by the      Otherwise, set the length to the length of what was matched by the
2604        referenced subpattern. */      referenced subpattern. */
2605    
2606        if (offset >= offset_top || md->offset_vector[offset] < 0)      if (offset >= offset_top || md->offset_vector[offset] < 0)
2607          length = (md->jscript_compat)? 0 : md->end_subject - eptr + 1;        length = (md->jscript_compat)? 0 : -1;
2608        else      else
2609          length = md->offset_vector[offset+1] - md->offset_vector[offset];        length = md->offset_vector[offset+1] - md->offset_vector[offset];
2610    
2611        /* Set up for repetition, or handle the non-repeated case */      /* Set up for repetition, or handle the non-repeated case */
2612    
2613        switch (*ecode)      switch (*ecode)
2614          {        {
2615          case OP_CRSTAR:        case OP_CRSTAR:
2616          case OP_CRMINSTAR:        case OP_CRMINSTAR:
2617          case OP_CRPLUS:        case OP_CRPLUS:
2618          case OP_CRMINPLUS:        case OP_CRMINPLUS:
2619          case OP_CRQUERY:        case OP_CRQUERY:
2620          case OP_CRMINQUERY:        case OP_CRMINQUERY:
2621          c = *ecode++ - OP_CRSTAR;        c = *ecode++ - OP_CRSTAR;
2622          minimize = (c & 1) != 0;        minimize = (c & 1) != 0;
2623          min = rep_min[c];                 /* Pick up values from tables; */        min = rep_min[c];                 /* Pick up values from tables; */
2624          max = rep_max[c];                 /* zero for max => infinity */        max = rep_max[c];                 /* zero for max => infinity */
2625          if (max == 0) max = INT_MAX;        if (max == 0) max = INT_MAX;
2626          break;        break;
2627    
2628          case OP_CRRANGE:        case OP_CRRANGE:
2629          case OP_CRMINRANGE:        case OP_CRMINRANGE:
2630          minimize = (*ecode == OP_CRMINRANGE);        minimize = (*ecode == OP_CRMINRANGE);
2631          min = GET2(ecode, 1);        min = GET2(ecode, 1);
2632          max = GET2(ecode, 3);        max = GET2(ecode, 1 + IMM2_SIZE);
2633          if (max == 0) max = INT_MAX;        if (max == 0) max = INT_MAX;
2634          ecode += 5;        ecode += 1 + 2 * IMM2_SIZE;
2635          break;        break;
2636    
2637          default:               /* No repeat follows */        default:               /* No repeat follows */
2638          if (!match_ref(offset, eptr, length, md, ims))        if ((length = match_ref(offset, eptr, length, md, caseless)) < 0)
2639            {          {
2640            CHECK_PARTIAL();          CHECK_PARTIAL();
2641            RRETURN(MATCH_NOMATCH);          RRETURN(MATCH_NOMATCH);
           }  
         eptr += length;  
         continue;              /* With the main loop */  
2642          }          }
2643          eptr += length;
2644          continue;              /* With the main loop */
2645          }
2646    
2647        /* If the length of the reference is zero, just continue with the      /* Handle repeated back references. If the length of the reference is
2648        main loop. */      zero, just continue with the main loop. If the length is negative, it
2649        means the reference is unset in non-Java-compatible mode. If the minimum is
2650        zero, we can continue at the same level without recursion. For any other
2651        minimum, carrying on will result in NOMATCH. */
2652    
2653        if (length == 0) continue;      if (length == 0) continue;
2654        if (length < 0 && min == 0) continue;
2655    
2656        /* First, ensure the minimum number of matches are present. We get back      /* First, ensure the minimum number of matches are present. We get back
2657        the length of the reference string explicitly rather than passing the      the length of the reference string explicitly rather than passing the
2658        address of eptr, so that eptr can be a register variable. */      address of eptr, so that eptr can be a register variable. */
2659    
2660        for (i = 1; i <= min; i++)      for (i = 1; i <= min; i++)
2661          {
2662          int slength;
2663          if ((slength = match_ref(offset, eptr, length, md, caseless)) < 0)
2664          {          {
2665          if (!match_ref(offset, eptr, length, md, ims))          CHECK_PARTIAL();
2666            {          RRETURN(MATCH_NOMATCH);
           CHECK_PARTIAL();  
           RRETURN(MATCH_NOMATCH);  
           }  
         eptr += length;  
2667          }          }
2668          eptr += slength;
2669          }
2670    
2671        /* If min = max, continue at the same level without recursion.      /* If min = max, continue at the same level without recursion.
2672        They are not both allowed to be zero. */      They are not both allowed to be zero. */
2673    
2674        if (min == max) continue;      if (min == max) continue;
2675    
2676        /* If minimizing, keep trying and advancing the pointer */      /* If minimizing, keep trying and advancing the pointer */
2677    
2678        if (minimize)      if (minimize)
2679          {
2680          for (fi = min;; fi++)
2681          {          {
2682          for (fi = min;; fi++)          int slength;
2683            RMATCH(eptr, ecode, offset_top, md, eptrb, RM14);
2684            if (rrc != MATCH_NOMATCH) RRETURN(rrc);
2685            if (fi >= max) RRETURN(MATCH_NOMATCH);
2686            if ((slength = match_ref(offset, eptr, length, md, caseless)) < 0)
2687            {            {
2688            RMATCH(eptr, ecode, offset_top, md, ims, eptrb, 0, RM14);            CHECK_PARTIAL();
2689            if (rrc != MATCH_NOMATCH) RRETURN(rrc);            RRETURN(MATCH_NOMATCH);
           if (fi >= max) RRETURN(MATCH_NOMATCH);  
           if (!match_ref(offset, eptr, length, md, ims))  
             {  
             CHECK_PARTIAL();  
             RRETURN(MATCH_NOMATCH);  
             }  
           eptr += length;  
2690            }            }
2691          /* Control never gets here */          eptr += slength;
2692          }          }
2693          /* Control never gets here */
2694          }
2695    
2696        /* If maximizing, find the longest string and work backwards */      /* If maximizing, find the longest string and work backwards */
2697    
2698        else      else
2699          {
2700          pp = eptr;
2701          for (i = min; i < max; i++)
2702          {          {
2703          pp = eptr;          int slength;
2704          for (i = min; i < max; i++)          if ((slength = match_ref(offset, eptr, length, md, caseless)) < 0)
           {  
           if (!match_ref(offset, eptr, length, md, ims)) break;  
           eptr += length;  
           }  
         while (eptr >= pp)  
2705            {            {
2706            RMATCH(eptr, ecode, offset_top, md, ims, eptrb, 0, RM15);            CHECK_PARTIAL();
2707            if (rrc != MATCH_NOMATCH) RRETURN(rrc);            break;
           eptr -= length;  
2708            }            }
2709          RRETURN(MATCH_NOMATCH);          eptr += slength;
