=head1 NAME
perlreapi - Perl regular expression plugin interface
=head1 DESCRIPTION
As of Perl 5.9.5 there is a new interface for plugging and using
regular expression engines other 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 * const rx,
char* stringarg,
char* strend, char* strbeg,
SSize_t minend, SV* sv,
void* data, U32 flags);
char* (*intuit) (pTHX_
REGEXP * const rx, SV *sv,
const char * const strbeg,
char *strpos, char *strend, U32 flags,
struct re_scream_pos_data_s *data);
SV* (*checkstr) (pTHX_ REGEXP * const rx);
void (*free) (pTHX_ REGEXP * const rx);
void (*numbered_buff_FETCH) (pTHX_
REGEXP * const rx,
const I32 paren,
SV * const sv);
void (*numbered_buff_STORE) (pTHX_
REGEXP * const rx,
const I32 paren,
SV const * const value);
I32 (*numbered_buff_LENGTH) (pTHX_
REGEXP * const rx,
const SV * const sv,
const I32 paren);
SV* (*named_buff) (pTHX_
REGEXP * const rx,
SV * const key,
SV * const value,
U32 flags);
SV* (*named_buff_iter) (pTHX_
REGEXP * const rx,
const SV * const lastkey,
const U32 flags);
SV* (*qr_package)(pTHX_ REGEXP * const rx);
#ifdef USE_ITHREADS
void* (*dupe) (pTHX_ REGEXP * const rx, CLONE_PARAMS *param);
#endif
REGEXP* (*op_comp) (...);
=for apidoc_section $regexp
=for apidoc Ay||regexp_engine
When a regexp is compiled, its C<engine> field is then set to point at
the appropriate structure, so that when it needs to be used Perl can find
the right routines to do so.
In order to install a new regexp handler, C<$^H{regcomp}> is set
to an integer which (when casted appropriately) resolves to one of these
structures. When compiling, the C<comp> method is executed, and the
resulting C<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.
=head1 Callbacks
=head2 comp
REGEXP* comp(pTHX_ const SV * const pattern, const U32 flags);
Compile the pattern stored in C<pattern> using the given C<flags> and
return a pointer to a prepared C<REGEXP> structure that can perform
the match. See L</The REGEXP structure> below for an explanation of
the individual fields in the REGEXP struct.
The C<pattern> parameter is the scalar that was used as the
pattern. Previous versions of Perl would pass two C<char*> indicating
the start and end of the stringified 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<flags> parameter is a bitfield which indicates which of the
C<msixpn> flags the regex was compiled with. It also contains
additional info, such as if C<use locale> is in effect.
The C<eogc> flags are stripped out before being passed to the comp
routine. The regex engine does not need to know if 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 and
executed.
By the time the comp callback is called, some of these flags have
already had effect (noted below where applicable). However most of
their effect occurs after the comp callback has run, in routines that
read the C<< rx->extflags >> field which it populates.
In general the flags should be preserved in C<< rx->extflags >> after
compilation, although the regex engine might want to add or delete
some of them to invoke or disable some special behavior in Perl. The
flags along with any special behavior they cause are documented below:
The pattern modifiers:
=over 4
=item C</m> - RXf_PMf_MULTILINE
If this is in C<< rx->extflags >> it will be passed to
C<Perl_fbm_instr> by C<pp_split> which will treat the subject string
as a multi-line string.
=for apidoc Amnh||RXf_PMf_EXTENDED
=for apidoc_item RXf_PMf_FOLD
=for apidoc_item RXf_PMf_KEEPCOPY
=for apidoc_item RXf_PMf_MULTILINE
=for apidoc_item RXf_PMf_SINGLELINE
=item C</s> - RXf_PMf_SINGLELINE
=item C</i> - RXf_PMf_FOLD
=item C</x> - RXf_PMf_EXTENDED
If present on a regex, C<"#"> comments will be handled differently by the
tokenizer in some cases.
TODO: Document those cases.
=item C</p> - RXf_PMf_KEEPCOPY
TODO: Document this
=item Character set
The character set rules are determined by an enum that is contained
in this field. This is still experimental and subject to change, but
the current interface returns the rules by use of the in-line function
C<get_regex_charset(const U32 flags)>. The only currently documented
value returned from it is REGEX_LOCALE_CHARSET, which is set if
C<use locale> is in effect. If present in C<< rx->extflags >>,
C<split> will use the locale dependent definition of whitespace
when RXf_SKIPWHITE or RXf_WHITE is in effect. ASCII whitespace
is defined as per L<isSPACE|perlapi/isSPACE>, and by the internal
macros C<is_utf8_space> under UTF-8, and C<isSPACE_LC> under C<use
locale>.
