=head1 NAME perlreapi - perl regular expression plugin interface =head1 DESCRIPTION As of Perl 5.9.5 there is a new interface for using other regexp engines than the default one. Each engine is supposed to provide access to a constant structure of the following format: typedef struct regexp_engine { REGEXP* (*comp) (pTHX_ const SV * const pattern, const U32 flags); I32 (*exec) (pTHX_ regexp* prog, char* stringarg, char* strend, char* strbeg, I32 minend, SV* screamer, void* data, U32 flags); char* (*intuit) (pTHX_ regexp *prog, SV *sv, char *strpos, char *strend, U32 flags, struct re_scream_pos_data_s *data); SV* (*checkstr) (pTHX_ regexp *prog); void (*free) (pTHX_ struct regexp* r); SV* (*numbered_buff_get) (pTHX_ const REGEXP * const rx, I32 paren, SV* usesv); SV* (*named_buff_get)(pTHX_ const REGEXP * const rx, SV* namesv, U32 flags); SV* (*qr_pkg)(pTHX_ const REGEXP * const rx); #ifdef USE_ITHREADS void* (*dupe) (pTHX_ const regexp *r, CLONE_PARAMS *param); #endif } regexp_engine; When a regexp is compiled, its C field is then set to point at the appropriate structure so that when it needs to be used Perl can find the right routines to do so. In order to install a new regexp handler, C<$^H{regcomp}> is set to an integer which (when casted appropriately) resolves to one of these structures. When compiling, the C method is executed, and the resulting regexp structure's engine field is expected to point back at the same structure. The pTHX_ symbol in the definition is a macro used by perl under threading to provide an extra argument to the routine holding a pointer back to the interpreter that is executing the regexp. So under threading all routines get an extra argument. The routines are as follows: =head2 comp REGEXP* comp(pTHX_ const SV * const pattern, const U32 flags); Compile the pattern stored in C using the given C and return a pointer to a prepared C structure that can perform the match. See L below for an explanation of the individual fields in the REGEXP struct. The C parameter is the scalar that was used as the pattern. previous versions of perl would pass two C indicating the start and end of the stringifed pattern, the following snippet can be used to get the old parameters: STRLEN plen; char* exp = SvPV(pattern, plen); char* xend = exp + plen; Since any scalar can be passed as a pattern it's possible to implement an engine that does something with an array (C<< "ook" =~ [ qw/ eek hlagh / ] >>) or with the non-stringified form of a compiled regular expression (C<< "ook" =~ qr/eek/ >>). perl's own engine will always stringify everything using the snippet above but that doesn't mean other engines have to. The C paramater is a bitfield which indicates which of the C flags the regex was compiled with. In addition it contains info about whether C is in effect and optimization info for C. A regex engine might want to use the same split optimizations with a different syntax, for instance a Perl6 engine would treat C equivalently to perl's C, see L and the relevant code in C in F to find out whether your engine should be setting these. The C flags are stripped out before being passed to the comp routine. The regex engine does not need to know whether any of these are set as those flags should only affect what perl does with the pattern and its match variables, not how it gets compiled & executed. =over 4 =item RXf_SKIPWHITE C or C with no arguments (which really means C see L). =item RXf_START_ONLY Set if the pattern is C (C<prelen == 1 && r->precomp[0] == '^'>>). Will be used by the C operator to split the given string on C<\n> (even under C, see L). =item RXf_WHITE Set if the pattern is exactly C and used by C, the definition of whitespace varies depending on whether RXf_UTF8 or RXf_PMf_LOCALE is set. =item RXf_PMf_LOCALE Makes C use the locale dependant definition of whitespace under C when RXf_SKIPWHITE or RXf_WHITE is in effect. Under ASCII whitespace is defined as per L, and by the internal macros C under UTF-8 and C under C. =item RXf_PMf_MULTILINE The C flag, this ends up being passed to C by C regardless of the engine. =item RXf_PMf_SINGLELINE The C flag. Guaranteed not to be used outside the regex engine. =item RXf_PMf_FOLD The C flag. Guaranteed not to be used outside the regex engine. =item RXf_PMf_EXTENDED The C flag. Guaranteed not to be used outside the regex engine. However if present on a regex C<#> comments will be stripped by the tokenizer regardless of the engine currently in use. =item RXf_PMf_KEEPCOPY The C flag. =item RXf_UTF8 Set if the pattern is L, set by Perl_pmruntime. =back In general these flags should be preserved in regex->extflags after compilation, although it is possible the regex includes constructs that changes them. The perl engine for instance may upgrade non-utf8 strings to utf8 if the pattern includes constructs such as C<\x{...