2710            }
2711          while (eptr >= pp)
2712            {
2713            RMATCH(eptr, ecode, offset_top, md, eptrb, RM15);
2714            if (rrc != MATCH_NOMATCH) RRETURN(rrc);
2715            eptr -= length;
2716          }          }
2717          RRETURN(MATCH_NOMATCH);
2718        }        }
2719      /* Control never gets here */      /* Control never gets here */
2720    
# Line 2053  for (;;) Line 2732  for (;;)
2732      case OP_NCLASS:      case OP_NCLASS:
2733      case OP_CLASS:      case OP_CLASS:
2734        {        {
2735          /* The data variable is saved across frames, so the byte map needs to
2736          be stored there. */
2737    #define BYTE_MAP ((pcre_uint8 *)data)
2738        data = ecode + 1;                /* Save for matching */        data = ecode + 1;                /* Save for matching */
2739        ecode += 33;                     /* Advance past the item */        ecode += 1 + (32 / sizeof(pcre_uchar)); /* Advance past the item */
2740    
2741        switch (*ecode)        switch (*ecode)
2742          {          {
# Line 2075  for (;;) Line 2757  for (;;)
2757          case OP_CRMINRANGE:          case OP_CRMINRANGE:
2758          minimize = (*ecode == OP_CRMINRANGE);          minimize = (*ecode == OP_CRMINRANGE);
2759          min = GET2(ecode, 1);          min = GET2(ecode, 1);
2760          max = GET2(ecode, 3);          max = GET2(ecode, 1 + IMM2_SIZE);
2761          if (max == 0) max = INT_MAX;          if (max == 0) max = INT_MAX;
2762          ecode += 5;          ecode += 1 + 2 * IMM2_SIZE;
2763          break;          break;
2764    
2765          default:               /* No repeat follows */          default:               /* No repeat follows */
# Line 2087  for (;;) Line 2769  for (;;)
2769    
2770        /* First, ensure the minimum number of matches are present. */        /* First, ensure the minimum number of matches are present. */
2771    
2772  #ifdef SUPPORT_UTF8  #ifdef SUPPORT_UTF
2773        /* UTF-8 mode */        if (utf)
       if (utf8)  
2774          {          {
2775          for (i = 1; i <= min; i++)          for (i = 1; i <= min; i++)
2776            {            {
# Line 2104  for (;;) Line 2785  for (;;)
2785              if (op == OP_CLASS) RRETURN(MATCH_NOMATCH);              if (op == OP_CLASS) RRETURN(MATCH_NOMATCH);
2786              }              }
2787            else            else
2788              {              if ((BYTE_MAP[c/8] & (1 << (c&7))) == 0) RRETURN(MATCH_NOMATCH);
             if ((data[c/8] & (1 << (c&7))) == 0) RRETURN(MATCH_NOMATCH);  
             }  
2789            }            }
2790          }          }
2791        else        else
2792  #endif  #endif
2793        /* Not UTF-8 mode */        /* Not UTF mode */
2794          {          {
2795          for (i = 1; i <= min; i++)          for (i = 1; i <= min; i++)
2796            {            {
# Line 2121  for (;;) Line 2800  for (;;)
2800              RRETURN(MATCH_NOMATCH);              RRETURN(MATCH_NOMATCH);
2801              }              }
2802            c = *eptr++;            c = *eptr++;
2803            if ((data[c/8] & (1 << (c&7))) == 0) RRETURN(MATCH_NOMATCH);  #ifndef COMPILE_PCRE8
2804              if (c > 255)
2805                {
2806                if (op == OP_CLASS) RRETURN(MATCH_NOMATCH);
2807                }
2808              else
2809    #endif
2810                if ((BYTE_MAP[c/8] & (1 << (c&7))) == 0) RRETURN(MATCH_NOMATCH);
2811            }            }
2812          }          }
2813    
# Line 2135  for (;;) Line 2821  for (;;)
2821    
2822        if (minimize)        if (minimize)
2823          {          {
2824  #ifdef SUPPORT_UTF8  #ifdef SUPPORT_UTF
2825          /* UTF-8 mode */          if (utf)
         if (utf8)  
2826            {            {
2827            for (fi = min;; fi++)            for (fi = min;; fi++)
2828              {              {
2829              RMATCH(eptr, ecode, offset_top, md, ims, eptrb, 0, RM16);              RMATCH(eptr, ecode, offset_top, md, eptrb, RM16);
2830              if (rrc != MATCH_NOMATCH) RRETURN(rrc);              if (rrc != MATCH_NOMATCH) RRETURN(rrc);
2831              if (fi >= max) RRETURN(MATCH_NOMATCH);              if (fi >= max) RRETURN(MATCH_NOMATCH);
2832              if (eptr >= md->end_subject)              if (eptr >= md->end_subject)
# Line 2155  for (;;) Line 2840  for (;;)
2840                if (op == OP_CLASS) RRETURN(MATCH_NOMATCH);                if (op == OP_CLASS) RRETURN(MATCH_NOMATCH);
2841                }                }
2842              else              else
2843                {                if ((BYTE_MAP[c/8] & (1 << (c&7))) == 0) RRETURN(MATCH_NOMATCH);
               if ((data[c/8] & (1 << (c&7))) == 0) RRETURN(MATCH_NOMATCH);  
               }  
2844              }              }
2845            }            }
2846          else          else
2847  #endif  #endif
2848          /* Not UTF-8 mode */          /* Not UTF mode */
2849            {            {
2850            for (fi = min;; fi++)            for (fi = min;; fi++)
2851              {              {
2852              RMATCH(eptr, ecode, offset_top, md, ims, eptrb, 0, RM17);              RMATCH(eptr, ecode, offset_top, md, eptrb, RM17);
2853              if (rrc != MATCH_NOMATCH) RRETURN(rrc);              if (rrc != MATCH_NOMATCH) RRETURN(rrc);
2854              if (fi >= max) RRETURN(MATCH_NOMATCH);              if (fi >= max) RRETURN(MATCH_NOMATCH);
2855              if (eptr >= md->end_subject)              if (eptr >= md->end_subject)
# Line 2175  for (;;) Line 2858  for (;;)
2858                RRETURN(MATCH_NOMATCH);                RRETURN(MATCH_NOMATCH);
2859                }                }
2860              c = *eptr++;              c = *eptr++;
2861              if ((data[c/8] & (1 << (c&7))) == 0) RRETURN(MATCH_NOMATCH);  #ifndef COMPILE_PCRE8
2862                if (c > 255)
2863                  {
2864                  if (op == OP_CLASS) RRETURN(MATCH_NOMATCH);
2865                  }
2866                else
2867    #endif
2868                  if ((BYTE_MAP[c/8] & (1 << (c&7))) == 0) RRETURN(MATCH_NOMATCH);
2869              }              }
2870            }            }
2871          /* Control never gets here */          /* Control never gets here */
# Line 2187  for (;;) Line 2877  for (;;)
2877          {          {
2878          pp = eptr;          pp = eptr;
2879    
2880  #ifdef SUPPORT_UTF8  #ifdef SUPPORT_UTF
2881          /* UTF-8 mode */          if (utf)
         if (utf8)  
2882            {            {
2883            for (i = min; i < max; i++)            for (i = min; i < max; i++)
2884              {              {
2885              int len = 1;              int len = 1;
2886              if (eptr >= md->end_subject) break;              if (eptr >= md->end_subject)
2887                  {
2888                  SCHECK_PARTIAL();
2889                  break;
2890                  }
2891              GETCHARLEN(c, eptr, len);              GETCHARLEN(c, eptr, len);
2892              if (c > 255)              if (c > 255)