=for apidoc Amnh||REGEX_LOCALE_CHARSET
=back
Additional flags:
=over 4
=item RXf_SPLIT
This flag was removed in perl 5.18.0. C<split ' '> is now special-cased
solely in the parser. RXf_SPLIT is still #defined, so you can test for it.
This is how it used to work:
If C<split> is invoked as C<split ' '> or with no arguments (which
really means C<split(' ', $_)>, see L<split|perlfunc/split>), Perl will
set this flag. The regex engine can then check for it and set the
SKIPWHITE and WHITE extflags. To do this, the Perl engine does:
if (flags & RXf_SPLIT && r->prelen == 1 && r->precomp[0] == ' ')
r->extflags |= (RXf_SKIPWHITE|RXf_WHITE);
=back
These flags can be set during compilation to enable optimizations in
the C<split> operator.
=for apidoc Amnh||RXf_NO_INPLACE_SUBST
=for apidoc_item RXf_NULL
=for apidoc_item RXf_SKIPWHITE
=for apidoc_item RXf_SPLIT
=for apidoc_item RXf_START_ONLY
=for apidoc_item RXf_WHITE
=over 4
=item RXf_SKIPWHITE
This flag was removed in perl 5.18.0. It is still #defined, so you can
set it, but doing so will have no effect. This is how it used to work:
If the flag is present in C<< rx->extflags >> C<split> will delete
whitespace from the start of the subject string before it's operated
on. What is considered whitespace depends on if the subject is a
UTF-8 string and if the C<RXf_PMf_LOCALE> flag is set.
If RXf_WHITE is set in addition to this flag, C<split> will behave like
C<split " "> under the Perl engine.
=item RXf_START_ONLY
Tells the split operator to split the target string on newlines
(C<\n>) without invoking the regex engine.
Perl's engine sets this if the pattern is C</^/> (C<plen == 1 && *exp
== '^'>), even under C</^/s>; see L<split|perlfunc>. Of course a
different regex engine might want to use the same optimizations
with a different syntax.
=item RXf_WHITE
Tells the split operator to split the target string on whitespace
without invoking the regex engine. The definition of whitespace varies
depending on if the target string is a UTF-8 string and on
if RXf_PMf_LOCALE is set.
Perl's engine sets this flag if the pattern is C<\s+>.
=item RXf_NULL
Tells the split operator to split the target string on
characters. The definition of character varies depending on if
the target string is a UTF-8 string.
Perl's engine sets this flag on empty patterns, this optimization
makes C<split //> much faster than it would otherwise be. It's even
faster than C<unpack>.
=item RXf_NO_INPLACE_SUBST
Added in perl 5.18.0, this flag indicates that a regular expression might
perform an operation that would interfere with inplace substitution. For
instance it might contain lookbehind, or assign to non-magical variables
(such as $REGMARK and $REGERROR) during matching. C<s///> will skip
certain optimisations when this is set.
=back
=head2 exec
I32 exec(pTHX_ REGEXP * const rx,
char *stringarg, char* strend, char* strbeg,
SSize_t minend, SV* sv,
void* data, U32 flags);
Execute a regexp. The arguments are
=over 4
=item rx
The regular expression to execute.
=item sv
This is the SV to be matched against. Note that the
actual char array to be matched against is supplied by the arguments
described below; the SV is just used to determine UTF8ness, C<pos()> etc.
=item strbeg
Pointer to the physical start of the string.
=item strend
Pointer to the character following the physical end of the string (i.e.
the C<\0>, if any).
=item stringarg
Pointer to the position in the string where matching should start; it might
not be equal to C<strbeg> (for example in a later iteration of C</.../g>).
=item minend
Minimum length of string (measured in bytes from C<stringarg>) that must
match; if the engine reaches the end of the match but hasn't reached this
position in the string, it should fail.
=item data
Optimisation data; subject to change.
=item flags
Optimisation flags; subject to change.