}> that can only match unicode values. RXf_SKIPWHITE should always be preserved verbatim in regex->extflags. =head2 exec I32 exec(regexp* prog, char *stringarg, char* strend, char* strbeg, I32 minend, SV* screamer, void* data, U32 flags); Execute a regexp. =head2 intuit char* intuit( regexp *prog, SV *sv, char *strpos, char *strend, U32 flags, struct re_scream_pos_data_s *data); Find the start position where a regex match should be attempted, or possibly whether the regex engine should not be run because the pattern can't match. This is called as appropriate by the core depending on the values of the extflags member of the regexp structure. =head2 checkstr SV* checkstr(regexp *prog); Return a SV containing a string that must appear in the pattern. Used by C for optimising matches. =head2 free void free(regexp *prog); Called by perl when it is freeing a regexp pattern so that the engine can release any resources pointed to by the C member of the regexp structure. This is only responsible for freeing private data; perl will handle releasing anything else contained in the regexp structure. =head2 numbered_buff_get SV* numbered_buff_get(pTHX_ const REGEXP * const rx, I32 paren, SV* usesv); TODO: document =head2 named_buff_get SV* named_buff_get(pTHX_ const REGEXP * const rx, SV* namesv, U32 flags); TODO: document =head2 qr_pkg SV* qr_pkg(pTHX_ const REGEXP * const rx); The package the qr// magic object is blessed into (as seen by C). It is recommended that engines change this to its package name, for instance: SV* Example_reg_qr_pkg(pTHX_ const REGEXP * const rx) { PERL_UNUSED_ARG(rx); return newSVpvs("re::engine::Example"); } Any method calls on an object created with C will be dispatched to the package as a normal object. use re::engine::Example; my $re = qr//; $re->meth; # dispatched to re::engine::Example::meth() To retrieve the C object from the scalar in an XS function use the following snippet: void meth(SV * rv) PPCODE: MAGIC * mg; REGEXP * re; if (SvMAGICAL(sv)) mg_get(sv); if (SvROK(sv) && (sv = (SV*)SvRV(sv)) && /* assignment deliberate */ SvTYPE(sv) == SVt_PVMG && (mg = mg_find(sv, PERL_MAGIC_qr))) /* assignment deliberate */ { re = (REGEXP *)mg->mg_obj; } Or use the (CURRENTLY UNDOCUMENETED!) C function: void meth(SV * rv) PPCODE: const REGEXP * const re = (REGEXP *)Perl_get_re_arg( aTHX_ rv, 0, NULL ); =head2 dupe void* dupe(const regexp *r, CLONE_PARAMS *param); On threaded builds a regexp may need to be duplicated so that the pattern can be used by mutiple threads. This routine is expected to handle the duplication of any private data pointed to by the C member of the regexp structure. It will be called with the preconstructed new regexp structure as an argument, the C member will point at the B private structue, and it is this routine's responsibility to construct a copy and return a pointer to it (which perl will then use to overwrite the field as passed to this routine.) This allows the engine to dupe its private data but also if necessary modify the final structure if it really must. On unthreaded builds this field doesn't exist. =head1 The REGEXP structure The REGEXP struct is defined in F. All regex engines must be able to correctly build such a structure in their L routine. The REGEXP structure contains all the data that perl needs to be aware of to properly work with the regular expression. It includes data about optimisations that perl can use to determine if the regex engine should really be used, and various other control info that is needed to properly execute patterns in various contexts such as is the pattern anchored in some way, or what flags were used during the compile, or whether the program contains special constructs that perl needs to be aware of. In addition it contains two fields that are intended for the private use of the regex engine that compiled the pattern. These are the C and pprivate members. The C is a void pointer to an arbitrary structure whose use and management is the responsibility of the compiling engine. perl will never modify either of these values. typedef struct regexp { /* what engine created this regexp? */ const struct regexp_engine* engine; /* what re is this a lightweight copy of? */ struct regexp* mother_re; /* Information about the match that the perl core uses to manage things */ U32 extflags; /* Flags used both externally and internally */ I32 minlen; /* mininum possible length of string to match */ I32 minlenret; /* mininum possible length of $& */ U32 gofs; /* chars left of pos that we search from */ /* substring data about strings that must appear in the final match, used for optimisations */ struct reg_substr_data *substrs; U32 nparens; /* number of capture buffers */ /* private engine specific data */ U32 intflags; /* Engine Specific Internal flags */ void *pprivate; /* Data private to the regex engine which created this object. */ /* Data about the last/current match. These are modified during matching*/ U32 lastparen; /* last open paren matched */ U32 lastcloseparen; /* last close paren matched */ regexp_paren_pair *swap; /* Swap copy of *offs */ regexp_paren_pair *offs; /* Array of offsets for (@-) and (@+) */ char *subbeg; /* saved or original string so \digit works forever. */ SV_SAVED_COPY /* If non-NULL, SV which is COW from original */ I32 sublen; /* Length of string pointed by subbeg */ /* Information about the match that isn't often used */ I32 prelen; /* length of precomp */ const char *precomp; /* pre-compilation regular expression */ /* wrapped can't be const char*, as it is returned by sv_2pv_flags */ char *wrapped; /* wrapped version of the pattern */ I32 wraplen; /* length of wrapped */ I32 seen_evals; /* number of eval groups in the pattern - for security checks */ HV *paren_names; /* Optional hash of paren names */ /* Refcount of