2893                {                {
2894                if (op == OP_CLASS) break;                if (op == OP_CLASS) break;
2895                }                }
2896              else              else
2897                {                if ((BYTE_MAP[c/8] & (1 << (c&7))) == 0) break;
               if ((data[c/8] & (1 << (c&7))) == 0) break;  
               }  
2898              eptr += len;              eptr += len;
2899              }              }
2900            for (;;)            for (;;)
2901              {              {
2902              RMATCH(eptr, ecode, offset_top, md, ims, eptrb, 0, RM18);              RMATCH(eptr, ecode, offset_top, md, eptrb, RM18);
2903              if (rrc != MATCH_NOMATCH) RRETURN(rrc);              if (rrc != MATCH_NOMATCH) RRETURN(rrc);
2904              if (eptr-- == pp) break;        /* Stop if tried at original pos */              if (eptr-- == pp) break;        /* Stop if tried at original pos */
2905              BACKCHAR(eptr);              BACKCHAR(eptr);
# Line 2216  for (;;) Line 2907  for (;;)
2907            }            }
2908          else          else
2909  #endif  #endif
2910            /* Not UTF-8 mode */            /* Not UTF mode */
2911            {            {
2912            for (i = min; i < max; i++)            for (i = min; i < max; i++)
2913              {              {
2914              if (eptr >= md->end_subject) break;              if (eptr >= md->end_subject)
2915                  {
2916                  SCHECK_PARTIAL();
2917                  break;
2918                  }
2919              c = *eptr;              c = *eptr;
2920              if ((data[c/8] & (1 << (c&7))) == 0) break;  #ifndef COMPILE_PCRE8
2921                if (c > 255)
2922                  {
2923                  if (op == OP_CLASS) break;
2924                  }
2925                else
2926    #endif
2927                  if ((BYTE_MAP[c/8] & (1 << (c&7))) == 0) break;
2928              eptr++;              eptr++;
2929              }              }
2930            while (eptr >= pp)            while (eptr >= pp)
2931              {              {
2932              RMATCH(eptr, ecode, offset_top, md, ims, eptrb, 0, RM19);              RMATCH(eptr, ecode, offset_top, md, eptrb, RM19);
2933              if (rrc != MATCH_NOMATCH) RRETURN(rrc);              if (rrc != MATCH_NOMATCH) RRETURN(rrc);
2934              eptr--;              eptr--;
2935              }              }
# Line 2235  for (;;) Line 2937  for (;;)
2937    
2938          RRETURN(MATCH_NOMATCH);          RRETURN(MATCH_NOMATCH);
2939          }          }
2940    #undef BYTE_MAP
2941        }        }
2942      /* Control never gets here */      /* Control never gets here */
2943    
# Line 2243  for (;;) Line 2946  for (;;)
2946      when UTF-8 mode mode is supported. Nevertheless, we may not be in UTF-8      when UTF-8 mode mode is supported. Nevertheless, we may not be in UTF-8
2947      mode, because Unicode properties are supported in non-UTF-8 mode. */      mode, because Unicode properties are supported in non-UTF-8 mode. */
2948    
2949  #ifdef SUPPORT_UTF8  #if defined SUPPORT_UTF || !defined COMPILE_PCRE8
2950      case OP_XCLASS:      case OP_XCLASS:
2951        {        {
2952        data = ecode + 1 + LINK_SIZE;                /* Save for matching */        data = ecode + 1 + LINK_SIZE;                /* Save for matching */
# Line 2268  for (;;) Line 2971  for (;;)
2971          case OP_CRMINRANGE:          case OP_CRMINRANGE:
2972          minimize = (*ecode == OP_CRMINRANGE);          minimize = (*ecode == OP_CRMINRANGE);
2973          min = GET2(ecode, 1);          min = GET2(ecode, 1);
2974          max = GET2(ecode, 3);          max = GET2(ecode, 1 + IMM2_SIZE);
2975          if (max == 0) max = INT_MAX;          if (max == 0) max = INT_MAX;
2976          ecode += 5;          ecode += 1 + 2 * IMM2_SIZE;
2977          break;          break;
2978    
2979          default:               /* No repeat follows */          default:               /* No repeat follows */
# Line 2288  for (;;) Line 2991  for (;;)
2991            RRETURN(MATCH_NOMATCH);            RRETURN(MATCH_NOMATCH);
2992            }            }
2993          GETCHARINCTEST(c, eptr);          GETCHARINCTEST(c, eptr);
2994          if (!_pcre_xclass(c, data)) RRETURN(MATCH_NOMATCH);          if (!PRIV(xclass)(c, data, utf)) RRETURN(MATCH_NOMATCH);
2995          }          }
2996    
2997        /* If max == min we can continue with the main loop without the        /* If max == min we can continue with the main loop without the
# Line 2303  for (;;) Line 3006  for (;;)
3006          {          {
3007          for (fi = min;; fi++)          for (fi = min;; fi++)
3008            {            {
3009            RMATCH(eptr, ecode, offset_top, md, ims, eptrb, 0, RM20);            RMATCH(eptr, ecode, offset_top, md, eptrb, RM20);
3010            if (rrc != MATCH_NOMATCH) RRETURN(rrc);            if (rrc != MATCH_NOMATCH) RRETURN(rrc);
3011            if (fi >= max) RRETURN(MATCH_NOMATCH);            if (fi >= max) RRETURN(MATCH_NOMATCH);
3012            if (eptr >= md->end_subject)            if (eptr >= md->end_subject)
# Line 2312  for (;;) Line 3015  for (;;)
3015              RRETURN(MATCH_NOMATCH);              RRETURN(MATCH_NOMATCH);
3016              }              }
3017            GETCHARINCTEST(c, eptr);            GETCHARINCTEST(c, eptr);
3018            if (!_pcre_xclass(c, data)) RRETURN(MATCH_NOMATCH);            if (!PRIV(xclass)(c, data, utf)) RRETURN(MATCH_NOMATCH);
3019            }            }
3020          /* Control never gets here */          /* Control never gets here */
3021          }          }
# Line 2325  for (;;) Line 3028  for (;;)
3028          for (i = min; i < max; i++)          for (i = min; i < max; i++)
3029            {            {
3030            int len = 1;            int len = 1;
3031            if (eptr >= md->end_subject) break;            if (eptr >= md->end_subject)
3032                {
3033                SCHECK_PARTIAL();
3034                break;
3035                }
3036    #ifdef SUPPORT_UTF
3037            GETCHARLENTEST(c, eptr, len);            GETCHARLENTEST(c, eptr, len);
3038            if (!_pcre_xclass(c, data)) break;  #else
3039              c = *eptr;
3040    #endif
3041              if (!PRIV(xclass)(c, data, utf)) break;
3042            eptr += len;            eptr += len;
3043            }            }
3044          for(;;)          for(;;)
3045            {            {
3046            RMATCH(eptr, ecode, offset_top, md, ims, eptrb, 0, RM21);            RMATCH(eptr, ecode, offset_top, md, eptrb, RM21);
3047            if (rrc != MATCH_NOMATCH) RRETURN(rrc);            if (rrc != MATCH_NOMATCH) RRETURN(rrc);
3048            if (eptr-- == pp) break;        /* Stop if tried at original pos */            if (eptr-- == pp) break;        /* Stop if tried at original pos */
3049            if (utf8) BACKCHAR(eptr);  #ifdef SUPPORT_UTF
3050              if (utf) BACKCHAR(eptr);
3051    #endif