=back
=head2 intuit
char* intuit(pTHX_
REGEXP * const rx,
SV *sv,
const char * const strbeg,
char *strpos,
char *strend,
const U32 flags,
struct re_scream_pos_data_s *data);
Find the start position where a regex match should be attempted,
or possibly if 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 C<extflags> member of the C<regexp>
structure.
Arguments:
rx: the regex to match against
sv: the SV being matched: only used for utf8 flag; the string
itself is accessed via the pointers below. Note that on
something like an overloaded SV, SvPOK(sv) may be false
and the string pointers may point to something unrelated to
the SV itself.
strbeg: real beginning of string
strpos: the point in the string at which to begin matching
strend: pointer to the byte following the last char of the string
flags currently unused; set to 0
data: currently unused; set to NULL
=head2 checkstr
SV* checkstr(pTHX_ REGEXP * const rx);
Return a SV containing a string that must appear in the pattern. Used
by C<split> for optimising matches.
=head2 free
void free(pTHX_ REGEXP * const rx);
Called by Perl when it is freeing a regexp pattern so that the engine
can release any resources pointed to by the C<pprivate> member of the
C<regexp> structure. This is only responsible for freeing private data;
Perl will handle releasing anything else contained in the C<regexp> structure.
=head2 Numbered capture callbacks
Called to get/set the value of C<$`>, C<$'>, C<$&> and their named
equivalents, ${^PREMATCH}, ${^POSTMATCH} and ${^MATCH}, as well as the
numbered capture groups (C<$1>, C<$2>, ...).
The C<paren> parameter will be C<1> for C<$1>, C<2> for C<$2> and so
forth, and have these symbolic values for the special variables:
${^PREMATCH} RX_BUFF_IDX_CARET_PREMATCH
${^POSTMATCH} RX_BUFF_IDX_CARET_POSTMATCH
${^MATCH} RX_BUFF_IDX_CARET_FULLMATCH
$` RX_BUFF_IDX_PREMATCH
$' RX_BUFF_IDX_POSTMATCH
$& RX_BUFF_IDX_FULLMATCH
=for apidoc Amnh||RX_BUFF_IDX_CARET_FULLMATCH
=for apidoc_item RX_BUFF_IDX_CARET_POSTMATCH
=for apidoc_item RX_BUFF_IDX_CARET_PREMATCH
=for apidoc_item RX_BUFF_IDX_FULLMATCH
=for apidoc_item RX_BUFF_IDX_POSTMATCH
=for apidoc_item RX_BUFF_IDX_PREMATCH
Note that in Perl 5.17.3 and earlier, the last three constants were also
used for the caret variants of the variables.
The names have been chosen by analogy with L<Tie::Scalar> methods
names with an additional B<LENGTH> callback for efficiency. However
named capture variables are currently not tied internally but
implemented via magic.
=head3 numbered_buff_FETCH
void numbered_buff_FETCH(pTHX_ REGEXP * const rx, const I32 paren,
SV * const sv);
Fetch a specified numbered capture. C<sv> should be set to the scalar
to return, the scalar is passed as an argument rather than being
returned from the function because when it's called Perl already has a
scalar to store the value, creating another one would be
redundant. The scalar can be set with C<sv_setsv>, C<sv_setpvn> and
friends, see L<perlapi>.
This callback is where Perl untaints its own capture variables under
taint mode (see L<perlsec>). See the C<Perl_reg_numbered_buff_fetch>
function in F<regcomp.c> for how to untaint capture variables if
that's something you'd like your engine to do as well.
=head3 numbered_buff_STORE
void (*numbered_buff_STORE) (pTHX_
REGEXP * const rx,
const I32 paren,
SV const * const value);
Set the value of a numbered capture variable. C<value> is the scalar
that is to be used as the new value. It's up to the engine to make
sure this is used as the new value (or reject it).