this regexp */ I32 refcnt; /* Refcount of this regexp */ } regexp; The fields are discussed in more detail below: =over 4 =item C This field points at a regexp_engine structure which contains pointers to the subroutines that are to be used for performing a match. It is the compiling routine's responsibility to populate this field before returning the regexp object. Internally this is set to C unless a custom engine is specified in C<$^H{regcomp}>, perl's own set of callbacks can be accessed in the struct pointed to by C. =item C TODO, see L =item C This will be used by perl to see what flags the regexp was compiled with, this will normally be set to the value of the flags parameter on L. =item C C The minimum string length required for the pattern to match. This is used to prune the search space by not bothering to match any closer to the end of a string than would allow a match. For instance there is no point in even starting the regex engine if the minlen is 10 but the string is only 5 characters long. There is no way that the pattern can match. C is the minimum length of the string that would be found in $& after a match. The difference between C and C can be seen in the following pattern: /ns(?=\d)/ where the C would be 3 but C would only be 2 as the \d is required to match but is not actually included in the matched content. This distinction is particularly important as the substitution logic uses the C to tell whether it can do in-place substition which can result in considerable speedup. =item C Left offset from pos() to start match at. =item C TODO: document =item C, C, and C These fields are used to keep track of how many paren groups could be matched in the pattern, which was the last open paren to be entered, and which was the last close paren to be entered. =item C The engine's private copy of the flags the pattern was compiled with. Usually this is the same as C unless the engine chose to modify one of them =item C A void* pointing to an engine-defined data structure. The perl engine uses the C structure (see L) but a custom engine should use something else. =item C TODO: document =item C A C structure which defines offsets into the string being matched which correspond to the C<$&> and C<$1>, C<$2> etc. captures, the C struct is defined as follows: typedef struct regexp_paren_pair { I32 start; I32 end; } regexp_paren_pair; If C<< ->offs[num].start >> or C<< ->offs[num].end >> is C<-1> then that capture buffer did not match. C<< ->offs[0].start/end >> represents C<$&> (or C<${^MATCH> under C) and C<< ->offs[paren].end >> matches C<$$paren> where C<$paren >= 1>. =item C C Used for debugging purposes. C holds a copy of the pattern that was compiled and C its length. =item C This is a hash used internally to track named capture buffers and their offsets. The keys are the names of the buffers the values are dualvars, with the IV slot holding the number of buffers with the given name and the pv being an embedded array of I32. The values may also be contained independently in the data array in cases where named backreferences are used. =item C Holds information on the longest string that must occur at a fixed offset from the start of the pattern, and the longest string that must occur at a floating offset from the start of the pattern. Used to do Fast-Boyer-Moore searches on the string to find out if its worth using the regex engine at all, and if so where in the string to search. =item C, C These fields store arrays that are used to hold the offsets of the begining and end of each capture group that has matched. -1 is used to indicate no match. These are the source for @- and @+. =item C C C #define SAVEPVN(p,n) ((p) ? savepvn(p,n) : NULL) if (RX_MATCH_COPIED(ret)) ret->subbeg = SAVEPVN(ret->subbeg, ret->sublen); else ret->subbeg = NULL; Cextflags & RXf_PMf_KEEPCOPY> These are used during execution phase for managing search and replace patterns. =item C C Stores the string C stringifies to, for example C<(?-xism:eek)> in the case of C. When using a custom engine that doesn't support the C<(?:)> construct for inline modifiers it's best to have C stringify to the supplied pattern, note that this will create invalid patterns in cases such as: my $x = qr/a|b/; # "a|b" my $y = qr/c/; # "c" my $z = qr/$x$y/; # "a|bc" There's no solution for such problems other than making the custom engine understand some for of inline modifiers. The C in F does the stringification work. =item C This stores the number of eval groups in the pattern. This is used for security purposes when embedding compiled regexes into larger patterns with C. =item C The number of times the structure is referenced. When this falls to 0 the regexp is automatically freed by a call to pregfree. This should be set to 1 in each engine's L routine. =back =head2 De-allocation and Cloning Any patch that adds data items to the REGEXP struct will need to include changes to F (C) and F (C). This involves freeing or cloning items in the regexp's data array based on the data item's type. =head1 HISTORY Originally part of L. =head1 AUTHORS Originally written by Yves Orton, expanded by Evar ArnfjErE Bjarmason. =head1 LICENSE Copyright 2006 Yves Orton and 2007 Evar ArnfjErE Bjarmason. This program is free software; you can redistribute it and/or modify it under the same terms as Perl itself. =cut