3052            }            }
3053          RRETURN(MATCH_NOMATCH);          RRETURN(MATCH_NOMATCH);
3054          }          }
# Line 2347  for (;;) Line 3060  for (;;)
3060      /* Match a single character, casefully */      /* Match a single character, casefully */
3061    
3062      case OP_CHAR:      case OP_CHAR:
3063  #ifdef SUPPORT_UTF8  #ifdef SUPPORT_UTF
3064      if (utf8)      if (utf)
3065        {        {
3066        length = 1;        length = 1;
3067        ecode++;        ecode++;
# Line 2362  for (;;) Line 3075  for (;;)
3075        }        }
3076      else      else
3077  #endif  #endif
3078        /* Not UTF mode */
     /* Non-UTF-8 mode */  
3079        {        {
3080        if (md->end_subject - eptr < 1)        if (md->end_subject - eptr < 1)
3081          {          {
# Line 2375  for (;;) Line 3087  for (;;)
3087        }        }
3088      break;      break;
3089    
3090      /* Match a single character, caselessly */      /* Match a single character, caselessly. If we are at the end of the
3091        subject, give up immediately. */
3092    
3093      case OP_CHARNC:      case OP_CHARI:
3094  #ifdef SUPPORT_UTF8      if (eptr >= md->end_subject)
3095      if (utf8)        {
3096          SCHECK_PARTIAL();
3097          RRETURN(MATCH_NOMATCH);
3098          }
3099    
3100    #ifdef SUPPORT_UTF
3101        if (utf)
3102        {        {
3103        length = 1;        length = 1;
3104        ecode++;        ecode++;
3105        GETCHARLEN(fc, ecode, length);        GETCHARLEN(fc, ecode, length);
3106    
       if (length > md->end_subject - eptr)  
         {  
         CHECK_PARTIAL();             /* Not SCHECK_PARTIAL() */  
         RRETURN(MATCH_NOMATCH);  
         }  
   
3107        /* If the pattern character's value is < 128, we have only one byte, and        /* If the pattern character's value is < 128, we have only one byte, and
3108        can use the fast lookup table. */        we know that its other case must also be one byte long, so we can use the
3109          fast lookup table. We know that there is at least one byte left in the
3110          subject. */
3111    
3112        if (fc < 128)        if (fc < 128)
3113          {          {
3114          if (md->lcc[*ecode++] != md->lcc[*eptr++]) RRETURN(MATCH_NOMATCH);          if (md->lcc[fc]
3115                != TABLE_GET(*eptr, md->lcc, *eptr)) RRETURN(MATCH_NOMATCH);
3116            ecode++;
3117            eptr++;
3118          }          }
3119    
3120        /* Otherwise we must pick up the subject character */        /* Otherwise we must pick up the subject character. Note that we cannot
3121          use the value of "length" to check for sufficient bytes left, because the
3122          other case of the character may have more or fewer bytes.  */
3123    
3124        else        else
3125          {          {
# Line 2420  for (;;) Line 3140  for (;;)
3140          }          }
3141        }        }
3142      else      else
3143  #endif   /* SUPPORT_UTF8 */  #endif   /* SUPPORT_UTF */
3144    
3145      /* Non-UTF-8 mode */      /* Not UTF mode */
3146        {        {
3147        if (md->end_subject - eptr < 1)        if (TABLE_GET(ecode[1], md->lcc, ecode[1])
3148          {            != TABLE_GET(*eptr, md->lcc, *eptr)) RRETURN(MATCH_NOMATCH);
3149          SCHECK_PARTIAL();            /* This one can use SCHECK_PARTIAL() */        eptr++;
         RRETURN(MATCH_NOMATCH);  
         }  
       if (md->lcc[ecode[1]] != md->lcc[*eptr++]) RRETURN(MATCH_NOMATCH);  
3150        ecode += 2;        ecode += 2;
3151        }        }
3152      break;      break;
# Line 2437  for (;;) Line 3154  for (;;)
3154      /* Match a single character repeatedly. */      /* Match a single character repeatedly. */
3155    
3156      case OP_EXACT:      case OP_EXACT:
3157        case OP_EXACTI:
3158      min = max = GET2(ecode, 1);      min = max = GET2(ecode, 1);
3159      ecode += 3;      ecode += 1 + IMM2_SIZE;
3160      goto REPEATCHAR;      goto REPEATCHAR;
3161    
3162      case OP_POSUPTO:      case OP_POSUPTO:
3163        case OP_POSUPTOI:
3164      possessive = TRUE;      possessive = TRUE;
3165      /* Fall through */      /* Fall through */
3166    
3167      case OP_UPTO:      case OP_UPTO:
3168        case OP_UPTOI:
3169      case OP_MINUPTO:      case OP_MINUPTO:
3170        case OP_MINUPTOI:
3171      min = 0;      min = 0;
3172      max = GET2(ecode, 1);      max = GET2(ecode, 1);
3173      minimize = *ecode == OP_MINUPTO;      minimize = *ecode == OP_MINUPTO || *ecode == OP_MINUPTOI;
3174      ecode += 3;      ecode += 1 + IMM2_SIZE;
3175      goto REPEATCHAR;      goto REPEATCHAR;
3176    
3177      case OP_POSSTAR:      case OP_POSSTAR:
3178        case OP_POSSTARI:
3179      possessive = TRUE;      possessive = TRUE;
3180      min = 0;      min = 0;
3181      max = INT_MAX;      max = INT_MAX;
# Line 2461  for (;;) Line 3183  for (;;)
3183      goto REPEATCHAR;      goto REPEATCHAR;
3184    
3185      case OP_POSPLUS:      case OP_POSPLUS:
3186        case OP_POSPLUSI:
3187      possessive = TRUE;      possessive = TRUE;
3188      min = 1;      min = 1;
3189      max = INT_MAX;      max = INT_MAX;
# Line 2468  for (;;) Line 3191  for (;;)
3191      goto REPEATCHAR;      goto REPEATCHAR;
3192    
3193      case OP_POSQUERY:      case OP_POSQUERY:
3194        case OP_POSQUERYI:
3195      possessive = TRUE;      possessive = TRUE;
3196      min = 0;      min = 0;
3197      max = 1;      max = 1;
# Line 2475  for (;;) Line 3199  for (;;)
3199      goto REPEATCHAR;      goto REPEATCHAR;
3200    
3201      case OP_STAR:      case OP_STAR:
3202        case OP_STARI:
3203      case OP_MINSTAR:      case OP_MINSTAR:
3204        case OP_MINSTARI:
3205      case OP_PLUS:      case OP_PLUS:
3206        case OP_PLUSI:
3207      case OP_MINPLUS:      case OP_MINPLUS:
3208        case OP_MINPLUSI:
3209      case OP_QUERY:      case OP_QUERY:
3210        case OP_QUERYI:
3211      case OP_MINQUERY:      case OP_MINQUERY:
3212      c = *ecode++ - OP_STAR;      case OP_MINQUERYI:
3213        c = *ecode++ - ((op < OP_STARI)? OP_STAR : OP_STARI);
3214      minimize = (c & 1) != 0;      minimize = (c & 1) != 0;
   
3215      min = rep_min[c];                 /* Pick up values from tables; */      min = rep_min[c];                 /* Pick up values from tables; */
3216      max = rep_max[c];                 /* zero for max => infinity */      max = rep_max[c];                 /* zero for max => infinity */
3217      if (max == 0) max = INT_MAX;      if (max == 0) max = INT_MAX;
# Line 2490  for (;;) Line 3219  for (;;)
3219      /* Common code for all repeated single-character matches. */      /* Common code for all repeated single-character matches. */
3220    
3221      REPEATCHAR:      REPEATCHAR:
3222  #ifdef SUPPORT_UTF8  #ifdef SUPPORT_UTF
3223      if (utf8)      if (utf)
3224        {        {
3225        length = 1;        length = 1;
3226        charptr = ecode;        charptr = ecode;
# Line 2505  for (;;) Line 3234  for (;;)
3234          {          {