Example:
if ("ook" =~ /(o*)/) {
# 'paren' will be '1' and 'value' will be 'ee'
$1 =~ tr/o/e/;
}
Perl's own engine will croak on any attempt to modify the capture
variables, to do this in another engine use the following callback
(copied from C<Perl_reg_numbered_buff_store>):
void
Example_reg_numbered_buff_store(pTHX_
REGEXP * const rx,
const I32 paren,
SV const * const value)
{
PERL_UNUSED_ARG(rx);
PERL_UNUSED_ARG(paren);
PERL_UNUSED_ARG(value);
if (!PL_localizing)
Perl_croak(aTHX_ PL_no_modify);
}
Actually Perl will not I<always> croak in a statement that looks
like it would modify a numbered capture variable. This is because the
STORE callback will not be called if Perl can determine that it
doesn't have to modify the value. This is exactly how tied variables
behave in the same situation:
package CaptureVar;
use parent 'Tie::Scalar';
sub TIESCALAR { bless [] }
sub FETCH { undef }
sub STORE { die "This doesn't get called" }
package main;
tie my $sv => "CaptureVar";
$sv =~ y/a/b/;
Because C<$sv> is C<undef> when the C<y///> operator is applied to it,
the transliteration won't actually execute and the program won't
C<die>. This is different to how 5.8 and earlier versions behaved
since the capture variables were READONLY variables then; now they'll
just die when assigned to in the default engine.
=head3 numbered_buff_LENGTH
I32 numbered_buff_LENGTH (pTHX_
REGEXP * const rx,
const SV * const sv,
const I32 paren);
Get the C<length> of a capture variable. There's a special callback
for this so that Perl doesn't have to do a FETCH and run C<length> on
the result, since the length is (in Perl's case) known from an offset
stored in C<< rx->offs >>, this is much more efficient:
I32 s1 = rx->offs[paren].start;
I32 s2 = rx->offs[paren].end;
I32 len = t1 - s1;
This is a little bit more complex in the case of UTF-8, see what
C<Perl_reg_numbered_buff_length> does with
L<is_utf8_string_loclen|perlapi/is_utf8_string_loclen>.
=head2 Named capture callbacks
Called to get/set the value of C<%+> and C<%->, as well as by some
utility functions in L<re>.
There are two callbacks, C<named_buff> is called in all the cases the
FETCH, STORE, DELETE, CLEAR, EXISTS and SCALAR L<Tie::Hash> callbacks
would be on changes to C<%+> and C<%-> and C<named_buff_iter> in the
same cases as FIRSTKEY and NEXTKEY.
The C<flags> parameter can be used to determine which of these
operations the callbacks should respond to. The following flags are
currently defined:
Which L<Tie::Hash> operation is being performed from the Perl level on
C<%+> or C<%+>, if any:
RXapif_FETCH
RXapif_STORE
RXapif_DELETE
RXapif_CLEAR
RXapif_EXISTS
RXapif_SCALAR
RXapif_FIRSTKEY
RXapif_NEXTKEY
=for apidoc Amnh ||RXapif_ALL
=for apidoc_item RXapif_CLEAR
=for apidoc_item RXapif_DELETE
=for apidoc_item RXapif_EXISTS
=for apidoc_item RXapif_FETCH
=for apidoc_item RXapif_FIRSTKEY
=for apidoc_item RXapif_NEXTKEY
=for apidoc_item RXapif_ONE
=for apidoc_item RXapif_REGNAME
=for apidoc_item RXapif_REGNAMES
=for apidoc_item RXapif_REGNAMES_COUNT
=for apidoc_item RXapif_SCALAR
=for apidoc_item RXapif_STORE
If C<%+> or C<%-> is being operated on, if any.
RXapif_ONE /* %+ */
RXapif_ALL /* %- */
If this is being called as C<re::regname>, C<re::regnames> or
C<re::regnames_count>, if any. The first two will be combined with
C<RXapif_ONE> or C<RXapif_ALL>.
RXapif_REGNAME
RXapif_REGNAMES
RXapif_REGNAMES_COUNT
Internally C<%+> and C<%-> are implemented with a real tied interface
via L<Tie::Hash::NamedCapture>. The methods in that package will call
back into these functions. However the usage of
L<Tie::Hash::NamedCapture> for this purpose might change in future
releases. For instance this might be implemented by magic instead
(would need an extension to mgvtbl).
=head3 named_buff
SV* (*named_buff) (pTHX_ REGEXP * const rx, SV * const key,
SV * const value, U32 flags);
=head3 named_buff_iter
SV* (*named_buff_iter) (pTHX_
REGEXP * const rx,
const SV * const lastkey,
const U32 flags);
=head2 qr_package
SV* qr_package(pTHX_ REGEXP * const rx);
The package the qr// magic object is blessed into (as seen by C<ref
qr//>). It is recommended that engines change this to their package
name for identification regardless of if they implement methods
on the object.
The package this method returns should also have the internal
C<Regexp> package in its C<@ISA>. C<< qr//->isa("Regexp") >> should always
be true regardless of what engine is being used.
Example implementation might be:
SV*
Example_qr_package(pTHX_ REGEXP * const rx)
{
PERL_UNUSED_ARG(rx);
return newSVpvs("re::engine::Example");
}
Any method calls on an object created with C<qr//> 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<REGEXP> object from the scalar in an XS function use
the C<SvRX> macro, see L<"REGEXP Functions" in perlapi|perlapi/REGEXP
Functions>.
void meth(SV * rv)
PPCODE:
REGEXP * re = SvRX(sv);
=head2 dupe
void* dupe(pTHX_ REGEXP * const rx, CLONE_PARAMS *param);
On threaded builds a regexp may need to be duplicated so that the pattern
can be used by multiple threads. This routine is expected to handle the
duplication of any private data pointed to by the C<pprivate> member of
the C<regexp> structure. It will be called with the preconstructed new
C<regexp> structure as an argument, the C<pprivate> member will point at
the B<old> private structure, 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.
=head2 op_comp
This is private to the Perl core and subject to change. Should be left
null.
=head1 The REGEXP structure
The REGEXP struct is defined in F<regexp.h>.
All regex engines must be able to
correctly build such a structure in their L</comp> routine.
=for apidoc Ayh||struct regexp
=for apidoc Ayh||REGEXP
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 if the pattern anchored in
some way, or what flags were used during the compile, or if 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<intflags> and C<pprivate> members. C<pprivate> 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.
/* copied from: regexp.h */
typedef struct regexp {
/*----------------------------------------------------------------------
* Fields required for compatibility with SV types
*/
_XPV_HEAD;
/*----------------------------------------------------------------------
* Operational fields
*/
const struct regexp_engine* engine; /* what engine created this regexp? */
REGEXP *mother_re; /* what re is this a lightweight copy of? */
HV *paren_names; /* Optional hash of paren names */
/*----------------------------------------------------------------------
* Information about the match that the perl core uses to manage things
*/
/* see comment in regcomp_internal.h about branch reset to understand
the distinction between physical and logical capture buffers */
U32 nparens; /* physical number of capture buffers */
U32 logical_nparens; /* logical_number of capture buffers */
I32 *logical_to_parno; /* map logical parno to first physcial */
I32 *parno_to_logical; /* map every physical parno to logical */
I32 *parno_to_logical_next; /* map every physical parno to the next
physical with the same logical id */
SSize_t maxlen; /* maximum possible number of chars in string to match */
SSize_t minlen; /* minimum possible number of chars in string to match */
SSize_t minlenret; /* minimum possible number of chars in $& */
STRLEN gofs; /* chars left of pos that we search from */
/* substring data about strings that must appear in
* the final match, used for optimisations */
struct reg_substr_data *substrs;
/* private engine specific data */
void *pprivate; /* Data private to the regex engine which
* created this object. */
U32 extflags; /* Flags used both externally and internally */
U32 intflags; /* Engine Specific Internal flags */
/*----------------------------------------------------------------------
* Data about the last/current match. These are modified during matching
*/
U32 lastparen; /* highest close paren matched ($+) */
U32 lastcloseparen; /* last close paren matched ($^N) */
regexp_paren_pair *offs; /* Array of offsets for (@-) and (@+) */
char **recurse_locinput; /* used to detect infinite recursion, XXX: move to internal */
/*---------------------------------------------------------------------- */
/* offset from wrapped to the start of precomp */
PERL_BITFIELD32 pre_prefix:4;
/* original flags used to compile the pattern, may differ from
* extflags in various ways */
PERL_BITFIELD32 compflags:9;
/*---------------------------------------------------------------------- */
char *subbeg; /* saved or original string so \digit works forever. */
SV_SAVED_COPY /* If non-NULL, SV which is COW from original */
SSize_t sublen; /* Length of string pointed by subbeg */
SSize_t suboffset; /* byte offset of subbeg from logical start of str */
SSize_t subcoffset; /* suboffset equiv, but in chars (for @-/@+) */
/*----------------------------------------------------------------------
* More Operational fields
*/
CV *qr_anoncv; /* the anon sub wrapped round qr/(?{..})/ */
} regexp;
Most of the fields contained in this structure are accessed via macros
with a prefix of C<RX_> or C<RXp_>. The fields are discussed in more detail
below:
=head2 C<engine>
This field points at a C<regexp_engine> structure which contains pointers
to the subroutines that are to be used for performing a match. It
is the compiling routine's responsibility to populate this field before
returning the regexp object.