3235  #ifdef SUPPORT_UCP  #ifdef SUPPORT_UCP
3236          unsigned int othercase;          unsigned int othercase;
3237          if ((ims & PCRE_CASELESS) != 0 &&          if (op >= OP_STARI &&     /* Caseless */
3238              (othercase = UCD_OTHERCASE(fc)) != fc)              (othercase = UCD_OTHERCASE(fc)) != fc)
3239            oclength = _pcre_ord2utf8(othercase, occhars);            oclength = PRIV(ord2utf)(othercase, occhars);
3240          else oclength = 0;          else oclength = 0;
3241  #endif  /* SUPPORT_UCP */  #endif  /* SUPPORT_UCP */
3242    
3243          for (i = 1; i <= min; i++)          for (i = 1; i <= min; i++)
3244            {            {
3245            if (eptr <= md->end_subject - length &&            if (eptr <= md->end_subject - length &&
3246              memcmp(eptr, charptr, length) == 0) eptr += length;              memcmp(eptr, charptr, IN_UCHARS(length)) == 0) eptr += length;
3247  #ifdef SUPPORT_UCP  #ifdef SUPPORT_UCP
3248            else if (oclength > 0 &&            else if (oclength > 0 &&
3249                     eptr <= md->end_subject - oclength &&                     eptr <= md->end_subject - oclength &&
3250                     memcmp(eptr, occhars, oclength) == 0) eptr += oclength;                     memcmp(eptr, occhars, IN_UCHARS(oclength)) == 0) eptr += oclength;
3251  #endif  /* SUPPORT_UCP */  #endif  /* SUPPORT_UCP */
3252            else            else
3253              {              {
# Line 2533  for (;;) Line 3262  for (;;)
3262            {            {
3263            for (fi = min;; fi++)            for (fi = min;; fi++)
3264              {              {
3265              RMATCH(eptr, ecode, offset_top, md, ims, eptrb, 0, RM22);              RMATCH(eptr, ecode, offset_top, md, eptrb, RM22);
3266              if (rrc != MATCH_NOMATCH) RRETURN(rrc);              if (rrc != MATCH_NOMATCH) RRETURN(rrc);
3267              if (fi >= max) RRETURN(MATCH_NOMATCH);              if (fi >= max) RRETURN(MATCH_NOMATCH);
3268              if (eptr <= md->end_subject - length &&              if (eptr <= md->end_subject - length &&
3269                memcmp(eptr, charptr, length) == 0) eptr += length;                memcmp(eptr, charptr, IN_UCHARS(length)) == 0) eptr += length;
3270  #ifdef SUPPORT_UCP  #ifdef SUPPORT_UCP
3271              else if (oclength > 0 &&              else if (oclength > 0 &&
3272                       eptr <= md->end_subject - oclength &&                       eptr <= md->end_subject - oclength &&
3273                       memcmp(eptr, occhars, oclength) == 0) eptr += oclength;                       memcmp(eptr, occhars, IN_UCHARS(oclength)) == 0) eptr += oclength;
3274  #endif  /* SUPPORT_UCP */  #endif  /* SUPPORT_UCP */
3275              else              else
3276                {                {
# Line 2558  for (;;) Line 3287  for (;;)
3287            for (i = min; i < max; i++)            for (i = min; i < max; i++)
3288              {              {
3289              if (eptr <= md->end_subject - length &&              if (eptr <= md->end_subject - length &&
3290                  memcmp(eptr, charptr, length) == 0) eptr += length;                  memcmp(eptr, charptr, IN_UCHARS(length)) == 0) eptr += length;
3291  #ifdef SUPPORT_UCP  #ifdef SUPPORT_UCP
3292              else if (oclength > 0 &&              else if (oclength > 0 &&
3293                       eptr <= md->end_subject - oclength &&                       eptr <= md->end_subject - oclength &&
3294                       memcmp(eptr, occhars, oclength) == 0) eptr += oclength;                       memcmp(eptr, occhars, IN_UCHARS(oclength)) == 0) eptr += oclength;
3295  #endif  /* SUPPORT_UCP */  #endif  /* SUPPORT_UCP */
3296              else break;              else
3297                  {
3298                  CHECK_PARTIAL();
3299                  break;
3300                  }
3301              }              }
3302    
3303            if (possessive) continue;            if (possessive) continue;
3304    
3305            for(;;)            for(;;)
3306              {              {
3307              RMATCH(eptr, ecode, offset_top, md, ims, eptrb, 0, RM23);              RMATCH(eptr, ecode, offset_top, md, eptrb, RM23);
3308              if (rrc != MATCH_NOMATCH) RRETURN(rrc);              if (rrc != MATCH_NOMATCH) RRETURN(rrc);
3309              if (eptr == pp) { RRETURN(MATCH_NOMATCH); }              if (eptr == pp) { RRETURN(MATCH_NOMATCH); }
3310  #ifdef SUPPORT_UCP  #ifdef SUPPORT_UCP
# Line 2590  for (;;) Line 3323  for (;;)
3323        value of fc will always be < 128. */        value of fc will always be < 128. */
3324        }        }
3325      else      else
3326  #endif  /* SUPPORT_UTF8 */  #endif  /* SUPPORT_UTF */
3327          /* When not in UTF-8 mode, load a single-byte character. */
3328      /* When not in UTF-8 mode, load a single-byte character. */        fc = *ecode++;
   
     fc = *ecode++;  
3329    
3330      /* The value of fc at this point is always less than 256, though we may or      /* The value of fc at this point is always one character, though we may
3331      may not be in UTF-8 mode. The code is duplicated for the caseless and      or may not be in UTF mode. The code is duplicated for the caseless and
3332      caseful cases, for speed, since matching characters is likely to be quite      caseful cases, for speed, since matching characters is likely to be quite
3333      common. First, ensure the minimum number of matches are present. If min =      common. First, ensure the minimum number of matches are present. If min =
3334      max, continue at the same level without recursing. Otherwise, if      max, continue at the same level without recursing. Otherwise, if
# Line 2608  for (;;) Line 3339  for (;;)
3339      DPRINTF(("matching %c{%d,%d} against subject %.*s\n", fc, min, max,      DPRINTF(("matching %c{%d,%d} against subject %.*s\n", fc, min, max,
3340        max, eptr));        max, eptr));
3341    
3342      if ((ims & PCRE_CASELESS) != 0)      if (op >= OP_STARI)  /* Caseless */
3343        {        {
3344        fc = md->lcc[fc];  #ifdef COMPILE_PCRE8
3345          /* fc must be < 128 if UTF is enabled. */
3346          foc = md->fcc[fc];
3347    #else
3348    #ifdef SUPPORT_UTF
3349    #ifdef SUPPORT_UCP
3350          if (utf && fc > 127)
3351            foc = UCD_OTHERCASE(fc);
3352    #else
3353          if (utf && fc > 127)
3354            foc = fc;
3355    #endif /* SUPPORT_UCP */
3356          else
3357    #endif /* SUPPORT_UTF */
3358            foc = TABLE_GET(fc, md->fcc, fc);
3359    #endif /* COMPILE_PCRE8 */
3360    
3361        for (i = 1; i <= min; i++)        for (i = 1; i <= min; i++)
3362          {          {
3363          if (eptr >= md->end_subject)          if (eptr >= md->end_subject)
# Line 2618  for (;;) Line 3365  for (;;)
3365            SCHECK_PARTIAL();            SCHECK_PARTIAL();
3366            RRETURN(MATCH_NOMATCH);            RRETURN(MATCH_NOMATCH);
3367            }            }
3368          if (fc != md->lcc[*eptr++]) RRETURN(MATCH_NOMATCH);          if (fc != *eptr && foc != *eptr) RRETURN(MATCH_NOMATCH);