Internally this is set to C<NULL> unless a custom engine is specified in
C<$^H{regcomp}>, Perl's own set of callbacks can be accessed in the struct
pointed to by C<RE_ENGINE_PTR>.
=for apidoc Amnh||SV_SAVED_COPY
=head2 C<mother_re>
This is a pointer to another struct regexp which this one was derived
from. C<qr//> objects means that the same regexp pattern can be used in
different contexts at the same time, and as long as match status
information is stored in the structure (there are plans to change this
eventually) we need to support having multiple copies of the structure
in use at the same time. The fields related to the regexp program itself
are copied from the mother_re, and owned by the mother_re, whereas the
match state variables are owned by the struct itself.
=head2 C<extflags>
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 by
the L<comp|/comp> callback. See the L<comp|/comp> documentation for
valid flags.
=head2 C<minlen> C<minlenret>
The minimum string length (in characters) 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<minlenret> is the minimum length (in characters) of the string that would
be found in $& after a match.
The difference between C<minlen> and C<minlenret> can be seen in the
following pattern:
/ns(?=\d)/
where the C<minlen> would be 3 but C<minlenret> 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<minlenret> to tell if it can do in-place substitutions (these can
result in considerable speed-up).
=head2 C<gofs>
Left offset from pos() to start match at.
=head2 C<substrs>
Substring data about strings that must appear in the final match. This
is currently only used internally by Perl's engine, but might be
used in the future for all engines for optimisations.
=head2 C<nparens>, C<logical_nparens>
These fields are used to keep track of the number of physical and logical
paren capture groups there are in the pattern, which may differ if the
pattern includes the use of the branch reset construct C<(?| ... | ... )>.
For instance the pattern C</(?|(foo)|(bar))/> contains two physical capture
buffers, but only one logical capture buffer. Most internals logic in the
regex engine uses the physical capture buffer ids, but the user exposed
logic uses logical capture buffer ids. See the next section for data-structures
that allow mapping from one to the other.
=head2 C<logical_to_parno>, C<parno_to_logical>, C<parno_to_logical_next>
These fields facilitate mapping between logical and physical capture
buffer numbers. C<logical_to_parno> is an array whose Kth element
contains the lowest physical capture buffer id for the Kth logical
capture buffer. C<parno_to_logical> is an array whose Kth element
contains the logical capture buffer associated with the Kth physical
capture buffer. C<parno_to_logical_next> is an array whose Kth element
contains the next physical capture buffer with the same logical id, or 0
if there is none.
Note that all three of these arrays are ONLY populated when the pattern
includes the use of the branch reset concept. Patterns which do not use
branch-reset effectively have a 1:1 to mapping between logical and
physical so there is no need for this meta-data.
The following table gives an example of how this works.
Pattern /(a) (?| (b) (c) (d) | (e) (f) | (g) ) (h)/
Logical: $1 $2 $3 $4 $2 $3 $2 $5
Physical: 1 2 3 4 5 6 7 8
Next: 0 5 6 0 7 0 0 0
Also note that the 0th element of any of these arrays is not used as it
represents the "entire pattern".
=head2 C<lastparen>, and C<lastcloseparen>
These fields are used to keep track of: which was the highest paren to
be closed (see L<perlvar/$+>); and which was the most recent paren to be
closed (see L<perlvar/$^N>).
=head2 C<intflags>
The engine's private copy of the flags the pattern was compiled with. Usually
this is the same as C<extflags> unless the engine chose to modify one of them.
=head2 C<pprivate>
A void* pointing to an engine-defined
data structure. The Perl engine uses the
C<regexp_internal> structure (see L<perlreguts/Base Structures>) but a custom
engine should use something else.
=head2 C<offs>
A C<regexp_paren_pair> structure which defines offsets into the string being
matched which correspond to the C<$&> and C<$1>, C<$2> etc. captures, the
C<regexp_paren_pair> struct is defined as follows:
typedef struct regexp_paren_pair {
I32 start;
I32 end;
} regexp_paren_pair;
=for apidoc Ayh||regexp_paren_pair
If C<< ->offs[num].start >> or C<< ->offs[num].end >> is C<-1> then that
capture group did not match.
C<< ->offs[0].start/end >> represents C<$&> (or
C<${^MATCH}> under C</p>) and C<< ->offs[paren].end >> matches C<$$paren> where
C<$paren >= 1>.
=head2 C<RX_PRECOMP> C<RX_PRELEN>
Used for optimisations. C<RX_PRECOMP> holds a copy of the pattern that
was compiled and C<RX_PRELEN> its length. When a new pattern is to be
compiled (such as inside a loop) the internal C<regcomp> operator
checks if the last compiled C<REGEXP>'s C<RX_PRECOMP> and C<RX_PRELEN>
are equivalent to the new one, and if so uses the old pattern instead
of compiling a new one.
In older perls these two macros were actually fields in the structure
with the names C<precomp> and C<prelen> respectively.
=head2 C<paren_names>
This is a hash used internally to track named capture groups and their
offsets. The keys are the names of the buffers the values are dualvars,
with the IV slot holding the number of buffers with the given name and the
pv being an embedded array of I32. The values may also be contained
independently in the data array in cases where named backreferences are
used.
=head2 C<substrs>
Holds information on the longest string that must occur at a fixed
offset from the start of the pattern, and the longest string that must
occur at a floating offset from the start of the pattern. Used to do
Fast-Boyer-Moore searches on the string to find out if its worth using
the regex engine at all, and if so where in the string to search.
=head2 C<subbeg> C<sublen> C<saved_copy> C<suboffset> C<subcoffset>
Used during the execution phase for managing search and replace patterns,
and for providing the text for C<$&>, C<$1> etc. C<subbeg> points to a
buffer (either the original string, or a copy in the case of
C<RX_MATCH_COPIED(rx_sv)>), and C<sublen> is the length of the buffer. The
C<RX_OFFS_START(rx_sv,n)> and C<RX_OFFS_END(rx_sv,n)> macros index into this
buffer. as does the data structure returned by C<RX_OFFSp(rx_sv)> but you
should not use that directly.
=for apidoc Amh||RX_MATCH_COPIED|const REGEXP * rx_sv
In the presence of the C<REXEC_COPY_STR> flag, but with the addition of
the C<REXEC_COPY_SKIP_PRE> or C<REXEC_COPY_SKIP_POST> flags, an engine
can choose not to copy the full buffer (although it must still do so in
the presence of C<RXf_PMf_KEEPCOPY> or the relevant bits being set in
C<PL_sawampersand>). In this case, it may set C<suboffset> to indicate the
number of bytes from the logical start of the buffer to the physical start
(i.e. C<subbeg>). It should also set C<subcoffset>, the number of
characters in the offset. The latter is needed to support C<@-> and C<@+>
which work in characters, not bytes.
=for apidoc Amnh ||REXEC_COPY_SKIP_POST
=for apidoc_item ||REXEC_COPY_SKIP_PRE
=for apidoc_item ||REXEC_COPY_STR
=head2 C<RX_WRAPPED> C<RX_WRAPLEN>
Macros which access the string the C<qr//> stringifies to. The Perl
engine for example stores C<(?^:eek)> in the case of C<qr/eek/>.
When using a custom engine that doesn't support the C<(?:)> construct
for inline modifiers, it's probably best to have C<qr//> stringify to
the supplied pattern, note that this will create undesired patterns in
cases such as:
my $x = qr/a|b/; # "a|b"
my $y = qr/c/i; # "c"
my $z = qr/$x$y/; # "a|bc"
There's no solution for this problem other than making the custom
engine understand a construct like C<(?:)>.
=head2 C<RX_REFCNT()>
The number of times the structure is referenced. When this falls to 0,
the regexp is automatically freed by a call to C<pregfree>. This should
be set to 1 in each engine's L</comp> routine. Note that in older perls
this was a member in the struct called C<refcnt> but in more modern
perls where the regexp structure was unified with the SV structure this
is an alias to SvREFCNT().
=head1 HISTORY
Originally part of L<perlreguts>.
=head1 AUTHORS
Originally written by Yves Orton, expanded by E<AElig>var ArnfjE<ouml>rE<eth>
Bjarmason.
=head1 LICENSE
Copyright 2006 Yves Orton and 2007 E<AElig>var ArnfjE<ouml>rE<eth> Bjarmason.
This program is free software; you can redistribute it and/or modify it under
the same terms as Perl itself.
=cut