3369            eptr++;
3370          }          }
3371        if (min == max) continue;        if (min == max) continue;
3372        if (minimize)        if (minimize)
3373          {          {
3374          for (fi = min;; fi++)          for (fi = min;; fi++)
3375            {            {
3376            RMATCH(eptr, ecode, offset_top, md, ims, eptrb, 0, RM24);            RMATCH(eptr, ecode, offset_top, md, eptrb, RM24);
3377            if (rrc != MATCH_NOMATCH) RRETURN(rrc);            if (rrc != MATCH_NOMATCH) RRETURN(rrc);
3378            if (fi >= max) RRETURN(MATCH_NOMATCH);            if (fi >= max) RRETURN(MATCH_NOMATCH);
3379            if (eptr >= md->end_subject)            if (eptr >= md->end_subject)
# Line 2633  for (;;) Line 3381  for (;;)
3381              SCHECK_PARTIAL();              SCHECK_PARTIAL();
3382              RRETURN(MATCH_NOMATCH);              RRETURN(MATCH_NOMATCH);
3383              }              }
3384            if (fc != md->lcc[*eptr++]) RRETURN(MATCH_NOMATCH);            if (fc != *eptr && foc != *eptr) RRETURN(MATCH_NOMATCH);
3385              eptr++;
3386            }            }
3387          /* Control never gets here */          /* Control never gets here */
3388          }          }
# Line 2642  for (;;) Line 3391  for (;;)
3391          pp = eptr;          pp = eptr;
3392          for (i = min; i < max; i++)          for (i = min; i < max; i++)
3393            {            {
3394            if (eptr >= md->end_subject || fc != md->lcc[*eptr]) break;            if (eptr >= md->end_subject)
3395                {
3396                SCHECK_PARTIAL();
3397                break;
3398                }
3399              if (fc != *eptr && foc != *eptr) break;
3400            eptr++;            eptr++;
3401            }            }
3402    
# Line 2650  for (;;) Line 3404  for (;;)
3404    
3405          while (eptr >= pp)          while (eptr >= pp)
3406            {            {
3407            RMATCH(eptr, ecode, offset_top, md, ims, eptrb, 0, RM25);            RMATCH(eptr, ecode, offset_top, md, eptrb, RM25);
3408            eptr--;            eptr--;
3409            if (rrc != MATCH_NOMATCH) RRETURN(rrc);            if (rrc != MATCH_NOMATCH) RRETURN(rrc);
3410            }            }
# Line 2679  for (;;) Line 3433  for (;;)
3433          {          {
3434          for (fi = min;; fi++)          for (fi = min;; fi++)
3435            {            {
3436            RMATCH(eptr, ecode, offset_top, md, ims, eptrb, 0, RM26);            RMATCH(eptr, ecode, offset_top, md, eptrb, RM26);
3437            if (rrc != MATCH_NOMATCH) RRETURN(rrc);            if (rrc != MATCH_NOMATCH) RRETURN(rrc);
3438            if (fi >= max) RRETURN(MATCH_NOMATCH);            if (fi >= max) RRETURN(MATCH_NOMATCH);
3439            if (eptr >= md->end_subject)            if (eptr >= md->end_subject)
# Line 2696  for (;;) Line 3450  for (;;)
3450          pp = eptr;          pp = eptr;
3451          for (i = min; i < max; i++)          for (i = min; i < max; i++)
3452            {            {
3453            if (eptr >= md->end_subject || fc != *eptr) break;            if (eptr >= md->end_subject)
3454                {
3455                SCHECK_PARTIAL();
3456                break;
3457                }
3458              if (fc != *eptr) break;
3459            eptr++;            eptr++;
3460            }            }
3461          if (possessive) continue;          if (possessive) continue;
3462    
3463          while (eptr >= pp)          while (eptr >= pp)
3464            {            {
3465            RMATCH(eptr, ecode, offset_top, md, ims, eptrb, 0, RM27);            RMATCH(eptr, ecode, offset_top, md, eptrb, RM27);
3466            eptr--;            eptr--;
3467            if (rrc != MATCH_NOMATCH) RRETURN(rrc);            if (rrc != MATCH_NOMATCH) RRETURN(rrc);
3468            }            }
# Line 2716  for (;;) Line 3475  for (;;)
3475      checking can be multibyte. */      checking can be multibyte. */
3476    
3477      case OP_NOT:      case OP_NOT:
3478        case OP_NOTI:
3479      if (eptr >= md->end_subject)      if (eptr >= md->end_subject)
3480        {        {
3481        SCHECK_PARTIAL();        SCHECK_PARTIAL();
# Line 2723  for (;;) Line 3483  for (;;)
3483        }        }
3484      ecode++;      ecode++;
3485      GETCHARINCTEST(c, eptr);      GETCHARINCTEST(c, eptr);
3486      if ((ims & PCRE_CASELESS) != 0)      if (op == OP_NOTI)         /* The caseless case */
3487        {        {
3488  #ifdef SUPPORT_UTF8        register int ch, och;
3489        if (c < 256)        ch = *ecode++;
3490  #endif  #ifdef COMPILE_PCRE8
3491        c = md->lcc[c];        /* ch must be < 128 if UTF is enabled. */
3492        if (md->lcc[*ecode++] == c) RRETURN(MATCH_NOMATCH);        och = md->fcc[ch];
3493    #else
3494    #ifdef SUPPORT_UTF
3495    #ifdef SUPPORT_UCP
3496          if (utf && ch > 127)
3497            och = UCD_OTHERCASE(ch);
3498    #else
3499          if (utf && ch > 127)
3500            och = ch;
3501    #endif /* SUPPORT_UCP */
3502          else
3503    #endif /* SUPPORT_UTF */
3504            och = TABLE_GET(ch, md->fcc, ch);
3505    #endif /* COMPILE_PCRE8 */
3506          if (ch == c || och == c) RRETURN(MATCH_NOMATCH);
3507        }        }
3508      else      else    /* Caseful */
3509        {        {
3510        if (*ecode++ == c) RRETURN(MATCH_NOMATCH);        if (*ecode++ == c) RRETURN(MATCH_NOMATCH);
3511        }        }
# Line 2745  for (;;) Line 3519  for (;;)
3519      about... */      about... */
3520    
3521      case OP_NOTEXACT:      case OP_NOTEXACT:
3522        case OP_NOTEXACTI:
3523      min = max = GET2(ecode, 1);      min = max = GET2(ecode, 1);
3524      ecode += 3;      ecode += 1 + IMM2_SIZE;
3525      goto REPEATNOTCHAR;      goto REPEATNOTCHAR;
3526    
3527      case OP_NOTUPTO:      case OP_NOTUPTO:
3528        case OP_NOTUPTOI:
3529      case OP_NOTMINUPTO:      case OP_NOTMINUPTO:
3530        case OP_NOTMINUPTOI:
3531      min = 0;      min = 0;
3532      max = GET2(ecode, 1);      max = GET2(ecode, 1);
3533      minimize = *ecode == OP_NOTMINUPTO;      minimize = *ecode == OP_NOTMINUPTO || *ecode == OP_NOTMINUPTOI;
3534      ecode += 3;      ecode += 1 + IMM2_SIZE;
3535      goto REPEATNOTCHAR;      goto REPEATNOTCHAR;
3536    
3537      case OP_NOTPOSSTAR:      case OP_NOTPOSSTAR:
3538        case OP_NOTPOSSTARI:
3539      possessive = TRUE;      possessive = TRUE;
3540      min = 0;      min = 0;
3541      max = INT_MAX;      max = INT_MAX;
# Line 2765  for (;;) Line 3543  for (;;)
3543      goto REPEATNOTCHAR;      goto REPEATNOTCHAR;
3544    
3545      case OP_NOTPOSPLUS:      case OP_NOTPOSPLUS:
3546        case OP_NOTPOSPLUSI:
3547      possessive = TRUE;      possessive = TRUE;
3548      min = 1;      min = 1;
3549      max = INT_MAX;      max = INT_MAX;
# Line 2772  for (;;) Line 3551  for (;;)
3551      goto REPEATNOTCHAR;      goto REPEATNOTCHAR;
3552    
3553      case OP_NOTPOSQUERY:      case OP_NOTPOSQUERY:
3554        case OP_NOTPOSQUERYI:
3555      possessive = TRUE;      possessive = TRUE;
3556      min = 0;      min = 0;
3557      max = 1;      max = 1;
# Line 2779  for (;;) Line 3559  for (;;)
3559      goto REPEATNOTCHAR;      goto REPEATNOTCHAR;
3560    
3561      case OP_NOTPOSUPTO:      case OP_NOTPOSUPTO:
3562        case OP_NOTPOSUPTOI:
3563      possessive = TRUE;      possessive = TRUE;
3564      min = 0;      min = 0;
3565      max = GET2(ecode, 1);      max = GET2(ecode, 1);
3566      ecode += 3;      ecode += 1 + IMM2_SIZE;
3567      goto REPEATNOTCHAR;      goto REPEATNOTCHAR;
3568    
3569      case OP_NOTSTAR:      case OP_NOTSTAR:
3570        case OP_NOTSTARI:
3571      case OP_NOTMINSTAR:      case OP_NOTMINSTAR:
3572        case OP_NOTMINSTARI:
3573      case OP_NOTPLUS:      case OP_NOTPLUS:
3574        case OP_NOTPLUSI:
3575      case OP_NOTMINPLUS:      case OP_NOTMINPLUS:
3576        case OP_NOTMINPLUSI:
3577      case OP_NOTQUERY:      case OP_NOTQUERY:
3578        case OP_NOTQUERYI:
3579      case OP_NOTMINQUERY:      case OP_NOTMINQUERY:
3580      c = *ecode++ - OP_NOTSTAR;      case OP_NOTMINQUERYI:
3581        c = *ecode++ - ((op >= OP_NOTSTARI)? OP_NOTSTARI: OP_NOTSTAR);
3582      minimize = (c & 1) != 0;      minimize = (c & 1) != 0;
3583      min = rep_min[c];                 /* Pick up values from tables; */      min = rep_min[c];                 /* Pick up values from tables; */
3584      max = rep_max[c];                 /* zero for max => infinity */      max = rep_max[c];                 /* zero for max => infinity */
# Line 2813  for (;;) Line 3600  for (;;)
3600      DPRINTF(("negative matching %c{%d,%d} against subject %.*s\n", fc, min, max,      DPRINTF(("negative matching %c{%d,%d} against subject %.*s\n", fc, min, max,
3601        max, eptr));        max, eptr));
3602    
3603      if ((ims & PCRE_CASELESS) != 0)      if (op >= OP_NOTSTARI)     /* Caseless */
3604        {        {
3605        fc = md->lcc[fc];  #ifdef COMPILE_PCRE8
3606          /* fc must be < 128 if UTF is enabled. */
3607          foc = md->fcc[fc];
3608    #else
3609    #ifdef SUPPORT_UTF
3610    #ifdef SUPPORT_UCP
3611          if (utf && fc > 127)
3612            foc = UCD_OTHERCASE(fc);
3613    #else
3614          if (utf && fc > 127)
3615            foc = fc;
3616    #endif /* SUPPORT_UCP */
3617          else
3618    #endif /* SUPPORT_UTF */
3619            foc = TABLE_GET(fc, md->fcc, fc);
3620    #endif /* COMPILE_PCRE8 */
3621    
3622  #ifdef SUPPORT_UTF8  #ifdef SUPPORT_UTF
3623        /* UTF-8 mode */        if (utf)
       if (utf8)  
3624          {          {
3625          register unsigned int d;          register unsigned int d;
3626          for (i = 1; i <= min; i++)          for (i = 1; i <= min; i++)
# Line 2830  for (;;) Line 3631  for (;;)
3631              RRETURN(MATCH_NOMATCH);              RRETURN(MATCH_NOMATCH);
3632              }              }
3633            GETCHARINC(d, eptr);            GETCHARINC(d, eptr);
3634            if (d < 256) d = md->lcc[d];            if (fc == d || foc == d) RRETURN(MATCH_NOMATCH);
           if (fc == d) RRETURN(MATCH_NOMATCH);  
3635            }            }
3636          }          }
3637        else        else
3638  #endif  #endif
3639          /* Not UTF mode */
       /* Not UTF-8 mode */  
3640          {          {
3641          for (i = 1; i <= min; i++)          for (i = 1; i <= min; i++)
3642            {            {
# Line 2846  for (;;) Line 3645  for (;;)
3645              SCHECK_PARTIAL();              SCHECK_PARTIAL();
3646              RRETURN(MATCH_NOMATCH);              RRETURN(MATCH_NOMATCH);
3647              }              }
3648            if (fc == md->lcc[*eptr++]) RRETURN(MATCH_NOMATCH);            if (fc == *eptr || foc == *eptr) RRETURN(MATCH_NOMATCH);
3649              eptr++;
3650            }            }
3651          }          }
3652    
# Line 2854  for (;;) Line 3654  for (;;)
3654    
3655        if (minimize)        if (minimize)
3656          {          {
3657  #ifdef SUPPORT_UTF8  #ifdef SUPPORT_UTF
3658          /* UTF-8 mode */          if (utf)
         if (utf8)  
3659            {            {
3660            register unsigned int d;            register unsigned int d;
3661            for (fi = min;; fi++)            for (fi = min;; fi++)
3662              {              {
3663              RMATCH(eptr, ecode, offset_top, md, ims, eptrb, 0, RM28);              RMATCH(eptr, ecode, offset_top, md, eptrb, RM28);
3664              if (rrc != MATCH_NOMATCH) RRETURN(rrc);              if (rrc != MATCH_NOMATCH) RRETURN(rrc);
3665              if (fi >= max) RRETURN(MATCH_NOMATCH);              if (fi >= max) RRETURN(MATCH_NOMATCH);
3666              if (eptr >= md->end_subject)              if (eptr >= md->end_subject)
# Line 2870  for (;;) Line 3669  for (;;)
3669                RRETURN(MATCH_NOMATCH);                RRETURN(MATCH_NOMATCH);
3670                }                }
3671              GETCHARINC(d, eptr);              GETCHARINC(d, eptr);
3672              if (d < 256) d = md->lcc[d];              if (fc == d || foc == d) RRETURN(MATCH_NOMATCH);
             if (fc == d) RRETURN(MATCH_NOMATCH);  
3673              }              }
3674            }            }
3675          else          else
3676  #endif  #endif
3677          /* Not UTF-8 mode */          /* Not UTF mode */
3678            {            {
3679            for (fi = min;; fi++)            for (fi = min;; fi++)
3680              {              {
3681              RMATCH(eptr, ecode, offset_top, md, ims, eptrb, 0, RM29);              RMATCH(eptr, ecode, offset_top, md, eptrb, RM29);
3682              if (rrc != MATCH_NOMATCH) RRETURN(rrc);              if (rrc != MATCH_NOMATCH) RRETURN(rrc);
3683              if (fi >= max) RRETURN(MATCH_NOMATCH);              if (fi >= max) RRETURN(MATCH_NOMATCH);
3684              if (eptr >= md->end_subject)              if (eptr >= md->end_subject)
# Line 2888  for (;;) Line 3686  for (;;)
3686                SCHECK_PARTIAL();                SCHECK_PARTIAL();
3687                RRETURN(MATCH_NOMATCH);                RRETURN(MATCH_NOMATCH);
3688                }                }
3689              if (fc == md->lcc[*eptr++]) RRETURN(MATCH_NOMATCH);              if (fc == *eptr || foc == *eptr) RRETURN(MATCH_NOMATCH);
3690                eptr++;
3691              }              }
3692            }            }
3693          /* Control never gets here */          /* Control never gets here */
# Line 2900  for (;;) Line 3699  for (;;)
3699          {          {
3700          pp = eptr;          pp = eptr;
3701    
3702  #ifdef SUPPORT_UTF8  #ifdef SUPPORT_UTF
3703          /* UTF-8 mode */          if (utf)
         if (utf8)  
3704            {            {
3705            register unsigned int d;            register unsigned int d;
3706            for (i = min; i < max; i++)            for (i = min; i < max; i++)
3707              {              {
3708              int len = 1;              int len = 1;
3709              if (eptr >= md->end_subject) break;              if (eptr >= md->end_subject)
3710                  {
3711                  SCHECK_PARTIAL();
3712                  break;
3713                  }
3714              GETCHARLEN(d, eptr, len);              GETCHARLEN(d, eptr, len);
3715              if (d < 256) d = md->lcc[d];              if (fc == d || foc == d) break;
             if (fc == d) break;  
3716              eptr += len;              eptr += len;
3717              }              }
3718          if (possessive) continue;          if (possessive) continue;
3719          for(;;)          for(;;)
3720              {              {
3721              RMATCH(eptr, ecode, offset_top, md, ims, eptrb, 0, RM30);              RMATCH(eptr, ecode, offset_top, md, eptrb, RM30);
3722              if (rrc != MATCH_NOMATCH) RRETURN(rrc);              if (rrc != MATCH_NOMATCH) RRETURN(rrc);
3723              if (eptr-- == pp) break;        /* Stop if tried at original pos */              if (eptr-- == pp) break;        /* Stop if tried at original pos */
3724              BACKCHAR(eptr);              BACKCHAR(eptr);
# Line 2925  for (;;) Line 3726  for (;;)
3726            }            }
3727          else          else
3728  #endif  #endif
3729          /* Not UTF-8 mode */          /* Not UTF mode */
3730            {            {
3731            for (i = min; i < max; i++)            for (i = min; i < max; i++)
3732              {              {
3733              if (eptr >= md->end_subject || fc == md->lcc[*eptr]) break;              if (eptr >= md->end_subject)
3734                  {
3735                  SCHECK_PARTIAL();
3736                  break;
3737                  }
3738                if (fc == *eptr || foc == *eptr) break;
3739              eptr++;              eptr++;
3740              }              }
3741            if (possessive) continue;            if (possessive) continue;
3742            while (eptr >= pp)            while (eptr >= pp)
3743              {              {
3744              RMATCH(eptr, ecode, offset_top, md, ims, eptrb, 0, RM31);              RMATCH(eptr, ecode, offset_top, md, eptrb, RM31);
3745              if (rrc != MATCH_NOMATCH) RRETURN(rrc);              if (rrc != MATCH_NOMATCH) RRETURN(rrc);
3746              eptr--;              eptr--;
3747              }              }
# Line 2950  for (;;) Line 3756  for (;;)
3756    
3757      else      else
3758        {        {
3759  #ifdef SUPPORT_UTF8  #ifdef SUPPORT_UTF
3760        /* UTF-8 mode */        if (utf)
       if (utf8)  
3761          {          {
3762          register unsigned int d;          register unsigned int d;
3763          for (i = 1; i <= min; i++)          for (i = 1; i <= min; i++)
# Line 2968  for (;;) Line 3773  for (;;)
3773          }          }
3774        else        else
3775  #endif  #endif
3776        /* Not UTF-8 mode */        /* Not UTF mode */
3777          {          {
3778          for (i = 1; i <= min; i++)          for (i = 1; i <= min; i++)
3779            {            {
# Line 2985  for (;;) Line 3790  for (;;)
3790    
3791        if (minimize)        if (minimize)
3792          {          {
3793  #ifdef SUPPORT_UTF8  #ifdef SUPPORT_UTF
3794          /* UTF-8 mode */          if (utf)
         if (utf8)  
3795            {            {
3796            register unsigned int d;            register unsigned int d;
3797            for (fi = min;; fi++)            for (fi = min;; fi++)
3798              {              {
3799              RMATCH(eptr, ecode, offset_top, md, ims, eptrb, 0, RM32);              RMATCH(eptr, ecode, offset_top, md, eptrb, RM32);
3800              if (rrc != MATCH_NOMATCH) RRETURN(rrc);              if (rrc != MATCH_NOMATCH) RRETURN(rrc);
3801              if (fi >= max) RRETURN(MATCH_NOMATCH);              if (fi >= max) RRETURN(MATCH_NOMATCH);
3802              if (eptr >= md->end_subject)              if (eptr >= md->end_subject)
# Line 3006  for (;;) Line 3810  for (;;)
3810            }            }
3811          else          else
3812  #endif  #endif
3813          /* Not UTF-8 mode */          /* Not UTF mode */
3814            {            {
3815            for (fi = min;; fi++)            for (fi = min;; fi++)
3816              {              {
3817              RMATCH(eptr, ecode, offset_top, md, ims, eptrb, 0, RM33);              RMATCH(eptr, ecode, offset_top, md, eptrb, RM33);
3818              if (rrc != MATCH_NOMATCH) RRETURN(rrc);              if (rrc != MATCH_NOMATCH) RRETURN(rrc);
3819              if (fi >= max) RRETURN(MATCH_NOMATCH);              if (fi >= max) RRETURN(MATCH_NOMATCH);
3820              if (eptr >= md->end_subject)              if (eptr >= md->end_subject)
# Line 3030  for (;;) Line 3834  for (;;)
3834          {          {
3835          pp = eptr;          pp = eptr;
3836    
3837  #ifdef SUPPORT_UTF8  #ifdef SUPPORT_UTF
3838          /* UTF-8 mode */          if (utf)
         if (utf8)  
3839            {            {
3840            register unsigned int d;            register unsigned int d;
3841            for (i = min; i < max; i++)            for (i = min; i < max; i++)
3842              {              {
3843              int len = 1;              int len = 1;
3844              if (eptr >= md->end_subject) break;              if (eptr >= md->end_subject)
3845                  {
3846                  SCHECK_PARTIAL();
3847                  break;
3848                  }
3849              GETCHARLEN(d, eptr, len);              GETCHARLEN(d, eptr, len);
3850              if (fc == d) break;              if (fc == d) break;
3851              eptr += len;              eptr += len;
# Line 3046  for (;;) Line 3853  for (;;)
3853            if (possessive) continue;            if (possessive) continue;
3854            for(;;)            for(;;)
3855              {              {
3856              RMATCH(eptr, ecode, offset_top, md, ims, eptrb, 0, RM34);              RMATCH(eptr, ecode, offset_top, md, eptrb, RM34);
3857              if (rrc != MATCH_NOMATCH) RRETURN(rrc);              if (rrc != MATCH_NOMATCH) RRETURN(rrc);
3858              if (eptr-- == pp) break;        /* Stop if tried at original pos */              if (eptr-- == pp) break;        /* Stop if tried at original pos */
3859              BACKCHAR(eptr);              BACKCHAR(eptr);
# Line 3054  for (;;) Line 3861  for (;;)
3861            }            }
3862          else          else
3863  #endif  #endif
3864          /* Not UTF-8 mode */          /* Not UTF mode */
3865            {            {
3866            for (i = min; i < max; i++)            for (i = min; i < max; i++)
3867              {              {
3868              if (eptr >= md->end_subject || fc == *eptr) break;              if (eptr >= md->end_subject)
3869                  {
3870                  SCHECK_PARTIAL();
3871                  break;
3872                  }
3873                if (fc == *eptr) break;
3874              eptr++;              eptr++;
3875              }              }
3876            if (possessive) continue;            if (possessive) continue;